docs/busybox.net/programming.html - codeaurora/busybox - Gitiles

 <!--#include file="header.html" -->

 <h2>Rob's notes on programming busybox.</h2>

 <ul>
   <li><a href="#goals">What are the goals of busybox?</a></li>
   <li><a href="#design">What is the design of busybox?</a></li>
   <li><a href="#source">How is the source code organized?</a></li>
   <ul>
     <li><a href="#source_applets">The applet directories.</a></li>
     <li><a href="#source_libbb">The busybox shared library (libbb)</a></li>
   </ul>
   <li><a href="#adding">Adding an applet to busybox</a></li>
   <li><a href="#standards">What standards does busybox adhere to?</a></li>
 </ul>

 <h2><b><a name="goals" />What are the goals of busybox?</b></h2>

 <p>Busybox aims to be the smallest and simplest correct implementation of the
 standard Linux command line tools.  First and foremost, this means the
 smallest executable size we can manage.  We also want to have the simplest
 and cleanest implementation we can manage, be <a href="#standards">standards
 compliant</a>, minimize run-time memory usage (heap and stack), run fast, and
 take over the world.</p>

 <h2><b><a name="design" />What is the design of busybox?</b></h2>

 <p>Busybox is like a swiss army knife: one thing with many functions.
 The busybox executable can act like many different programs depending on
 the name used to invoke it.  Normal practice is to create a bunch of symlinks
 pointing to the busybox binary, each of which triggers a different busybox
 function.  (See <a href="FAQ.html#getting_started">getting started</a> in the
 FAQ for more information on usage, and <a href="BusyBox.html">the
 busybox documentation</a> for a list of symlink names and what they do.)

 <p>The "one binary to rule them all" approach is primarily for size reasons: a
 single multi-purpose executable is smaller then many small files could be.
 This way busybox only has one set of ELF headers, it can easily share code
 between different apps even when statically linked, it has better packing
 efficiency by avoding gaps between files or compression dictionary resets,
 and so on.</p>

 <p>Work is underway on new options such as "make standalone" to build separate
 binaries for each applet, and a "libbb.so" to make the busybox common code
 available as a shared library.  Neither is ready yet at the time of this
 writing.</p>

 <a name="source" />

 <h2><a name="source_applets" /><b>The applet directories</b></h2>

 <p>The directory "applets" contains the busybox startup code (applets.c and
 busybox.c), and several subdirectories containing the code for the individual
 applets.</p>

 <p>Busybox execution starts with the main() function in applets/busybox.c,
 which sets the global variable bb_applet_name to argv[0] and calls
 run_applet_by_name() in applets/applets.c.  That uses the applets[] array
 (defined in include/busybox.h and filled out in include/applets.h) to
 transfer control to the appropriate APPLET_main() function (such as
 cat_main() or sed_main()).  The individual applet takes it from there.</p>

 <p>This is why calling busybox under a different name triggers different
 functionality: main() looks up argv[0] in applets[] to get a function pointer
 to APPLET_main().</p>

 <p>Busybox applets may also be invoked through the multiplexor applet
 "busybox" (see busybox_main() in applets/busybox.c), and through the
 standalone shell (grep for STANDALONE_SHELL in applets/shell/*.c).
 See <a href="FAQ.html#getting_started">getting started</a> in the
 FAQ for more information on these alternate usage mechanisms, which are
 just different ways to reach the relevant APPLET_main() function.</p>

 <p>The applet subdirectories (archival, console-tools, coreutils,
 debianutils, e2fsprogs, editors, findutils, init, loginutils, miscutils,
 modutils, networking, procps, shell, sysklogd, and util-linux) correspond
 to the configuration sub-menus in menuconfig.  Each subdirectory contains the
 code to implement the applets in that sub-menu, as well as a Config.in
 file defining that configuration sub-menu (with dependencies and help text
 for each applet), and the makefile segment (Makefile.in) for that
 subdirectory.</p>

 <p>The run-time --help is stored in usage_messages[], which is initialized at
 the start of applets/applets.c and gets its help text from usage.h.  During the
 build this help text is also used to generate the BusyBox documentation (in
 html, txt, and man page formats) in the docs directory.  See
 <a href="#adding">adding an applet to busybox</a> for more
 information.</p>

