Multi-interface Smart Card IC
Security Target
RC-SA08/1 and RC-SA08/2
Version 1.51
Public Version No. A08-STP-E01-51
 FeliCa is a contactless IC card technology developed by Sony Corporation.
 FeliCa is a trademark of Sony Corporation.
 All names of companies and products contained herein are trademarks or registered trademarks
of the respective companies.
 No part of this document may be copied, or reproduced in any form, without the prior consent of
Sony Corporation.
 Information in this document is subject to change without notice.
 Sony Corporation assumes no liability for damages arising from, or in connection with, the use of
this document.
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Security Target RC-SA08/1 and RC-SA08/2
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Introduction
This document is the Security Target for CC evaluation of IC chip product "RC-SA08/1 and RC-SA08/2".
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Contents
1 Introducing the Security Target ......................................................................................5
1.1 ST and TOE identification ............................................................................................................ 5
1.2 Conformance claims.................................................................................................................... 5
1.2.1 CC conformance claim ........................................................................................................... 5
1.2.2 Package claim........................................................................................................................ 6
1.2.3 PP claim................................................................................................................................. 6
1.2.4 PP claim rationale.................................................................................................................. 6
1.3 TOE overview............................................................................................................................... 6
2 TOE description...............................................................................................................8
2.1 Physical scope ............................................................................................................................. 8
2.2 Delivery........................................................................................................................................ 9
2.3 Logical scope..............................................................................................................................10
2.4 Lifecycle......................................................................................................................................10
2.5 Evaluated configurations ........................................................................................................... 11
2.6 Evaluated derivative products.................................................................................................... 11
3 Security problem definition .......................................................................................... 13
3.1 Assets .........................................................................................................................................13
3.2 Threats........................................................................................................................................13
3.3 Assumptions...............................................................................................................................14
3.4 Organisational security policies .................................................................................................14
4 Security objectives........................................................................................................ 16
4.1 TOE security objectives ..............................................................................................................16
4.2 TOE operational environment security objectives..................................................................... 17
4.3 Security objectives rationale ......................................................................................................18
5 Extended components definitions................................................................................ 22
6 IT security requirements............................................................................................... 23
6.1 TOE security functional requirements........................................................................................23
6.1.1 SFRs defined in the Security Target.......................................................................................23
6.1.2 SFRs from the Protection Profile .......................................................................................... 25
6.2 TOE security assurance requirements........................................................................................27
6.2.1 Refinements of the TOE Assurance Requirements ............................................................... 28
6.3 Security functional requirements rationale .............................................................................. 29
6.4 Security assurance requirements rationale ...............................................................................32
7 Compatibility with the platform ST ...............................................................................34
7.1 Security environment ................................................................................................................ 34
7.2 Security objectives..................................................................................................................... 36
7.3 Security functional requirements.............................................................................................. 38
7.4 Security assurance requirement ............................................................................................... 40
8 TOE Summary Specification .......................................................................................... 41
8.1 TOE summary specification rationale ........................................................................................41
8.2 TOE architectural design summary........................................................................................... 43
9 Glossary and references ...............................................................................................45
9.1 Terms and definitions ............................................................................................................... 45
9.2 Acronyms................................................................................................................................... 46
9.3 Bibliography .............................................................................................................................. 46
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1 Introducing the Security Target
This document is the Security Target for CC evaluation of IC chip product RC-SA08/1 and RC-SA08/2.
This Security Target is provided in accordance with "Common Criteria for Information Technology
Security Evaluation" [CC].
For definitions of the terms, abbreviations, and literary references used in this document, see Chapter 9,
"Glossary and references".
1.1 ST and TOE identification
This section provides the information necessary to identify and control this Security Target and its TOE,
FeliCa Multi-interface Smart Card IC RC-SA08/1 and RC-SA08/2.
Table 1: ST identification
ST attribute Value
Name Security Target RC-SA08/1 and RC-SA08/2
Version 1.51
Reference A08-STP-E01-51
Issue Date June 2017
Table 2: TOE identification
TOE attribute Value
Name RC-SA08/1 and RC-SA08/2
Version 1.00
Product type Multi-interface Smart Card IC
1.2 Conformance claims
This section describes the conformance claims.
1.2.1 CC conformance claim
The evaluation is based on the following:
 "Common Criteria for Information Technology Security Evaluation", Version 3.1 (composed of Parts1-3,
[CC Part 1], [CC Part 2], and [CC Part 3])
 "Common Methodology for Information Technology Security Evaluation: Evaluation Methodology",
Version 3.1 [CC CEM]
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This Security Target claims the following conformances:
 [CC Part 2] extended
 [CC Part 3] conformant
1.2.2 Package claim
The chosen level of assurance is:
 Evaluation Assurance Level 5 (EAL5) augmented with ALC_DVS.2, AVA_VAN.5 and ASE_TSS.2
1.2.3 PP claim
This Security Target and the TOE claim strict conformance to the following Protection Profile (PP):
 “Security IC Platform Protection Profile with Augmentation Packages”, Version 1.0 [BSI-PP-0084]
1.2.4 PP claim rationale
The TOE type defined in section 2.3 of this Security Target is an integrated circuit including software
package, together with guidance manual. This is consistent with the TOE type defined in section 1.2.2 of
[BSI-PP-0084]. This Security Target claims strict conformance to the Protection Profile.
1.3 TOE overview
The TOE is an integrated circuit with an embedded smartcard operating system. The operating system is
the Sony FeliCa Operating System (referred to in this document as FeliCa OS) and the integrated circuit is
the STMicroelectronics SAS (STM) chip ST31G480 [ST-HW].
The TOE manages several data sets, each having a different purpose, on a single TOE. The TOE has a file
system consisting of Areas and FeliCa Services, which organise files in a tree structure (as shown in
Figure 1). Multiple Service Providers can use an Area or a FeliCa Service. Access keys enable access to
data, via the Areas and FeliCa Services. This prevents unauthorised access to the User Services of other
Service Providers. By organising these keys in a specific manner, multiple Area and FeliCa Services can
be authenticated simultaneously.
Figure 1: The FeliCa file system
The security measures of the TOE aim at protecting the access to the User Services (including associated
user data), and to maintain the confidentiality and integrity of the user data. The User Services are
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defined by Service Providers. For example, a public transport Service Provider can incorporate the TOE
into a ticketing system, to offer a ticket-payment User Service. A single TOE can be used by multiple
Service Providers. A Service Provider can provide multiple User Services.
To set up the User Services and the access to those services, the Administrator (also known as a
Personaliser) configures the TOE. This configuration work enables the TOE to offer various User Services,
such as cash-purse and transport-payment solutions. After the TOE is personalised, the Users are
allowed only to access the FeliCa Services defined by the Administrator.
The TOE has a contact interface and a contactless interface. All operations on the TOE are performed
through either a contact card reader (CT_Term) or a contactless card reader (CL_Term). The TOE
communicates with the CL_Term according to ISO/IEC 18092 (Passive Communication Mode
212/424kbps) [ISO 18092] or ISO/IEC 14443 (Type A/Type B), or communicates with the CT_Term
according to ISO/IEC 7816 (T=0/T=1), by using the APDU formatted commands that wrap the FeliCa
command.
The card reader and the TOE authenticate each other, and only then shall the TOE allow the card reader
access, according to the access policy defined by the Administrator. After authentication the
communication between the TOE and the card reader is encrypted.
The TOE has several self-protection mechanisms sufficient to satisfy all requirements for self-protection,
non-bypassability, and domain separation as described by the CC supporting documents for the
smartcard security evaluations [AAPS].
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2 TOE description
This chapter describes the following aspects of the TOE:
 physical scope
 delivery
 logical scope
 lifecycle
 evaluated configurations
 evaluated derivative products
2.1 Physical scope
The TOE is an integrated circuit with an IC Dedicated Software and the Security IC Embedded Software.
The Security IC Embedded Software is the FeliCa OS and the integrated circuit is the STM chip ST31G480.
The TOE is a part of the RC-SA08 Series product. In addition to the TOE, the RC-SA08 Series product
contains the Java Card Software, which consists of the Java Card System and Java Applets.
The following figure illustrates the physical scope of the TOE, which is indicated in yellow, and the
product, which is indicated in blue:
Figure 2: TOE physical scope
The components of the TOE are explained as follows:
 "FeliCa OS" constitutes the part of the TOE that is responsible for managing and providing access to
the Areas and FeliCa Services.
Contactless card
reader
(CL_Term)
Java Applets
Contact card
reader
(CT_Term)
Smart Card
TOE
FeliCa OS
ST31G480
with IC Dedicated Software
Antenna
Product
Java Card System
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 "ST31G480 with IC Dedicated Software" is the hardware platform of the TOE, which provides a
contact interface and a contactless interface. The CPU of the hardware platform “STM ST31G480” has
a 32-bit architecture. The hardware platform includes ROM, RAM, Flash memory, the IC Dedicated
Software and the cryptographic co-processor which supports AES and DES1
operation. The hardware
platform also includes security detectors, sensors and circuitry to protect the TOE.
The contact interface and the contactless interface enable the exchange of FeliCa commands, which are
processed by the FeliCa OS, and APDU commands, which are processed by the Java Card System. The
antenna, which is out of scope of the TOE, provides the RF interface on the smart card.
The Java Card System and Java Applets are out of scope of the TOE. The FeliCa OS is protected from the
non-TOE Software by using the Library Protection Unit function (LPU) of the hardware.
All components of the TOE including guidance manuals are listed in the following section.
