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Version
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Certification Report
Crypto Library V1.0 on P60x080/052/040PVC(Y/Z/A)/PVG
Sponsor and developer: NXP Semiconductors Germany GmbH,
Business Unit Security and Connectivity
Stresemannallee 101
D-22529 Hamburg
Germany
Evaluation facility: Brightsight
Delftechpark 1
2628 XJ Delft
The Netherlands
Report number: NSCIB-CC-12-36243-CR2
Report version: 1
Project number: NSCIB-CC-12-36243
Authors(s): Wouter Slegers
Date: June 11
th
, 2015
Number of pages: 16
Number of appendices: 0
Reproduction of this report is authorized provided the report is reproduced in its entirety.
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CONTENTS:
Foreword 4
Recognition of the certificate 5
International recognition 5
European recognition 5
1 Executive Summary 6
2 Certification Results 8
2.1 Identification of Target of Evaluation 8
2.2 Security Policy 9
2.3 Assumptions and Clarification of Scope 9
2.4 Architectural Information 10
2.5 Documentation 10
2.6 IT Product Testing 11
2.7 Re-used evaluation results 12
2.8 Evaluated Configuration 13
2.9 Results of the Evaluation 13
2.10 Comments/Recommendations 13
3 Security Target 15
4 Definitions 15
5 Bibliography 16
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Foreword
The Netherlands Scheme for Certification in the Area of IT Security (NSCIB) provides a third-party
evaluation and certification service for determining the trustworthiness of Information Technology (IT)
security products. Under this NSCIB, TÜV Rheinland Nederland B.V. has the task of issuing
certificates for IT security products as well as for protection profiles and sites.
Part of the procedure is the technical examination (evaluation) of the product, protection profile or site
according to the Common Criteria assessment guidelines published by the NSCIB. Evaluations are
performed by an IT Security Evaluation Facility (ITSEF) under the oversight of the NSCIB Certification
Body, which is operated by TÜV Rheinland Nederland B.V. in cooperation with the Ministry of the
Interior and Kingdom Relations.
An ITSEF in the Netherlands is a commercial facility that has been licensed by TÜV Rheinland
Nederland B.V. to perform Common Criteria evaluations; a significant requirement for such a license is
accreditation to the requirements of ISO Standard 17025, General requirements for the accreditation
of calibration and testing laboratories.
By awarding a Common Criteria certificate, TÜV Rheinland Nederland B.V. asserts that the product or
site complies with the security requirements specified in the associated (site) security target, or that
the protection profile (PP) complies with the requirements for PP evaluation specified in the Common
Criteria for Information Security Evaluation. A (site) security target is a requirements specification
document that defines the scope of the evaluation activities.
The consumer should review the security target or protection profile, in addition to this certification
report, in order to gain an understanding of any assumptions made during the evaluation, the intended
environment, its security requirements, and the level of confidence (i.e., the evaluation assurance
level) that the product or site satisfies the security requirements stated in the (site) security target.
Reproduction of this report is authorized provided the report is reproduced in its entirety.
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Recognition of the certificate
Currently the Common Criteria Recognition Arrangement (CCRA) and SOGIS-Mutual Recognition
Agreement (SOGIS-MRA) do not cover the recognition of Site Certificates. However, the evaluation
process followed all the rules of these agreements and used the agreed supporting document for Site
certification [CCDB]. Therefore, the results of this evaluation and certification procedure can be re-
used by any scheme in a subsequent product evaluation and certification procedure that makes use of
certified site.
Presence of the Common Criteria Recognition Arrangement and SOG-IS logos on the certificate
would indicate that this certificate is issued in accordance with the provisions of the CCRA and the
SOG-IS agreement and will be recognised by the participating nations.
