NAME staticperl - perl, libc, 100 modules, all in one 500kb file SYNOPSIS staticperl help # print the embedded documentation staticperl fetch # fetch and unpack perl sources staticperl configure # fetch and then configure perl staticperl build # configure and then build perl staticperl install # build and then install perl staticperl clean # clean most intermediate files (restart at configure) staticperl distclean # delete everything installed by this script staticperl cpan # invoke CPAN shell staticperl instmod path... # install unpacked modules staticperl instcpan modulename... # install modules from CPAN staticperl mkbundle # see documentation staticperl mkperl # see documentation staticperl mkapp appname # see documentation Typical Examples: staticperl install # fetch, configure, build and install perl staticperl cpan # run interactive cpan shell staticperl mkperl -M '"Config_heavy.pl"' # build a perl that supports -V staticperl mkperl -MAnyEvent::Impl::Perl -MAnyEvent::HTTPD -MURI -MURI::http # build a perl with the above modules linked in staticperl mkapp myapp --boot mainprog mymodules # build a binary "myapp" from mainprog and mymodules DESCRIPTION This script helps you to create single-file perl interpreters or applications, or embedding a perl interpreter in your applications. Single-file means that it is fully self-contained - no separate shared objects, no autoload fragments, no .pm or .pl files are needed. And when linking statically, you can create (or embed) a single file that contains perl interpreter, libc, all the modules you need, all the libraries you need and of course your actual program. With uClibc and upx on x86, you can create a single 500kb binary that contains perl and 100 modules such as POSIX, AnyEvent, EV, IO::AIO, Coro and so on. Or any other choice of modules. To see how this turns out, you can try out smallperl and bigperl, two pre-built static and compressed perl binaries with many and even more modules: just follow the links at . The created files do not need write access to the file system (like PAR does). In fact, since this script is in many ways similar to PAR::Packer, here are the differences: * The generated executables are much smaller than PAR created ones. Shared objects and the perl binary contain a lot of extra info, while the static nature of staticperl allows the linker to remove all functionality and meta-info not required by the final executable. Even extensions statically compiled into perl at build time will only be present in the final executable when needed. In addition, staticperl can strip perl sources much more effectively than PAR. * The generated executables start much faster. There is no need to unpack files, or even to parse Zip archives (which is slow and memory-consuming business). * The generated executables don't need a writable filesystem. staticperl loads all required files directly from memory. There is no need to unpack files into a temporary directory. * More control over included files, more burden. PAR tries to be maintenance and hassle-free - it tries to include more files than necessary to make sure everything works out of the box. It mostly succeeds at this, but he extra files (such as the unicode database) can take substantial amounts of memory and file size. With staticperl, the burden is mostly with the developer - only direct compile-time dependencies and AutoLoader are handled automatically. This means the modules to include often need to be tweaked manually. All this does not preclude more permissive modes to be implemented in the future, but right now, you have to resolve state hidden dependencies manually. * PAR works out of the box, staticperl does not. Maintaining your own custom perl build can be a pain in the ass, and while staticperl tries to make this easy, it still requires a custom perl build and possibly fiddling with some modules. PAR is likely to produce results faster. Ok, PAR never has worked for me out of the box, and for some people, staticperl does work out of the box, as they don't count "fiddling with module use lists" against it, but nevertheless, staticperl is certainly a bit more difficult to use. HOW DOES IT WORK? Simple: staticperl downloads, compile and installs a perl version of your choice in ~/.staticperl. You can add extra modules either by letting staticperl install them for you automatically, or by using CPAN and doing it interactively. This usually takes 5-10 minutes, depending on the speed of your computer and your internet connection. It is possible to do program development at this stage, too. Afterwards, you create a list of files and modules you want to include, and then either build a new perl binary (that acts just like a normal perl except everything is compiled in), or you create bundle files (basically C sources you can use to embed all files into your project). This step is very fast (a few seconds if PPI is not used for stripping, or the stripped files are in the cache), and can be tweaked and repeated as often as necessary. THE STATICPERL SCRIPT This