<HTML>

<HEAD>

   <META HTTP-EQUIV="Content-Type" CONTENT="text/html; charset=iso-8859-1">

   <META NAME="GENERATOR" CONTENT="Mozilla/4.02 [en] (Win95; U) [Netscape]">

   <TITLE>Derived Test Requirements for FIPS 140-1 (Part 2 of 3)</TITLE>

</HEAD>

<BODY BACKGROUND="../yellow_p.gif">



<CENTER>

<H2>

National Institute of Standards and Technology</H2></CENTER>



<HR SIZE=4 WIDTH=75%>

<CENTER>

<H3>

Derived Test Requirements<BR>

for FIPS PUB 140-1,<BR>

<I>Security Requirements for Cryptographic Modules</I></H3></CENTER>



<HR SIZE=4 WIDTH=20%>



<H2><CENTER>PART 2<BR>

<EM>(Sections 5-7)</EM></CENTER></H2>



<CENTER><B>March 1995</B></CENTER>



<CENTER><B>Final</B></CENTER>



<H4>

<A HREF="140test1.htm">Part 1 (sections 1-4)</A></H4>



<H4>

<A HREF="140test3.htm">Part 3 (sections 8-11)</A></H4>



<H4>

<A HREF="140testA.htm">Appendix A</A></H4>



<HR SIZE=4 WIDTH=75%>



<H2>

<A NAME="sec5"></A>5. PHYSICAL SECURITY</H2>

<A NAME="as0501"></A><B>AS05.01: Documentation shall include a complete

specification of the physical embodiment and security level for which the

physical security mechanisms of a cryptographic module are designed, as

well as a complete description of the applicable security mechanisms that

are employed by the module. (1, 2, 3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve050101"></A><B>VE05.01.01</B>: The vendor documentation shall

specify which one of three physical embodiments the module is: single-chip

cryptographic module, multiple-chip embedded cryptographic module, or multiple-chip

stand-alone cryptographic module, as defined in the initial paragraphs

of sections 4.5.1, 4.5.2, or 4.5.3, respectively, of FIPS PUB 140-1. The

specified physical embodiment shall be consistent with the actual module

physical design. The vendor documentation shall also explicitly state which

security level (1 through 4) the module is intended to meet.</LI>





<P>&nbsp;

<LI>

<A NAME="ve050102"></A><B>VE05.01.02</B>: The vendor documentation shall

completely describe the applicable physical security mechanisms that are

employed by the module. The entire contents of the module, including all

hardware, firmware, software, and data (including plaintext cryptographic

keys and unprotected critical security parameters) shall be protected.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te050101"></A><B>TE05.01.01</B>: The tester shall verify that

the vendor documentation specifies which physical embodiment the module

is. However, the tester shall make an independent determination, by evaluation

against the definitions below, of the physical embodiment that the module

actually meets. If the tester's determined physical embodiment is different

than the vendor's specified physical embodiment, the tester shall contact

the vendor and resolve the differences before completing the validation.

The tester shall utilize the module definition required under the requirements

of section 1, along with any other appropriate vendor documentation, to

determine the physical embodiment of the module. The fundamental determining

characteristics of the three physical embodiments and some common examples

are summarized below.</LI>





<P>&nbsp;

<OL>

<LI>

Single-chip cryptographic module. Characteristics: A single integrated

circuit (IC) chip, used as a stand-alone device or physically embedded

within some other module or enclosure that may not be physically protected.

The chip normally will consist of one die, or multiple dice connected on

a substrate, that is covered with a uniform external material such as plastic

or ceramic, and external input/output connectors. Examples: Single IC chips,

smart cards with a single IC chip, or other systems with a single IC chip

to implement cryptographic functions.</LI>



<LI>

Multiple-chip embedded cryptographic module. Characteristics: Two or more

IC chips interconnected and physically embedded within some other module

or enclosure that may not be physically protected. Examples: Adapters,

expansion boards or other modules that are not single chips and are not

contained within their own physically protected enclosures.</LI>



<LI>

Multiple-chip stand-alone cryptographic module. Characteristics: Two or

more IC chips interconnected and physically embedded in an enclosure that

is entirely physically protected as defined in the requirements for the

applicable security level. Examples: An IC-printed circuit board or chips

on a ceramic substrate with a protected enclosure.</LI>

</OL>



<LI>

<A NAME="te050102"></A><B>TE05.01.02</B>: The tester shall verify that

the vendor documentation states which security level the module is intended

to meet. However, the tester shall make an independent determination, via

evaluation against the requirements of this section of the validation process,

of the security level that the module actually meets. If the tester's determined

security level is obviously different than the vendor's intended security

level, the tester shall contact the vendor and resolve the differences

before completing the validation.</LI>





<P>&nbsp;

<LI>

<A NAME="te050103"></A><B>TE05.01.03</B>: The tester shall verify that

the vendor documentation completely describes the applicable physical security

mechanisms that are employed by the module. The physical security mechanisms

may include any of the following list that depend on and determine the

physical embodiment and the security level met by the module:</LI>





<P>&nbsp;

<OL>

<LI>

Passivation</LI>



<LI>

Coating or potting that may be opaque, hard, tamper-evident, removal-resistant,

or a combination of the above characteristics</LI>



<LI>

Enclosure that may be nonremovable or have removable covers or doors</LI>



<LI>

Tamper protection (locks, seals, tamper detection, or tamper response)</LI>



<LI>

Probe-protected ventilation holes</LI>



<LI>

Environmental failure protection or environmental failure testing</LI>

</OL>

The tester shall verify in each case claimed above, and in the analyses

that follow from the validation requirements below, that the entire module

is physically protected. For example, passivation must apply to all ICs

in the module; a coating, enclosure or tamper protection must protect the

entire module; etc. This requirement specifically includes all hardware

containing firmware, software, and data (including plaintext cryptographic

keys and unprotected critical security parameters).



<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0502"></A><B>AS05.02: For a single-chip cryptographic module

at security level 1 or higher, the chip shall be of production quality

that shall include standard passivation techniques. Single-chip; 1, 2,

3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve050201"></A><B>VE05.02.01</B>: The module shall be a standard,

production-quality IC, designed to meet at least typical commercial-grade

specifications for power, temperature, reliability, shock/vibration, etc.

In particular, the module shall use standard passivation techniques for

the entire chip. The vendor documentation shall describe the IC quality.

If an ICs is used which is not a standard device, its passivation design

shall also be described.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te050201"></A><B>TE05.02.01</B>: The tester shall verify by inspection

that the module is a standard, integrated circuit with a uniform, exterior

material and standard connectors. The tester shall verify from vendor documentation

that the module is at least typical commercial grade in regard to reliability

and shock and vibration. This documentation may consist of data sheets,

special documentation submitted for this validation effort, comparisons

to other physically similar commercial products, etc. If the tester cannot

determine the module's quality from the submitted documentation, the vendor

shall be required to provide additional information as needed.</LI>





<P>&nbsp;

<LI>

<A NAME="te050202"></A><B>TE05.02.02</B>: The tester shall verify from

vendor documentation that the module has a standard passivation applied

to it. The passivation must be a sealing coat applied over the chip circuitry

to protect it against environmental or other physical damage. It is sufficient

for the documentation to show that the IC is an industry-standard part

from an established manufacturer. If this is not true, the documentation

must specify the exact passivation material and technique used; and if

it is not a standard passivation, then must also provide information to

indicate why it is at least equivalent to a standard passivation approach.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0503"></A><B>AS05.03: For a single-chip cryptographic module

at security level 2 or higher, the chip shall be covered with an opaque,

tamper-evident coating. (Single-chip; 2, 3, and 4)</B>



<P><I>(Relevant Guidance:&nbsp;&nbsp; <A HREF="1401ig-3.htm#5tampev34">5.4</A>

,&nbsp; )</I>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve050301"></A><B>VE05.03.01</B>: The module shall be covered with

an opaque tamper-evident coating. The coating may be either the passivation

material or a material covering the passivation. The material shall be

opaque within the visible spectrum. The vendor documentation shall identify

the kind of opaque tamper-evident coating and its characteristics.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te050301"></A><B>TE05.03.01</B>: The tester shall verify by inspection

and from vendor documentation that the module is covered with an opaque,

tamper-evident coating. The inspection shall verify that the tamper-evident

coating completely covers the module; is visibly opaque when inspected

with bright white light shining on and (if possible) against it; and deters

direct observation, probing, or manipulation of the surface features of

the chip. The tester shall verify, by scratching the coating with a sharp

object, that it leaves marks that make it obvious the module has been tampered

with.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0504"></A><B>AS05.04: For a single-chip cryptographic module

at security level 3 or higher, a hard, opaque tamper-evident coating shall

be used. (Single-chip; 3 and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve050401"></A><B>VE05.04.01</B>: The module shall be covered with

a hard, opaque tamper-evident coating. The coating may be a hard, opaque

epoxy covering the passivation, or another type of coating providing an

equivalent level of protection. The material shall be opaque within the

visible spectrum. The vendor documentation shall identify the kind of hard,

opaque, tamper-evident coating used and its characteristics.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te050401"></A><B>TE05.04.01</B>: The tester shall verify by inspection

and from vendor documentation that the module is covered with a hard opaque

tamper evident coating. The documentation should specify exactly which

coating is used; if it is not hard epoxy, then supporting documentation

on its hardness should be provided to show that it is roughly equivalent

to epoxy. The tester shall verify, by scratching the coating with a sharp

object, that it cannot be easily penetrated to the depth of the underlying

circuitry, and that it leaves marks that make it obvious the module has

been tampered with. The inspection must verify that the coating completely

covers the module, is visibly opaque when inspected with bright, white

light shining on and (if possible) against it, and deters direct observation,

probing, or manipulation of the surface features of the chip. (Portions

of this verification may already have been performed at level 2 in TE05.03.01.)</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0505"></A><B>AS05.05: For a single-chip cryptographic module

at security level 4, a hard, opaque removal-resistant coating shall be

used. (Single-chip; 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve050501"></A><B>VE05.05.01</B>: The module shall be covered with

a hard, opaque removal-resistant coating. The hardness and adhesion characteristics

of the material shall be such that attempting to peel or pry the material

from the module will have a high probability of resulting in serious damage

to the module (i.e., the module does not function). The solvency characteristics

of the material shall be such that dissolving the material to remove it

will have a high probability of dissolving or seriously damaging the module.

The material shall be opaque within the visible spectrum. The vendor documentation

shall identify the kind of coating used and its characteristics.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te050501"></A><B>TE05.05.01</B>: The tester shall verify by inspection

and from vendor documentation that the module is covered with a hard, opaque

removal-resistant coating. The documentation should specify exactly which

coating is used and provide supporting data on its hardness and removal

resistance. The tester shall verify, by scratching the coating with a sharp

object, that it cannot be easily penetrated to the depth of the underlying

circuitry, and [that it leaves marks that make it obvious the module has

been tampered with. The inspection must verify that the coating completely

covers the module and is visibly opaque when inspected with bright white

light shining on and (if possible) against it. (Portions of this verification

may already have been performed at level 2 or 3 in TE05.03.01 or TE05.04.01.)</LI>



<LI>

<A NAME="te050502"></A><B>TE05.05.02</B>: The tester shall verify the removal-resistant

properties of the module coating. The tester can obtain the information

to perform this verification in one or both of the following two ways:</LI>



<OL>

<LI>

By supervising tests at a vendor facility</LI>



<LI>

By performing tests at the tester's own facility</LI>

</OL>

Whichever approach is chosen, the tester shall verify that all of the following

tests were performed or reported, to the extent possible:



<P>&nbsp;

<OL TYPE=A>

<LI>

The tester (tester or vendor) setup the module in an operational state

and verified that it was performing normally.</LI>



<LI>

The tester then attempted to peel or pry the material from the module with

a sharp object to expose the underlying circuitry, and verified that this

was impossible with a reasonable application of force, or that the module

ceased to function (e.g., ceased to provide normal output, entered a non-operational

state, or provided other clear evidence of failure as appropriate), or

that the module circuitry was obviously physically destroyed.</LI>



<LI>

The solvency characteristics were tested similarly, using the application

of a strong acid (such as buffered hydrofluoric acid or nitric acid) in

place of peeling or prying.</LI>

</OL>

</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0506"></A><B>AS05.06: For a single-chip cryptographic module

at security level 4, the module shall either include environmental failure

protection (EFP) features or undergo environmental failure testing (EFT).