 <h2><a name="source_libbb" /><b>libbb</b></h2>

 <p>Most non-setup code shared between busybox applets lives in the libbb
 directory.  It's a mess that evolved over the years without much auditing
 or cleanup.  For anybody looking for a great project to break into busybox
 development with, documenting libbb would be both incredibly useful and good
 experience.</p>

 <p>Common themes in libbb include allocation functions that test
 for failure and abort the program with an error message so the caller doesn't
 have to test the return value (xmalloc(), xstrdup(), etc), wrapped versions
 of open(), close(), read(), and write() that test for their own failures
 and/or retry automatically, linked list management functions (llist.c),
 command line argument parsing (getopt_ulflags.c), and a whole lot more.</p>

 <h2><a name="adding" /><b>Adding an applet to busybox</b></h2>

 <p>To add a new applet to busybox, first pick a name for the applet and
 a corresponding CONFIG_NAME.  Then do this:</p>

 <ul>
 <li>Figure out where in the busybox source tree your applet best fits,
 and put your source code there.  Be sure to use APPLET_main() instead
 of main(), where APPLET is the name of your applet.</li>

 <li>Add your applet to the relevant Config.in file (which file you add
 it to determines where it shows up in "make menuconfig").  This uses
 the same general format as the linux kernel's configuration system.</li>

 <li>Add your applet to the relevant Makefile.in file (in the same
 directory as the Config.in you chose), using the existing entries as a
 template and the same CONFIG symbol as you used for Config.in.  (Don't
 forget "needlibm" or "needcrypt" if your applet needs libm or
 libcrypt.)</li>

 <li>Add your applet to "include/applets.h", using one of the existing
 entries as a template.  (Note: this is in alphabetical order.  Applets
 are found via binary search, and if you add an applet out of order it
 won't work.)</li>

 <li>Add your applet's runtime help text to "include/usage.h".  You need
 at least appname_trivial_usage (the minimal help text, always included
 in the busybox binary when this applet is enabled) and appname_full_usage
 (extra help text included in the busybox binary with
 CONFIG_FEATURE_VERBOSE_USAGE is enabled), or it won't compile.
 The other two help entry types (appname_example_usage and
 appname_notes_usage) are optional.  They don't take up space in the binary,
 but instead show up in the generated documentation (BusyBox.html,
 BusyBox.txt, and the man page BusyBox.1).</li>

 <li>Run menuconfig, switch your applet on, compile, test, and fix the
 bugs.  Be sure to try both "allyesconfig" and "allnoconfig" (and
 "allbareconfig" if relevant).</li>

 </ul>

 <h2><a name="standards" />What standards does busybox adhere to?</a></h2>

 <p>The standard we're paying attention to is the "Shell and Utilities"
 portion of the <a href=http://www.opengroup.org/onlinepubs/009695399/>Open
 Group Base Standards</a> (also known as the Single Unix Specification version
 3 or SUSv3).  Note that paying attention isn't necessarily the same thing as
 following it.</p>

 <p>SUSv3 doesn't even mention things like init, mount, tar, or losetup, nor
 commonly used options like echo's '-e' and '-n', or sed's '-i'.  Busybox is
 driven by what real users actually need, not the fact the standard believes
 we should implement ed or sccs.  For size reasons, we're unlikely to include
 much internationalization support beyond UTF-8, and on top of all that, our
 configuration menu lets developers chop out features to produce smaller but
 very non-standard utilities.</p>

 <p>Also, Busybox is aimed primarily at Linux.  Unix standards are interesting
 because Linux tries to adhere to them, but portability to dozens of platforms
 is only interesting in terms of offering a restricted feature set that works
 everywhere, not growing dozens of platform-specific extensions.  Busybox
 should be portable to all hardware platforms Linux supports, and any other
 similar operating systems that are easy to do and won't require much
 maintenance.</p>

 <p>In practice, standards compliance tends to be a clean-up step once an
 applet is otherwise finished.  When polishing and testing a busybox applet,
 we ensure we have at least the option of full standards compliance, or else
 document where we (intentionally) fall short.</p>