2.2 Delivery
The TOE delivery items are listed in the following table:
Table 3: TOE delivery items
Delivery
item type
Identifier Version Medium
Hardware STM ST31G480 Smartcard IC – Hardware 42 48 Smartcard
integrated circuit
Software STM ST31G480 Smartcard IC – IC Dedicated Software 02 01 00 04 Embedded in
hardware
FeliCa OS v5.0 3E 03 Embedded in
hardware
Manuals FeliCa Card User’s Manual 1.02 Document
RC-SA08 Inspection and IDm Writing Procedure 0.9 Document
Product Acceptance Procedure 1.0 Document
Cross Access Functional Specifications 1.0 Document
Security Reference Manual – Group Key Generation
(AES 128bit)
1.21 Document
Security Reference Manual – Mutual Authentication &
Secure Communication (AES 128bit)
1.21 Document
Security Reference Manual – Package Generation (AES
128bit)
1.21 Document
Security Reference Manual – Changing Key Package
Generation (AES 128bit)
1.21 Document
FeliCa Card AES Encryption Mechanism Transition
Guide
1.0 Document
1
RC-SA08 does not implement any Security Functional Requirement using DES operation. Therefore, the
functionality implemented by DES is not part of the evaluation.
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2.3 Logical scope
The TOE offers the following features:
 it can receive FeliCa commands from the contactless interface (Type F)
 it can receive APDU commands from the contact interface or the contactless interface (Type A/B)
 it can forward APDU commands to the Java Card System
 it enables the set-up and maintenance of FeliCa Services by Service Providers
 it enables the use of FeliCa Services (e.g., decrement, cash-back)
The TOE offers the following security features:
 authentication of users (AES and DES2
)
 controlled access to data stored internally in the TOE
 privacy protection against Card holder behaviour tracking
 secure communication with the smartcard Reader/Writer (AES and DES2
)
 protection of integrity of data stored internally in the TOE
 anti-tearing and rollback
 protection against excess environment conditions
 protection against information leakage
 protection against probing and alteration
 isolation from untrusted software which is embedded in the hardware.
The security features are provided partly by the underlying hardware and partly by the FeliCa Operating
System.
2.4 Lifecycle
The lifecycle of the TOE is explained using the smartcard lifecycle as defined in “Security IC Platform
Protection Profile with Augmentation Packages” [BSI-PP-0084], which includes the phases listed in the
following table:
Table 4: Phases of the TOE lifecycle
Phase Description
Phase 1 IC embedded software development
Phase 2 IC development
Phase 3 IC manufacturing
Phase 4 IC packaging
Phase 5 Composite product integration
2
RC-SA08 does not implement any Security Functional Requirement using DES operation. Therefore, the
functionality implemented by DES is not part of the evaluation.
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Phase Description
Phase 6 Personalisation
Phase 7 Operational usage
The TOE is delivered at the end of Phase 4.
An explanation of each phase of the TOE lifecycle follows:
Phase 1: The RC-SA08 Series product contains the Security IC Embedded Software and the Java Card
Software, which are developed in Phase 1 by Sony.
At the end of this phase, Sony delivers the Security IC Embedded Software, the Java Card Software and
its pre-personalisation data to STM.
Phase 2 and Phase 3: The IC is developed and manufactured in Phase 2 and Phase 3 by STM. In these
phases the Security IC Embedded Software, the Java Card Software and its pre-personalisation data are
injected.
Phase 4: STM delivers the RC-SA08 Series product to Sony.
At the end of this phase, RC-SA08 Series product, which includes the TOE and the Java Card Software,
can be delivered from Sony to the Smartcard Manufacturer.
Sony views the Smartcard Manufacturer and the Administrator jointly as the Administrator role.
Phase 5: The Smartcard Manufacturer integrates the TOE into its smartcard product and then delivers
that product to the Administrator.
Phase 6: The Administrator performs the personalisation.
Phase 7: The product is delivered to the Card holder for operational use.
2.5 Evaluated configurations
The TOE provides the configuration that allows the system administrator to choose an option of privacy
protection mechanism, which provides random ID. The administrator may use either unique ID or
random ID during the anti-collision sequence between the TOE and a card reader (either CL_Term or
CT_Term). Unique ID may be used for tracking of Card holder, but random ID can prevent Card holder
from being tracked.
The TOE is evaluated in both with or without privacy protection mechanism.
2.6 Evaluated derivative products
The TOE comprises the group of derivatives, which can be clearly identified by different product type
names.
The product type names which are subject of the evaluation are listed in the following table:
Table 5: Product name comprising the group of derivatives
Product
name
IC Code Specifications
RC-SA08/1 3E 03 68pF input capacity
RC-SA08/2 3E 03 20pF input capacity
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IC Code listed in the above table is the identifier to discriminate the TOE derivatives. A number of TOE
derivatives are supported in this Security Target and all product type names listed in the table above are
subject of the evaluation.
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3 Security problem definition
The statement of the security problem describes the assets that the TOE is expected to protect and the
security measures that are to be enforced by the TOE or its operational environment.
To this end, the security problem definition (this chapter) identifies and lists the following:
 primary and secondary assets
 the threats to be countered by the TOE
 the assumptions about the TOE environment
 the organisational security policies with which the TOE is designed to comply.
3.1 Assets
The assets that the TOE is expected to protect are as follows:
 the primary asset of the TOE is the sensitive user data (i.e., data from Users and Service Providers)
loaded into the volatile and non-volatile memory
 all assets employed to protect the primary assets are secondary assets (such as cryptographic keys,
the operating system code, data, and so on).
In addition to the above assets, since this Security Target claims conformance to “Security IC Platform
Protection Profile with Augmentation Packages” [BSI-PP-0084], the assets defined in section 3.1 of the
Protection Profile are also expected to be protected.
3.2 Threats
The threats are directed against the assets and the security functions of the TOE. Since this Security
Target claims conformance to “Security IC Platform Protection Profile with Augmentation Packages”
[BSI-PP-0084], the threats defined in section 3.2 of the Protection Profile are applied for this Security
Target. The following table shows the threats of the Protection Profile.
Table 6: Threats defined in the Protection Profile
Threats Titles
T.Phys-Manipulation Physical Manipulation
T.Phys-Probing Physical Probing
T.Malfunction Malfunction due to Environmental Stress
T.Leak-Inherent Inherent Information Leakage
T.Leak-Forced Forced Information Leakage
T.Abuse-Func Abuse of Functionality
T.RND Deficiency of Random Numbers
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3.3 Assumptions
The customer is responsible for the secure administration of the TOE. It is assumed that security
procedures are used between delivery of the TOE by the TOE manufacturer and delivery to the customer,
to maintain the confidentiality and integrity of the TOE and its manufacturing and test data. So the
following assumption defined in section 3.4 of the Protection Profile [BSI-PP-0084] is applied for this
Security Target.
Table 7: Assumptions defined in the Protection Profile
Assumption Title
A.Process-Sec-IC Protection during Packaging, Finishing and Personalisation
In addition to the above assumption, the Protection Profile defines the assumption A.Resp-Appl which is
intended to the developer of the Security IC Embedded Software. This assumption is re-assigned to the
organisational security policy P.Resp-Appl because the TOE does include the Security IC Embedded
Software which fulfils this assumption.
3.4 Organisational security policies
To record the security problem definition in terms of policies, we state what protection the TOE shall
afford to the user, as follows:
P.Confidentiality The TOE shall provide the means to protect the confidentiality of the stored
assets.
The TOE shall have some security measures that can protect the stored user data from
unauthorised disclosure. We do not expect the TOE to enforce these security measures on any or
all user data, but those measures shall be available when the user decides that they shall be
used for some of the user data.
P.Integrity The TOE shall provide the means to protect the integrity of the stored assets.
The integrity of the stored assets shall be protected during operation in a hostile environment.
The possibility of attacks trying to alter specific data cannot be discounted but, for a contactless
smart card, there are other considerations that already make the integrity a prime concern, such
as the very real possibility of power cut-off at any point during processing. To ensure the
integrity, the TOE shall have some security measures that can protect the stored user data from
unauthorised modification and destruction.
P.TransferSecret The TOE shall provide the means to protect the confidentiality of assets
during transfer from the outside of TOE.
At the user’s discretion, user data that is sent or received through the communication channel
needs protection from unauthorised disclosure. The TOE shall provide the capabilities to provide
such measures.
P.TransferIntegrity The TOE shall provide the means to protect the integrity of assets during
transfer from the outside of TOE.
The integrity of the messages on the communication channel shall take into account both the
possibility of benign interference and malicious interference in various forms, such as: RF noise,
spikes in the field, short removals of the field, ghost transmissions, replay, and injection of data
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into the channel. The TOE shall provide the means to ensure the integrity of user data
transferred.
P.Configure The TOE shall provide the means to configure the level of protection for each of
the assets.
The TOE is a tool to be used by the user in a system that shall implement specific business rules.
The TOE may not assume the level of protection required for any asset. The TOE shall provide the
means for the level of protection to be specified explicitly by the user for each asset.
P.Keys The keys generated for TOE use shall be secure. The keys for use by the TOE shall
be generated and handled in a secure manner.
Some keys for TOE use are generated outside the TOE, by the supporting system in a controlled
environment. This system shall check that all such keys are suitably secure by, for example,
weeding out weak keys. The secure keys are then loaded into the TOE. The process of key
generation and management shall be suitably protected and shall occur in a controlled
environment.
P.Untrackability The TOE shall provide the means to prevent the tracking of the Card holder
through the TOE-specific information
At the Service Provider’s discretion, the Card holder is protected from being tracked with the
TOE-specific information by the unauthorised user. The TOE shall provide the capabilities to
provide such measures. Typically the TOE-specific information may be unique ID of the TOE.
In addition to the above organisational security policies, since this Security Target claims conformance to
“Security IC Platform Protection Profile with Augmentation Packages” [BSI-PP-0084], the organisational
security policies defined in section 3.3 of the Protection Profile are applied for this Security Target. The
following table shows the organisational security policies of the Protection Profile:
Table 8: Organisational security policies defined in the Protection Profile
Policy Title
P.Process-TOE Protection during TOE Development and Production
The TOE includes Security IC Embedded Software which fulfils the assumption A.Resp-Appl defined in
[BSI-PP-0084] and thereby this assumption is re-assigned to the following organisational security policy
for this Security Target.
P.Resp-Appl Treatment of user data of the Composite TOE
The Security IC Embedded Software of the TOE shall treat user data of the Composite TOE
according to the assumption A.Resp-Appl defined in [BSI-PP-0084].