(Single-chip; 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve050601"></A><B>VE05.06.01</B>: The vendor shall use either of

the following:</LI>





<P>&nbsp;

<OL>

<LI>

EFP features</LI>



<LI>

EFT</LI>

</OL>

as specified in section 4.5.4 of FIPS PUB 140-1, to ensure that the following

four unusual environmental conditions or fluctuations (accidental or induced)

outside of the module's normal operation range will not compromise the

security of the module:



<P>&nbsp;

<OL TYPE=A>

<LI>

Low temperature</LI>



<LI>

High temperature</LI>



<LI>

Large negative voltage</LI>



<LI>

Large positive voltage</LI>

</OL>

The vendor must choose to use EFP or EFT for each condition, but each choice

is independent of the choices for the other conditions. The vendor shall

provide corresponding supporting EFP/EFT documentation for each condition,

specifying how the selected approach is used.



<P>&nbsp;

<LI>

<A NAME="ve050602"></A><B>VE05.06.02</B>: If EFP is chosen for a particular

condition, the module shall monitor and correctly respond to fluctuations

in the operating temperature or voltage, as appropriate, outside of the

module's specified normal operating range for that condition. The protection

features shall involve additional electronic circuitry or devices that

shall continuously measure these environmental conditions. If a condition

is determined to be outside of the module's normal operating range, the

protection circuitry shall either:</LI>





<P>&nbsp;

<OL>

<LI>

Shut down the module</LI>



<LI>

Immediately actively zeroize all plaintext cryptographic keys and other

unprotected critical security parameters</LI>

</OL>

Documentation shall state which of these approaches was chosen and provide

a complete specification and description of the environmental failure protection

features employed within the module.

<LI>

<A NAME="ve050603"></A><B>VE05.06.03</B>: If EFT is chosen for a particular

condition, the manufacturer of the module (or an organization designated

by the manufacturer/vendor) shall perform required testing, involving a

combination of analysis, simulation, and testing of the module as necessary

to give a reasonable guarantee that the condition outside the module's

normal operating range will not compromise the security of the module.

The tests to be performed shall be as specified in section 4.5.4.2 of FIPS

PUB 140-1. The manufacturer shall provide documentation that completely

specifies the nature of the environmental failure tests performed and the

results of those tests.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te050601"></A><B>TE05.06.01</B>: If EFP is chosen for a particular

condition, the tester shall determine by test that the requirements are

met. The tester can obtain the information to perform this verification

in one or both of the following two ways:</LI>





<P>&nbsp;

<OL>

<LI>

By supervising tests at a vendor facility</LI>



<LI>

By performing tests at the tester's own facility</LI>

</OL>

Whichever approach is chosen, the tester shall verify that all of the following

tests were performed or reported, to the extent possible:



<P>&nbsp;

<OL TYPE=A>

<LI>

The tester (tester or vendor) setup the module in an operational state,

brought the environmental condition (either ambient temperature, using

an environmental chamber if necessary, or supply voltage) close to the

appropriate extreme of the normal operating range specified for the module,

and verified that the module was performing normally.</LI>



<LI>

The tester then continuously extended the temperature or voltage outside

of the specified range, and determined that the module quickly either shut

down (e.g., powered down or ceased to provide any output) or else zeroized

the keys and other critical security parameters. (Zeroization is defined

in TE02.07.02.)</LI>



<LI>

The tester noted if any outputs indicated possible security problems with

the module (e.g., sensitive data being outputted inappropriately, a failure

to report key zeroization when expected, etc.).</LI>



<LI>

If the vendor chose to zeroize the module and it was still operational

after returning to the normal environmental range, the tester attempted

to perform normal operations that required keys and verified that the module

no longer performed these functions.</LI>

</OL>



<LI>

<A NAME="te050602"></A><B>TE05.06.02</B>: If EFT is chosen for a particular

condition, the tester shall review the test reports provided by the vendor

to determine that the requirements are met. The tester shall verify that

the vendor test report included approximately the following types of test,

to the extent possible:</LI>





<P>&nbsp;

<OL>

<LI>

The tester set up the module in an operational state, brought the environmental

condition (ambient temperature, using an environmental chamber if necessary,

or supply voltage) close to the appropriate extreme of the normal operating

range specified for the module, and verified that the module was performing

normally.</LI>



<LI>

The tester then continuously extended the temperature or voltage outside

of the specified operating range, ultimately to the limits required in

FIPS PUB 140-030-1 (for temperature, - 100&deg; C or + 200&deg; C; for

voltage, until the module showed evidence of circuit destruction). Evidence

of circuit breakdown could include the failure of output lines to provide

expected data, a loss of power on interfaces, etc.</LI>



<LI>

The tester noted if any outputs indicated possible security problems with

the module, in particular keys or sensitive data being outputted inappropriately,

but also inappropriate status reports such as a failure to report key zeroization

when expected, etc. If suspicious activity was noted, the tester analyzed

the information to determine if, in fact, there was a compromise of security

functions. To the extent practical, all critical output lines that might

reasonably be expected to malfunction under abnormal conditions were monitored

for possible evidence of security compromise.</LI>

</OL>

</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0507"></A><B>AS05.07: For a multiple-chip, embedded cryptographic

module at security level 1 or higher, the chips in the module shall be

of production quality that shall include standard passivation techniques.

(Multiple-chip embedded; 1, 2, 3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve050701"></A><B>VE05.07.01</B>: The chips in the multiple-chip

embedded module shall be standard production-quality ICs, designed to meet

at least typical, commercial-grade specifications for power, temperature,

reliability, shock/vibration, etc. In particular, the module shall use

standard passivation techniques for the each chip. The vendor documentation

shall describe the IC's quality. If any ICs are used which are not standard

devices, their passivation design shall also be described.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te050701"></A><B>TE05.07.01</B>: The tester shall verify by inspection,

or from vendor documentation, that the module contains standard integrated

circuits with a uniform exterior material and standard connectors. The

tester shall verify from vendor documentation that the chips in the module

are at least typical commercial grade in regards to power and voltage ranges,

temperature, reliability, and shock and vibration. This documentation may

consist of data sheets, special documentation submitted for this validation

effort, comparisons to other physically similar products, etc. If the tester

cannot determine the chip's quality from the submitted documentation, the

vendor shall be required to provide additional information as needed.</LI>





<P>&nbsp;

<LI>

<A NAME="te050702"></A><B>TE05.07.02</B>: The tester shall verify from

vendor documentation that the chips in the module have a standard passivation

applied to them. The passivation must be a sealing coat applied over the

chip circuitry to protect it against environmental or other physical damage.

It is sufficient for the documentation to show that chips are industry-standard

parts from established manufacturers. If this is not true, the documentation

must specify the exact passivation material and technique used; and if

it is not a standard passivation, then must also provide information to

indicate why it is at least equivalent to a standard passivation approach.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0508"></A><B>AS05.08: For a multiple-chip, embedded cryptographic

module at security level 1 or higher, the module shall be implemented as

a production-grade multiple-chip embodiment. (Multiple-chip embedded; 1,

2, 3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve050801"></A><B>VE05.08.01</B>: The module shall be implemented

as a typical production-grade, multiple-chip device, such as an IC printed

circuit board or ICs on a ceramic substrate. The vendor documentation shall

describe the production implementation of the module.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te050801"></A><B>TE05.08.01</B>: The tester shall verify by inspection

and from vendor documentation that the module has been implemented as a

standard multiple-chip design, such as a circuit board, a multi-chip ceramic-substrate

module, or a functionally-equivalent multi-chip design. The vendor must

either specify a typical industry-standard design approach that was used;

or if a unique approach is used, the vendor must provide design-and-test-data

that shows that the module is equivalent in quality and function to a more

traditional approach.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0509"></A><B>AS05.09: For a multiple-chip, embedded cryptographic

module at security level 2 or higher, the module shall be encapsulated

with an opaque, tamper-evident material. (Multiple-chip embedded; 2, 3,

and 4)</B>



<P><I>(Relevant Guidance:&nbsp;&nbsp; <A HREF="1401ig-3.htm#5coating">5.1</A>

, <A HREF="1401ig-3.htm#5tamplogint">5.2</A> , <A HREF="1401ig-3.htm#5embtamp">5.3</A>

, <A HREF="1401ig-3.htm#5tampev34">5.4</A>&nbsp; )</I>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve050901"></A><B>VE05.09.01</B>: The module shall be encapsulated

with an opaque, tamper-evident coating such as conformal coating or bleeding

paint. The material shall be opaque within the visible spectrum. The vendor

documentation shall identify the kind of opaque tamper-evident coating

and its characteristics.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te050901"></A><B>TE05.09.01</B>: The tester shall verify by inspection

and from vendor documentation that the module is encapsulated with an opaque,

tamper-evident material. The inspection shall verify that the tamper-evident

material completely covers the module and is visibly opaque when inspected

with bright white light shining on and (if possible) against it; furthermore,

by scratching the tamper-resistant material with a sharp object, thereby

producing marks, the tester shall verify that the module provides evidence

of attempts to tamper with or remove module components.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0510"></A><B>AS05.10: For a multiple-chip, embedded cryptographic

module at security level 3 or higher, one of the following three requirements

shall apply to the module: (Multiple-chip embedded; 3 or 4)</B>



<P><B>&nbsp;</B>

<UL TYPE=CIRCLE>

<LI>

<B>A hard opaque potting material shall be used.</B></LI>



<LI>

<B>The module shall be contained within a strong non-removable enclosure.</B></LI>



<LI>

<B>The module shall be enclosed within a strong removable cover and shall

include tamper response and zeroization circuitry.</B></LI>

</UL>

<I>(Relevant Guidance:&nbsp; <A HREF="1401ig-3.htm#5keyloader">5.6</A>

, <A HREF="1401ig-3.htm#5tamprespzero">5.7</A>&nbsp; )</I>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve051001"></A><B>VE05.10.01</B>: The vendor documentation shall

state which of the three approaches specified in AS05.10 are used to meet

the requirement, and provide supporting detailed design information. Depending

on this choice, the corresponding vendor requirement (one of the following,

respectively) must be met:</LI>





<P>&nbsp;

<OL>

<LI>

The multi-chip circuitry of the module shall be completely covered with

a hard, opaque potting material. The potting material may be a hard, opaque

epoxy, or another type of material providing an equivalent level of protection.

The material shall be opaque within the visible spectrum.</LI>



<LI>

The module shall be entirely contained within a strong nonremovable enclosure.