 <br>
 <br>
 <br>

 <!--#include file="footer.html" -->
	<!--#include file="header.html" -->

	<h2>Rob's notes on programming busybox.</h2>

	<ul>
	<li><a href="#goals">What are the goals of busybox?</a></li>
	<li><a href="#design">What is the design of busybox?</a></li>
	<li><a href="#source">How is the source code organized?</a></li>
	<ul>
	<li><a href="#source_applets">The applet directories.</a></li>
	<li><a href="#source_libbb">The busybox shared library (libbb)</a></li>
	</ul>
	<li><a href="#adding">Adding an applet to busybox</a></li>
	<li><a href="#standards">What standards does busybox adhere to?</a></li>
	</ul>

	<h2><b><a name="goals" />What are the goals of busybox?</b></h2>

	<p>Busybox aims to be the smallest and simplest correct implementation of the
	standard Linux command line tools. First and foremost, this means the
	smallest executable size we can manage. We also want to have the simplest
	and cleanest implementation we can manage, be <a href="#standards">standards
	compliant</a>, minimize run-time memory usage (heap and stack), run fast, and
	take over the world.</p>

	<h2><b><a name="design" />What is the design of busybox?</b></h2>

	<p>Busybox is like a swiss army knife: one thing with many functions.
	The busybox executable can act like many different programs depending on
	the name used to invoke it. Normal practice is to create a bunch of symlinks
	pointing to the busybox binary, each of which triggers a different busybox
	function. (See <a href="FAQ.html#getting_started">getting started</a> in the
	FAQ for more information on usage, and <a href="BusyBox.html">the
	busybox documentation</a> for a list of symlink names and what they do.)

	<p>The "one binary to rule them all" approach is primarily for size reasons: a
	single multi-purpose executable is smaller then many small files could be.
	This way busybox only has one set of ELF headers, it can easily share code
	between different apps even when statically linked, it has better packing
	efficiency by avoding gaps between files or compression dictionary resets,
	and so on.</p>

	<p>Work is underway on new options such as "make standalone" to build separate
	binaries for each applet, and a "libbb.so" to make the busybox common code
	available as a shared library. Neither is ready yet at the time of this
	writing.</p>

	<a name="source" />

	<h2><a name="source_applets" /><b>The applet directories</b></h2>

	<p>The directory "applets" contains the busybox startup code (applets.c and
	busybox.c), and several subdirectories containing the code for the individual
	applets.</p>

	<p>Busybox execution starts with the main() function in applets/busybox.c,
	which sets the global variable bb_applet_name to argv[0] and calls
	run_applet_by_name() in applets/applets.c. That uses the applets[] array
	(defined in include/busybox.h and filled out in include/applets.h) to
	transfer control to the appropriate APPLET_main() function (such as
	cat_main() or sed_main()). The individual applet takes it from there.</p>

	<p>This is why calling busybox under a different name triggers different
	functionality: main() looks up argv[0] in applets[] to get a function pointer
	to APPLET_main().</p>

	<p>Busybox applets may also be invoked through the multiplexor applet
	"busybox" (see busybox_main() in applets/busybox.c), and through the
	standalone shell (grep for STANDALONE_SHELL in applets/shell/*.c).
	See <a href="FAQ.html#getting_started">getting started</a> in the
	FAQ for more information on these alternate usage mechanisms, which are
	just different ways to reach the relevant APPLET_main() function.</p>

	<p>The applet subdirectories (archival, console-tools, coreutils,
	debianutils, e2fsprogs, editors, findutils, init, loginutils, miscutils,
	modutils, networking, procps, shell, sysklogd, and util-linux) correspond
	to the configuration sub-menus in menuconfig. Each subdirectory contains the
	code to implement the applets in that sub-menu, as well as a Config.in
	file defining that configuration sub-menu (with dependencies and help text
	for each applet), and the makefile segment (Makefile.in) for that
	subdirectory.</p>

	<p>The run-time --help is stored in usage_messages[], which is initialized at
	the start of applets/applets.c and gets its help text from usage.h. During the
	build this help text is also used to generate the BusyBox documentation (in
	html, txt, and man page formats) in the docs directory. See
	<a href="#adding">adding an applet to busybox</a> for more
	information.</p>