International recognition
The CCRA has been signed by the Netherlands in May 2000 and provides mutual recognition of
certificates based on the CC. Starting September 2014 the CCRA has been updated to provide mutual
recognition of certificates based on cPPs (exact use) or STs with evaluation assurance levels up to
and including EAL2+ALC_FLR. The current list of signatory nations and approved certification
schemes can be found on: http://www.commoncriteriaportal.org.
Certificates issued before 8 September 2014 are still under recognition according to the rules of the
previous CCRA (i.e. recognition based on assurance components up to and including
EAL4+ALC_FLR). Also certification procedures started before 8 September 2014 and Assurance
Continuity (maintenance and re-certification) of old certificates remain recognised according to the
rules of the previous CCRA.
This certificate is a re-certification of an old certificate prior to 8 September 2014 and thus the
recognition of this certificate falls under the recognition rules of the previous CCRA.
European recognition
The European SOGIS-Mutual Recognition Agreement (SOGIS-MRA) version 3 effective from April
2010 provides mutual recognition of Common Criteria and ITSEC certificates at a basic evaluation
level for all products. A higher recognition level for evaluation levels beyond EAL4 (resp. E3-basic) is
provided for products related to specific technical domains. This agreement was initially signed by
Finland, France, Germany, The Netherlands, Norway, Spain, Sweden and the United Kingdom. Italy
joined the SOGIS-MRA in December 2010. The current list of signatory nations, approved certification
schemes and the list of technical domains for which the higher recognition applies can be found on:
http://www.sogisportal.eu.
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1 Executive Summary
This Certification Report states the outcome of the Common Criteria security evaluation of the Crypto
Library V1.0 on P60x080/052/040PVC(Y/Z/A)/PVG. The developer of the Crypto Library is NXP
Semiconductors Germany GmbH, Business Unit Security and Connectivity located in Hamburg,
Germany and they also act as the sponsor of the evaluation and certification. A Certification Report is
intended to assist prospective consumers when judging the suitability of the IT security properties of
the product for their particular requirements.
This Certification Report is a “recertification with major changes” with respect to the evaluation of the
“Crypto Library V1.0 on P60D080/052/042PVC” (NSCIB-CC-12-36242). The major change is the
inclusion of another variant of the Secure Smart Card Controller (i.e. the underlying hardware). Small
changes to the Crypto Library’s guidance are also included. No changes to the implementation details
of the Crypto Library itself have been made.
A full, up to date vulnerability analysis has been made, as well as renewed testing, renewing the
certificate’s reusability date to the date of the ETR.
The Target of Evaluation – TOE (i.e., the Crypto Library V1.0 on P60x080/052/040PVC(Y/Z/A)/PVG)
consists of the Crypto Library V1.0 and the NXP SmartMX2 P60x080/052/040PVC(Y/Z/A)/PVG
Secure Smart Card Controller. For ease of reading the TOE is often called “Crypto Library on
SmartMX2”.
The evaluation of the TOE was conducted as a composite evaluation and uses the results of the CC
evaluation of the underlying NXP SmartMX2 P60x080/052/040PVC(Y/Z/A)/PVG Secure Smart Card
Controller (re)certified under the German CC Scheme on 24 October 2014 ([HW CERT]).
The Crypto Library on SmartMX2 is a cryptographic library, which provides a set of cryptographic
functions that can be used by the Smartcard Embedded Software. The cryptographic library consists
of several binary packages that are intended to be linked to the Smartcard Embedded Software. The
Smartcard Embedded Software developer links the binary packages that he needs to his Smartcard
Embedded Software and the whole is subsequently implemented in arbitrary memory. The NXP
SmartMX2 smart card processor provides the computing platform and cryptographic support by means
of co-processors for the Crypto Library on SmartMX2.
The Crypto Library on SmartMX2 provides AES, DES, Triple-DES (3DES), RSA, RSA key generation,
RSA public key computation, ECDSA (ECC over GF(p)) signature generation and verification, ECDSA
(ECC over GF(p)) key generation, ECDH (ECC Diffie-Helmann) keyexchange, full point addition (ECC
over GF(p), SHA-1, SHA-224, SHA-256, SHA-384, SHA-512 algorithms. In addition, the Crypto Library
implements a software (pseudo) random number generator, which is initialised (seeded) by the
hardware random number generator of the SmartMX2.