The enclosure shall be designed such that attempts to remove or penetrate

it will have a high probability of causing serious damage to the module

(i.e., the module does not function).</LI>



<LI>

The module shall be entirely enclosed within a strong removable cover and

shall include tamper response and zeroization circuitry. The circuitry

shall continuously monitor the cover, and upon the removal of the cover,

shall immediately actively zeroize all plaintext cryptographic keys and

other unprotected critical security parameters. The circuitry shall be

operational whenever plaintext cryptographic keys, or other unprotected

critical security parameters, are contained within the module.</LI>

</OL>

</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te051001"></A><B>TE05.10.01</B>: The tester shall verify that

the vendor documentation specifies which requirements option in VE05.10.01

is to be met, and provides any necessary supporting documentation with

details of the design approach. If this is not true, the tester shall obtain

the necessary information from the vendor before proceeding with the validation.

Depending on the requirement option chosen by the vendor, one of the following

three tester requirements (TE05.10.02 through TE05.10.04) shall also be

verified.</LI>





<P>&nbsp;

<LI>

<A NAME="te051002"></A><B>TE05.10.02</B>: Option 1: Utilize a hard, opaque

potting material. The tester shall verify by inspection and from vendor

documentation that the module is covered with a hard opaque potting material.

The documentation should specify exactly which potting material is used;

if it is not hard epoxy, then supporting documentation should be provided

to show that its hardness is roughly equivalent to epoxy. The tester shall

verify, by scratching the potting material with a sharp object, that it

can not be easily penetrated to the depth of the underlying circuitry.

The tester must verify that the potting material completely covers the

module and is visibly opaque when inspected with bright white light shining

on and (if possible) against it. (Portions of this verification may already

have been performed at level 2 in TE05.09.01.)</LI>





<P>&nbsp;

<LI>

<A NAME="te051003"></A><B>TE05.10.03</B>: Option 2: Utilize a strong, nonremovable

enclosure. The tester shall verify the strength and nonremovable properties

of the module enclosure by inspection and from vendor documentation. The

tester shall also determine by test that this requirement is met. This

can be verified in one or both of the following two ways:</LI>





<P>&nbsp;

<OL>

<LI>

By supervising tests at a vendor facility</LI>



<LI>

By performing tests at the tester's own facility</LI>

</OL>

Whichever approach is chosen, the tester shall verify that all of the following

tests were performed or reported, to the extent possible: The tester (tester

or vendor) set up the module in an operational state, and verified that

it is performing normally. The tester then attempted to pry the enclosure

from the module with a sharp object and to damage it via the manual application

of force with a sharp object, to expose the underlying circuitry. The tester

verified that this is impossible with a reasonable application of force,

or that the module ceased to function (e.g., ceased to provide normal output,

entered a non-operational state, or provided other clear evidence of failure

as appropriate), or that the module circuitry was obviously physically

destroyed.



<P>&nbsp;

<LI>

<A NAME="te051004"></A><B>TE05.10.04</B>: Option 3: Utilize a strong removable

cover with tamper response/zeroization. The tester shall verify from vendor

design data that the module includes arrangements to zeroize all critical

security parameters described in VE05.10.01 when the cover is removed,

for example using tamper switches, motion detectors, etc. (Zeroization

is defined in TE02.07.02.) The tester shall determine the strength of the

cover by attempting to damage it via the manual application of force with

a sharp object and verifying that the cover is not easily breached. The

tester shall then set up the module in an operational state that requires

intact crypto-variables and verify that it is performing normally. The

tester shall remove the cover and verify that the module immediately ceases

to function (e.g., ceases to provide normal output, enters a non-operational

state, or provides other clear evidence of operational failure as appropriate).

The tester shall then replace the cover, obtain a status report if the

module has that capability, and determine that the module no longer contains

critical security material and does not function until reset or rekeyed.</LI>





<P>&nbsp;If the module can retain critical security parameters while powered

down or deactivated, the tester shall verify that a deactivated module

is tamper-protected: The tester shall load critical security parameters,

deactivate the module, and remove a cover. The tester shall then replace

the cover, reactivate the module if possible, and determine that it no

longer contains critical security material. The tester shall also verify

from vendor documentation that the module would retain power to zeroize

after deactivation for the maximum time commensurate with its operational

use.



<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0511"></A><B>AS05.11: For a multiple-chip embedded cryptographic

module at security level 3 or higher, if the module has any ventilation

openings, they shall be constructed to prevent undetected probing. (Multiple-chip

embedded; 3 or 4)</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve051101"></A><B>VE05.11.01</B>: If the module is contained within

a cover or enclosure and if the cover or enclosure contains any ventilation

holes or slits, then they shall be small and constructed in a manner that

prevents undetected physical probing inside the enclosure. The vendor documentation

shall describe the ventilation physical design approach.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te051101"></A><B>TE05.11.01</B>: The tester shall verify by inspection

and from vendor documentation whether the module has a cover or enclosure

with ventilation holes, slits, or other openings, and if so, whether they

are constructed to deter undetected probing inside the cover/enclosure.

Any openings must be small (normally no more than about 1/16" wide at any

point) and designed to make direct linear access to the interior impossible.

Suitable mechanical design approaches could include placing at least one

90 degree bend in each ventilation path, placing a substantial blocking

material slightly behind the opening, use of a strong mesh or grille behind

the opening, or similar blocking techniques. Ventilation openings and any

blocking material must either be strong enough to resist attempts to force

access to the interior, or be constructed such that forced access would

require obvious damage visible from the exterior.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0512"></A><B>AS05.12: For a multiple-chip, embedded cryptographic

module at security level 4, the module shall be contained within a tamper

detection envelope. (Multiple-chip embedded; 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve051201"></A><B>VE05.12.01</B>: The contents of the module shall

be completely contained within a tamper detection envelope that will detect

tampering attacks against the potting material or cover. The vendor documentation

shall describe the tamper detection envelope design.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te051201"></A><B>TE05.12.01</B>: The tester shall verify from

vendor design data and by inspection that the module contains a tamper

detection envelope that forms a barrier completely surrounding the module

components. This barrier must be designed such that any breach of it by

means such as drilling, milling, grinding, or dissolving to access the

module components inside can be detected by monitoring components in the

module. Suitable tamper-detection envelope design techniques could include

use of a flexible mylar printed circuit with a serpentine geometric pattern

of conductors, a wire-wound package, a nonflexible brittle circuit, or

equivalent techniques, any of which would cause a detectable change (e.g.,

an open circuit) upon breaching. (TE05.13.01 contains related requirements

for tamper response.)</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0513"></A><B>AS05.13: For a multiple-chip, embedded cryptographic

module at security level 4, the module shall contain tamper response and

zeroization circuitry. (Multiple-chip embedded; 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve051301"></A><B>VE05.13.01</B>: The module shall contain tamper

response and zeroization circuitry that continuously monitors the tamper

detection envelope for tampering, and upon the detection of tampering,

shall immediately actively zeroize all plaintext cryptographic keys and

other unprotected critical security parameters. The circuitry shall be

operational whenever plaintext cryptographic keys, or other unprotected

critical security parameters, are contained within the module. The vendor

documentation shall describe the tamper response and zeroization design.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te051301"></A><B>TE05.13.01</B>: The tester shall verify from

vendor design data that the module contains tamper response and zeroization

circuitry that must continuously monitor the tamper detection envelope

(refer to TE05.12.01); detect any breaches by means such as drilling, milling,

grinding or dissolving any portion of the envelope; and then immediately

zeroize all critical security parameters described in VE05.13.01. (Zeroization

is defined in TE02.07.02.) The tester shall also determine by test that

this requirement is met. This can be verified in one or both of the following

two ways:</LI>



<OL>

<LI>

By supervising tests at a vendor facility</LI>



<LI>

By performing tests at the tester's own facility.</LI>

</OL>

Whichever approach is chosen, the tester shall verify that all of the following

tests were performed or reported, to the extent possible:

<OL TYPE=A>

<LI>

The tester (tester or vendor) set up the module in an operational state

that required intact crypto-variables and verified that it was performing

normally.</LI>



<LI>

The tester then breached the tamper-detection envelope barrier by any convenient

means, and verified that the module immediately ceased to function (e.g.,

ceased to provide normal output, entered a non-operational state, or provided

other clear evidence of operational failure as appropriate).</LI>



<LI>

The tester also noted if the module reported a key zeroization or other

failure at this point (if it has that capability).</LI>



<LI>

If the module can retain critical security parameters while deactivated:

the tester loaded critical security parameters, deactivated the module,

breached the tamper-detection envelope, reactivated the module if possible,

and determined that it no longer contained critical security material.

The tester also verified from vendor documentation that the module would

retain power to zeroize after deactivatation for the maximum time commensurate

with its operational use.</LI>

</OL>

</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0514"></A><B>AS05.14: For a multiple-chip, embedded cryptographic

module at security level 4, the module shall either include environmental

failure protection (EFP) features or undergo environmental failure testing

(EFT). (Multiple-chip embedded; 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve051401"></A><B>VE05.14.01</B>: (This requirement is identical

to VE05.06.01.)</LI>





<P>&nbsp;

<LI>

<A NAME="ve051402"></A><B>VE05.14.02</B>: (This requirement is identical

to VE05.06.02.)</LI>





<P>&nbsp;

<LI>

<A NAME="ve051403"></A><B>VE05.14.03</B>: (This requirement is identical

to VE05.06.03.)</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te051401"></A><B>TE05.14.01</B>: (This requirement is identical

to TE05.06.01.)</LI>





<P>&nbsp;

<LI>

<A NAME="te051402"></A><B>TE05.14.02</B>: (This requirement is identical

to TE05.06.02.)</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0515"></A><B>AS05.15: For a multiple-chip, stand-alone cryptographic

module at security level 1 or higher, the chips in the module shall be

of production quality that shall include standard passivation techniques.

(Multiple-chip stand-alone; 1, 2, 3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve051501"></A><B>VE05.15.01</B>: The chips in the multiple-chip,

stand-alone module shall be standard production quality ICs, designed to

meet at least typical commercial-grade specifications for power, temperature,

reliability, shock/vibration, etc. In particular, the module shall use

standard passivation techniques for the each chip. The vendor documentation

shall describe the IC's quality. If any ICs are used which are not standard

devices, their passivation design shall also be described.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te051501"></A><B>TE05.15.01</B>: The tester shall verify by inspection

or from vendor documentation that the module contains standard integrated

circuits with a uniform exterior material and standard connectors. The

tester shall verify from vendor documentation that the chips in the module

are at least typical commercial grade in regards to power and voltage ranges,

temperature, reliability, and shock and vibration. This documentation may

consist of data sheets, special documentation submitted for this validation

effort, comparisons to other physically similar products, etc. If the tester

can not determine the chip's quality from the submitted documentation,

the vendor shall be required to provide additional information as needed.</LI>





<P>&nbsp;

<LI>

<A NAME="te051502"></A><B>TE05.15.02</B>: The tester shall verify from

vendor documentation that the chips in the module have a standard passivation

applied to them. The passivation must be a sealing coat applied over the

chip circuitry to protect it against environmental or other physical damage.