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4 Security objectives
This chapter describes the security objectives for the TOE and the TOE environment in response to the
security needs identified in Chapter 3, "Security problem definition".
Security objectives for the TOE are to be satisfied by technical countermeasures implemented by the
TOE. Security objectives for the environment are to be satisfied either by technical measures
implemented by the IT environment, or by non-IT measures.
4.1 TOE security objectives
The following TOE Security Objectives have been identified for the TOE, as a result of the discussion of
the Security Problem Definition. Each objective is stated in bold type font. It is followed by an application
note, in regular font, which provides additional information and interpretation.
O.AC The TOE shall provide a configurable access control system to prevent
unauthorised access to stored user data.
The TOE shall provide its users with the means of controlling and limiting access to the objects
and resources they own or are responsible for in a configurable and deterministic manner. This
objective combines all aspects of authentication and access control.
O.SC The TOE shall provide configurable secure channel mechanisms for the
protection of user data when transferred between the TOE and an outside entity.
The TOE receives and sends user data over a wireless interface, which is considered easy to tap
and alter. Therefore, the TOE shall provide mechanisms that allow the TOE and an external entity
to communicate with each other in a secure manner. The secure channel mechanisms shall
include protection of the confidentiality and integrity of the transferred user data.
O.Integrity The TOE shall provide mechanisms for detecting integrity errors in stored user
data.
The TOE operates in a highly unstable and hostile environment. All precautions shall be taken to
ensure that all user data stored in the TOE (and any associated security data) are always in a
consistent and secure state.
O.Untrackability The TOE shall provide configurable privacy protection mechanism against Card
holder tracking.
The TOE shall provide the means to protect the Card holder from being tracked. This shall be
done by providing an option that protects the TOE-specific information from the Card holder
tracking by any unauthorised third party.
In addition to the above security objectives, since this Security Target claims conformance to “Security IC
Platform Protection Profile with Augmentation Packages” [BSI-PP-0084], the security objectives defined
in section 4.1 of the Protection Profile are valid for this Security Target. The following table shows the
security objectives of the Protection Profile:
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Table 9: Security objectives defined in the Protection Profile
Security objectives Titles
O.Leak-Inherent Protection against Inherent Information Leakage
O.Phys-Probing Protection against Physical Probing
O.Malfunction Protection against Malfunctions
O.Phys-Manipulation Protection against Physical Manipulation
O.Leak-Forced Protection against Forced Information Leakage
O.Abuse-Func Protection against Abuse of Functionality
O.Identification TOE Identification
O.RND Random Numbers
4.2 TOE operational environment security objectives
This section identifies the IT security objectives that are to be satisfied by the imposing of technical or
procedural requirements on the TOE operational environment. These security objectives are assumed by
the Security Target to be permanently in place in the TOE environment. They are included as necessary
to support the TOE security objectives in addressing the security problem defined in Chapter 3, "Security
problem definition". Each objective is stated in bold type font; it is followed by an application note, in
regular font, which supplies additional information and interpretation.
OE.Keys The handling of the keys outside the TOE shall be performed in accordance to the
specified policies.
Specific keys for use by the TOE are generated externally (that is, beyond control of the TOE). The
generation and control of the keys shall be performed in strict compliance to the specific policies
set for such operations.
OE.Keys is defined to fulfill the OSP P.Keys defined in this Security Target, therefore it neither mitigates a
threat meant to be addressed by security objectives for the TOE in the PP [BSI-PP-0084], nor fulfills an
OSP meant to be addressed by security objectives for the TOE in the PP [BSI-PP-0084].
In addition to the above environment objectives, since this Security Target claims conformance to
“Security IC Platform Protection Profile with Augmentation Packages” [BSI-PP-0084], the objectives
defined in section 4.3 of the Protection Profile are valid for this Security Target. The following table
shows the environment objectives of the Protection Profile:
Table 10: Security objectives for the environment defined in the Protection Profile
Security objectives Titles
OE.Process-Sec-IC Protection during composite product manufacturing
The environment objective OE.Resp-Appl which is defined in the Protection Profile is re-assigned to the
security objectives O.AC, O.SC and O.Integrity because the TOE does include the Security IC Embedded
Software which fulfils this environment objective.
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4.3 Security objectives rationale
This section demonstrates the suitability of the choice of security objectives and that the stated security
objectives counter all identified threats, policies, or assumptions.
The following table maps the security objectives to the security problem, which is defined by the
relevant threats, policies, and assumptions. This illustrates that each threat, policy, or assumption is
covered by at least one security objective.
Table 11: Policies versus Security Objectives
Policy Policy text Objective Objective text
P.Confidentiality The TOE shall provide
the means to protect the
confidentiality of the
stored assets.
O.AC The TOE shall provide a
configurable access control
mechanism to prevent
unauthorised access to stored user
data.
P.Integrity The TOE shall provide
the means to protect the
integrity of the stored
assets.
O.AC The TOE shall provide an access
control mechanism to protect
integrity of the stored user data
from unauthorised access.
O.Integrity The TOE shall provide mechanisms
for detecting integrity errors in
stored user data.
P.TransferSecret The TOE shall provide
the means to protect the
confidentiality of assets
during transfer to and
from the TOE.
O.SC The TOE shall provide configurable
secure channel mechanisms for the
protection of user data transferred
between the TOE and an external
entity.
P.TransferIntegrity The TOE shall provide
the means to protect the
integrity of assets during
transfer to and from the
TOE.
O.SC The TOE shall provide a
configurable secure channel
mechanism for the protection of
user data transferred between the
TOE and an external entity.
P.Configure The TOE shall provide
the means to configure
the level of protection
for each of the assets.
O.AC The TOE shall provide a
configurable access control
mechanism to prevent
unauthorised access to stored user
data.
P.Keys The keys generated for
the use of the TOE shall
be secure. The keys for
the use of the TOE shall
be generated and
handled in a secure
manner.
OE.Keys The handling of the keys outside
the TOE shall be performed in
accordance with the specified
policies.
P.Untrackability The TOE shall provide
the means to prevent
the tracking of Card
O.Untrackability The TOE shall provide a
configurable privacy protection
mechanism against user tracking
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Policy Policy text Objective Objective text
holder through the TOE
specific information.
O.AC The TOE shall configurable access
control mechanism to prevent
unauthorised access to the
TOE-specific information.
The following explanation shows that the chosen security objectives are sufficient and suitable to
address the identified threats, assumptions, and policies.
The policies for the TOE call for protection of user data when stored in the TOE and when in transit
between the TOE and an external security product. Also, the policies require that the system used for
protection of the assets when stored within the TOE be flexible and configurable. These policies are
upheld by defining the following two objectives for the TOE: O.AC and O.SC. The O.AC objective makes
sure that the TOE implements an access control system that protects the stored user data from illegal
access (as required by the P.Confidentiality policy), while providing the capability to configure the access
rules and operations for the authorised users (as required by the P.Configure policy). The O.SC objective
provides a secure channel that shall be established between the TOE and an external entity; this secure
channel shall protect all transmitted user data from disclosure (as required by P.TransferSecret) and from
integrity errors, whether as a result of an attack or environmental conditions (such as loss of power), as
required by P.TransferIntegrity.
The policy P.Integrity requires that user data shall be protected from integrity errors when stored in the
TOE. It is upheld by two objectives for the TOE: O. AC and O.Integrity. The O.AC objective provides the
access control system, which allows only authorised users to access stored user data and protects the
integrity of stored user data from illegal access. The O.Integrity objective provides an
integrity-monitoring mechanism to detect errors in stored user data.
The policy P.Untrackability requires that the user shall be protected from tracking if the TOE specific
information is compromised. Tracking can be performed with identification (ID) number stored in the
TOE. This policy is upheld by two objectives for the TOE: O.Untrackability and O.AC, which provide the
means to protect the disclosure of TOE specific information (ID number) that leads to user tracking by
unauthorised third party.
The policy for the environment that requires secure generation and handling of keys, P.Keys, is similarly
directly translated into the objective for the environment OE.Keys for the secure handling of keys and
generation of secure keys.
The following table maps the security problem to the security objectives defined in the Protection Profile
[BSI-PP-0084]. The section 4.4 of the Protection Profile gives the rationale of showing that the security
objectives are sufficient and suitable to address the threats, assumptions, and policies.
Table 12: Assumptions, Threats or Policies versus Security Objectives defined in the PP
Assumption, threat or policy Objective Notes
P.Resp-Appl
(re-assigned from A.Resp-Appl)
O.AC
O.SC
O.Integrity
(re-assigned from OE.Resp-Appl)
Phase 1
See discussion below
P.Process-TOE O.Identification Phase 2 – 4
A.Process-Sec-IC OE.Process-Sec-IC Phase 5 – 6
T.Leak-Inherent O.Leak-Inherent
T.Phys-Probing O.Phys-Probing
T.Malfunction O.Malfunction
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Assumption, threat or policy Objective Notes
T.Phys-Manipulation O.Phys-Manipulation
T.Leak-Forced O.Leak-Forced
T.Abuse-Func O.Abuse-Func
T.RND O.RND
The following explanation shows the reason why the re-assigned policy P.Resp-Appl is sufficiently
addressed by O.AC, O.SC and O.Integrity respectively.
The policy P.Resp-Appl requires that the Security IC Embedded Software shall treat user data according
to the assumption A.Resp-Appl defined in [BSI-PP-0084]. This policy is directly covered by the security
objectives O.AC, O.SC and O.Integrity which require the Security IC Embedded Software to treat the
security relevant user data as required by the security needs. In the Protection Profile, the Phase 1 is
identified as the operational environment. However this TOE includes the Security IC Embedded
Software development in the scope. The Security IC Embedded Software implements measures for
secure treatment of user data through the security objectives O.AC, O.SC and O.Integrity, and therefore
the security objective for the environment is fulfilled.
The following table maps all security objectives defined in this Security Target and Protection Profile to
the relevant threats, policies, and assumptions. This illustrates that each security objective covers at
least one threat, policy or assumption.