module installs a script called staticperl into your perl binary directory. The script is fully self-contained, and can be used without perl (for example, in an uClibc chroot environment). In fact, it can be extracted from the "App::Staticperl" distribution tarball as bin/staticperl, without any installation. The newest (possibly alpha) version can also be downloaded from . staticperl interprets the first argument as a command to execute, optionally followed by any parameters. There are two command categories: the "phase 1" commands which deal with installing perl and perl modules, and the "phase 2" commands, which deal with creating binaries and bundle files. PHASE 1 COMMANDS: INSTALLING PERL The most important command is install, which does basically everything. The default is to download and install perl 5.12.2 and a few modules required by staticperl itself, but all this can (and should) be changed - see CONFIGURATION, below. The command staticperl install is normally all you need: It installs the perl interpreter in ~/.staticperl/perl. It downloads, configures, builds and installs the perl interpreter if required. Most of the following staticperl subcommands simply run one or more steps of this sequence. If it fails, then most commonly because the compiler options I selected are not supported by your compiler - either edit the staticperl script yourself or create ~/.staticperl shell script where your set working "PERL_CCFLAGS" etc. variables. To force recompilation or reinstallation, you need to run staticperl distclean first. staticperl version Prints some info about the version of the staticperl script you are using. staticperl fetch Runs only the download and unpack phase, unless this has already happened. staticperl configure Configures the unpacked perl sources, potentially after downloading them first. staticperl build Builds the configured perl sources, potentially after automatically configuring them. staticperl install Wipes the perl installation directory (usually ~/.staticperl/perl) and installs the perl distribution, potentially after building it first. staticperl cpan [args...] Starts an interactive CPAN shell that you can use to install further modules. Installs the perl first if necessary, but apart from that, no magic is involved: you could just as well run it manually via ~/.staticperl/perl/bin/cpan. Any additional arguments are simply passed to the cpan command. staticperl instcpan module... Tries to install all the modules given and their dependencies, using CPAN. Example: staticperl instcpan EV AnyEvent::HTTPD Coro staticperl instsrc directory... In the unlikely case that you have unpacked perl modules around and want to install from these instead of from CPAN, you can do this using this command by specifying all the directories with modules in them that you want to have built. staticperl clean Deletes the perl source directory (and potentially cleans up other intermediate files). This can be used to clean up files only needed for building perl, without removing the installed perl interpreter. At the moment, it doesn't delete downloaded tarballs. The exact semantics of this command will probably change. staticperl distclean This wipes your complete ~/.staticperl directory. Be careful with this, it nukes your perl download, perl sources, perl distribution and any installed modules. It is useful if you wish to start over "from scratch" or when you want to uninstall staticperl. PHASE 2 COMMANDS: BUILDING PERL BUNDLES Building (linking) a new perl binary is handled by a separate script. To make it easy to use staticperl from a chroot, the script is embedded into staticperl, which will write it out and call for you with any arguments you pass: staticperl mkbundle mkbundle-args... In the oh so unlikely case of something not working here, you can run the script manually as well (by default it is written to ~/.staticperl/mkbundle). mkbundle is a more conventional command and expect the argument syntax commonly used on UNIX clones. For example, this command builds a new perl binary and includes Config.pm (for perl -V), AnyEvent::HTTPD, URI and a custom httpd script (from eg/httpd in this distribution): # first make sure we have perl and the required modules staticperl instcpan AnyEvent::HTTPD # now build the perl staticperl mkperl -M'"Config_heavy.pl"' -MAnyEvent::Impl::Perl \ -MAnyEvent::HTTPD -MURI::http \ --add 'eg/httpd httpd.pm' # finally, invoke it ./perl -Mhttpd As you can see, things are not quite as trivial: the Config module has a hidden dependency which is not even a perl module (Config_heavy.pl), AnyEvent needs at least one event loop backend that we have to specify manually (here AnyEvent::Impl::Perl), and the URI module (required by AnyEvent::HTTPD) implements various URI schemes as extra modules - since AnyEvent::HTTPD only needs "http" URIs, we only need to include that module. I found out about these dependencies by carefully watching any error messages about missing modules... Instead of building a new perl binary, you can also build a standalone