It is sufficient for the documentation to show that chips are industry-standard

parts from established manufacturers. If this is not true, the documentation

must specify the exact passivation material and technique used; and if

it is not a standard passivation, then must also provide information to

indicate why it is at least equivalent to a standard passivation approach.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0516"></A><B>AS05.16: For a multiple-chip, standalone cryptographic

module at security level 1 or higher, the circuitry within the module shall

be implemented as a production-grade, multiple-chip embodiment. (Multiple-chip

standalone; 1, 2, 3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve051601"></A><B>VE05.16.01</B>: The circuitry in the module shall

be implemented as a typical production-grade, multiple-chip device, such

as an IC printed circuit board or ICs on a ceramic substrate. The vendor

documentation shall describe the production implementation of the module.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te051601"></A><B>TE05.16.01</B>: The tester shall verify by inspection

and from vendor documentation that the module has been implemented as a

standard multiple-chip design, such as a circuit board, a multi-chip ceramic-substrate

module, or a functionally-equivalent, multi-chip design. The vendor must

either specify a typical, industry-standard design approach that was used;

or if a unique approach is used, the vendor must provide design-and-test-data

that shows that the module is equivalent in quality and function to a more

traditional approach.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0517"></A><B>AS05.17: For a multiple-chip, standalone cryptographic

module, at security level 1 or higher, the module shall be contained within

an enclosure that may include removable covers or doors. (Multiple-chip

standalone; 1, 2, 3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve051701"></A><B>VE05.17.01</B>: The module shall be entirely

contained within a metal or hard plastic production-grade enclosure that

may include removable covers or doors. The vendor documentation shall describe

the enclosure and its hardness characteristics.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te051701"></A><B>TE05.17.01</B>: The tester shall verify by observation

and from vendor documentation that the module is contained within an enclosure

that meets the following requirements:</LI>





<P>&nbsp;

<OL>

<LI>

The enclosure must completely surround and protect the entire module.</LI>



<LI>

The enclosure material must be metal or hard plastic of a composition defined

in the vendor documentation.</LI>



<LI>

The enclosure must be production grade. The vendor literature must either

show that an enclosure of the same material has been used commercially,

or provide data to show that it has properties adequate for the application

or equivalent to a commercial product.</LI>



<LI>

The enclosure may have removable covers or doors. At security level 1,

there are no protection requirements for these covers or doors, but the

tester shall verify that they are at least firmly attached and closed under

normal use.</LI>

</OL>

</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0518"></A><B>AS05.18: For a multiple-chip, standalone cryptographic

module at security level 2 or higher, the enclosure shall be opaque. (Multiple-chip

standalone; 2, 3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve051801"></A><B>VE05.18.01</B>: The enclosure shall be opaque

within the visible spectrum. The vendor documentation shall describe the

enclosure's opacity characteristics.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te051801"></A><B>TE05.18.01</B>: The tester shall verify by inspection

that the enclosure is visibly opaque when inspected with bright white light

shining on and (if possible) against it.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0519"></A><B>AS05.19: For a multiple-chip, standalone cryptographic

module at security level 2 or higher, if the enclosure includes any removable

covers or doors, then either they shall be locked with pick-resistant mechanical

locks or they shall be protected via tamper-evident seals. (Multiple-chip

standalone; 2, 3, and 4)</B>



<P><I>(Relevant Guidance:&nbsp;&nbsp; <A HREF="1401ig-3.htm#5tamplogint">5.2</A>

, <A HREF="1401ig-3.htm#5tampev34">5.4</A> , <A HREF="1401ig-3.htm#5lev2mcs">5.5</A>&nbsp;

)</I>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve051901"></A><B>VE05.19.01</B>: If the enclosure includes any

removable covers or doors, then either they shall be locked with pick-resistant

mechanical locks that employ physical or logical keys; or they shall be

protected via tamper-evident seals such as evidence tape or holographic

seals. The vendor documentation shall describe the chosen tamper-protection

approach.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te051901"></A><B>TE05.19.01</B>: The tester shall determine whether

the enclosure contains any removable covers or doors. If so, the tester

shall verify that each cover and door meets at least one of the two requirements

below:</LI>





<P>&nbsp;

<OL>

<LI>

The cover or door is locked with a pick-resistant lock that requires a

physical key or a logical key to unlock it. (For example, a logical key

could be a number that must be entered at a keypad.) The tester shall attempt

to open the locked cover or door without use of the key (including attempts

to physically pry it open with an object such as a screwdriver) and determine

that the door will not open without signs of damage being evident.</LI>



<LI>

The cover or door is protected with a seal such as evidence tape or a holographic

seal. The tester shall verify that the cover or door cannot be opened without

breaking or removing the seal, and that the seal cannot be removed and

later replaced without leaving detectable signs.</LI>

</OL>

</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0520"></A><B>AS05.20: For a multiple-chip, standalone cryptographic

module at security level 3 or higher, one of the following two requirements

shall apply to the module: (Multiple-chip standalone; 3 or 4)</B>



<P><B>&nbsp;</B>

<UL TYPE=CIRCLE>

<LI>

<B>The module shall be encapsulated within a hard opaque potting material.</B></LI>



<LI>

<B>The module shall be contained within a strong enclosure that either

has no removable elements or contains tamper response and zeroization circuitry.</B></LI>

</UL>

<I>(Relevant Guidance:&nbsp; <A HREF="1401ig-3.htm#5keyloader">5.6</A>

, <A HREF="1401ig-3.htm#5tamprespzero">5.7</A>&nbsp; )</I>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve052001"></A><B>VE05.20.01</B>: The vendor documentation shall

state which of the two approaches specified in AS05.20 are used to meet

the requirement, and provide supporting detailed design information. Depending

on this choice, the corresponding vendor requirement (one of the following,

respectively) must be met:</LI>





<P>&nbsp;

<OL>

<LI>

The multi-chip embodiment of the circuitry within the module shall be completely

encapsulated within a hard, opaque potting material. The potting material

may be a hard, opaque epoxy, or another type of material providing an equivalent

level of protection. The material shall be opaque within the visible spectrum.</LI>



<LI>

The module shall be entirely contained within a strong enclosure. The enclosure

shall be designed such that attempts to remove it will have a high probability

of causing serious damage to the circuitry within the module (i.e., the

module does not function). If the enclosure contains any removable covers

or doors, then the module shall contain tamper response and zeroization

circuitry. The circuitry shall continuously monitor the covers and doors,

and upon the removal of a cover or the opening of a door, shall immediately

actively zeroize all plaintext cryptographic keys and other unprotected

critical security parameters. The circuitry shall be operational whenever

plaintext cryptographic keys, or other unprotected critical security parameters,

are contained within the module.</LI>

</OL>

</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te052001"></A><B>TE05.20.01</B>: The tester shall verify that

the vendor documentation specifies which requirements option in VE05.20.01

is to be met and provides any necessary supporting documentation with details

of the design approach. If this is not true, the tester shall obtain the

necessary information from the vendor before proceeding with the validation.

Depending on the requirement option chosen by the vendor, one or two of

the following three tester requirements shall also be verified: TE05.20.02

if option 1 is chosen, or else TE05.20.03 plus possibly TE05.20.04 if option

2 is chosen.</LI>





<P>&nbsp;

<LI>

<A NAME="te052002"></A><B>TE05.20.02</B>: Option 1: Utilize a hard, opaque

potting material. The tester shall verify from vendor documentation and

by inspection if internal access is possible (for example via a removable

cover or door), that the circuitry within the module is encapsulated within

a hard, opaque potting material. The documentation should specify exactly

which potting material is used; if it is not hard epoxy, then supporting

documentation should be provided to show that its hardness is roughly equivalent

to epoxy. If access is possible, the tester shall verify, by scratching

the potting material with a sharp object, that it cannot be easily penetrated

to the depth of the underlying circuitry. If access is possible, the tester

shall also verify that the potting material completely encapsulates the

circuitry within the module and is visibly opaque when inspected with bright

white light shining on and (if possible) against it.</LI>





<P>&nbsp;

<LI>

<A NAME="te052003"></A><B>TE05.20.03</B>: Option 2: Utilize a strong enclosure.

The tester shall determine the strength of the enclosure by attempting

to damage it via the manual application of force with a sharp object and

verifying that the cover is not easily breached. The tester shall verify

by inspection and from vendor documentation that the enclosure cannot be

removed (except for removable covers or doors that are covered in TE05.20.04.)

The tester shall also determine by test that this requirement is met. This

can be verified in one or both of the following two ways:</LI>





<P>&nbsp;

<OL>

<LI>

By supervising tests at a vendor facility</LI>



<LI>

By performing tests at the tester's own facility</LI>

</OL>

Whichever approach is chosen, the tester shall verify that all of the following

tests were performed or reported, to the extent possible: The tester (tester

or vendor) set up the module in an operational state and verified that

it was performing normally. Then the tester attempted to pry the enclosure

from the module with a sharp object to expose the underlying circuitry.

The tester verified that this was impossible with a reasonable application

of force or that the module ceased to function (e.g., ceased to provide

normal output, entered a non-operational state, or provided other clear

evidence of failure as appropriate), or that the module circuitry was obviously

physically destroyed.



<P>&nbsp;

<LI>

<A NAME="te052004"></A><B>TE05.20.04</B>: If a strong enclosure is used

(option 2), and it has removable covers or doors: The tester shall verify

from vendor design data that the module includes arrangements to zeroize

all critical security parameters described in VE05.20.01 when a cover or

door is removed (for example using tamper switches, motion detectors, etc.)

(Zeroization is defined in TE02.07.02.) The tester shall also set up the

module in an operational state that requires intact crypto-variables, and

verify that it is performing normally. The tester shall remove a cover

or door and verify that the module immediately ceases to function (e.g.,

ceases to provide normal output, enters a non-operational state, or provides

other clear evidence of operational failure as appropriate). The tester

shall then replace the cover or door, obtain a status report if the module

has that capability, determine that the module no longer contains critical

security material, and does not function until reset or rekeyed.</LI>





<P>&nbsp;If the module can retain critical security parameters while powered

down or deactivated, the tester shall verify that a deactivated module

is tamper-protected: The tester shall load critical security parameters,

deactivate the module, and remove a cover. The tester shall then replace

the cover, reactivate the module if possible, and determine that it no

longer contains critical security material. The tester shall also verify

from vendor documentation that the module would retain power to zeroize

after deactivation for the maximum time commensurate with its operational

use.



<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0521"></A><B>AS05.21: For a multiple-chip, standalone cryptographic

module at security level 3 or higher, if the module has any ventilation

openings, they shall be constructed to prevent undetected probing. (Multiple-chip,

standalone; 3 or 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve052101"></A><B>VE05.21.01</B>: If the enclosure contains any

ventilation holes or slits, they shall be small and constructed in a manner

that prevents undetected physical probing inside the enclosure. The vendor

documentation shall describe the ventilation physical design approach.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te052101"></A><B>TE05.21.01</B>: The tester shall verify, by inspection

and from vendor documentation, whether the module has ventilation holes,

slits, or other openings, and if so, whether they are constructed to deter

undetected probing inside the cover/enclosure. Any openings must be small

(normally no more than about 1/16" wide at any point) and designed to make

direct linear access to the interior impossible. Suitable mechanical design

approaches could include placing at least one 90 degree bend in each ventilation

path, placing a substantial blocking material slightly behind the opening,

use of a strong mesh or grille behind the opening, or similar blocking

techniques. Ventilation openings and any blocking material must either

be strong enough to resist attempts to force access to the interior, or

be constructed such that forced access would require obvious damage visible

from the exterior.</LI>

</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0522"></A><B>AS05.22: For a multiple-chip standalone cryptographic

module at security level 4, the module shall provide a tamper-detection

envelope. (Multiple-chip standalone; 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve052201"></A><B>VE05.22.01</B>: The enclosure shall contain tamper

detection mechanisms that provide a tamper-detection envelope, such as

cover switches, motion detectors, or other tamper detection mechanisms

which will detect tampering attacks against the potting material or cover.

The vendor documentation shall describe the tamper detection envelope design.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te052201"></A><B>TE05.22.01</B>: The tester shall verify from

vendor design data and by inspection that the module enclosure contains

tamper detection mechanisms, which must form a tamper-detection envelope

completely protecting the module components. The mechanisms must be designed

such that any breach of the enclosure, potting material, or cover by means

such as drilling, milling, grinding or dissolving to access the module

components inside can be detected by monitoring components in the module.