Table 13: Security Objectives versus Assumptions, Threats or Policies
Objectives Assumptions, threats or policies
O.AC P.Confidentiality
P.Integrity
P.Configure
P.Resp-Appl (re-assigned from A.Resp-Appl)
O.SC P.TransferSecret
P.TransferIntegrity
P.Resp-Appl (re-assigned from A.Resp-Appl)
O.Integrity P.Integrity
P.Resp-Appl (re-assigned from A.Resp-Appl)
O.Untrackability P.Untrackability
OE.Keys P.Keys
O.Leak-Inherent T.Leak-Inherent
O.Phys-Probing T.Phys-Probing
O.Malfunction T.Malfunction
O.Phys-Manipulation T.Phys-Manipulation
O.Leak-Forced T.Leak-Forced
O.Abuse-Func T.Abuse-Func
O.Identification P.Process-TOE
O.RND T.RND
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Objectives Assumptions, threats or policies
OE.Process-Sec-IC A.Process-Sec-IC
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5 Extended components definitions
This Security Target does not define extended components in addition to the components defined in the
Protection Profile [BSI-PP-0084].
Chapter 5 of the Protection Profile [BSI-PP-0084] defines extended SFRs listed below, which are included
in this Security Target.
 FCS_RNG.1 Generation of random numbers
 FMT_LIM.1 Limited capabilities
 FMT_LIM.2 Limited availability
 FAU_SAS.1 Audit storage
 FDP_SDC.1 Stored data confidentiality
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6 IT security requirements
IT security requirements include the following:
 TOE security functional requirements (SFRs)
That is, requirements for security functions such as information flow control, identification and
authentication.
 TOE security assurance requirements (SARs)
Provide grounds for confidence that the TOE meets its security objectives (such as configuration
management, testing, vulnerability assessment.)
 This chapter discusses these requirements in detail. It also explains the rationales behind them, as
follows:
 Security functional requirements rationale
 Security assurance requirements rationale
6.1 TOE security functional requirements
The TOE Security Objectives result in a set of Security Functional Requirements (SFRs).
The following section 5.1.1 and 5.1.2 separately describe the SFRs defined in this Security Target and
Protection Profile [BSI-PP-0084].
About the notation used for Security Functional Requirements (SFRs):
 The refinement operation is used in many cases, to make the requirements easier to read and
understand. All these cases are indicated and explained in footnotes.
 Selections appear in Italic bold font.
 Assignments appear in Tahoma bold font.
6.1.1 SFRs defined in the Security Target
This section describes the SFRs which are defined in the Security Target. All of the SFRs described in this
section are taken from [CC Part2].
FMT_SMR.1 Security roles
FMT_SMR.1.1 The TSF shall maintain the roles User and Administrator.
FMT_SMR.1.2 The TSF shall be able to associate users with roles.
FIA_UID.1 Timing of identification
FIA_UID.1.1 The TSF shall allow Polling, Requests, Public_read, Public_write, Echo Back, Reset
Mode on behalf of the user to be performed before the user is identified.
FIA_UID.1.2 The TSF shall require each user to be successfully identified before allowing any other
TSF-mediated actions on behalf of that user.
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FIA_UAU.1 Timing of authentication
FIA_UAU.1.1 The TSF shall allow Polling, Requests, Public_read, Public_write, Echo Back, Reset
Mode 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.
FIA_UAU.4 Single-use authentication mechanisms
FIA_UAU.4.1 The TSF shall prevent reuse of authentication data related to all authentication
mechanisms.
FDP_ACC.1 Subset access control
FDP_ACC.1.1 The TSF shall enforce the Service Access Policy on the following:
 Subjects:
o User
o Administrator
 Objects: Files
 Operations:
o Authentication
o Read
o Write
o Reset Mode
FDP_ACF.1 Security attribute based access control
FDP_ACF.1.1 The TSF shall enforce the Service Access Policy to objects based on the following:
 Subjects:
o User with security attribute authentication
o Administrator with security attribute authentication
 Objects: Files with security attributes ACL
FDP_ACF.1.2 The TSF shall enforce the following rules to determine if an operation among controlled
subjects and controlled objects is allowed:
 A Subject can do this operation on an Object when: the Subject is successfully
authenticated, and the operation is listed in the Object’s ACL.
FDP_ACF.1.3 The TSF shall explicitly authorise access of subjects to objects based on the following
additional rules: none.
FDP_ACF.1.4 The TSF shall explicitly deny access of subjects to objects based on the following
additional rules:
 no additional explicit rules.
FMT_MOF.1 Management of security functions behaviour
FMT_MOF.1.1 The TSF shall restrict the ability to enable, disable the functions random ID function to
Administrator.
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FMT_MSA.1 Management of security attributes
FMT_MSA.1.1 The TSF shall enforce the Service Access Policy to restrict the ability to perform any
operation on the security attributes authentication and ACL to Administrator.
FMT_SMF.1 Specification of Management Functions
FMT_SMF.1.1 The TSF shall be capable of performing the following management functions:
management of security attributes, management of random ID function.
FPR_UNL.1 Unlinkability
FPR_UNL.1.1 The TSF shall ensure that unauthorised third parties are unable to determine whether
any operation of the TOE were caused by the same Card holder0F
3
.
FTP_ITC.1 Inter-TSF trusted channel
FTP_ITC.1.1 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 The TSF shall permit another trusted IT product to initiate communication via the trusted
channel.
FTP_ITC.1.3 The TSF shall initiate communication via the trusted channel for no functions.
6.1.2 SFRs from the Protection Profile
This section describes the SFRs which are directly taken from the Protection Profile [BSI-PP-0084]. All
assignment and selection operations on these SFRs are completely specified in the Protection Profile
except the following SFRs.
 FAU_SAS Audit storage
 FDP_SDI Stored data integrity monitoring and action
 FDP_SDC Stored data confidentiality
 FCS_RNG Random number generation
FRU_FLT.2 Limited fault tolerance
FRU_FLT.2.1 The TSF shall ensure the operation of all the TOE’s capabilities when the following
failures occur: exposure to operating conditions which are not detected according
to the requirement Failure with preservation of secure state (FPT_FLS.1).
Refinement: The term “failure” above means “circumstances”. The TOE prevents failures for the
“circumstances” defined above.
3
Refinement operation is done. In this Security Target, “user” is consistently used as the term of
representing User and Administrator. To state the requirement accurately without misunderstanding,
the term “user” is replaced by “Card holder”
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FPT_FLS.1 Failure with preservation of secure state
FPT_FLS.1.1 The TSF shall preserve a secure state when the following types of failures occur:
exposure to operating conditions which may not be tolerated according to the
requirement Limited fault tolerance (FRU_FLT.2) and where therefore a
malfunction could occur.
Refinement: The term “failure” above also covers “circumstances”. The TOE prevents failures for the
“circumstances” defined above.
FMT_LIM.1 Limited capabilities
FMT_LIM.1.1 The TSF shall be designed and implemented in a manner that limits their capabilities so
that in conjunction with “Limited availability (FMT_LIM.2)” the following policy is
enforced: Deploying Test Features after TOE Delivery does not allow user data of
the Composite TOE to be disclosed or manipulated, TSF data to be disclosed or
manipulated, software to be reconstructed and no substantial information about
construction of TSF to be gathered which may enable other attacks.
FMT_LIM.2 Limited availability
FMT_LIM.2.1 The TSF shall be designed and implemented in a manner that limits their availability so
that in conjunction with “Limited capabilities (FMT_LIM.1)” the following policy is
enforced: Deploying Test Features after TOE Delivery does not allow user data of
the Composite TOE to be disclosed or manipulated, TSF data to be disclosed or
manipulated, software to be reconstructed and no substantial information about
construction of TSF to be gathered which may enable other attacks.
FAU_SAS.1 Audit storage
FAU_SAS.1.1 The TSF shall provide the test process before TOE Delivery with the capability to store
the Initialisation Data and/or Pre-personalisation Data in the Flash memory.
FDP_SDI.2 Stored data integrity monitoring and action
FDP_SDI.2.1 The TSF shall monitor user data stored in containers controlled by the TSF for bit
corruption on all objects, based on the following attributes: data integrity checksum.
FDP_SDI.2.2 Upon detection of a data integrity error, the TSF shall return an error code.
FDP_SDC.1 Stored data confidentiality
FDP_SDC.1.1 The TSF shall ensure the confidentiality of the information of the user data while it is
stored in all the memory areas where it can be stored.
FPT_PHP.3 Resistance to physical attack
FPT_PHP.3.1 The TSF shall resist physical manipulation and physical probing to the TSF by
responding automatically such that the SFRs are always enforced.
Refinement: The TSF will implement appropriate mechanisms to continuously counter physical
manipulation and physical probing. Due to the nature of these attacks (especially
manipulation) the TSF can by no means detect attacks on all of its elements. Therefore,
permanent protection against these attacks is required ensuring that security functional
requirements are enforced. Hence, “automatic response” means here (i) assuming that
there might be an attack at any time and (ii) countermeasures are provided at any time.
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FDP_ITT.1 Basic internal transfer protection
FDP_ITT.1.1 The TSF shall enforce the Data Processing Policy to prevent the disclosure of user data
when it is transmitted between physically-separated parts of the TOE.
Refinement: The different memories, the CPU and other functional units of the TOE (e.g. a
cryptographic co-processor) are seen as physically-separated parts of the TOE.
FDP_IFC.1 Subset information flow control
FDP_IFC.1.1 The TSF shall enforce the Data Processing Policy on all confidential data when they
are processed or transferred by the TOE or by the Security IC Embedded Software.
FPT_ITT.1 Basic internal TSF data transfer protection
FPT_ITT.1.1 The TSF shall protect TSF data from disclosure when it is transmitted between separate
parts of the TOE.
Refinement: The different memories, the CPU and other functional units of the TOE (e.g. a
cryptographic co-processor) are seen as separated parts of the TOE.
