FIPS Module Specification: Difference between revisions

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==Cryptographic Module Specification==
==Cryptographic Module Specification==


A series of '''security libraries''' present an application program interface ('''API''') to client and server applications utilizing NSS. The libraries are compiled and built for specific platforms (see [http://wiki.mozilla.org/Security_Policy#Platform_List Platform List]) and tagged with a release identifier to be published on mozilla.org. The release compliant with FIPS 140-2 is NSS 3.11.5.
The NSS cryptographic module is a cryptographic library that presents an application program interface ('''API''') based on the PKCS #11 standard to applications. The NSS cryptographic module is compiled and built for specific platforms (see the Platform List section of the [http://www.mozilla.org/projects/security/pki/nss/fips/secpolicy.pdf Security Policy]) and tagged with a release identifier to be published on [https://ftp.mozilla.org ftp.mozilla.org]. The release compliant with FIPS 140-2 is version 3.11.4.


The cryptographic module is defined to be a subset of the functions within these libraries. The subset is below the top layer of functions normally called by application programs, but the subset may be called by application programs directly if they so choose. Functions that are being certified include Triple DES(KO 1,2,3 56/112/168), AES(128/192/256), SHS (SHA-1, SHA-256, SHA-384, SHA-512), HMAC, DSA (512-1024), and RSA (1024-8092).
Functions that are being certified include Triple DES(KO 1,2,3 56/112/168), AES(128/192/256), SHS (SHA-1, SHA-256, SHA-384, SHA-512), HMAC, RNG, DSA (512-1024), RSA (1024-8092), and ECDSA.


===Module Components===
===Module Components===
NSS is a software cryptographic implementation. No hardware or firmware components are included. All input to the module is via function arguments; all output is returned to the caller either as return codes or as updated memory objects pointed to by some of the arguments.
The NSS cryptographic module is a software cryptographic implementation. No hardware or firmware components are included. All input to the module is via function arguments; all output is returned to the caller either as return codes or as updated memory objects pointed to by some of the arguments.


{| border="1" cellpadding="2"
{| border="1" cellpadding="2"
Line 14: Line 14:
|-
|-
!
!
Cryptographic
NSS Cryptographic
Module
Module Components
!
!
Library
Library
Line 22: Line 22:
| PKCS #11 || libsoftokn3
| PKCS #11 || libsoftokn3
|-
|-
| FREEBL || libfreebl3* (one is selected at run time)
| FREEBL || libfreebl3
|-
| nssdbm || libnssdbm3
|-
|-
|}
|}


<b>Note</b>: Filename extensions depend upon the target operating environment. For some CPUs libfreebl3 is distributed in more than one variant. The optimal version is selected at run time.
<div class=note>'''Note''': Filename extensions (.so, .dll, .sl, or .dylib) depend upon the target operating environment. For some CPUs libfreebl3 is named libfreebl_''cpu-type''_3.</div>


The NSS module depends on the following libraries outside the cryptographic boundary.
The NSS cryptographic module depends on the following Netscape Portable Runtime (NSPR) libraries outside the cryptographic boundary. The NSPR libraries provide platform abstraction and utility functions.


{| border="1" cellpadding="2"
{| border="1" cellpadding="2"
Line 34: Line 36:
|-
|-
!
!
NSS Dependencies
NSS Cryptographic Module Dependencies
!
!
Library
Library
Name
Name
|-
|-
| Netscape Portable Runtime (NSPR) || libnspr4
| NSPR (platform abstraction layer) || libnspr4
|-
|-
| NSPR string functions || libplc4
| PLC (NSPR string functions) || libplc4
|-
|-
| NSPR hashtables and arena pools || libplds4
| PLDS (NSPR hashtables and arena pools) || libplds4
|-
|-
|}
|}


The NSS module is used by the following higher-level NSS libraries outside the cryptographic boundary.
===The Cryptographic Boundary===
The NSS cryptographic module is a multiple-chip standalone cryptographic module. The physical boundary of the NSS cryptographic module is the enclosure of the general purpose computer it runs on, including any hardware or software that inputs, processes, or outputs important security parameters that could lead to the compromise of sensitive information if not properly controlled.
 
The NSS cryptographic module implements the PKCS #11 (Cryptoki) API. The API itself defines the logical cryptographic boundary, thus all implementation is inside the boundary. The diagram below shows the relationship of the layers.