Finally, the TOE provides a secure copy routine and a secure compare routine and includes internal
security measures for residual information protection. For more details refer to the [ST], chapter 1.3.2.
The TOE has been evaluated by Brightsight B.V. located in Delft, The Netherlands. The evaluation
was completed on 8 June 2015 with the final delivery of the ETR. The certification procedure has been
conducted in accordance with the provisions of the Netherlands Scheme for Certification in the Area of
IT Security [NSCIB].
The scope of the evaluation is defined by the Security Target [ST], which identifies assumptions made
during the evaluation, the intended environment for the Crypto Library on SmartMX2, the security
requirements, and the level of confidence (evaluation assurance level) at which the product is
intended to satisfy the security requirements. Consumers of the Crypto Library on SmartMX2 are
advised to verify that their own environment is consistent with the Security Target, and to give due
consideration to the comments, observations and recommendations in this certification report.
The results documented in the evaluation technical report [ETR] for this product provide sufficient
evidence that it meets the EAL6 augmented (EAL6+) assurance requirements for the evaluated
security functionality. This assurance level is augmented with ALC_FLR.1 (Basic flaw remediation)
and ASE_TSS.2 (TOE summary specification with architectural design summary).
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The evaluation was conducted using the Common Methodology for Information Technology Security
Evaluation, Version 3.1 Revision 4 [CEM], for conformance to the Common Criteria for Information
Technology Security Evaluation, version 3.1 Revision 4 [CC].
TÜV Rheinland Nederland B.V., as the NSCIB Certification Body, declares that the Crypto Library
V1.0 on P60x080/052/040PVC(Y/Z/A)/PVG evaluation meets all the conditions for international
recognition of Common Criteria Certificates and that the product will be listed on the NSCIB Certified
Products list. It should be noted that the certification results only apply to the specific version of the
product as evaluated.
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2 Certification Results
2.1 Identification of Target of Evaluation
The Target of Evaluation (TOE) for this evaluation is the Crypto Library 1.0 on
P60x080/052/040PVC(Y/Z/A)/PVG from NXP Semiconductors Germany GmbH, Business Unit
Security and Connectivity located in Hamburg, Germany.
This report pertains to the TOE which is comprised of the following main components:
Type Name Release Date Form of delivery
PVC(Y/Z/A) 10 April 2012 wafer, module, inlay, package
(dice have nameplate 9049A)
IC
Hardware
NXP Secure Smart Card Controller
P60x080/052/040
PVG 26 November
2013
wafer, module, inlay, package
(dice have nameplate 9049B)
IC
Dedicated
Test
Software
Test-ROM Software 0A.05 07 May 2012 Test-ROM on the chip acc. to
9049A_LA001_TESTROM_v1
_btos_0Av05_fos_6v10.hex
Boot-ROM Software 0A.05 07 May 2012 Boot-ROM on the chip acc. to
9049A_LA001_TESTROM_v1
_btos_0Av05_fos_6v10.hex
6.11
(common
for
PVC(Y/Z/A)
and PVG)
07 May 2012 Firmware Operating System
on the chip acc. to
9049A_LA001_TESTROM_v1
_btos_0Av05_fos_6v10.hex
Security IC
Dedicated
Support
Software
Firmware Operating System (FOS)
6.13
(additional
only for
PVC(Z/A)
and PVG)
07 May 2012 Firmware Operating System
on the chip acc. to
9049A_LA001_TESTROM_v1
_btos_0Av05_fos_6v10.hex
phSmx2ClAes.lib 1.0 2012-12-05 Electronic file