FCS_RNG.1 Random number generation
FCS_RNG.1.1 The TSF shall provide a hybrid deterministic random number generator that implements
total failure test of the random source.
FCS_RNG.1.2 The TSF shall provide octets of bits that meet the NIST test suite [SP800-22].
6.2 TOE security assurance requirements
According to application note 22 of [BSI-PP-0084], the Protection Profile allows to add higher
hierarchical components. This Security Target claims conformance to the Protection Profile. The
differences in the SARs between the Protection Profile and the Security Target are identified in the
following table.
Table 15: TOE SARs versus SARs chosen in Protection Profile
TOE SARs SARs chosen in PP Level difference
ADV_ARC.1 ADV_ARC.1 None
ADV_FSP.5 ADV_FSP.4 Higher hierarchical component
ADV_IMP.1 ADV_IMP.1 None
ADV_INT.2 Higher hierarchical component
ADV_TDS.4 ADV_TDS.3 Higher hierarchical component
AGD_OPE.1 AGD_OPE.1 None
AGD_PRE.1 AGD_PRE.1 None
ALC_CMC.4 ALC_CMC.4 None
ALC_CMS.5 ALC_CMS.4 Higher hierarchical component
ALC_DEL.1 ALC_DEL.1 None
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TOE SARs SARs chosen in PP Level difference
ALC_DVS.2 ALC_DVS.2 None
ALC_LCD.1 ALC_LCD.1 None
ALC_TAT.2 ALC_TAT.1 Higher hierarchical component
ASE_CCL.1 ASE_CCL.1 None
ASE_ECD.1 ASE_ECD.1 None
ASE_INT.1 ASE_INT.1 None
ASE_OBJ.2 ASE_OBJ.2 None
ASE_REQ.2 ASE_REQ.2 None
ASE_SPD.1 ASE_SPD.1 None
ASE_TSS.2 ASE_TSS.1 Higher hierarchical component
ATE_COV.2 ATE_COV.2 None
ATE_DPT.3 ATE_DPT.2 Higher hierarchical component
ATE_FUN.1 ATE_FUN.1 None
ATE_IND.2 ATE_IND.2 None
AVA_VAN.5 AVA_VAN.5 None
6.2.1 Refinements of the TOE Assurance Requirements
The Protection Profile defines the refinements for some SARs in section 6.2.1 of [BSI-PP-0084]. This
Security Target selects the higher level assurance components compared to the Protection Profile. The
following table shows the SARs that have the refinements in the Protection Profile and provides the
overview of analysis results of whether the refinements are still applicable to higher hierarchical
component.
Table 16: Applicability analysis of refinement of assurance requirements
TOE SARs SARs chosen in PP Level difference Refinement
applicability
ADV_ARC.1 ADV_ARC.1 None still applicable
ADV_FSP.5 ADV_FSP.4 Higher hierarchical component still applicable
ADV_IMP.1 ADV_IMP.1 None still applicable
AGD_OPE.1 AGD_OPE.1 None still applicable
AGD_PRE.1 AGD_PRE.1 None still applicable
ALC_CMC.4 ALC_CMC.4 None still applicable
ALC_CMS.5 ALC_CMS.4 Higher hierarchical component still applicable
ALC_DEL.1 ALC_DEL.1 None still applicable
ALC_DVS.2 ALC_DVS.2 None still applicable
ATE_COV.2 ATE_COV.2 None still applicable
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TOE SARs SARs chosen in PP Level difference Refinement
applicability
AVA_VAN.5 AVA_VAN.5 None still applicable
The following two refinements from the Protection Profile are analysed here in the Security Target, as
the higher hierarchical components are selected.
 Refinement regarding functional specification (ADV_FSP)
The refinement is still applicable to higher assurance component ADV_FSP.5. The refinement of the
Protection Profile is performed only to provide a more clear explanation about what to be described
in functional specification and show no necessity of describing test functions of the IC Dedicated
Test Software. ADV_FSP.5 requires semi-formal functional specification with additional error
messages which do not result from an invocation of a TSFI. Since ADV_FSP.5 has influence only on
the formality of description and the scope of error messages, the refinements remains unaffected
and still applicable.
 Refinement regarding CM scope (ALC_CMS)
The refinement is still applicable to higher assurance component ALC_CMS.5. The refinement of the
Protection Profile is performed only to provide a more clear explanation about the scope of the
configuration items. ALC_CMS.5 requires to add the development tools and related information into
the scope of configuration items. Since ALC_CMS.5 only enlarges the scope of configuration items,
the refinement remains unaffected and still applicable.
6.3 Security functional requirements rationale
The following table presents both the rationale for choosing specific Security Functional Requirements
(SFRs) and how those requirements correspond to the specific Security Objectives:
Table 17: TOE Security Functional Requirements versus Security Objectives
Objective TOE Security Functional Requirements
O.AC - FMT_SMR.1 “Security roles”
- FIA_UID.1 “Timing of identification”
- FIA_UAU.1 “Timing of authentication”
- FIA_UAU.4 “Single-use authentication mechanisms”
- FDP_ACC.1 “Subset access control
- FDP_ACF.1 “Security attribute based access control”
- FMT_MSA.1 “Management of security attributes”
- FMT_SMF.1 “Specification of Management Functions”
O.SC - FTP_ITC.1 “Inter-TSF trusted channel”
O.Integrity - FDP_SDI.2 “Stored data integrity monitoring and action”
O.Untrackability - FMT_MOF.1 "Management of security functions behavior"
- FMT_SMR.1 “Security roles”
- FMT_SMF.1 “Specification of Management Functions”
- FPR_UNL.1 “Unlinkability”
The objective O.AC is achieved through inclusion of the SFRs FDP_ACC.1 and FDP_ACF.1, which together
specify the access control policy. The operation of the access control system is supported by the SFR
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FIA_UAU.4 to make sure that unique authentication sessions shall be used every time. The SFRs
FIA_UID.1 and FIA_UAU.1 complement the access control system operation by allowing very specific
functions to be used without mutual authentication. The SFRs FMT_SMR.1 and FMT_MSA.1 in conjunction
with the SFR FMT_SMF.1 allow for the implementation of a flexible, configurable access control system
and specify the roles that shall be allowed to utilise the access control system configuration capabilities.
The presented combination of the SFRs provides an access control system that, as required by the O.AC
objective, is precisely specified, allows for very specific exceptions, and supports very flexible
configuration.
The objective O.SC is directly realised through the requirement for the secure channel SFR FTP_ITC.1
between the TOE and the external device.
The objective O.Integrity is directly addressed through both the use of the SFR FDP_SDI.2 for the
monitoring of the stored user data and the requirement that an action is taken when any integrity error
occurs.
The objective O.Untrackability is addressed through the SFR FPR_UNL.1 which requires that unauthorised
third party are unable to determine whether any operation of the TOE were caused by the same Card
holder. The functionality provided by FPR_UNL.1 can be enabled or disabled by the Administrator
through the SFRs FMT_MOF.1, FMT_SMR.1 and FMT_SMF.1.
The following table presents the list of the SFRs with the associated dependencies.
Table 18: Security Functional Requirements dependencies (except SFRs from the PP)
ID SFR Dependencies Notes
FMT_SMR.1 Security roles FIA_UID.1 Included
FIA_UID.1 Timing of identification None
FIA_UAU.1 Timing of authentication FIA_UID.1 Included
FIA_UAU.4 Single-use authentication
mechanisms
None
FDP_ACC.1 Subset access control FDP_ACF.1 Included
FDP_ACF.1 Security attribute based
access control
FDP_ACC.1
FMT_MSA.3
Included
Not satisfied
FMT_MOF.1 Management of security
functions behaviour
FMT_SMR.1
FMT_SMF.1
Included
Included
FMT_MSA.1 Management of security
attributes
FDP_ACC.1 or FDP_IFC.1
FMT_SMR.1
FMT_SMF.1
Included (FDP_ACC.1)
Included
Included
FMT_SMF.1 Specification of Management
Functions
None
FPR_UNL.1 Unlinkability None
FTP_ITC.1 Inter-TSF trusted channel None
The SFR “FMT_MSA.3 Static attribute initialisation” is a dependency for the SFR FDP_ACF.1. In the TOE,
however, the security attributes are always explicitly set and the notion of “default value” for a security
attribute simply does not exist. The security attributes are always set explicitly by the Administrator to a
value appropriate for each asset without exception, so it is our opinion that the system is no less secure
in the absence of the SFR FMT_MSA.3. Therefore, there is no need to include the SFR FMT_MSA.3 in the
ST.
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Regarding the Security Objectives defined in the Protection Profile, the section 6.3.1 of [BSI-PP-0084]
provides both the rationale for choosing specific SFRs and how those requirements correspond to the
specific Security Objectives. The following table gives an overview, how the SFRs are combined to meet
the security objectives.
Table 19: TOE Security Functional Requirements versus Security Objectives defined in the PP
Objective TOE Security Functional Requirements
O.Leak-Inherent - FDP_ITT.1 “Basic internal transfer protection”
- FPT_ITT.1 “Basic internal TSF data transfer protection”
- FDP_IFC.1 “Subset information flow control”
O.Phys-Probing - FDP_SDC.1 “Stored data confidentiality”
- FPT_PHP.3 “Resistance to physical attack”
O.Malfunction - FRU_FLT.2 “Limited fault tolerance
- FPT_FLS.1 “Failure with preservation of secure state”
O.Phys-Manipulation - FDP_SDI.2 “Stored data integrity monitoring and action”
- FPT_PHP.3 “Resistance to physical attack”
O.Leak-Forced All requirements listed for O.Leak-Inherent
- FDP_ITT.1, FPT_ITT.1, FDP_IFC.1
plus those listed for O.Malfunction and O.Phys-Manipulation
- FRU_FLT.2, FPT_FLS.1, FPT_PHP.3
O.Abuse-Func - FMT_LIM.1 “Limited capabilities”
- FMT_LIM.2 “Limited availability”
plus those for O.Leak-Inherent, O.Phys-Probing, O.Malfunction,
O.Phys-Manipulation, O.Leak-Forced
- FDP_ITT.1, FPT_ITT.1, FDP_IFC.1, FPT_PHP.3, FRU_FLT.2, FPT_FLS.1
O.Identification - FAU_SAS.1 “Audit storage”
O.RND - FCS_RNG.1 “Quality metric for random numbers”
plus those for O.Leak-Inherent, O.Phys-Probing, O.Malfunction,
O.Phys-Manipulation, O.Leak-Forced
- FDP_ITT.1, FPT_ITT.1, FDP_IFC.1, FPT_PHP.3, FRU_FLT.2, FPT_FLS.1
The dependencies of SFRs defined in Protection Profile are listed in section 6.3.2 in [BSI-PP-0084]. The
following table gives their dependencies and how they are satisfied.