{| border="1" cellpadding="2"
[[ Image:Fipsmod6.png ]]
|+
|-
!
Higher-level NSS API
!
Library
Name
|-
| CRMF || libcrmf
|-
| S/MIME || libsmime3
|-
| Certificate<br>Management || libnss3
|-
| SSL || libssl3
|-
| JAR || libjar
|-
| PKCS #5 || libnss3
|-
| PKCS #12 || libsmime3
|-
|}


===The Cryptographic Boundary===
===Hardware Diagram===
The NSS module is a multiple-chip standalone cryptographic module. The physical boundary of the NSS module is the enclosure of the general purpose computer it runs on, containing the processor(s) and other hardware components that store and protect the software components of the module.


NSS's PKCS #11 (Cryptoki) implementation forms the cryptographic module. The API itself is considered to define the logical cryptographic boundary, thus all implementation is considered below the boundary. Also included in this module is the FIPS PKCS #11 token. This is a Cryptoki token designed specifically for FIPS, and allows applications using NSS to operate in a strictly FIPS mode. The diagram below shows the relationship of the layers.
The block diagram below shows the hardware components of a general purpose computer and their interconnections. The dotted line marks the physical cryptographic boundary.


[[ Image:Fipsmod.png ]]
[[ Image:Fipshw.png ]]


===Approved Mode of Operation===
===Approved Mode of Operation===
In order to run the NSS module in the FIPS approved mode, an attribute must be explicitly set on the module. This can be done programmatically with a call to SECMOD_DeleteInternalModule() (with the module to delete being the internal module) or by running the NSS module utility '''modutil'''. An example command line is below.
The NSS cryptographic module has two modes of operation: non-FIPS Approved mode and FIPS Approved mode. The FIPS Approved mode is designed specifically for FIPS 140-2, and allows applications using the NSS cryptographic module to operate in a strictly FIPS mode.
 
By default the NSS cryptographic module operates in the non-FIPS Approved mode, meaning that if an application calls the standard PKCS #11 function <code>C_GetFunctionList</code> and calls the function pointers in that list, it gets the non-FIPS Approved mode. To operate the NSS cryptographic module in the FIPS Approved mode, an application must call the alternative function <code>FC_GetFunctionList</code> and call the function pointers in that list. Here is the sample code using NSPR functions (declared in the header file <code>"prlink.h"</code>) for dynamic library loading and function symbol lookup:
<pre>
#include "prlink.h"
#include "cryptoki.h"
#include <assert.h>
#include <stdio.h>
 
/*
* An extension of the CK_C_INITIALIZE_ARGS structure for the
* NSS cryptographic module. The 'LibraryParameters' field is
* used to pass instance-specific information to the library
* (like where to find its config files, etc).
*/
typedef struct CK_C_INITIALIZE_ARGS_NSS {
    CK_CREATEMUTEX CreateMutex;
    CK_DESTROYMUTEX DestroyMutex;
    CK_LOCKMUTEX LockMutex;
    CK_UNLOCKMUTEX UnlockMutex;
    CK_FLAGS flags;
    CK_CHAR_PTR *LibraryParameters;
    CK_VOID_PTR pReserved;
} CK_C_INITIALIZE_ARGS_NSS;
 
int main()
{
    char *libname;
    PRLibrary *lib;
    CK_C_GetFunctionList pC_GetFunctionList;
    CK_FUNCTION_LIST_PTR pFunctionList;
    CK_RV rv;
    CK_C_INITIALIZE_ARGS_NSS initArgs;
    CK_INFO info;
    PRStatus status;
 
    /* Get the platform-dependent library name of the NSS cryptographic module */
    libname = PR_GetLibraryName(NULL, "softokn3");
    assert(libname != NULL);
    lib = PR_LoadLibrary(libname);
    assert(lib != NULL);
    PR_FreeLibraryName(libname);
 
    pC_GetFunctionList = (CK_C_GetFunctionList) PR_FindFunctionSymbol(lib,
        "FC_GetFunctionList");
    assert(pC_GetFunctionList != NULL);
    rv = (*pC_GetFunctionList)(&pFunctionList);
    assert(rv == CKR_OK);
 
    /* Call FC_Foo as pFunctionList->C_Foo */
 
    initArgs.CreateMutex = NULL;
    initArgs.DestroyMutex = NULL;
    initArgs.LockMutex = NULL;
    initArgs.UnlockMutex = NULL;
    initArgs.flags = CKF_OS_LOCKING_OK;
    initArgs.LibraryParameters = (CK_CHAR_PTR *)
        "configdir='.' certPrefix='' keyPrefix='' secmod='secmod.db' flags= ";
    initArgs.pReserved = NULL;
    rv = pFunctionList->C_Initialize(&initArgs);
    assert(rv == CKR_OK);
 