phSmx2ClDes.lib 1.0 2012-12-05 Electronic file
phSmx2ClRsa.lib 1.0 2012-12-05 Electronic file
phSmx2ClRsaKg.lib 1.0 2012-12-05 Electronic file
phSmx2ClEccGfp.lib 1.0 2012-12-05 Electronic file
phSmx2ClSha.lib 1.0 2012-12-05 Electronic file
phSmx2ClSha512.lib 1.0 2012-12-05 Electronic file
phSmx2ClRng.lib 1.0 2012-12-05 Electronic file
Library file
phSmx2ClUtils.lib 1.0 2012-12-05 Electronic file
phSmx2ClAes.h 1.0 2012-12-05 Electronic file
phSmx2ClDes.h 1.0 2012-12-05 Electronic file
phSmx2ClRsa.h 1.0 2012-12-05 Electronic file
phSmx2ClRsaKg.h 1.0 2012-12-05 Electronic file
phSmx2ClEccGfp.h 1.0 2012-12-05 Electronic file
phSmx2ClSha.h 1.0 2012-12-05 Electronic file
phSmx2ClSha512.h 1.0 2012-12-05 Electronic file
phSmx2ClRng.h 1.0 2012-12-05 Electronic file
Header file
phSmx2ClUtils.h 1.0 2012-12-05 Electronic file
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Type Name Release Date Form of delivery
phSmx2ClUtils_ImportExportFcts.h 1.0 2012-12-05 Electronic file
phSmx2ClUtils_RngAccess.h 1.0 2012-12-05 Electronic file
phSmx2ClTypes.h 1.0 2012-12-05 Electronic file
phSmx2ClUtils_ ImportExportFcts.a51 1.0 2012-12-05 Electronic file
Source
code
phSmx2ClUtils_ RngAccess.a51 1.0 2012-12-05 Electronic file
To ensure secure usage a set of guidance documents is provided together with the Crypto Library on
SmartMX2. Details can be found in section 2.5 of this report.
The hardware part of the TOE is delivered by NXP either as wafer, module, inlay, or packaged form
together with the IC Dedicated Support Software. The Crypto Library is delivered in Phase 1 of the
TOE lifecycle (for a detailed and precise description of the TOE lifecycle refer to the [ST], chapter
1.2.2.) as a software package (a set of binary files) to the developers of the Smartcard Embedded
Software. The Smartcard Embedded Software may comprise in this case an operating system and/or
other smart card software (applications). The Software developers can incorporate the Crypto Library
into their product.
As explained in the user guidance, as part of the delivery procedure, the customer shall verify the
correctness of the delivered files by calculating the SHA-256 hash value of the delivered files and
comparing them to reference values provided in the user guidance. For the identification of the
Hardware please refer to section 2.8 of this report.
2.2 Security Policy
The TOE provides the cryptographic algorithms AES, DES, Triple-DES (3DES), RSA, RSA key
generation, RSA public key computation, ECDSA (ECC over GF(p)) signature generation and
verification, ECDSA (ECC over GF(p)) key generation, ECDH (ECC Diffie-Helmann) keyexchange, full
point addition (ECC over GF(p), SHA-1, SHA-224, SHA-256, SHA-384, SHA-512 algorithms in
addition to the functionality described in the Hardware Security Target [ST-HW] for the hardware
platform. The cryptographic algorithms (except SHA) are resistant against Side Channel Attacks,
including Simple Power Analysis (SPA), Differential Power Analysis (DPA), Differential Fault Analysis
(DFA) and timing attacks. SHA is only resistant against Side Channel Attacks and timing attacks.
Details on the resistance claims are provided in the Security Target [ST], relevant details are provided
in the user guidance documents.
The TOE implements a software (pseudo) random number generator, which is initialised (seeded) by
the hardware random number generator of the SmartMX2.
The TOE also a secure copy routine and a secure compare routine and includes internal security
measures for residual information protection.
