Introduction to Network Security Services¶
Network Security Services (NSS) is a set of libraries designed to support cross-platform development of communications applications that support SSL, S/MIME, and other Internet security standards. For a general overview of NSS and the standards it supports, see Overview of NSS.
Naming conventions and special libraries¶
Windows and Unix use different naming conventions for static and dynamic libraries:
static |
|
|
dynamic |
|
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In addition, Windows has “import” libraries that bind to dynamic libraries. So the NSS library has the following forms:
libnss3.so
- Unix shared librarylibnss3.sl
- HP-UX shared librarylibnss.a
- Unix static librarynss3.dll
- Windows shared librarynss3.lib
- Windows import library binding tonss3.dll
nss.lib
- Windows static library
NSS, SSL, and S/MIME have all of the above forms.
The following static libraries aren’t included in any shared libraries
libcrmf.a
/crmf.lib
provides an API for CRMF operations.libjar.a
/jar.lib
provides an API for creating JAR files.
The following static libraries are included only in external loadable PKCS #11 modules:
libnssckfw.a
/nssckfw.lib
provides an API for writing PKCS #11 modules.libswfci.a
/swfci.lib
provides support for software FORTEZZA.
The following shared libraries are standalone loadable modules, not meant to be linked with directly:
libfort.so
/libfort.sl
/fort32.dll
provides support for hardware FORTEZZA.libswft.so
/libswft.sl
/swft32.dll
provides support for software FORTEZZA.libnssckbi.so
/libnssckbi.sl
/nssckbi.dll
defines the default set of trusted root certificates.
Support for ILP32¶
In NSS 3.2 and later versions, there are two new shared libraries for the platforms HP-UX for PARisc CPUs and Solaris for (Ultra)Sparc (not x86) CPUs. These HP and Solaris platforms allow programs that use the ILP32 program model to run on both 32-bit CPUs and 64-bit CPUs. The two libraries exist to provide optimal performance on each of the two types of CPUs.
These two extra shared libraries are not supplied on any other platforms. The names of these libraries are platform-dependent, as shown in the following table.
Platform |
for 32-bit CPUs |
for 64-bit CPUs |
Solaris/Sparc |
|
|
HPUX/PARisc |
|
|
AIX (planned for a future release) |
|
|
An application should not link against these libraries, because they are dynamically loaded by NSS at run time. Linking the application against one or the other of these libraries may produce an application program that can only run on one type of CPU (e.g. only on 64-bit CPUs, not on 32-bit CPUs) or that doesn’t use the more efficient 64-bit code on 64-bit CPUs, which defeats the purpose of having these shared libraries.
On platforms for which these shared libraries exist, NSS 3.2 will fail if these shared libs are
not present. So, an application must include these files in its distribution of NSS shared
libraries. These shared libraries should be installed in the same directory where the other NSS
shared libraries (such as libnss3.so
) are installed. Both shared libs should always be
installed whether the target system has a 32-bit CPU or a 64-bit CPU. NSS will pick the right one
for the local system at run time.
Note that NSS 3.x is also available in the LP64 model for these platforms, but the LP64 model of NSS 3.x does not have these two extra shared libraries.
What you should already know¶
Before using NSS, you should be familiar with the following topics:
Concepts and techniques of public-key cryptography
The Secure Sockets Layer (SSL) protocol
The PKCS #11 standard for cryptographic token interfaces
Cross-platform development issues and techniques
Where to find more information¶
For information about PKI and SSL that you should understand before using NSS, see the following:
For links to API documentation, build instructions, and other useful information, see the Legacy documentation.
As mentioned above, NSS is built on top of NSPR. The API documentation for NSPR is available at NSPR API Reference.