    rv = pFunctionList->C_GetInfo(&info);
    assert(rv == CKR_OK);
    printf("General information about the PKCS #11 library:\n");
    printf("    PKCS #11 version: %d.%d\n",
        (int)info.cryptokiVersion.major, (int)info.cryptokiVersion.minor);
    printf("    manufacturer ID: %.32s\n", info.manufacturerID);
    printf("    flags: 0x%08lX\n", info.flags);
    printf("    library description: %.32s\n", info.libraryDescription);
    printf("    library version: %d.%d\n",
        (int)info.libraryVersion.major, (int)info.libraryVersion.minor);
    printf("\n");
 
    rv = pFunctionList->C_Finalize(NULL);
    assert(rv == CKR_OK);
 
    status = PR_UnloadLibrary(lib);
    assert(status == PR_SUCCESS);
    return 0;
}
</pre>
To reiterate, the mode of operation of the NSS cryptographic module is determined by the second argument passed to the <code>PR_FindFunctionSymbol</code> function.
* For the non-FIPS Approved mode of operation, look up the standard PKCS #11 function <code>"C_GetFunctionList"</code>.
* For the FIPS Approved mode of operation, look up the alternative function <code>"FC_GetFunctionList"</code>.


'''modutil -fips true -dbdir certdir'''
===Design Specification===


The setting is permanent for the NSS module and all subsequent invocations of NSS functions using that cert directory will be in FIPS mode. The module can be taken out of FIPS mode by substituting ''false'' for ''true'' in the command above. The state of the module can be checked with:
The design of the software components of the NSS cryptographic module is specified in the following documents. Some of these documents cover the larger NSS project, of which the NSS cryptographic module is a component.
* [[Section_4:_Finite_State_Model|Finite State Model and Description]]
* [http://www.mozilla.org/projects/security/pki/nss/fips/audit-design.html Design of Auditing in the NSS Software Cryptographic Module]
* [http://www.mozilla.org/projects/security/pki/nss/pcertdb.html Physical format of the certificate database]
* [https://wiki.mozilla.org/NSS_Shared_DB NSS shared DB]
* [http://www.mozilla.org/projects/security/pki/nss/devel/pk11wrap.pdf The pk11wrap layer and the softoken]
* [http://www.mozilla.org/projects/security/pki/nss/intro.html Introduction to NSS]
* [http://www.mozilla.org/projects/security/pki/nss/nss-guidelines.html NSS API Guidelines]


'''modutil -chkfips true -dbdir certdir'''
===Security-Related Information===
Security-related information whose disclosure or modification can compromise the security of the NSS cryptographic module includes:
* secret and private cryptographic keys (both plaintext and encrypted)
* passwords
* audited events, audit data

Latest revision as of 15:13, 6 May 2009

This is a draft document

Cryptographic Module Specification

The NSS cryptographic module is a cryptographic library that presents an application program interface (API) based on the PKCS #11 standard to applications. The NSS cryptographic module is compiled and built for specific platforms (see the Platform List section of the Security Policy) and tagged with a release identifier to be published on ftp.mozilla.org. The release compliant with FIPS 140-2 is version 3.11.4.

Functions that are being certified include Triple DES(KO 1,2,3 56/112/168), AES(128/192/256), SHS (SHA-1, SHA-256, SHA-384, SHA-512), HMAC, RNG, DSA (512-1024), RSA (1024-8092), and ECDSA.

Module Components

The NSS cryptographic module is a software cryptographic implementation. No hardware or firmware components are included. All input to the module is via function arguments; all output is returned to the caller either as return codes or as updated memory objects pointed to by some of the arguments.

NSS Cryptographic Module Components

Library Name

PKCS #11 libsoftokn3
FREEBL libfreebl3
nssdbm libnssdbm3
Note: Filename extensions (.so, .dll, .sl, or .dylib) depend upon the target operating environment. For some CPUs libfreebl3 is named libfreebl_cpu-type_3.

The NSS cryptographic module depends on the following Netscape Portable Runtime (NSPR) libraries outside the cryptographic boundary. The NSPR libraries provide platform abstraction and utility functions.

NSS Cryptographic Module Dependencies

Library Name

NSPR (platform abstraction layer) libnspr4
PLC (NSPR string functions) libplc4
PLDS (NSPR hashtables and arena pools) libplds4

The Cryptographic Boundary

The NSS cryptographic module is a multiple-chip standalone cryptographic module. The physical boundary of the NSS cryptographic module is the enclosure of the general purpose computer it runs on, including any hardware or software that inputs, processes, or outputs important security parameters that could lead to the compromise of sensitive information if not properly controlled.

The NSS cryptographic module implements the PKCS #11 (Cryptoki) API. The API itself defines the logical cryptographic boundary, thus all implementation is inside the boundary. The diagram below shows the relationship of the layers.

Fipsmod6.png

Hardware Diagram

The block diagram below shows the hardware components of a general purpose computer and their interconnections. The dotted line marks the physical cryptographic boundary.