Note that the TOE does not restrict access to the functions provided by the hardware: these functions
are still directly accessible to the Smartcard embedded Software.
2.3 Assumptions and Clarification of Scope
2.3.1 Assumptions
The Assumptions defined in the Security Target are not covered by the TOE itself. These aspects lead
to specific Security Objectives to be fulfilled by the TOE-Environment. The following topics are of
relevance:

 Usage of Hardware Platform,

 Treatment of User Data,

 Protection during Packaging, Finishing and Personalization,

 Check of Initialisation Data by the Smartcard Embedded Software,
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Details can be found in the Security Target [ST] chapter 4.
2.3.2 Clarification of scope
The evaluation did not reveal any threats to the TOE that are not countered by the evaluated security
functions of the product.
2.4 Architectural Information
This chapter provides a high-level description of the IT product and its major components based on
the evaluation evidence described in the Common Criteria assurance family entitled “TOE design
(ADV_TDS)”. The intent of this chapter is to characterise the degree of architectural separation of the
major components and to show dependencies between the TOE and products using the TOE in a
composition (e.g. dependencies between HW and SW).
The TOE contains a Crypto Library, which provides a set of cryptographic functionalities that can be
used by the Smartcard Embedded Software. The Crypto Library consists of several binary packages
that are intended to be linked to the Smartcard Embedded Software. The Smartcard Embedded
Software developer links the binary packages that he needs to his Smartcard Embedded Software and
the whole is subsequently implemented in arbitrary memory. Please note that the crypto functions are
supplied as a library rather than as a monolithic program, and hence a user of the library may include
only those functions that are actually required. However, some dependencies exist; details are
described in the User Guidance.
The TOE is implemented as a set of subsystems. The division into subsystems is chosen according to
the cryptographic algorithms provided. The whole TOE provides AES, DES, Triple-DES (3DES), RSA,
RSA key generation, RSA public key computation, ECDSA (ECC over GF(p)) signature generation
and verification, ECDSA (ECC over GF(p)) key generation, ECDH (ECC Diffie-Helmann)
keyexchange, full point addition (ECC over GF(p), SHA-1, SHA-224, SHA-256, SHA-384, SHA-512
algorithms in addition to the functionality described in the Hardware Security Target [ST-HW] for the
hardware platform. In addition, the TOE implements a software (pseudo) random number generator,
which is initialised (seeded) by the hardware random number generator of the SmartMX2.
The TOE also contains a secure copy routine and a secure compare routine and includes internal
security measures for residual information protection.
2.5 Documentation
The following documentation is provided with the product by the developer to the customer:
Type Name Release Date
Form of
delivery
Document Product Data Sheet SmartMX2
family P60x040/052/080 VC/VG,
Secure high-performance smart
card controller
5.2 27 June 2014 Electronic
document
Document Instruction Set for the SmartMX2
family, Secure high-performance
smart card controller
3.1 2 February 2012 Electronic
document
Document NXP Secure Smart Card Controller
P60x040/052/080VC Guidance
and Operation Manual
1.1 26 June 2014 Electronic
document
Document SmartMX2 family
P60x040/052/080 VC Wafer and
delivery specification
3.1 08 February 2013 Electronic
document
Document Product data sheet addendum:
SmartMX2 family, Post Delivery
Configuration (PDC)
3.2 4 February 2013 Electronic
document
Document Product data sheet addendum:
SmartMX2 family, Chip Health
Mode (CHM)
3.0 11 May 2012 Electronic
document
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Type Name Release Date
Form of
delivery
Document Product data sheet addendum:
SmartMX2 family, Firmware
Interface Specification (FIS)
3.3 11 December 2012 Electronic
document
Crypto Library on SmartMX2
Preparative procedures and
operational user guidance
1.3 2015-04-13 Electronic
document
SmartMX2 Crypto Library: User
Manual – Random Number
Generator
1.0 2012-12-05 Electronic
document
SmartMX2 Crypto Library: User
Manual – AES
1.0 2012-12-05 Electronic
document
SmartMX2 Crypto Library: User
Manual – DES
1.0 2012-12-05 Electronic
document
SmartMX2 Crypto Library: User
Manual – SHA
1.0 2012-12-05 Electronic
document
SmartMX2 Crypto Library: User
Manual – SHA-512
1.0 2012-12-05 Electronic
document
SmartMX2 Crypto Library: User
Manual – RSA
1.0 2012-12-05 Electronic
document
SmartMX2 Crypto Library: User
Manual – RSA Key Generation
1.0 2012-12-05 Electronic
document
SmartMX2 Crypto Library: User
Manual – ECC over GF(p)
1.0 2012-12-05 Electronic
document
Documents
SmartMX2 Crypto Library: User
Manual – Utils
1.0 2012-12-05 Electronic
document
2.6 IT Product Testing
Testing (depth, coverage, functional tests, independent testing): The evaluators examined the
developer’s testing activities documentation and verified that the developer has met their testing
responsibilities.
