306 lines
16 KiB
HTML
306 lines
16 KiB
HTML
<!--#include file="header.html" -->
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<h2>Rob's notes on programming busybox.</h2>
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<ul>
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<li><a href="#goals">What are the goals of busybox?</a></li>
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<li><a href="#design">What is the design of busybox?</a></li>
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<li><a href="#source">How is the source code organized?</a></li>
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<ul>
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<li><a href="#source_applets">The applet directories.</a></li>
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<li><a href="#source_libbb">The busybox shared library (libbb)</a></li>
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</ul>
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<li><a href="#adding">Adding an applet to busybox</a></li>
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<li><a href="#standards">What standards does busybox adhere to?</a></li>
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<li><a href="#tips">Tips and tricks.</a></li>
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<ul>
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<li><a href="#tips_encrypted_passwords">Encrypted Passwords</a></li>
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<li><a href="#tips_vfork">Fork and vfork</a></li>
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</ul>
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</ul>
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<h2><b><a name="goals" />What are the goals of busybox?</b></h2>
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<p>Busybox aims to be the smallest and simplest correct implementation of the
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standard Linux command line tools. First and foremost, this means the
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smallest executable size we can manage. We also want to have the simplest
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and cleanest implementation we can manage, be <a href="#standards">standards
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compliant</a>, minimize run-time memory usage (heap and stack), run fast, and
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take over the world.</p>
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<h2><b><a name="design" />What is the design of busybox?</b></h2>
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<p>Busybox is like a swiss army knife: one thing with many functions.
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The busybox executable can act like many different programs depending on
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the name used to invoke it. Normal practice is to create a bunch of symlinks
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pointing to the busybox binary, each of which triggers a different busybox
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function. (See <a href="FAQ.html#getting_started">getting started</a> in the
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FAQ for more information on usage, and <a href="BusyBox.html">the
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busybox documentation</a> for a list of symlink names and what they do.)
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<p>The "one binary to rule them all" approach is primarily for size reasons: a
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single multi-purpose executable is smaller then many small files could be.
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This way busybox only has one set of ELF headers, it can easily share code
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between different apps even when statically linked, it has better packing
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efficiency by avoding gaps between files or compression dictionary resets,
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and so on.</p>
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<p>Work is underway on new options such as "make standalone" to build separate
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binaries for each applet, and a "libbb.so" to make the busybox common code
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available as a shared library. Neither is ready yet at the time of this
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writing.</p>
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<a name="source" />
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<h2><a name="source_applets" /><b>The applet directories</b></h2>
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<p>The directory "applets" contains the busybox startup code (applets.c and
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busybox.c), and several subdirectories containing the code for the individual
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applets.</p>
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<p>Busybox execution starts with the main() function in applets/busybox.c,
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which sets the global variable bb_applet_name to argv[0] and calls
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run_applet_by_name() in applets/applets.c. That uses the applets[] array
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(defined in include/busybox.h and filled out in include/applets.h) to
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transfer control to the appropriate APPLET_main() function (such as
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cat_main() or sed_main()). The individual applet takes it from there.</p>
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<p>This is why calling busybox under a different name triggers different
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functionality: main() looks up argv[0] in applets[] to get a function pointer
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to APPLET_main().</p>
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<p>Busybox applets may also be invoked through the multiplexor applet
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"busybox" (see busybox_main() in applets/busybox.c), and through the
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standalone shell (grep for STANDALONE_SHELL in applets/shell/*.c).