	<h2><a name="source_libbb" /><b>libbb</b></h2>

	<p>Most non-setup code shared between busybox applets lives in the libbb
	directory. It's a mess that evolved over the years without much auditing
	or cleanup. For anybody looking for a great project to break into busybox
	development with, documenting libbb would be both incredibly useful and good
	experience.</p>

	<p>Common themes in libbb include allocation functions that test
	for failure and abort the program with an error message so the caller doesn't
	have to test the return value (xmalloc(), xstrdup(), etc), wrapped versions
	of open(), close(), read(), and write() that test for their own failures
	and/or retry automatically, linked list management functions (llist.c),
	command line argument parsing (getopt_ulflags.c), and a whole lot more.</p>

	<h2><a name="adding" /><b>Adding an applet to busybox</b></h2>

	<p>To add a new applet to busybox, first pick a name for the applet and
	a corresponding CONFIG_NAME. Then do this:</p>

	<ul>
	<li>Figure out where in the busybox source tree your applet best fits,
	and put your source code there. Be sure to use APPLET_main() instead
	of main(), where APPLET is the name of your applet.</li>

	<li>Add your applet to the relevant Config.in file (which file you add
	it to determines where it shows up in "make menuconfig"). This uses
	the same general format as the linux kernel's configuration system.</li>

	<li>Add your applet to the relevant Makefile.in file (in the same
	directory as the Config.in you chose), using the existing entries as a
	template and the same CONFIG symbol as you used for Config.in. (Don't
	forget "needlibm" or "needcrypt" if your applet needs libm or
	libcrypt.)</li>

	<li>Add your applet to "include/applets.h", using one of the existing
	entries as a template. (Note: this is in alphabetical order. Applets
	are found via binary search, and if you add an applet out of order it
	won't work.)</li>

	<li>Add your applet's runtime help text to "include/usage.h". You need
	at least appname_trivial_usage (the minimal help text, always included
	in the busybox binary when this applet is enabled) and appname_full_usage
	(extra help text included in the busybox binary with
	CONFIG_FEATURE_VERBOSE_USAGE is enabled), or it won't compile.
	The other two help entry types (appname_example_usage and
	appname_notes_usage) are optional. They don't take up space in the binary,
	but instead show up in the generated documentation (BusyBox.html,
	BusyBox.txt, and the man page BusyBox.1).</li>

	<li>Run menuconfig, switch your applet on, compile, test, and fix the
	bugs. Be sure to try both "allyesconfig" and "allnoconfig" (and
	"allbareconfig" if relevant).</li>

	</ul>

	<h2><a name="standards" />What standards does busybox adhere to?</a></h2>

	<p>The standard we're paying attention to is the "Shell and Utilities"
	portion of the <a href=http://www.opengroup.org/onlinepubs/009695399/>Open
	Group Base Standards</a> (also known as the Single Unix Specification version
	3 or SUSv3). Note that paying attention isn't necessarily the same thing as
	following it.</p>

	<p>SUSv3 doesn't even mention things like init, mount, tar, or losetup, nor
	commonly used options like echo's '-e' and '-n', or sed's '-i'. Busybox is
	driven by what real users actually need, not the fact the standard believes
	we should implement ed or sccs. For size reasons, we're unlikely to include
	much internationalization support beyond UTF-8, and on top of all that, our
	configuration menu lets developers chop out features to produce smaller but
	very non-standard utilities.</p>

	<p>Also, Busybox is aimed primarily at Linux. Unix standards are interesting
	because Linux tries to adhere to them, but portability to dozens of platforms
	is only interesting in terms of offering a restricted feature set that works
	everywhere, not growing dozens of platform-specific extensions. Busybox
	should be portable to all hardware platforms Linux supports, and any other
	similar operating systems that are easy to do and won't require much
	maintenance.</p>

	<p>In practice, standards compliance tends to be a clean-up step once an
	applet is otherwise finished. When polishing and testing a busybox applet,
	we ensure we have at least the option of full standards compliance, or else
	document where we (intentionally) fall short.</p>

	<br>
	<br>
	<br>

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