Table 20: Security Functional Requirements dependencies taken from the PP
ID SFR Dependencies Notes
FRU_FLT.2 Limited fault tolerance FPT_FLS.1 Included
FPT_FLS.1 Failure with preservation of
secure state
None
FMT_LIM.1 Limited capabilities FMT_LIM.2 Included
FMT_LIM.2 Limited availability FMT_LIM.1 Included
FAU_SAS.1 Audit storage None
FDP_SDI.2 Stored data integrity
monitoring and action
None
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ID SFR Dependencies Notes
FPT_PHP.3 Resistance to physical attack None
FDP_ITT.1 Basic internal transfer
protection
FDP_ACC.1 or FDP_IFC.1 Included (FDP_ACC.1)
FDP_IFC.1 Subset information flow
control
FDP_IFF.1 See section 6.3.2 in
[BSI-PP-0084]
FPT_ITT.1 Basic internal TSF data
transfer protection
None
FCS_RNG.1 Quality metric for random
numbers
None
6.4 Security assurance requirements rationale
To meet the assurance expectations of customers, the assurance level EAL5 and the augmentation with
the requirements ALC_DVS.2, AVA_VAN.5 and ASE_TSS.2 are chosen. The assurance level of EAL5 is
selected because it provides a sufficient level of assurance for this type of TOE, which is expected to
protect high value assets. Explanation of the security assurance component ALC_DVS.2, AVA_VAN.5 and
ASE_TSS.2 follows:
 ALC_DVS.2 Sufficiency of security measures:
This Security Target selects ALC_DVS.2 instead of ALC_DVS.1 because it verifies the security measures
that provide the necessary level of protection to maintain the confidentiality and integrity of the TOE
and its user data.
 AVA_VAN.5 Highly resistant:
The TOE might be in danger of high-level attacks such as those it might encounter in a university
laboratory. Therefore, AVA_VAN.5 is augmented to confirm that TOE has a high level of resistance
against such attacks.
 ASE_TSS.2 TOE summary specification with architectural design summary:
ASE_TSS.2 is augmented instead of ASE_TSS.1 to enable potential customers to gain a general
understanding of how the TOE protects itself against interference, logical tampering and bypass
attacks.
The dependencies of SARs added to EAL5 are described in [CC Part 3]. The following table gives their
dependencies and how they are satisfied.
Table 21: Security Assurance Requirements dependencies added to EAL5
ID SFR Dependencies Notes
ALC_DVS.2 Sufficiency of security
measures
None
AVA_VAN.5 Advanced methodical
vulnerability analysis
ADV_ARC.1
ADV_FSP.4
ADV_TDS.3
ADV_IMP.1
AGD_OPE.1
AGD_PRE.1
ATE_DPT.1
Dependencies are
covered by the assurance
components of EAL5
(ADV_ARC.1, ADV_FSP.5,
ADV_TDS.4, ADV_IMP.1,
AGD_OPE.1, AGD_PRE.1
and ATE_DPT.3).
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ID SFR Dependencies Notes
ASE_TSS.2 TOE summary specification
with architectural design
summary
ASE_INT.1
ASE_REQ.1
ADV_ARC.1
Dependencies are
covered by the assurance
components of EAL5
(ASE_INT.1, ASE_REQ.2
and ADV_ARC.1).
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7 Compatibility with the platform ST
This chapter describes the compatibility between this ST and the platform ST [ST-HW] in terms of
security environments, security objectives, security functional requirements and security assurance
requirements.
7.1 Security environment
The security environment of the platform and of the product is the same: in both cases it is a smart card
running specific application software and operating in a potentially hostile environment in the presence
of attacks.
Table 22: Correspondence of assets
Assets of TOE Assets of platform
Primary assets are user data User data of the Composite TOE
Secondary assets are all TSF data and other
data and code.
Security IC Embedded Software, stored and in
operation.
Security services provided by the TOE for the
Security IC Embedded Software.
Logical design data, physical design data, IC
Dedicated Software, and configuration data
Initialisation Data and Pre-personalisation Data,
specific development aids, test and characterisation
related data, material for software development
support, and photomasks
As we see from Table 22, the assets of the TOE are included as the assets of the platform, so there is no
conflict between them.
Table 23: Correspondence of assumptions
Assumptions by TOE Assumptions by platform
The TOE is administered in a secure manner
after the TOE delivery.
The assumption is matched by the platform’s
A.Process-Sec-IC assumptions.
A.Resp-Appl requests responsible management of
the security relevant data from the TOE developer
that has been followed by the developer.
A.Secure-Values-MFPlus requests only confidential
and secure keys are used to setup the authentication
and access rights in MFPlus.
A.Terminal-Support-MFPlus requests the terminal
support ensure integrity for MFPlus.
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Assumptions by TOE Assumptions by platform
A.Secure-Values-DESFire requests only confidential
and secure keys are used to setup the authentication
and access rights in DESFire.
A.Terminal-Support-DESFire requests the terminal
support ensure integrity for DESFIre.
Table 23 shows that the assumptions of the TOE on the external environment match. The assumptions of
the platform towards the software were taken into account by the developer.
Table 24: Correspondence of threats
Threat of TOE Threat of platform Contradiction between
platform and the TOE
T.Phys-Manipulation T.Phys-Manipulation No contradiction.
(The Security Target of the
TOE and platform are
conformant with
[BSI-PP-0084], and these
threats are described in
[BSI-PP-0084]. Therefore,
these threats are compatible
with the threats of the TOE.)
T.Phys-Probing T.Phys-Probing
T.Malfunction T.Malfunction
T.Leak-Inherent T.Leak-Inherent
T.Leak-Forced T.Leak-Forced
T.Abuse-Func T.Abuse-Func
T.RND T.RND
T.Mem-Access No contradiction.
(See note below)
T.Data-Modification-MFPlus N/A
(The TOE does not include
the functionality of MIFARE
Plus.)
T.Impersonate-MFPlus
T.Cloning-MFPlus
T.Confid-Applic-Code-MFPlus
T.Confid-Applic-Data-MFPlus
T.Integ-Applic-Code-MFPlus
T.Integ-Applic-Data-MFPlus
T.Application-Resource-MFPlus
T.Data-Modification-DESFire N/A
(The TOE does not include
the functionality of MIFARE
DESFire.)
T.Impersonate-DESFire
T.Cloning-DESFire
T.Confid-Applic-Code-DESFire
T.Confid-Applic-Data-DESFire
T.Integ-Applic-Code-DESFire
T.Integ-Applic-Data-DESFire
T.Resource-DESFire
Note) The FeliCa OS including data is isolated by LPU from the rest of the code embedded in the device,
and is designed and implemented to grant access to restricted information. Therefore T.Mem-Access is
not realized in the TOE.
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Table 24 shows that there is no contradiction of threats between platform and the TOE.
Table 25: Correspondence of organisational security policies
OSP of platform Contradiction between platform and the TOE
BSI.P.Process-TOE No contradiction.
(The Security Target of the TOE and platform are
conformant with [BSI-PP-0084], and this OSP is
described in [BSI-PP-0084]. Therefore, this OSP is
compatible with the OSP of the TOE.)
BSI.P.Lim-Block-Loader N/A
(Flash loader is not available in User configuration.)
AUG1.P.Add-Functions No contradiction.
P.Controlled-ES-Loading N/A
(Flash loader is not available in User configuration.)
P.Encryption N/A
(The TOE does not include the functionality of MIFARE
Plus and MIFARE DESFire.)
P.MAC
P.No-Trace-MFPlus
P.Confidentiality
P.Transaction
P.No-Trace-DESFire
P.Resp-Appl No contradiction.
(The Security Target of the TOE and platform are
conformant with [BSI-PP-0084], and this OSP is assigned
from A.Resp-Appl defined in [BSI-PP-0084]. Therefore,
this OSP is compatible with the OSPs of the TOE.)
Table 25 shows that there is no contradiction of organizational security policies between platform and
the TOE.
7.2 Security objectives
The following tables present the summary of the designation of the security objectives and the security
objectives for operational environment which are presented in [ST-HW] from the point of view of the
TOE:
Table 26: Correspondence of security objectives
Security objectives of platform Contradiction between platform and the TOE
BSI.O.Leak-Inherent No contradiction.
BSI.O.Phys-Probing No contradiction.
BSI.O.Malfunction No contradiction.
BSI.O.Phys-Manipulation No contradiction.
BSI.O.Leak-Forced No contradiction.
BSI.O.Abuse-Func No contradiction.
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Security objectives of platform Contradiction between platform and the TOE
BSI.O.Identification No contradiction.
BSI.O.RND No contradiction.
BSI.O.Cap-Avail-Loader N/A
(Flash loader is not available in User configuration.)
AUG1.O.Add-Functions No contradiction.
AUG4.O.Mem-Access No contradiction.
O.Controlled-ES-Loading N/A
(Flash loader is not available in User configuration.)
O.Access-Control-MFPlus N/A
(The TOE does not include the functionality of MIFARE
Plus.)
O.Authentication-MFPlus
O.Encryption
O.MAC-MFPlus
O.Type-Consistency-MFPlus
O.No-Trace-MFPlus
O.Resp-Appl-MFPlus
O.Resource-MFPlus
O.Firewall-MFPlus
O.Shr-Var-MFPlus
O.Verification-MFPlus
O.Access-Control-DESFire N/A
(The TOE does not include the functionality of MIFARE
DESFire.)