2.6.1 Testing approach and depth
For the Crypto Library, the developer has performed extensive testing on FSP, subsystem and module
level. All parameter choices have been addressed at least once. All boundary cases identified have
been tested explicitly, and additionally the near-boundary conditions have been covered
probabilistically. The testing was largely automated using a test-OS that allows access to the
functionalities. Test scripts were extensively used to verify that the functions return the expected
values.
The hardware test results are extendable to composite evaluations on this hardware TOE, as the
hardware is operated according to its guidance and the composite evaluation requirements are met.
For the testing performed by the evaluators, the developer has provided a testing environment. The
evaluators have reproduced a selection of the developer tests, as well as a small number of test cases
designed by the evaluator.
2.6.2 Independent Penetration Testing
The evaluator independent penetration tests were conducted according to the following testing
approach:
1. During evaluation of the ADV, ATE and ALC classes the evaluators hypothesized possible
vulnerabilities. This resulted in a shortlist of possible vulnerabilities to be further analysed in
AVA using the design knowledge gained in particular from the source code analysis in IMP
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and from the hardware ‘ETR for composition’. This resulted in a shortlist of potential
vulnerabilities to be tested.
2. Next the evaluators analysed the TOE design and implementation for resistance against the
[JIL] attacks. This resulted in further potential vulnerabilities to be tested.
3. The evaluators made an analysis of the TOE in its intended environment to check whether the
developer vulnerability analysis in ARC has assessed all information.
4. The evaluators concluded that a number of areas could be potentially vulnerable for attackers
possessing a high attack potential. Consequently practical penetration testing was performed
for absolute assurance.
2.6.3 Test Configuration
Since the TOE is not an end-user product it is not possible to perform testing without first embedding it
in a testable configuration. To this end, the developer has created a proprietary test operating system.
The main purpose of the test OS is to provide access to the crypto library’s functionality. The test OS,
and its documentation, was provided to the evaluators, and was used in all the testing. See the [ETR]
for details.
The following items were used to provide support during the tests:
• A set of card samples (the TOE) containing the following:
o Hardware sample
 P60D024PVB, P60D080PVC, and P60D144PVA (used in the original
certification)
 P60D024JVF, P60D080JVG, and P60D144JVE (used in this recertification)
o Crypto library loaded into the hardware sample.
o CryptOS loaded into the hardware sample.
• A toolset provided by the developer in order to facilitate recreation of the Cryptographic library,
and loading the library and the CryptOS into samples.
• CryptOS documentation
2.6.4 Testing Results
The testing activities, including configurations, procedures, test cases, expected results and observed
results are summarised in the [ETR], with references to the documents containing the full details.
The developer’s tests and the independent functional tests produced the expected results, giving
assurance that the TOE behaves as specified in its ST and functional specification.