Suitable tamper-detection envelope design techniques could include use

of cover switches (e.g., micro-switches, magnetic Hall effect switches,

permanent magnetic actuators, etc.), motion detectors (e.g., ultrasonic,

infrared, or microwave), or other tamper detection mechanisms as described

in TE05.12.01 (such as a flexible mylar printed circuit with a serpentine

geometric pattern of conductors, a wire-wound package, a non-flexible brittle

circuit, or equivalent techniques). Any of these techniques should cause

a detectable change (e.g., an open circuit) when the tamper detection envelope

is breached. (TE05.23.01 contains related requirements for tamper response.)</LI>

</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0523"></A><B>AS05.23: For a multiple-chip standalone, cryptographic

module at security level 4, the module shall contain tamper response and

zeroization circuitry. (Multiple-chip standalone; 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve052301"></A><B>VE05.23.01</B>: The module shall contain tamper

response and zeroization circuitry that continuously monitors the tamper

detection envelope for tampering; and upon the detection of tampering,

shall immediately actively zeroize all plaintext cryptographic keys, and

other unprotected critical security parameters. The circuitry shall be

operational whenever plaintext cryptographic keys, or other unprotected

critical security parameters are contained within the module. The vendor

documention shall describe the tamper response and zeroization design.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te052301"></A><B>TE05.23.01</B>: The tester shall verify from

vendor design data that the module contains tamper response and zeroization

circuitry that must continuously monitor the tamper detection mechanisms

(refer to TE05.22.01); detect any breaches by means such as drilling, milling,

grinding or dissolving any portion of the enclosure potting material or

cover; and then immediately zeroize all critical security parameters described

in VE05.23.01. (Zeroization is defined in TE02.07.02.) The tester shall

also determine by test that this requirement is met. This can be verified

in one or both of the following two ways:</LI>





<P>&nbsp;

<OL>

<LI>

By supervising tests at a vendor facility</LI>



<LI>

By performing tests at the tester's own facility.</LI>

</OL>

Whichever approach is chosen, the tester shall verify that all of the following

tests were performed or reported, to the extent possible:



<P>&nbsp;

<OL TYPE=A>

<LI>

The tester (tester or vendor) set up the module in an operational state

that required intact crypto-variables and verified that it was performing

normally.</LI>



<LI>

The tester then breached the enclosure by any convenient means and verified

that the module immediately ceased to function (e.g., ceased to provide

normal output, entered a non-operational state, or provided other clear

evidence of operational failure as appropriate).</LI>



<LI>

The tester also noted if the module reported a key zeroization or other

failure at this point (if it has that capability).</LI>



<LI>

If the module can retain critical security parameters while deactivated:

the tester loaded critical security parameters, deactivated the module,

breached the tamper-detection envelope, reactivated the module if possible,

and determined that it no longer contained critical security material.

The tester also verified from vendor documentation that the module would

retain power to zeroize after deactivatation for the maximum time commensurate

with its operational use.</LI>

</OL>

</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0524"></A><B>AS05.24: For a multiple-chip standalone cryptographic

module at security level 4, the module shall either include environmental

failure protection (EFP) features or undergo environmental failure testing

(EFT) as specified in section 4.5.4 of FIPS PUB 140-1. (Multiple-chip standalone;

4)</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve052401"></A><B>VE05.24.01</B>: (This requirement is identical

to VE05.06.01.)</LI>





<P>&nbsp;

<LI>

<A NAME="ve052402"></A><B>VE05.24.02</B>: (This requirement is identical

to VE05.06.02.)</LI>





<P>&nbsp;

<LI>

<A NAME="ve052403"></A><B>VE05.24.03</B>: (This requirement is identical

to VE05.06.03.)</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te052401"></A><B>TE05.24.01</B>: (This requirement is identical

to TE05.06.01.)</LI>





<P>&nbsp;

<LI>

<A NAME="te052402"></A><B>TE05.24.02</B>: (This requirement is identical

to TE05.06.02.)</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=75%>

<H2>

<A NAME="sec6"></A>6. SOFTWARE SECURITY</H2>

<B>Note</B>: <I>The following software security requirements shall apply

to all software and firmware contained within a cryptographic module.</I>



<P><I>&nbsp;These requirements do not apply to microcode or system software

whose source code is not available to the module manufacturer. These requirements

do not apply to any software or firmware that can be shown not to affect

the security of the module.</I>



<P>&nbsp;

<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0601"></A><B>AS06.01: Documentation shall identify any software

or firmware that is excluded from the software security requirements and

explain the rationale for the exclusion. (1, 2, 3, and 4)</B>



<P><I>(Relevant Implementation Guidance:&nbsp; <A HREF="1401ig-2.htm#1submodule">1.4</A>

, )</I>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve060101"></A><B>VE06.01.01</B>: The vendor documentation requirement

to satisfy this assertion is the same as VE01.06.01 and VE01.06.02 of this

document.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te060101"></A><B>TE06.01.01</B>: This requirement is tested under

TE01.06.01 and TE01.06.02 of this document.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0602"></A><B>AS06.02: Documentation shall include a detailed

description of the design of the software within the module (e.g., the

finite state machine specification required in Section 4.4 of FIPS PUB

140-1). (1, 2, 3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve060201"></A><B>VE06.02.01</B>: The vendor shall provide detailed

software design documentation. This documentation shall include, but in

no way be limited to, the finite state machine model diagram(s) and description

referred to in Section 4.4 of FIPS PUB 140-1. If the relationship between

the finite state machine specification and the source code is not clear,

the vendor shall provide additional documentation that describes the relationship

between the finite state machine specification and the source code.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te060201"></A><B>TE06.02.01</B>: The tester shall compare the

software design documentation against the list of names of all the software

and firmware modules, functions, and procedures (as documented in VE06.04.01)

to verify that the relationship between the finite state machine specification

and the source code can be determined.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0603"></A><B>AS06.03: Documentation shall include a detailed

explanation of the correspondence between the design of the software and

the cryptographic module security policy (i.e., the rules of operation

as documented per the requirements of Section 4.1 of FIPS PUB 140-1. (1,

2, and 3)</B>



<P><I>(Relevant Implementation Guidance:&nbsp; <A HREF="1401ig-2.htm#1secpolicy">1.5</A>

, )</I>

<BR>&nbsp;

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve060301"></A><B>VE06.03.01</B>: The vendor documentation shall

contain a separate section or chapter describing, explicitly, how the software/firmware

design corresponds to the security policy (rules of operation) of the cryptographic

module.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te060301"></A><B>TE06.03.01</B>: The tester shall review the vendor

documentation for completeness and correctness in representing the security

policy (rules of operation) of the cryptographic module. He or she must

determine that each security rule is reflected in the design, and that

the design faithfully implements the semantics of the rule. That is to

say, the design shows that the rule will be invoked under those conditions,

and only those conditions, expressed in the rule; and that once invoked,

the system will correctly execute the rule (e.g., perform the proper check

on the correct security attributes of the correct entities).</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0604"></A><B>AS06.04: Documentation shall include a complete

source code listing for all software contained within the module. (1, 2,

3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve060401"></A><B>VE06.04.01</B>: The vendor shall supply a list

of the names of all the software and firmware modules, functions, and procedures

contained in the cryptographic module. This list may be a list of entities

used in the linking process to create executable program images.</LI>





<P>&nbsp;

<LI>

<A NAME="ve060402"></A><B>VE06.04.02</B>: The vendor shall supply an annotated

source listing of each of the software and firmware modules, functions,

and procedures contained in the cryptographic module as indicated in the

software/firmware list supplied by the vendor.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te060401"></A><B>TE06.04.01</B>: The tester shall use the list

supplied by the vendor to make sure that he or she has a source listing

for each software or firmware module, function, and procedure contained

in the module. The source listings must contain listings of data structures

(e.g., header or include files) as well as source code.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0605"></A><B>AS06.05: For each software module, software

function and software procedure, the source code listing shall be annotated

with comments that clearly depict the relationship of these software entities

to the design of the software. (1, 2, 3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve060501"></A><B>VE06.05.01</B>: The vendor documentation requirement

to satisfy this assertion is the same as VE06.04.02 for assertion AS06.04.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te060501"></A><B>TE06.05.01</B>: The tester shall determine that

each module, function, or procedure of software and firmware contains comments

and that the relationship between the software entities and the design

(as documented in VE06.02.01) is clear.</LI>





<P>&nbsp;

<LI>

<A NAME="te060502"></A><B>TE06.05.02</B>: The tester shall read the comments

of each module, function, and procedure to determine, in the tester's judgment,

that they explain the structure and function of the module, function, or

procedure. This shall include expected inputs, algorithms used in the module,

control flow, and expected outputs from the module, function, or procedure.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0606"></A><B>AS06.06: All software within a cryptographic

module shall be implemented using a high-level language, except that the

limited use of low-level languages (e.g., assembly languages) is allowed

when it is essential to the performance of the module or when a high-level

language is not available. (3 and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve060601"></A><B>VE06.06.01</B>: The vendor shall identify each

of the software modules that is not written in a high-level language and

provide a rationale or justification for why the module is written in a

low-level language. The rationale shall cite either the unavailability

of a high-level language or the need for enhanced performance for the software.

In the case of a performance rationale, the rationale shall give the technical

explanation of why the high-level language does not provide sufficient

performance.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te060601"></A><B>TE06.06.01</B>: The tester shall examine the

source code for each of the software modules to determine which ones are

written in assembler language. He or she must verify that there are no

software modules written in assembler language that were not identified

by the vendor in VE06.06.01.</LI>





<P>&nbsp;

<LI>

<A NAME="te060602"></A><B>TE06.06.02</B>: The tester shall review the vendor-supplied

rationale for each software module written in assembler language and make

a judgment as to whether the rationale is convincing. If the rationale

is not convincing, he or she shall ask the vendor for a more convincing

rationale. If the vendor cannot provide a convincing rationale, the vendor

must write the subject module in a high-level language.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0607"></A><B>AS06.07: Documentation shall include a specification

of a formal model (i.e., a precise mathematical statement) of the cryptographic

module security policy (i.e., the security rules under which the module

must operate) as documented per the requirements of Section 4.1 of FIPS

PUB 140-1. The formal model shall be specified using a formal specification

language that is a rigorous notation based on established mathematics,

such as first order logic or set theory. (4)</B>



<P><B>&nbsp;Note</B>: <I>Examples include, but are not limited to, INAJO,

GYPSY, VDM, Z, LOTOS, EHDM, and ESTELLE.</I>



<P><I>(Relevant Implementation Guidance:&nbsp; <A HREF="1401ig-2.htm#1secpolicy">1.5</A>

, )</I>

<BR>&nbsp;

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve060701"></A><B>VE06.07.01</B>: The vendor shall provide documentation

of a formal model, specified in a formal specification language, of the

security policy of the cryptographic module, as documented in AS01.07.

The formal model shall include, at least, a list of elements of the model,

the operations performed on these elements, and the security rules these

operations must obey.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te060701"></A><B>TE06.07.01</B>: The tester shall analyze the

formal model to establish that it has the following properties:</LI>





<P>&nbsp;

<OL>

<LI>

That the statements of the formal model are written correctly (syntactically

correct) in the vendor's chosen formal specification language.</LI>



<LI>

That the formal model contains:</LI>



<OL TYPE=a>

<LI>

a definition of a "secure" state (i.e., the security policy),</LI>



<LI>

a representation of the initial state of the module,</LI>



<LI>

a model of the way in which the module progresses from one state to another

(i.e., state transitions), and</LI>



<LI>

a formal proof that if the initial state of the module satisfies the definition

of a "secure" state and if all assumptions required by the model hold,

then all future states of the module will be secure.<SUP><A HREF="#foot1">1</A></SUP></LI>

</OL>

</OL>

The definition of the cryptographic module security policy must cover all

security-policy requirements given in FIPS PUB 140-1. Validation that the

formal model corresponds to the cryptographic module's security policy

is covered in assertion AS06.08.