Fipshw.png

Approved Mode of Operation

The NSS cryptographic module has two modes of operation: non-FIPS Approved mode and FIPS Approved mode. The FIPS Approved mode is designed specifically for FIPS 140-2, and allows applications using the NSS cryptographic module to operate in a strictly FIPS mode.

By default the NSS cryptographic module operates in the non-FIPS Approved mode, meaning that if an application calls the standard PKCS #11 function C_GetFunctionList and calls the function pointers in that list, it gets the non-FIPS Approved mode. To operate the NSS cryptographic module in the FIPS Approved mode, an application must call the alternative function FC_GetFunctionList and call the function pointers in that list. Here is the sample code using NSPR functions (declared in the header file "prlink.h") for dynamic library loading and function symbol lookup: 

#include "prlink.h"
#include "cryptoki.h"
#include <assert.h>
#include <stdio.h>

/*
 * An extension of the CK_C_INITIALIZE_ARGS structure for the
 * NSS cryptographic module. The 'LibraryParameters' field is
 * used to pass instance-specific information to the library
 * (like where to find its config files, etc).
 */
typedef struct CK_C_INITIALIZE_ARGS_NSS {
    CK_CREATEMUTEX CreateMutex;
    CK_DESTROYMUTEX DestroyMutex;
    CK_LOCKMUTEX LockMutex;
    CK_UNLOCKMUTEX UnlockMutex;
    CK_FLAGS flags;
    CK_CHAR_PTR *LibraryParameters;
    CK_VOID_PTR pReserved;
} CK_C_INITIALIZE_ARGS_NSS;

int main()
{
    char *libname;
    PRLibrary *lib;
    CK_C_GetFunctionList pC_GetFunctionList;
    CK_FUNCTION_LIST_PTR pFunctionList;
    CK_RV rv;
    CK_C_INITIALIZE_ARGS_NSS initArgs;
    CK_INFO info;
    PRStatus status;

    /* Get the platform-dependent library name of the NSS cryptographic module */
    libname = PR_GetLibraryName(NULL, "softokn3");
    assert(libname != NULL);
    lib = PR_LoadLibrary(libname);
    assert(lib != NULL);
    PR_FreeLibraryName(libname);

    pC_GetFunctionList = (CK_C_GetFunctionList) PR_FindFunctionSymbol(lib,
        "FC_GetFunctionList");
    assert(pC_GetFunctionList != NULL);
    rv = (*pC_GetFunctionList)(&pFunctionList);
    assert(rv == CKR_OK);

    /* Call FC_Foo as pFunctionList->C_Foo */

    initArgs.CreateMutex = NULL;
    initArgs.DestroyMutex = NULL;
    initArgs.LockMutex = NULL;
    initArgs.UnlockMutex = NULL;
    initArgs.flags = CKF_OS_LOCKING_OK;
    initArgs.LibraryParameters = (CK_CHAR_PTR *)
        "configdir='.' certPrefix='' keyPrefix='' secmod='secmod.db' flags= ";
    initArgs.pReserved = NULL;
    rv = pFunctionList->C_Initialize(&initArgs);
    assert(rv == CKR_OK);

    rv = pFunctionList->C_GetInfo(&info);
    assert(rv == CKR_OK);
    printf("General information about the PKCS #11 library:\n");
    printf("    PKCS #11 version: %d.%d\n",
        (int)info.cryptokiVersion.major, (int)info.cryptokiVersion.minor);
    printf("    manufacturer ID: %.32s\n", info.manufacturerID);
    printf("    flags: 0x%08lX\n", info.flags);
    printf("    library description: %.32s\n", info.libraryDescription);
    printf("    library version: %d.%d\n",
        (int)info.libraryVersion.major, (int)info.libraryVersion.minor);
    printf("\n");

    rv = pFunctionList->C_Finalize(NULL);
    assert(rv == CKR_OK);

    status = PR_UnloadLibrary(lib);
    assert(status == PR_SUCCESS);
    return 0;
}

To reiterate, the mode of operation of the NSS cryptographic module is determined by the second argument passed to the PR_FindFunctionSymbol function.

  • For the non-FIPS Approved mode of operation, look up the standard PKCS #11 function "C_GetFunctionList".
  • For the FIPS Approved mode of operation, look up the alternative function "FC_GetFunctionList".

Design Specification

The design of the software components of the NSS cryptographic module is specified in the following documents. Some of these documents cover the larger NSS project, of which the NSS cryptographic module is a component.

Security-Related Information

Security-related information whose disclosure or modification can compromise the security of the NSS cryptographic module includes:

  • secret and private cryptographic keys (both plaintext and encrypted)
  • passwords
  • audited events, audit data
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