The algorithmic security level of cryptographic functionality has not been rated in this certification
process, but the current consensus on the algorithmic security level in the open domain, i.e. from the
current best cryptanalytic attacks published, has been taken into account.
The algorithmic security level exceeds 100 bits for all evaluated cryptographic functionality as required
for high attack potential (AVA_VAN.5).
The strength of the implementation of the cryptographic functionality has been assessed in the
evaluation, as part of the AVA_VAN activities. These activities revealed that for some cryptographic
functionality the security level could be reduced. As the remaining security level still exceeds 80 bits,
this is considered sufficient. So no exploitable vulnerabilities were found with the independent
penetration tests.
For composite evaluations, please consult the [ETRfC] for details.
.
2.7 Re-used evaluation results
This is a re-certification: direct re-use has been made of previous evaluation results on the older
hardware platforms. Verification of the similarity of the newer hardware platforms with the older
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hardware platforms has been performed, to get additional assurance that the repeated full penetration
testing on newer hardware platforms indeed still applies to the older hardware platforms.
There has been extensive re-use of the ALC aspects for the sites involved in the software component
of the TOE (NXP Semiconductors Hamburg, NXP Semiconductors Austria GmbH Styria, NXP
Semiconductors Leuven). Sites involved in the development and production of the hardware platform
were re-used by composition.
No sites have been visited as part of this evaluation.
2.8 Evaluated Configuration
The TOE is defined uniquely by its name and version number Crypto Library V1.0 on
P60x080/052/040PVC(Y/Z/A)/PVG. The TOE consists of a hardware part and a software part. This
certification covers the configurations of the TOE identified as follows:
The reference of the hardware part of the TOE is defined in the [HW CERT] section “Evaluated
Configuration” and checked by visual inspection of the die inscription on the surface of the TOE and
by reading out the data stored in the memory, as documented in [HW-UG-Wafer] and [HW-P60-
DATASHEET].
The reference of the software part of the TOE is checked by calculating the SHA-256 hash value of
the delivered files and comparing them to reference values provided in the user guidance.
2.9 Results of the Evaluation
The evaluation lab documented their evaluation results in the [ETR]
1
which references several
Intermediate Reports and other evaluator documents. To support composite evaluations according to
[CCDB-2007-09-01] a derived document [ETRfC] was provided and approved. This document
provides details of the TOE evaluation that have to be considered when this TOE is used as platform
in a composite evaluation.
The verdict of all claimed assurance requirements is: Pass
Based on the above evaluation results the evaluation lab concluded the TOE to be CC Part 2
extended, CC Part 3 conformant, and to meet the requirements of EAL6 augmented with
ALC_FLR.1 and ASE_TSS.2. This implies that the product satisfies the security technical
requirements specified in the [ST].
The Security Target claims ‘strict conformance’ to the Protection Profile [BSI-PP-0035].
2.10 Comments/Recommendations
The user guidance as outlined in section 2.5 contains necessary information about the usage of the
TOE. Certain aspects of the TOE’s security functionality, in particular the countermeasures against
attacks, depend on accurate conformance to the user guidance of both the software and the hardware
part of the TOE. There are no particular obligations or recommendations for the user apart from
following the user guidance. Please note that the documents contain relevant details with respect to
the resistance against certain attacks.
In addition all aspects of assumptions, threats and policies as outlined in the Security Target not
covered by the TOE itself need to be fulfilled by the operational environment of the TOE.
The customer or user of the product shall consider the results of the certification within his system risk
management process. In order for the evolution of attack methods and techniques to be covered, he
should define the period of time until a re-assessment for the TOE is required and thus requested from
the sponsor of the certificate.
The strength of the implemented cryptographic algorithms was not rated in the course of this
evaluation. To fend off attackers with high attack potential appropriate cryptographic algorithms with
1
The Evaluation Technical Report contains information proprietary to the developer and/or the
evaluator, and is not releasable for public review.