<P>&nbsp;The state transitions must be compatible with (and could, under

some circumstances, coincide with), the finite state machine model required

by Section 4.4 of FIPS PUB 140-1.



<P>&nbsp;If the cryptographic module is sufficiently simple, it may be

feasible for the state transitions constraints to coincide with the pre-

and post-conditions required as part of the annotated source code. In this

case, the required proof of correspondence between the software design

and the formal model is directly included in the model itself.



<P>&nbsp;Validation that the module's software design corresponds to the

rules of operation in the formal model is covered in assertion AS06.10.



<P>&nbsp;In the likely event that a state-machine model is used, the formal

proof should establish that the system will (a) always be in a secure state,

and (b) that state transitions obey appropriate policy requirements. Item

(a) would ordinarily be proved by state induction, by showing that the

initial state is secure and that each operation induces a new secure state,

if applied in a secure state. Item (b) is proved by case analysis, by showing

that each operation satisfies each state-transition constraint given in

the policy.



<P>&nbsp;The primary criteria for judging acceptability of a rigorous proof

is its ability to inform and convince its reviewers. Proof modularity is

essential both to successful review and to product maintenance. The proof

should be constructed hierarchically in terms of lemmas that rest, ultimately,

on axioms and commonly accepted facts of mathematics. Additional guidelines

on clarity of presentation for security models may be found in Section

2.4 of [NCSC-TG-10].<SUP><A HREF="#foot2">2</A></SUP>



<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0608"></A><B>AS06.08: Documentation shall include a detailed

explanation (informal proof) of the correspondence between the formal model

and the cryptographic module security policy. (4)</B>



<P><I>(Relevant Implementation Guidance:&nbsp; <A HREF="1401ig-2.htm#1secpolicy">1.5</A>

, )</I>

<BR>&nbsp;

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve060801"></A><B>VE06.08.01</B>: The vendor documentation shall

contain a separate section or chapter describing, explicitly, how the formal

model corresponds to the security policy (rules of operation) of the cryptographic

module.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te060801"></A><B>TE06.08.01</B>: The tester shall review the vendor-supplied

documentation (security policy, formal model, and the security-policy-to-formal-model

correspondence documentation) for completeness and correctness in representing

the security policy of the cryptographic module. He or she must determine

that each rule contained in the security policy is reflected in the formal

model, and that the formal model faithfully implements the semantics of

the rule. That is to say, the formal model shows that the rule will be

invoked under those conditions, and only those conditions, under which

it is applied in the security policy; and that, once invoked, the formal

model shows that it will correctly execute the rule.</LI>





<P>&nbsp;

<LI>

<B>Note</B>: <I>The tester must review all three documents identified in

TE06.08.01. The security policy and formal model may, in fact, correspond,

while the correspondence document is wrong, or either the security policy

or formal model may contain more, or less, or something different than

the other document.</I></LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0609"></A><B>AS06.09: For each software module, software

function and software procedure, the source code listing shall be annotated

with comments that clearly specify (1) the pre-conditions required upon

entry into the module, function or procedure in order for it to execute

correctly, and (2) the post-conditions expected to be true when execution

of the module, function or procedure is complete. (4)</B>



<P><B>&nbsp;Note</B>: <I>These conditions may be specified using any notation

that is sufficiently detailed to completely and unambiguously explain the

behavior of the module, function or procedure.</I>



<P>&nbsp;<B>Note</B>: <I>While a mechanically checked proof is not required,

it shall be possible to prove from the pre- and post-conditions that a

module, function or procedure is consistent with the formal model.</I>



<P>&nbsp;

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve060901"></A><B>VE06.09.01</B>: For level 4, the source code

listings of all the software modules, functions, or procedures provided

by the vendor in AS06.04 shall include, as comments, pre- and post-conditions

as required in this assertion (AS06.09).</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te060901"></A><B>TE06.09.01</B>: The tester shall verify, by inspection,

that each module, function, or procedure contained in the cryptographic

module software contains pre- and post-conditions as specified in this

assertion (AS06.09).</LI>





<P>&nbsp;

<LI>

<A NAME="te060902"></A><B>TE06.09.02</B>: The tester shall examine the

source code for each software module, function, and/or procedure contained

within the cryptographic module. He or she shall determine, by analyzing

the unit's internal logic, that the unit will produce the specified post-condition

upon completion of its execution, if the specified pre-condition exists

immediately prior to the unit's start of execution. The term "unit" here

refers to a software module, function, or procedure.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0610"></A><B>AS06.10: Documentation shall include a detailed

explanation (informal proof) of the correspondence between the software

design (as reflected by the pre- and post-condition annotations) and the

formal model. (4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve061001"></A><B>VE06.10.01</B>: The vendor documentation shall

contain a separate section or chapter describing, explicitly, how the software

design corresponds to the formal model of the cryptographic module. The

correspondence shall be a mapping or equivalent from the operations and

elements of the model to the software design.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te061001"></A><B>TE06.10.01</B>: The tester shall review the vendor-supplied

documentation (formal model, software design, and the formal-model-to-software-design

documentation) for completeness and correctness. He or she must determine

that each action or transition contained in the formal model is reflected

in the design, and that the design faithfully implements the semantics

of the action or rule. That is to say that the design shows that the action

or transition will be invoked under those conditions, and only those conditions,

under which it is invoked in the formal model, and that, once invoked,

the system will correctly execute the action or transition, as expressed

in the formal model.</LI>





<P>&nbsp;

<LI>

<B>Note</B>: <I>The tester must review all three documents identified in

TE06.10.01. The formal model and the software design may, in fact, correspond,

while the correspondence document is wrong; or either the formal model

or the software design may contain more, or less, or something different

than the other document.</I></LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=75%>

<H2>

<A NAME="sec7"></A>7. OPERATING SYSTEM SECURITY</H2>

<B>Note</B>: <I>The operating system requirements in this section shall

apply to a cryptographic module only if the module provides a means whereby

an operator can load and execute software or firmware that was not included

as part of the validation of the module.</I>



<P><I>&nbsp;An example of a cryptographic module for which the operating

system requirements apply is a cryptographic module which is a general

purpose computer running cryptographic software as well as untrusted user-supplied

software (e.g., a spreadsheet or word processing program). In this case,

the hardware, operating system and cryptographic software are considered

part of the cryptographic module, and hence, the operating system requirements

apply.</I>



<P>&nbsp;

<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0701"></A><B>AS07.01: All cryptographic software shall be

installed only as executable code in order to discourage scrutiny and modification

by users. (1, 2, 3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te070101"></A><B>TE07.01.01</B>: The tester shall check all the

files stored on secondary storage and determine that there are no source

code files for software modules, functions, or procedures contained on

the secondary storage. This review shall involve some scrutiny of the contents

of each file, since a source file could have any name.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0702"></A><B>AS07.02: A cryptographic mechanism using a FIPS

approved authentication technique (e.g., the computation and verification

of a data authentication code or NIST digital signature algorithm) shall

be applied to the cryptographic software within the cryptographic module.

This cryptographic mechanism requirement may be incorporated as part of

Software/Firmware test if a FIPS approved authentication technique is employed

for that test. (1, 2, 3, and 4)</B>



<P><I>(Relevant Guidance:&nbsp; <A HREF="1401ig-3.htm#7swauthent">7.1</A>

, )</I>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve070201"></A><B>VE07.02.01</B>: The vendor shall provide documentation

that identifies the technique used to maintain the integrity of the cryptographic

software and describe how the software integrity is verified.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te070201"></A><B>TE07.02.01</B>: The tester shall review the documentation

to determine that it is complete, correct, and of sufficient detail to

allow the tester to understand the cryptographic mechanism.</LI>





<P>&nbsp;

<LI>

<A NAME="te070202"></A><B>TE07.02.02</B>: The tester shall attempt to corrupt

the cryptographic executable code in various ways in order to test the

effectiveness of the implementation of the integrity-maintaining mechanism.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0703"></A><B>AS07.03: Use of the cryptographic module shall

be limited to a single user at a time. (1)</B>



<P><B>&nbsp;Note</B>: <I>This requirement cannot be enforced by administrative

documentation and procedures, but must be enforced by the cryptographic

module itself.</I>



<P>&nbsp;

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve070301"></A><B>VE07.03.01</B>: The vendor shall provide a description

of the mechanism used to ensure that only one user at a time can use the

module. Mechanisms to provide this enforcement include, but are not limited

to, having only one terminal hooked up to the cryptographic module and

only one user logged on at a time.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te070301"></A><B>TE07.03.01</B>: The tester shall operate the

cryptographic module in the manner described by the vendor in the operation's

manual. While the module is in correct operation, the same or another tester

shall attempt to use the module, circumventing the single-user enforcement

mechanism.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0704"></A><B>AS07.04: Use of the cryptographic module shall

be dedicated to the cryptographic process during the time the cryptographic

process is in use. (1)</B>



<P><B>&nbsp;Note</B>: <I>This requirement cannot be enforced by administrative

documentation and procedures, but must be enforced by the cryptographic

module itself.</I>



<P>&nbsp;

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve070401"></A><B>VE07.04.01</B>: The vendor shall provide a description

of the mechanism used to ensure that no other process can be executed in

the cryptographic module while the cryptographic process is in use.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te070401"></A><B>TE07.04.01</B>: The tester shall perform cryptographic

functions in the manner described by the vendor in the operation's manual.

While the cryptographic functions are operating correctly, the same or

another tester shall attempt to execute another process while the cryptographic

process is in use. Examples of how the other executable software is made

unrunnable during the performance of cryptographic functions are as follows:</LI>





<P>&nbsp;

<OL>

<LI>

That the cryptographic module can only execute one program at a time and,

therefore, cannot execute other software while the cryptographic software

is running. (It should not be possible to interrupt the cryptographic process,

run it in the background, and start another process before the cryptographic

process is complete.)</LI>



<LI>

That the cryptographic software is invoked through a menu interface that

prevents the operator from invoking other software while the cryptographic

software is running.</LI>

</OL>

</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0705"></A><B>AS07.05: All cryptographic software, cryptographic

keys and other critical security parameters, and control and status information

shall be under the control of an operating system that provides controlled

access protection (i.e., C2 protection in accordance with the Trusted Computer

System Evaluation Criteria (TCSEC) or FIPS approved equivalent). Only operating

systems that have been evaluated by a NIST accredited evaluation authority

and against a FIPS approved criteria shall be used. (2)</B>



<P><B>&nbsp;Note</B>: <I>The discretionary access control mechanisms provided

by a C2 or equivalent operating system shall be employed to protect all

plaintext data, cryptographic software, cryptographic keys, authentication

data, and other critical security parameters from unauthorized access,

per the following requirements:</I>



<P><I>(Relevant Guidance:&nbsp; <A HREF="1401ig-3.htm#7lev2eval">7.2</A>

, )</I>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve070501"></A><B>VE07.05.01</B>: The vendor shall provide proof

that the operating system controlling the cryptographic module has successfully

passed evaluation for "controlled access protection" (C2 in the TCSEC or

FIPS-approved equivalent) by a NIST-accredited evaluation authority and

against a FIPS-approved criteria. Two ways a vendor may provide this proof

are 1) to present the tester with a certificate from a NIST-accredited

evaluation authority certifying that the operating system successfully

passed an evaluation, or 2) to show that the operating system is listed

on a FIPS-approved evaluated products list or equivalent as having passed

an evaluation.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te070501"></A><B>TE07.05.01</B>: The tester shall check that the

evaluation authority identified in the proof evidence is a NIST-accredited

evaluation authority. This may be accomplished by referring to NIST-supplied

list of accredited evaluation authorities to see if the evaluation authority

identified in the proof evidence is on that list.</LI>





<P>&nbsp;

<LI>

<A NAME="te070502"></A><B>TE07.05.02</B>: The tester shall check that this

operating system was, in fact, evaluated by this evaluation authority and

that the evaluation authority used a FIPS-approved criteria in performing

the evaluation.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0706"></A><B>AS07.06: The operating system shall provide

the capability to specify a set of operators who can execute cryptographic

program images contained on the cryptographic module's secondary storage.

