1. Introduction
This HOWTO for programmers
discusses how to create and use program libraries on Linux
using the GNU toolset.
A ``program library'' is simply a file containing compiled code (and data)
that is to be incorporated later into a program;
program libraries allow programs to be more modular, faster to recompile,
and easier to update.
Program libraries can be divided into three types:
static libraries, shared libraries, and
dynamically loaded (DL) libraries.
This paper first discusses static libraries, which are installed
into a program executable before the program can be run.
It then discusses shared libraries, which are loaded at program
start-up and shared between programs.
Finally, it discusses dynamically loaded (DL) libraries, which can
be loaded and used at any time while a program is running.
DL libraries aren't really a different kind of library format
(both static and shared libraries can be used as DL libraries);
instead, the difference is in how DL libraries are used by programmers.
The HOWTO wraps up with a section with more examples and a section
with references to other sources of information.
Most developers who are developing libraries should create shared libraries,
since these allow users to update their libraries separately from the
applications that use the libraries.
Dynamically loaded (DL) libraries are useful, but they require a little more
work to use and many programs don't need the flexibility they offer.
Conversely, static libraries make upgrading libraries far more troublesome,
so for general-purpose use they're hard to recommend.
Still, each have their advantages, and the advantages of each type
are described in the section discussing that type.
Developers using C++ and dynamically loaded (DL) libraries should also
consult the ``C++ dlopen mini-HOWTO''.
It's worth noting that some people use the term
dynamically linked libraries (DLLs)
to refer to shared libraries,
some use the term DLL to mean any library that is used
as a DL library, and some
use the term DLL to mean a library meeting either condition.
No matter which meaning you pick, this HOWTO covers DLLs on Linux.
This HOWTO discusses only the Executable and Linking Format
(ELF) format for executables and libraries, the format
used by nearly all Linux distributions today.
The GNU gcc toolset can actually handle library formats other than ELF;
in particular, most Linux distributions can still
use the obsolete a.out format.
However, these formats are outside the scope of this paper.
If you're building an application that should port to many systems,
you might consider using
GNU libtool
to build and install libraries instead of using the Linux tools directly.
GNU libtool is a generic library support script that
hides the complexity of using shared libraries
(e.g., creating and installing them) behind a consistent, portable interface.
On Linux, GNU libtool is built on top of the tools and conventions
described in this HOWTO.
For a portable interface to dynamically loaded libraries,
you can use various portability wrappers.
GNU libtool includes such a wrapper, called ``libltdl''.
Alternatively, you could use the glib library (not to be confused
with glibc) with its portable support for Dynamic Loading of Modules.
You can learn more about glib at
https://developer.gnome.org/doc/API/glib/glib-dynamic-loading-of-modules.html.
Again, on Linux this functionality is implemented using the constructs
described in this HOWTO.
If you're actually developing or debugging the code on Linux,
you'll probably still want the information in this HOWTO.
This HOWTO's master location is
https://www.dwheeler.com/program-library, and it has been
contributed to the Linux Documentation Project
(https://www.linuxdoc.org).
It is Copyright (C) 2000 David A. Wheeler and is licensed through the
General Public License (GPL); see the last section for more information.