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®
TÜV,
TUEV
and
TUV
are
registered
trademarks.
Any
use
or
application
requires
prior
approval.
adequate key lengths must be used (references can be found in national and international documents
and standards).
The user of the Crypto Library must implement the advices of the hardware user guidance.
Page: 15/16 of report number: NSCIB-CC-12-36243-CR2, dated 11-06-2015
®
TÜV,
TUEV
and
TUV
are
registered
trademarks.
Any
use
or
application
requires
prior
approval.
3 Security Target
The Security Target [ST] is included here by reference.
4 Definitions
This list of Acronyms and the glossary of terms contains elements that are not already defined by the
CC or CEM:
BSI Bundesamt für Sicherheit in der Informationstechnik
CBC Cipher Block Chaining (a block cipher mode of operation)
CBC-MAC Cipher Block Chaining Message Authentication Code
DES Data Encryption Standard
DFA Differential Fault Analysis
ECB Electronic Code Book (a block cipher mode of operation)
IC Integrated Circuit
IT Information Technology
ITSEF IT Security Evaluation Facility
NSCIB Nederlands Schema voor Certificatie op het gebied van IT-Beveiliging
PP Protection Profile
PRNG Pseudo Random Number Generator
RMI Remote Method Invocation
RSA Rivest-Shamir-Adleman Algorithm
SHA Secure Hash Algorithm
SPA/DPA Simple/Differential Power Analysis
TOE Target of Evaluation
Page: 16/16 of report number: NSCIB-CC-12-36243-CR2, dated 11-06-2015
®
TÜV,
TUEV
and
TUV
are
registered
trademarks.
Any
use
or
application
requires
prior
approval.
5 Bibliography
This section lists all referenced documentation used as source material in the compilation of this
report:
[BSI-PP-0035] "Security IC Platform Protection Profile", Version 1.0, June 2007.
[CC] Common Criteria for Information Technology Security Evaluation, Parts I, II and III,
version 3.1 Revision 4.
[CEM] Common Methodology for Information Technology Security Evaluation, version 3.1,
Revision 4.
[ETR_080] ETR for Evaluation Crypto Library V1.0 on P60x080/052/040PVC(Y/Z/A)/PVG
EAL6+, Document reference 15-RPT-089, version 3.0, dated 2015-06-05
[ETRfC_080] ETR for Evaluation Crypto Library V1.0 on P60x080/052/040PVC(Y/Z/A)/PVG
EAL6+, Document reference 15-RPT-051, version 6.0, dated 2015-06-05
[HW CERT] Certification report. BSI-DSZ-CC-0837-V2-2014. NXP Secure Smart Card
Controller P60x080/052/040PVC(Y/Z/A)/PVG with IC dedicated software, Version
1.0, 24 October 2014
[HW ETR_FOR_COMPOSITION] ETR for composite evaluation P60x080/052/040PVC(Y/Z/A)/PVG,
version 1, 2 September 2014
[HW-P60-DATASHEET] SmartMX family P60x040/052/080 VC/VG Product data sheet, Revision 5.2,
27 June 2014
[HW-P60-MANUAL] NXP Secure Smart Card Controller P60D040/052/080 VC/VG. Guidance and
Operation Manual, Rev. 1.1 — 26 June 2014
[HW-UG-Wafer] Wafer and delivery specification – Rev 3.1, 8 February 2013
[JIL] Attack methods for Smart cards and similar devices, JIL, version 2.9, January
2013.
[NSCIB] Nederlands Schema for Certification in the Area of IT Security, Version 2.1, August
1
st
, 2011.
[ST] Security Target Crypto Library V1.0 on P60x080/052/040PVC(Y/Z/A)/PVG,
Revision 1.6, 11 May 2015
[ST-HW] P60x080/052/040PVC(Y/Z/A)PVG Security Target, Revision 2.1, 19 August 2014
(This is the end of this report).