(2, 3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve070601"></A><B>VE07.06.01</B>: The vendor shall include in the

installation procedures specific instructions on how, by employing the

protection mechanisms provided by a controlled access operating system,

one can configure the cryptographic module to protect it from unauthorized

execution of cryptographic program images contained on the module's secondary

storage.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te070601"></A><B>TE07.06.01</B>: The tester shall review the installation

procedures provided by the vendor, and examine the actual configuration

of the cryptographic module, to verify that the cryptographic module is

indeed configured in accordance with these vendor's instructions to protect

the cryptographic program images contained on the module's secondary storage

from unauthorized execution.</LI>





<P>&nbsp;

<LI>

<A NAME="te070602"></A><B>TE07.06.02</B>: The tester shall become an operator

in the set who can execute the various types of cryptographic program images.

He or she must verify that he or she can, in fact, execute them.</LI>





<P>&nbsp;

<LI>

<A NAME="te070603"></A><B>TE07.06.03</B>: The tester shall become an operator

who is not in the set who can execute the various types of cryptographic

program images. He or she must verify that he or she can not, in fact,

execute them.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0707"></A><B>AS07.07: The operating system shall provide

the capability to specify a separate set of operators for each of the following

cryptographic module software components, such that only elements within

that component's set can modify (i.e., write, replace, delete) entities

within that component: (2, 3, and 4)</B>



<P><B>&nbsp;</B>

<UL TYPE=CIRCLE>

<LI>

<B>cryptographic program images on secondary storage</B></LI>



<LI>

<B>cryptographic data (e.g. cryptographic keys, audit data) stored on secondary

storage</B></LI>



<LI>

<B>cryptographic data (e.g. cryptographic keys, audit data) stored in computer

memory</B></LI>



<LI>

<B>other critical security parameters stored on secondary storage</B></LI>



<LI>

<B>other critical security parameters contained in computer memory.</B></LI>

</UL>



<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve070701"></A><B>VE07.07.01</B>: The vendor shall include in the

installation procedures specific instructions on how, by employing the

protection mechanisms provided by a controlled access operating system,

one can configure the cryptographic module software components to protect

them from unauthorized modification.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te070701"></A><B>TE07.07.01</B>: The tester shall review the installation

procedures provided by the vendor, and examine the actual configuration

of the cryptographic module, to verify that the cryptographic module is

indeed configured in accordance with the vendor's instructions to protect

the cryptographic module software components from unauthorized modification.</LI>





<P>&nbsp;

<LI>

<A NAME="te070702"></A><B>TE07.07.02</B>: The tester shall verify that

it is possible to specify a distinct set of operators for each of the following

components:</LI>





<P>&nbsp;

<OL>

<LI>

cryptographic program images on secondary storage</LI>



<LI>

cryptographic data (e.g., cryptographic keys, audit data) stored on secondary

storage</LI>



<LI>

cryptographic data (e.g., cryptographic keys, audit data) stored in computer

memory</LI>



<LI>

other critical security parameters stored on secondary storage</LI>



<LI>

other critical security parameters contained in computer memory</LI>

</OL>



<LI>

<A NAME="te070703"></A><B>TE07.07.03</B>: The tester shall become an operator

in the set who can modify each of the types of cryptographic module software

components. He or she must verify that he or she can, in fact, modify them.</LI>





<P>&nbsp;

<LI>

<A NAME="te070704"></A><B>TE07.07.04</B>: The tester shall become an operator

who is not in the set who can modify each of the types of cryptographic

module software components. He or she must verify that he or she can not,

in fact, modify them.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0708"></A><B>AS07.08: The operating system shall provide

the capability to prevent all operators and executing processes from modifying

executing cryptographic processes (i.e., loaded and executing cryptographic

program images). Executing processes, in this case, means all non-operating

system (i.e., all operator initiated) processes, cryptographic or not.

(2, 3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve070801"></A><B>VE07.08.01</B>: The vendor shall include in the

installation procedures specific instructions on how, by employing the

protection mechanisms provided by a controlled access operating system,

one can configure the system to protect executing cryptographic processes

from unauthorized modification.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te070801"></A><B>TE07.08.01</B>: The tester shall review the installation

procedures provided by the vendor in VE07.08.01, and examine the actual

configuration of the cryptographic module, to verify that the cryptographic

module is indeed configured in accordance with the vendor's instructions

to protect executing cryptographic processes from unauthorized modification.</LI>





<P>&nbsp;

<LI>

<A NAME="te070802"></A><B>TE07.08.02</B>: The tester shall try to modify

executing cryptographic processes. The tester shall construct a test process

that attempts to modify cryptographic processes both within and outside

its address space. He or she must verify that no operator or executing

process can modify an executing cryptographic process.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0709"></A><B>AS07.09: The operating system shall provide

the capability to specify a separate set of operators and cryptographic

processes for each of the following cryptographic module software components,

such that only elements within a given component's set can read entities

within that component: (2, 3, and 4)</B>



<P><B>&nbsp;</B>

<UL TYPE=CIRCLE>

<LI>

<B>cryptographic data (e.g. cryptographic keys, audit data) stored on secondary

storage</B></LI>



<LI>

<B>cryptographic data (e.g. cryptographic keys, audit data) stored computer

memory</B></LI>



<LI>

<B>other critical security parameters stored on secondary storage</B></LI>



<LI>

<B>other critical security parameters contained in computer memory</B></LI>



<LI>

<B>plaintext data stored either within the module's memory or on secondary

storage</B></LI>

</UL>



<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve070901"></A><B>VE07.09.01</B>: The vendor shall include in the

installation procedures specific instructions on how, by employing the

protection mechanisms provided by a controlled access operating system,

one can configure the cryptographic module software components to protect

the them from being read by unauthorized operators or processes.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te070901"></A><B>TE07.09.01</B>: The tester shall review the installation

procedures provided by the vendor, and examine the actual configuration

of the cryptographic module, to verify that the cryptographic module is

indeed configured in accordance with the vendor's instructions to protect

the cryptographic module software components from unauthorized reading.</LI>





<P>&nbsp;

<LI>

<A NAME="te070902"></A><B>TE07.09.02</B>: The tester shall verify that

it is possible to specify a distinct set of operators for each of the following

components:</LI>





<P>&nbsp;

<OL>

<LI>

cryptographic program images on secondary storage</LI>



<LI>

cryptographic data (e.g., cryptographic keys, audit data) stored on secondary

storage</LI>



<LI>

cryptographic data (e.g., cryptographic keys, audit data) stored in computer

memory</LI>



<LI>

other critical security parameters stored on secondary storage</LI>



<LI>

other critical security parameters contained in computer memory</LI>

</OL>



<LI>

<A NAME="te070903"></A><B>TE07.09.03</B>: The tester shall become an operator

in the set who can read each of the types of cryptographic module software

components. He or she must verify that he or she can, in fact, read them.

If the set consists only of cryptographic processes, the tester may use

an operational cryptographic process to attempt to read the software components,

or may construct a test process that has the same authorization as the

operational processes within the set (e.g., be in the same group as the

operational processes).</LI>





<P>&nbsp;

<LI>

<A NAME="te070904"></A><B>TE07.09.04</B>: The tester shall become an operator

who is not in the set who can read each of the types of cryptographic module

software components. He or she must verify that he or she can not, in fact,

modify them. The tester may also modify the authorizations of an operational

cryptographic process and attempt to read the software components, or may

construct a test process that does not have read authorization (e.g., is

not in the same group as the operational processes).</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0710"></A><B>AS07.10: The operating system shall provide

the capability to prevent all operators and processes from reading the

following cryptographic module software components: (2, 3, and 4)</B>



<P><B>&nbsp;</B>

<UL TYPE=CIRCLE>

<LI>

<B>cryptographic program images contained on secondary storage</B></LI>



<LI>

<B>executing cryptographic program images</B></LI>

</UL>



<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve071001"></A><B>VE07.10.01</B>: The vendor shall include in the

installation procedures specific instructions on how, by employing the

protection mechanisms provided by a controlled access operating system,

one can configure the system to prevent all operators and processes from

reading the software components identified in AS07.10.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te071001"></A><B>TE07.10.01</B>: The tester shall review the installation

procedures provided by the vendor in VE07.10.01, and examine the actual

configuration of the cryptographic module, to verify that the cryptographic

module is indeed configured in accordance with the vendor's instructions

to prevent all operators and processes from reading the software components

identified in AS07.10.</LI>





<P>&nbsp;

<LI>

<A NAME="te071002"></A><B>TE07.10.02</B>: The tester shall try to read

cryptographic program images contained on secondary storage and executing

cryptographic program images. The tester shall construct a test process

that attempts to read the cryptographic program images both within and

outside its address space and on secondary storage. He or she must verify

that no operator or executing process can read a cryptographic program

image.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0711"></A><B>AS07.11: The operating system shall provide

the capability to specify a set of operators who are authorized to enter

cryptographic keys and other critical security parameters. (2, 3, and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve071101"></A><B>VE07.11.01</B>: The vendor shall include in the

installation procedures specific instructions on how, by employing the

protection mechanisms provided by a controlled access operating system,

one can configure the cryptographic module to protect cryptographic keys

and other critical security parameters from being entered by unauthorized

operators.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te071101"></A><B>TE07.11.01</B>: The tester shall review the installation

procedures provided by the vendor, and examine the actual configuration

of the cryptographic module, to verify that the cryptographic module is,

indeed, configured in accordance with the vendor's instructions to protect

cryptographic keys and other critical security parameters from being entered

by unauthorized operators.</LI>





<P>&nbsp;

<LI>

<A NAME="te071102"></A><B>TE07.11.02</B>: The tester shall become an operator

in the set who can enter cryptographic keys and other critical security

parameters. He or she must verify that he or she can, in fact, enter them.</LI>





<P>&nbsp;

<LI>

<A NAME="te071103"></A><B>TE07.11.03</B>: The tester shall become an operator

who is not in the set who can enter cryptographic keys and other critical

security parameters. He or she must verify that he or she can not, in fact,

enter them.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0712"></A><B>AS07.12: All cryptographic software, cryptographic

keys and other critical security parameters, control and status information

shall be labelled and under the control of an operating system that provides

labelled protection (i.e., B1 protection in accordance with the Trusted

Computer System Evaluation Criteria (TCSEC) or FIPS approved equivalent).