O.Authentication-DESFire
O.Confidentiality-DESFire
O.Type-Consistency-DESFire
O.Transaction-DESFire DESFire
O.No-Trace-DESFire Preventing
O.Resp-Appl-DESFire
O.Resource-DESFire
O.Firewall-DESFire
O.Shr-Res-DESFire
O.Verification-DESFire
Table 26 shows that there is no contradiction of security objectives between platform and the TOE.
Table 27: Correspondence of security objectives for operational environment
security objectives for the operational
environment of platform
Contradiction between platform and the TOE
BSI.OE.Resp-Appl No contradict.
BSI.OE.Process-Sec-IC No contradict.
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security objectives for the operational
environment of platform
Contradiction between platform and the TOE
BSI.OE.Lim-Block-Loader N/A
OE.Secure-Values-MFPlus N/A
OE.Terminal-Support-MFPlus N/A
OE.Secure-Values-DESFire N/A
OE.Terminal-Support-DESFire N/A
Table 27 shows that there is no contradiction of security objectives for the operational environment
between platform and the TOE.
7.3 Security functional requirements
From the point of view of this Security Target, the TOE’s security functional requirements are directed
towards providing the user with a particular service. At the same time, the hardware platform security
functional requirements jointly fall under the self-protection and supporting functions from the point of
view of the TOE. Therefore, there is no conflict between the security functional requirements of the TOE
and the hardware platform.
The following table presents the summary of the designation of the security functional requirements
presented in [ST-HW] from the point of view of the TOE:
Table 28: SFR designation from the TOE perspective
SFR of platform Description
FRU_FLT.2 The STs of the TOE and platform are conformant with
[BSI-PP-0084], and these SFRs are described in [BSI-PP-0084].
Therefore, these SFRs are compatible with the SFRs of the TOE.
FPT_FLS.1
FMT_LIM.1 / Test Test function is not available in User configuration.
FMT_LIM.2 / Test
FMT_LIM.1 / Loader Flash loader is not available in User configuration.
FMT_LIM.2 / Loader
FAU_SAS.1 The STs of the TOE and platform are conformant with
[BSI-PP-0084], and these SFRs are described in [BSI-PP-0084].
Therefore, these SFRs are compatible with the SFRs of the TOE.
FDP_SDC.1
FDP_SDI.2
FPT_PHP.3
FDP_ITT.1
FPT_ITT.1
FDP_IFC.1
FCS_RNG.1
FCS_COP.1 The DES related functions are not claimed as a security function
in this Security Target.
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SFR of platform Description
FCS_CKM.1
(if Neslib is embedded only)
The TOE does not include “Neslib”.
FDP_ACC.2 / Memories The TOE does not use MPU function.
FDP_ACF.1 / Memories
FMT_MSA.3 / Memories
FMT_MSA.1 / Memories
FMT_SMF.1 / Memories
FDP_ITC.1 / Loader Flash loader is not available in User configuration.
FDP_ACC.1 / Loader
FDP_ACF.1 / Loader
FMT_MSA.3 / Loader
FMT_MSA.1 / Loader
FMT_SMF.1 / Loader
FIA_UID.1 / Loader
FMT_SMF.1 / Loader
FMT_SMR.1 / MFPlus The TOE does not include the functionality of MIFARE Plus.
FDP_ACC.1 / MFPlus
FDP_ACF.1 / MFPlus
FMT_MSA.3 / MFPlus
FMT_MSA.1 / MFPlus
FMT_SMF.1 / MFPlus
FDP_ITC.2 / MFPlus
FDP_TDC.1 / MFPlus
FIA_UID.2 / MFPlus
FIA_UAU.2 / MFPlus
FIA_UAU.5 / MFPlus
FMT_MTD.1 / MFPlus
FPT_TRP.1 / MFPlus
FCS_CKM.4 / MFPlus
FPT_RPL.1 / MFPlus
FPR_UNL.1 / MFPlus
FRU_RSA.2 / MFPlus
FDP_RIP.1 / MFPlus
FMT_SMR.1 / DESFire The TOE does not include the functionality of MIFARE DESFire.
FDP_ACC.1 / DESFire
FDP_ACF.1 / DESFire
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SFR of platform Description
FMT_MSA.3 / DESFire
FMT_MSA.1 / DESFire
FMT_SMF.1 / DESFire
FDP_ITC.2 / DESFire
FPT_TDC.1 / DESFire
FIA_UID.2 / DESFire
FIA_UAU.2 / DESFire
FIA_UAU.5 / DESFire
FMT_MTD.1 / DESFire
FPT_TRP.1 / DESFire
FCS_CKM.4 / DESFire
FDP_ROL.1 / DESFire
FPT_RPL.1 / DESFire
FPR_UNL.1 / DESFire
FRU_RSA.2 / DESFire
FDP_RIP.1 / DESFire
FDP_ACC.1 / APPLI_FWL The LPU is used to isolate FeliCa OS (code and data) from the
rest of the code embedded in the device.
FDP_ACF.1 / APPLI_FWL
FMT_MSA.3 / APPLI_FWL The security attributes are always explicitly set and the notion of
“default value” for a security attribute simply does not exist.
7.4 Security assurance requirement
The evaluation level of the TOE is EAL5 augmented with ASE_TSS.2, ALC_DVS.2 and AVA_VAN.5. The
evaluation level of the platform is EAL5 augmented with ADV_IMP.2, ADV_INT.3, ADV_TDS.5, ALC_CMC.5,
ALC_DVS.2, ALC_FLR.1, ALC_TAT.3, ASE_TSS.2, ATE_COV.3, ATE_FUN.2 and AVA_VAN.5. The evaluation
level of the platform is same as or higher than the evaluation level of the composite product.
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8 TOE Summary Specification
This chapter describes the TOE summary specification by summarising the architectural design.
The TOE summary specification includes the following:
 TOE summary specification rationale
Describes how the TOE meets each SFR.
 TOE architectural design summary
Describes how the TOE protects itself against interference, logical tampering and bypass.
8.1 TOE summary specification rationale
This section describes how the TOE is intended to comply with the Security Functional Requirements.
The TOE must satisfy the requirements for secure storage, transfer and management of user data.
Therefore, the TOE is implemented as a software platform on a secure chip.
The TOE includes the functions for creating secure storage containers and management of the security
attributes of those containers. The TOE provides functions for populating the containers with user data
in various ways that are functionally required by the customers, retrieval of the data or updating the data
in situ.
The transfer of data during the operations on secure containers is performed in a secure way, where the
external security product and the TOE are mutually authenticated before the operation and then
connected with each other via an encrypted session. The session allows the bilateral transfer of data in a
manner protected from eavesdropping and alteration.
In compliance with the requirements, the TOE also provides a capability for the unsecured storage and
retrieval of user data. The security attributes can be set up in such a manner that the data can be
retrieved insecurely, but updated only in a secure manner, allowing for a flexible and fully-configurable
access-control system.
 “FMT_SMR.1 Security roles” is met by providing an ability to distinguish between the roles of
“Administrator” and “User”, where the different roles allow the subject to execute different kinds of
operations. The TOE has built-in rules for distinguishing between the operations and required
security attributes for various TOE and TSF data. The Administrator of the TOE specifies the security
attributes for the TOE data and the TSF data. The role of the authenticated entity is assigned after
the authentication has succeeded (in accordance with the requirements of FDP_ACC.1).
 “FIA_UID.1 Timing of identification” and “FIA_UAU.1 Timing of authentication” are intended to provide
a possibility to configure a publically-accessible container. The TOE provides access to such
specifically-configured containers based on the security attributes of the container. The container
must be configured, by the Administrator, with special attributes that allow the specified mode of
access before authentication.
 The TOE uses random numbers in the authentication mechanism to comply with the “FIA_UAU.4
Single-use authentication mechanisms” requirement; these numbers are generated by the random
number generator (FCS_RNG.1). The random numbers are generated anew each time the
authentication is started, according to the requirements of FDP_ACC.1, and are discarded each time
the TOE exits the authenticated state.
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 “FDP_ACC.1 Subset access control” and “FDP_ACF.1 Security attribute based access control” are
satisfied by providing an access-control mechanism based on the attributes of security containers.
The TOE grants access to the TOE data stored in the containers, based on the security attributes
during the authentication phase. If the correct security attributes are used during the authentication
for the requested mode of access to the specified container, the requested mode of access is
granted. The granularity of access control is based on a single mode of access and a single container.
A request for access may combine attributes for several containers and several modes of access in a
single request. The security attributes are assigned to the containers by the Administrator. The TOE
allows the Administrator to access the security attributes for configuration purposes, based on the
security attributes (in accordance with FMT_MSA.1 and FMT_SMR.1).
 "FMT_MOF.1 Management of security functions behaviour" provides an option to use a random ID
number during the anti-collision sequence between the TOE and CL_Term to prevent Card holder
from being tracked by unauthorised third party. The TOE allows the Administrator to enable or
disable the random ID function in accordance with FMT_SMF.1 and FMT_SMR.1)
 “FMT_MSA.1 Management of security attributes” and “FMT_SMF.1 Specification of Management
Functions“ are met by providing configuration capabilities accessible to the Administrator. The
configuration capabilities are granted based on the security attributes and allow the changing of
these security attributes to new values after successful authentication and privilege verification (in
accordance with FDP_ACC.1 and FMT_SMR.1).
 “FDP_SDI.2 Stored data integrity monitoring and action” is satisfied through the monitoring of user
data stored in secure containers for bit integrity errors. The TOE uses a cyclic redundancy check (CRC)
based on CRC-16-CCITT to verify the correctness of the stored data at each start-up and at each
access. If an error is detected, the TOE takes the appropriate action to ensure the security of the
data.
 “FPR_UNL.1 Unlinkability” is satisfied by using a random ID number during the anti-collision
sequence between the TOE and CL_Term. The TOE does not send its unique ID number, but
generates a new random ID number by the request from CL_Term and sends the random ID number
during anti-collision sequence. Therefore, the TOE can no longer be tracked by any unauthorised
third party simply by retrieving its ID number.