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See <a href="FAQ.html#getting_started">getting started</a> in the
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FAQ for more information on these alternate usage mechanisms, which are
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just different ways to reach the relevant APPLET_main() function.</p>
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<p>The applet subdirectories (archival, console-tools, coreutils,
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debianutils, e2fsprogs, editors, findutils, init, loginutils, miscutils,
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modutils, networking, procps, shell, sysklogd, and util-linux) correspond
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to the configuration sub-menus in menuconfig. Each subdirectory contains the
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code to implement the applets in that sub-menu, as well as a Config.in
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file defining that configuration sub-menu (with dependencies and help text
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for each applet), and the makefile segment (Makefile.in) for that
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subdirectory.</p>
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<p>The run-time --help is stored in usage_messages[], which is initialized at
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the start of applets/applets.c and gets its help text from usage.h. During the
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build this help text is also used to generate the BusyBox documentation (in
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html, txt, and man page formats) in the docs directory. See
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<a href="#adding">adding an applet to busybox</a> for more
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information.</p>
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<h2><a name="source_libbb" /><b>libbb</b></h2>
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<p>Most non-setup code shared between busybox applets lives in the libbb
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directory. It's a mess that evolved over the years without much auditing
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or cleanup. For anybody looking for a great project to break into busybox
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development with, documenting libbb would be both incredibly useful and good
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experience.</p>
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<p>Common themes in libbb include allocation functions that test
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for failure and abort the program with an error message so the caller doesn't
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have to test the return value (xmalloc(), xstrdup(), etc), wrapped versions
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of open(), close(), read(), and write() that test for their own failures
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and/or retry automatically, linked list management functions (llist.c),
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command line argument parsing (getopt_ulflags.c), and a whole lot more.</p>
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<h2><a name="adding" /><b>Adding an applet to busybox</b></h2>
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<p>To add a new applet to busybox, first pick a name for the applet and
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a corresponding CONFIG_NAME. Then do this:</p>
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<ul>
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<li>Figure out where in the busybox source tree your applet best fits,
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and put your source code there. Be sure to use APPLET_main() instead
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of main(), where APPLET is the name of your applet.</li>
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<li>Add your applet to the relevant Config.in file (which file you add
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it to determines where it shows up in "make menuconfig"). This uses
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the same general format as the linux kernel's configuration system.</li>
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<li>Add your applet to the relevant Makefile.in file (in the same
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directory as the Config.in you chose), using the existing entries as a
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template and the same CONFIG symbol as you used for Config.in. (Don't
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forget "needlibm" or "needcrypt" if your applet needs libm or
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libcrypt.)</li>
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<li>Add your applet to "include/applets.h", using one of the existing
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entries as a template. (Note: this is in alphabetical order. Applets
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are found via binary search, and if you add an applet out of order it
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won't work.)</li>
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<li>Add your applet's runtime help text to "include/usage.h". You need
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at least appname_trivial_usage (the minimal help text, always included
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in the busybox binary when this applet is enabled) and appname_full_usage
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(extra help text included in the busybox binary with
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CONFIG_FEATURE_VERBOSE_USAGE is enabled), or it won't compile.
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The other two help entry types (appname_example_usage and
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appname_notes_usage) are optional. They don't take up space in the binary,
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but instead show up in the generated documentation (BusyBox.html,
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BusyBox.txt, and the man page BusyBox.1).</li>
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<li>Run menuconfig, switch your applet on, compile, test, and fix the
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bugs. Be sure to try both "allyesconfig" and "allnoconfig" (and
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"allbareconfig" if relevant).</li>
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</ul>
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<h2><a name="standards" />What standards does busybox adhere to?</a></h2>
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<p>The standard we're paying attention to is the "Shell and Utilities"
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portion of the <a href=http://www.opengroup.org/onlinepubs/009695399/>Open
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Group Base Standards</a> (also known as the Single Unix Specification version
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3 or SUSv3). Note that paying attention isn't necessarily the same thing as
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following it.</p>
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<p>SUSv3 doesn't even mention things like init, mount, tar, or losetup, nor
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commonly used options like echo's '-e' and '-n', or sed's '-i'. Busybox is
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driven by what real users actually need, not the fact the standard believes
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we should implement ed or sccs. For size reasons, we're unlikely to include
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much internationalization support beyond UTF-8, and on top of all that, our
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configuration menu lets developers chop out features to produce smaller but
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very non-standard utilities.</p>
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<p>Also, Busybox is aimed primarily at Linux. Unix standards are interesting
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because Linux tries to adhere to them, but portability to dozens of platforms
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is only interesting in terms of offering a restricted feature set that works
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everywhere, not growing dozens of platform-specific extensions. Busybox
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should be portable to all hardware platforms Linux supports, and any other
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similar operating systems that are easy to do and won't require much
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maintenance.</p>
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<p>In practice, standards compliance tends to be a clean-up step once an
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applet is otherwise finished. When polishing and testing a busybox applet,
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we ensure we have at least the option of full standards compliance, or else
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document where we (intentionally) fall short.</p>
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<h2><a name="tips" />Programming tips and tricks.</a></h2>
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<p>Various things busybox uses that aren't particularly well documented
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elsewhere.</p>
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<h2><a name="tips_encrypted_passwords">Encrypted Passwords</a></h2>
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<p>Password fields in /etc/passwd and /etc/shadow are in a special format.
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If the first character isn't '$', then it's an old DES style password. If
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the first character is '$' then the password is actually three fields
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separated by '$' characters:</p>
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<pre>
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<b>$type$salt$encrypted_password</b>
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</pre>
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<p>The "type" indicates which encryption algorithm to use: 1 for MD5 and 2 for SHA1.</p>
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<p>The "salt" is a bunch of ramdom characters (generally 8) the encryption
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algorithm uses to perturb the password in a known and reproducible way (such
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as by appending the random data to the unencrypted password, or combining
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them with exclusive or). Salt is randomly generated when setting a password,
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and then the same salt value is re-used when checking the password. (Salt is
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thus stored unencrypted.)</p>
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<p>The advantage of using salt is that the same cleartext password encrypted
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with a different salt value produces a different encrypted value.