Only operating systems that have been evaluated by a NIST accredited evaluation

authority and against a FIPS approved criteria shall be used. (3)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve071201"></A><B>VE07.12.01</B>: The vendor shall provide documentation

that describes how the cryptographic software, cryptographic keys, other

critical security parameters, and control and status information are labelled

and how these labels prevent unauthorized disclosure and modification.</LI>





<P>&nbsp;<B>Note</B>: <I>Operating systems that allow subjects to write

to objects whose label strictly dominates the subject's label (i.e., write

up) might not be able to prevent unauthorized modification.</I>



<P>&nbsp;

<LI>

<A NAME="ve071202"></A><B>VE07.12.02</B>: The vendor shall provide proof

that the operating system that controls the cryptographic module has successfully

passed evaluation for "labeled protection" (B1 in the TCSEC or FIPS-approved

equivalent) by a NIST-accredited evaluation authority and against a FIPS-approved

criteria. Two of the ways that a vendor may provide this proof are 1) to

present the tester with a certificate from a NIST-accredited evaluation

authority certifying that the operating system successfully passed an evaluation,

or 2) to show that the operating system is listed on a FIPS-approved evaluated

products list or equivalent as having passed an evaluation.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te071201"></A><B>TE07.12.01</B>: The tester shall check that the

operating system enforces labelling of cryptographic software, cryptographic

keys, other critical security parameters, and control and status information

in such a way that unauthorized disclosure and modification is prevented.</LI>





<P>&nbsp;<B>Note</B>: <I>Operating systems that allow subjects to write

to objects whose label strictly dominates the subject's label (i.e., write

up) might not be able to prevent unauthorized modification.</I>



<P>&nbsp;

<LI>

<A NAME="te071202"></A><B>TE07.12.02</B>: The tester shall check that the

evaluation authority identified in the proof evidence is a NIST-accredited

evaluation authority. This may be accomplished by referring to a NIST-supplied

list accredited evaluation authorities to see if the evaluation authority

identified in the proof evidence is on that list.</LI>





<P>&nbsp;

<LI>

<A NAME="te071203"></A><B>TE07.12.03</B>: The tester shall check that this

operating system was, in fact, evaluated by this evaluation authority;

and that the evaluation authority used a FIPS-approved criteria in performing

the evaluation.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0713"></A><B>AS07.13: All cryptographic keys, authentication

data, other critical security parameters, control inputs and status outputs

shall be communicated only via a trusted mechanism (e.g., a dedicated I/O

port or a trusted path). (3 and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve071301"></A><B>VE07.13.01</B>: The vendor shall identify and

describe the trusted path mechanism used by the cryptographic module to

communicate cryptographic keys, authentication data, other critical security

parameters, control inputs, and status outputs.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te071301"></A><B>TE07.13.01</B>: For each input and output that

AS07.13 requires to be communicated via the trusted mechanism, the tester

shall demonstrate, by actual use, that the trusted mechanism can, in fact,

be used to communicate such data.</LI>





<P>&nbsp;<B>Note</B>: <I>If the trusted mechanism is a trusted path, and

the trusted path was an evaluated feature of the operating system, the

tester need not independently test the trusted path. If, on the other hand,

the trusted mechanism is not a trusted path, or if a trusted path is not

an evaluated feature of the operating system, then the tester must test

for correct operation and non-circumventability of the trusted mechanism.</I>



<P>&nbsp;

<LI>

<A NAME="te071302"></A><B>TE07.13.02</B>: Through his or her knowledge

of the design and implementation of the module, as well as knowledge of

the operator documentation, the tester shall attempt, for each input or

output identified in AS07.13, to enter or output the information via an

untrusted mechanism (untrusted path or I/O port).</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0714"></A><B>AS07.14: When a trusted path is used, the trusted

computing base (TCB) of the operating system shall support the trusted

path between itself and the operators for use when a positive TCB-to-operator

connection is required. (3 and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te071401"></A><B>TE07.14.01</B>: By reviewing and analyzing the

cryptographic module software design, any operating system design and documentation

available, and vendor arguments, the tester shall determine that it is

the TCB of the operating system that supports (provides and protects) the

trusted path capability.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0715"></A><B>AS07.15: When a trusted path is used, communications

via this trusted path shall be activated exclusively by an operator or

the TCB and shall be logically isolated and unmistakably distinguishable

from other paths. (3 and 4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te071501"></A><B>TE07.15.01</B>: Through his or her knowledge

of the cryptographic module user documentation, the tester shall invoke

the trusted path in accordance with the documentation guidance. Also, if

the capability exists during the operation (normal or abnormal) of the

cryptographic module, for the TCB to invoke the trusted path, the tester

shall exercise (operate) the module in such a way as to cause the TCB to

invoke the trusted path.</LI>





<P>&nbsp;

<LI>

<A NAME="te071502"></A><B>TE07.15.02</B>: Through his or her knowledge

of the cryptographic module design and documentation, the tester shall

attempt to cause the trusted path to be invoked by non-TCB software (e.g.,

a user process or a cryptographic module software module that is not part

of the operating system TCB).</LI>





<P>&nbsp;

<LI>

<A NAME="te071503"></A><B>TE07.15.03</B>: The tester shall perform independent

invocations of the trusted path to determine that it is unmistakably distinguishable

from all other paths. He or she must invoke the trusted path as an operator,

and also cause the TCB to invoke the trusted path, if possible. These tests

are to be separate from the other trusted mechanism tests to force the

tester to focus on the "unmistakably distinguishable" aspect of the trusted

path feature. This test may require the tester to invoke (utilize) other

paths (I/O ports) to perform various functions to convince him or herself

that the trusted path is, indeed, unmistakably distinguishable from all

other paths.</LI>





<P>&nbsp;

<LI>

<A NAME="te071504"></A><B>TE07.15.04</B>: By reviewing and analyzing the

cryptographic module software design, any operating system design and documentation

available, and vendor arguments, the tester shall determine that the trusted

path is logically isolated from all other paths.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0716"></A><B>AS07.16: The operating system shall provide

the capability to audit the entry of cryptographic keys, other critical

security parameters and control inputs and status outputs. (3 and 4)</B>



<P><B>&nbsp;Note</B>: <I>An assumption of this assertion is that the cryptographic

module must use the audit mechanism provided by the operating system to

audit the identified events. It is not sufficient for the cryptographic

module software to use another file, no matter how well protected, as its

audit log.</I>



<P>&nbsp;<B>Note</B>: <I>It is also assumed that the assertion requires

that each of the events identified in the assertion be auditable by the

cryptographic module software. The cryptographic module software may have

the capability for turning off auditing of one or all of the identified

events, but they must all be potentially auditable. This assertion sets

no requirement on which events must be audited by a given site.</I>



<P>&nbsp;<B>Note</B>: <I>The operating system must have the capability

to allow non-TCB processes to use (write to) the system audit log. This

capability is not inherent (guaranteed) in a B1 system, or in a system

evaluated at any class.</I>



<P>&nbsp;

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve071601"></A><B>VE07.16.01</B>: The vendor shall identify the

mechanism whereby a non-TCB process can write records to the system's audit

log.</LI>





<P>&nbsp;

<LI>

<A NAME="ve071602"></A><B>VE07.16.02</B>: The vendor shall identify all

the events that are auditable by the cryptographic module software.</LI>





<P>&nbsp;

<LI>

<A NAME="ve071603"></A><B>VE07.16.03</B>: For each of the auditable events

so identified, the vendor shall provide the types of information and its

format for all information contained in the audit record for the event.</LI>





<P>&nbsp;<B>Note</B>: <I>Both the format and type of information must be

provided because the tester must have the capability to read and interpret

the audit records for all cryptographic events audited in order to check

it against the information that is claimed to be in the record.</I>



<P>&nbsp;

<LI>

<B>Note</B>: <I>The tester DOES NOT have to test or in anyway validate

the audit mechanism provided by the operating system and identified by

the vendor.</I></LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te071601"></A><B>TE07.16.01</B>: The tester shall review all of

the actions that can be taken by users and the cryptographic officer and

identify all of those that produce the events identified in AS07.16, namely

the entry of cryptographic keys, other critical security parameters, and

control inputs, or the output of status information.</LI>





<P>&nbsp;

<LI>

<A NAME="te071602"></A><B>TE07.16.02</B>: The tester shall then compare

the event list provided by the vendor in VE07.16.02 with the events he

or she identified through independent analysis of the actions of the cryptographic

module. If the vendor's event list does not contain all the events identified

by the tester, the vendor and tester must discuss and come to agreement

concerning all the events that meet the criteria of AS07.16.</LI>





<P>&nbsp;

<LI>

<A NAME="te071603"></A><B>TE07.16.03</B>: The tester shall review the types

of information contained in the audit records for each distinct event in

the event list, to determine if all the necessary information is there.

This information is provided by the vendor in VE07.16.03.</LI>





<P>&nbsp;

<LI>

<A NAME="te071604"></A><B>TE07.16.04</B>: The tester shall exercise the

cryptographic module, with the auditing capability turned on, performing

all the actions that generate events that must be auditable. He or she

will then review the system's audit log to determine first if all the events

were, indeed, audited, and second that all the required information was

contained in the resulting audit record.</LI>





<P>&nbsp;<B>Note</B>: <I>TE07.16.04 may be satisfied in whole or in part

by examining the audit log produced during other testing of the cryptographic

module. It is only required that audit records be examined for all actions

of the cryptographic module that produce events that must be audited, no

matter when these actions were performed.</I>



<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=15%>



<P><A NAME="as0717"></A><B>AS07.17: All cryptographic software, cryptographic

keys and other critical security parameters, control and status information

shall be labelled and under the control of an operating system that provides

structured protection (i.e., B2 protection in accordance with the Trusted

Computer System Evaluation Criteria (TCSEC), or FIPS approved equivalent).

Only operating systems that have been evaluated by a NIST accredited evaluation

authority and against a FIPS approved criteria shall be used. (4)</B>



<P><B>&nbsp;</B>

<H4>

<I>Required Vendor Information</I></H4>



<UL>

<LI>

<A NAME="ve071701"></A><B>VE07.17.01</B>: The vendor shall provide proof

that the operating system controlling the cryptographic module has successfully

passed evaluation for "structured protection" (B2 in the TCSEC or FIPS-approved

equivalent) by a NIST-accredited evaluation authority and against a FIPS-approved

criteria. Two of the ways that a vendor may provide this proof are 1) to

present the tester with a certificate from a NIST-accredited evaluation

authority certifying that the operating system successfully passed an evaluation,

or 2) to demonstrate that the operating system is listed on a FIPS-approved,

evaluated products list, or equivalent, as having passed such an evaluation.</LI>





<P>&nbsp;</UL>



<H4>

<I>Required Test Procedures</I></H4>



<UL>

<LI>

<A NAME="te071701"></A><B>TE07.17.01</B>: The tester shall check that the

evaluation authority identified in the proof evidence is a NIST-accredited

evaluation authority. This may be accomplished by referring to a NIST-supplied

list of accredited evaluation authorities to see if the evaluation authority

identified in the proof evidence is on that list.</LI>





<P>&nbsp;

<LI>

<A NAME="te071702"></A><B>TE07.17.02</B>: The tester shall check that this

operating system was, in fact, evaluated by this evaluation authority;

and that the evaluation authority used a FIPS-approved criteria in performing

the evaluation.</LI>





<P>&nbsp;</UL>



<HR SIZE=4 WIDTH=85%>



<P><A NAME="foot1"></A><SUP>1</SUP> This definition has been derived from

the definition of "Formal Security Policy Model," <I>Department of Defense

Trusted Computer System Evaluation Criteria</I>, National Computer Security

Center, DOD 5200.28-STD, December 1985.



<P>&nbsp;<A NAME="foot2"></A><SUP>2</SUP> [NCSC-TG-10]: <I>A Guide to Understanding

Security Modeling in Trusted Systems</I>, National Computer Security Center,

October 1992.



<P>&nbsp;

<HR SIZE=4 WIDTH=75%>



<P><A HREF="140test3.htm">Continue</A> to sections 8-11 of the DTR (part

3 of 3)...



<P>&nbsp;

</BODY>

</HTML>