 “FTP_ITC.1 Inter-TSF trusted channel” requires the secure channel to be protected against attackers
with High attack potential – this is provided by the TOE using the AES algorithm, which is calculated
by the hardware, for encrypting and authenticating data that is sent or received through the link.
 “FRU_FLT.2 Limited fault tolerance” and “FPT_FLS.1 Failure with preservation of secure state” are
satisfied by a group of security measures that guarantee correct operation of the TOE.
The TOE ensures its correct operation and prevents any malfunction while the Security IC Embedded
Software is executed and utilizes standard functions offered by the micro-controller (standard CPU
instruction set including usage of standard peripherals such as memories, registers, I/O interfaces,
timers etc.) and of all other specific security functionality.
This is achieved through an appropriate design of the TOE and the implementation of filters for
high-frequency pulse, sensors/detectors for supplied voltage, frequency, temperature, light and glitch
signal, and address area monitoring and integrity monitoring. In case that any malfunction occurred or
may likely occur, the TOE stops operation or triggers system reset to preserve a secure state.
 “FDP_ITT.1 Basic internal transfer protection”, “FDP_IFC.1 Subset information flow control” and
“FPT_ITT.1 Basic internal TSF data transfer protection” are satisfied by implementing several
measures that provides logical protection against leakage. The TOE ensures the prevention of the
disclosure of user data or TSF data through the measurement of the power consumption,
electromagnetic emission or calculation time, and subsequent signal processing. This is achieved
through the measures to eliminate/limit the secret information contained in power consumption,
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electromagnetic emission or calculation time, and small-space implementation by advanced CMOS
process, and variable timing noise to randomly delay the critical operation.
 “FPT_PHP.3 Resistance to physical attack” and “FDP_SDC.1 Stored data confidentiality” are satisfied
by implementing security measures that provides physical protection against physical probing and
manipulation. The protection of the TOE is achieved through measures which comprise
passive/active shield, specific encryption for the memory blocks, data scrambling between the
blocks, glue logic layout of multiple blocks, sensor signal monitoring and address area monitoring. If
the physical manipulation or physical probing attack is detected, the TOE stops operation.
 “FMT_LIM.1 Limited capabilities“, “FMT_LIM.2 Limited availability” and “FAU_SAS.1 Audit storage” are
satisfied by implementing of a complicated test mode control mechanism that prevents abuse of
test functionality delivered as part of the TOE. The test functionality is not available to the user after
Phase 3 IC Manufacturing as defined in the Protection Profile [BSI-PP-0084]. The TOE has
complicated access control mechanisms in place to prevent using this functionality.
 “FCS_RNG.1 Random number generation” is satisfied by providing a random number generator. The
TOE contains the random number generator which comprises a physical noise source, total failure
tests and online quality test on this noise source and a deterministic random number generator
based on the AES algorithm. The seed data is input to the deterministic random number generator.
The random number generator passes the NIST test suite [SP800-22].
8.2 TOE architectural design summary
This section describes how the TOE protects itself against interference, logical tampering and bypass,
which are classified into established attacks in the smartcard. The TOE provides the countermeasures
against such attacks by the interaction of the underlying hardware platform and the software together
as follows:
 Physical attacks and overcoming sensors/filters
The hardware platform has countermeasures against physical attacks and overcoming
sensors/filters, which aim at disconnecting IC security features and accessing secret data by
extracting internal signals or deactivating the sensors. The protection of the TOE comprises a set of
countermeasures that are specifically described for FPT_PHP.3 and FDP_SDC.1 in the section 6.1.
 Perturbation attacks
The hardware platform and software have countermeasures against perturbation attacks, which
change the normal IC behaviour to create an exploitable error during operation. Such attacks
eventually aim to recover encryption keys, or change either the result of authentication or the
program flow. The countermeasure of hardware platform comprises a set of countermeasures that
are specifically described for FRU_FLT.2 and FPT_FLS.1 in the section 6.1. The software
countermeasure comprises elaborate checks for the protection of critical program flow and security
flags which are very difficult to manipulate to the attacker’s chosen value.
 Differential fault analysis attack
The hardware platform and software have countermeasures against differential fault analysis, which
aims at obtaining a secret data by comparing an error-free calculation and erroneous calculations.
The software countermeasure comprises an elaborate verification process to detect the
manipulation of various parameters, such as return value, data length and plain/cipher text. In
combination with software countermeasure, various sensors implemented in the hardware platform
make attack much harder.
 Exploitation attack of test function
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The hardware platform has countermeasures against abuse of IC test function, which might lead to
disclosure or corruption of memory content. The protection of the TOE comprises a set of
countermeasures that are specifically described for FMT_LIM.1, FMT_LIM.2 and FAU_SAS.1 in the
section 6.1.
 Side-channel attacks
The hardware platform has countermeasures against side-channel attacks, which aim at obtaining
secret data by exploiting information leaked through characteristic variations in the calculation time
and power consumption or electromagnetic emission. The protection of the TOE comprises a set of
countermeasures that are specifically described for FDP_ITT.1, FDP_IFC.1 and FPT_ITT.1 in the section
6.1.
 Attacks on RNG
The hardware and software have countermeasures against attacks on RNG, which aims at predicting
the output of the RNG. The countermeasure of hardware platform comprises a set of
countermeasures that are specifically described for FCS_RNG.1 in the section 6.1. The software
countermeasure comprises elaborate program flow checks for ensuring the complete operation of
deterministic random number generator.
 Software attacks
o Replay attacks
The software has countermeasures against replay attack. The countermeasure against replay
attack comprises using sequence numbers with integrity protection by the message
authentication code, which making the reuse of recorded valid messages much harder.
o Bypass authentication or access control
The software has countermeasures against bypass attack. The bypass protection of
authentication and access control comprises the command verification process, which does not
accept commands that contain invalid command code and which prevents the execution of
“unexpected” commands in the current authentication mode. The bypass protection of the
secure channel includes the message authentication code, which rejects fake encrypted data.
o Direct protocol attacks
The software has countermeasures against direct protocol attack. An example of a direct
protocol attack is an “unexpected” power off. The protection of the TOE includes the anti-tearing
and rollback mechanism to ensure that the data in Flash memory is not corrupted. Whenever the
power is switched off and a piece of data has been written to Flash memory only partially, the
anti-tearing and rollback mechanism restores the previous state of Flash memory.
o Editing commands
The software has countermeasures against editing command attack. The countermeasure
against editing command comprises the command verification process, which accepts only valid
command.
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9 Glossary and references
This chapter explains the terms, definitions and literary references (bibliography) used in this document.
The list entries in this chapter are ordered alphabetically.
9.1 Terms and definitions
The following list defines the product-specific terms used in this document:
Administrator
The entity responsible for personalisation of the TOE. In most cases, this is a representative of a
Service Provider. Synonymous with Personaliser. See also User.
Area
A part of the FeliCa file system. An area is similar to a directory in a general file system.
Card holder
A person who uses User Service.
Contact card reader (CT_Term)
A contact smartcard Reader/Writer that interacts with the TOE.
Contactless card reader (CL_Term)
A contactless smartcard Reader/Writer that interacts with the TOE.
FeliCa file system
The structure of data in the TOE.
FeliCa Service
The part of the FeliCa file system that contains information that stipulates the method of access
to data. In this context, a service is similar to a file in a general file system.
Personaliser
See Administrator.
Service Provider
An entity that provides a specific service to a User.
User
For this product, an entity using any FeliCa Service that a personalised TOE offers. See also
Administrator.
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User Service
A specific service to a Card holder that is made technically possible by the TOE. Each User Service
is provided by a Service Provider to a Card holder. An example of a User Service is a virtual train
ticket or an electronic purse.
9.2 Acronyms
The following table lists and defines the product-specific abbreviated terms (acronyms) that appear in
this document:
Table 29: Abbreviated terms and definitions
Term Definition
ACL Access Control List
APDU Application Protocol Data Unit
ID Identification
OS Operating System
PP Protection Profile
RF Radio Frequency
SAR Security Assurance Requirement
SFR Security Functional Requirement
ST Security Target
TOE Target of Evaluation
TSF TOE Security Functions
9.3 Bibliography
The following list defines the literature referenced in this document:
[AAPS] “Common Criteria Supporting Document Mandatory Technical Document Application of
Attack Potential to Smartcards”, Version 2.7, Revision 1, March 2009
[BSI-PP-0084] "Security IC Platform Protection Profile with Augmentation Packages", Version 1.0,
January 2014
[CC] "Common Criteria for Information Technology Security Evaluation", Version 3.1
(composed of Parts1-3, [CC Part 1], [CC Part 2], and [CC Part 3])
[CC Part 1] "Common Criteria for Information Technology Security Evaluation – Part 1: Introduction
and general model", Version 3.1, Revision 4, September 2012
[CC Part 2] "Common Criteria for Information Technology Security Evaluation – Part 2: Security
functional components", Version 3.1, Revision 4, September 2012
[CC Part 3] "Common Criteria for Information Technology Security Evaluation – Part 3: Security
assurance components", Version 3.1, Revision 4, September 2012
Sony Corporation
Security Target RC-SA08/1 and RC-SA08/2
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Methodology", Version 3.1, Revision 4, September 2012
[CCDB-COMP] Composite product evaluation for Smart Cards and similar devices v.1.2, April 2012
(CCDB-2012-04-001)
[ISO 18092] "Information technology – Telecommunications and information exchange between
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Cryptographic Applications”, NIST Special Publication 800-22, Revision 1a, April 2010
[ST-HW] "ST31G480 A02 platform Security Target for Composition, Revision A02.4, June 2016"
Multi-Interface Smart Card IC
Security Target RC-SA08/1 and RC-SA08/2 Version 1.51
Version 1.51: June 2017
Sony Corporation
No. A08-STP-E01-51
© 2017 Sony Corporation Printed in Japan