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If each encrypted password uses a different salt value, an attacker is forced
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to do the cryptographic math all over again for each password they want to
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check. Without salt, they could simply produce a big dictionary of commonly
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used passwords ahead of time, and look up each password in a stolen password
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file to see if it's a known value. (Even if there are billions of possible
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passwords in the dictionary, checking each one is just a binary search against
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a file only a few gigabytes long.) With salt they can't even tell if two
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different users share the same password without guessing what that password
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is and decrypting it. They also can't precompute the attack dictionary for
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a specific password until they know what the salt value is.</p>
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<p>The third field is the encrypted password (plus the salt). For md5 this
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is 22 bytes.</p>
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<p>The busybox function to handle all this is pw_encrypt(clear, salt) in
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"libbb/pw_encrypt.c". The first argument is the clear text password to be
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encrypted, and the second is a string in "$type$salt$password" format, from
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which the "type" and "salt" fields will be extracted to produce an encrypted
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value. (Only the first two fields are needed, the third $ is equivalent to
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the end of the string.) The return value is an encrypted password in
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/etc/passwd format, with all three $ separated fields. It's stored in
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a static buffer, 128 bytes long.</p>
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<p>So when checking an existing password, if pw_encrypt(text,
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old_encrypted_password) returns a string that compares identical to
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old_encrypted_password, you've got the right password. When setting a new
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password, generate a random 8 character salt string, put it in the right
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format with sprintf(buffer, "$%c$%s", type, salt), and feed buffer as the
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second argument to pw_encrypt(text,buffer).</p>
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<h2><a name="tips_vfork">Fork and vfork</a></h2>
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<p>Busybox hides the difference between fork() and vfork() in
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libbb/bb_fork_exec.c. If you ever want to fork and exec, use bb_fork_exec()
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(which returns a pid and takes the same arguments as execve(), although in
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this case envp can be NULL) and don't worry about it. This description is
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here in case you want to know why that does what it does.</p>
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<p>On systems that haven't got a Memory Management Unit, fork() is unreasonably
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expensive to implement, so a less capable function called vfork() is used
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instead.</p>
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<p>The reason vfork() exists is that if you haven't got an MMU then you can't
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simply set up a second set of page tables and share the physical memory via
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copy-on-write, which is what fork() normally does. This means that actually
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forking has to copy all the parent's memory (which could easily be tens of
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megabytes). And you have to do this even though that memory gets freed again
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as soon as the exec happens, so it's probably all a big waste of time.</p>
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<p>This is not only slow and a waste of space, it also causes totally
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unnecessary memory usage spikes based on how big the _parent_ process is (not
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the child), and these spikes are quite likely to trigger an out of memory
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condition on small systems (which is where nommu is common anyway). So
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although you _can_ emulate a real fork on a nommu system, you really don't
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want to.</p>
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<p>In theory, vfork() is just a fork() that writeably shares the heap and stack
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rather than copying it (so what one process writes the other one sees). In
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practice, vfork() has to suspend the parent process until the child does exec,
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at which point the parent wakes up and resumes by returning from the call to
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vfork(). All modern kernel/libc combinations implement vfork() to put the
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parent to sleep until the child does its exec. There's just no other way to
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make it work: they're sharing the same stack, so if either one returns from its
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function it stomps on the callstack so that when the other process returns,
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hilarity ensues. In fact without suspending the parent there's no way to even
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store separate copies of the return value (the pid) from the vfork() call
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itself: both assignments write into the same memory location.</p>
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<p>One way to understand (and in fact implement) vfork() is this: imagine
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the parent does a setjmp and then continues on (pretending to be the child)
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until the exec() comes around, then the _exec_ does the actual fork, and the
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parent does a longjmp back to the original vfork call and continues on from
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there. (It thus becomes obvious why the child can't return, or modify
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local variables it doesn't want the parent to see changed when it resumes.)
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<p>Note a common mistake: the need for vfork doesn't mean you can't have two
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processes running at the same time. It means you can't have two processes
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sharing the same memory without stomping all over each other. As soon as
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the child calls exec(), the parent resumes.</p>
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<p>If the child's attempt to call exec() fails, the child should call _exit()
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rather than a normal exit(). This avoids any atexit() code that might confuse
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the parent. (The parent should never call _exit(), only a vforked child that
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failed to exec.)</p>
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<p>(Now in theory, a nommu system could just copy the _stack_ when it forks
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(which presumably is much shorter than the heap), and leave the heap shared.
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In practice, you've just wound up in a multi-threaded situation and you can't
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do a malloc() or free() on your heap without freeing the other process's memory
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(and if you don't have the proper locking for being threaded, corrupting the
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heap if both of you try to do it at the same time and wind up stomping on
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each other while traversing the free memory lists). The thing about vfork is
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that it's a big red flag warning "there be dragons here" rather than
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something subtle and thus even more dangerous.)</p>
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<br>
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<br>
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<br>
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<!--#include file="footer.html" -->
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