application: # build the app staticperl mkapp app --boot eg/httpd \ -MAnyEvent::Impl::Perl -MAnyEvent::HTTPD -MURI::http # run it ./app Here are the three phase 2 commands: staticperl mkbundle args... The "default" bundle command - it interprets the given bundle options and writes out bundle.h, bundle.c, bundle.ccopts and bundle.ldopts files, useful for embedding. staticperl mkperl args... Creates a bundle just like staticperl mkbundle (in fact, it's the same as invoking staticperl mkbundle --perl args...), but then compiles and links a new perl interpreter that embeds the created bundle, then deletes all intermediate files. staticperl mkapp filename args... Does the same as staticperl mkbundle (in fact, it's the same as invoking staticperl mkbundle --app filename args...), but then compiles and links a new standalone application that simply initialises the perl interpreter. The difference to staticperl mkperl is that the standalone application does not act like a perl interpreter would - in fact, by default it would just do nothing and exit immediately, so you should specify some code to be executed via the --boot option. OPTION PROCESSING All options can be given as arguments on the command line (typically using long (e.g. "--verbose") or short option (e.g. "-v") style). Since specifying a lot of options can make the command line very long and unwieldy, you can put all long options into a "bundle specification file" (one option per line, with or without "--" prefix) and specify this bundle file instead. For example, the command given earlier to link a new perl could also look like this: staticperl mkperl httpd.bundle With all options stored in the httpd.bundle file (one option per line, everything after the option is an argument): use "Config_heavy.pl" use AnyEvent::Impl::Perl use AnyEvent::HTTPD use URI::http add eg/httpd httpd.pm All options that specify modules or files to be added are processed in the order given on the command line. BUNDLE CREATION WORKFLOW / STATICPELR MKBUNDLE OPTIONS staticperl mkbundle works by first assembling a list of candidate files and modules to include, then filtering them by include/exclude patterns. The remaining modules (together with their direct dependencies, such as link libraries and AutoLoader files) are then converted into bundle files suitable for embedding. staticperl mkbundle can then optionally build a new perl interpreter or a standalone application. Step 0: Generic argument processing. The following options influence staticperl mkbundle itself. "--verbose" | "-v" Increases the verbosity level by one (the default is 1). "--quiet" | "-q" Decreases the verbosity level by one. any other argument Any other argument is interpreted as a bundle specification file, which supports all options (without extra quoting), one option per line, in the format "option" or "option argument". They will effectively be expanded and processed as if they were directly written on the command line, in place of the file name. Step 1: gather candidate files and modules In this step, modules, perl libraries (.pl files) and other files are selected for inclusion in the bundle. The relevant options are executed in order (this makes a difference mostly for "--eval", which can rely on earlier "--use" options to have been executed). "--use" module | "-M"module Include the named module and trace direct dependencies. This is done by "require"'ing the module in a subprocess and tracing which other modules and files it actually loads. Example: include AnyEvent and AnyEvent::Impl::Perl. staticperl mkbundle --use AnyEvent --use AnyEvent::Impl::Perl Sometimes you want to load old-style "perl libraries" (.pl files), or maybe other weirdly named files. To do that, you need to quote the name in single or double quotes (this is because staticperl *literally* just adds the string after the "require" - which acts different when confronted with quoted vs. unquoted strings). When given on the command line, you probably need to quote once more to avoid your shell interpreting it. Common cases that need this are Config_heavy.pl and utf8_heavy.pl. Example: include the required files for perl -V to work in all its glory (Config.pm is included automatically by this). # bourne shell staticperl mkbundle --use '"Config_heavy.pl"' # bundle specification file use "Config_heavy.pl" The "-M"module syntax is included as a convenience that might be easier to remember than "--use" - it's the same switch as perl itself uses to load modules. Or maybe it confuses people. Time will tell. Or maybe not. Sigh. "--eval" "perl code" | "-e" "perl code" Sometimes it is easier (or necessary) to specify dependencies using perl code, or maybe one of the modules you use need a special use statement. In that case, you can use "--eval" to execute some perl snippet or set some variables or whatever you need. All files "require"'d or "use"'d while executing the snippet are included in the final bundle. Keep in mind that mkbundle will only "require" the modules named by the "--use" option, so do not expect the symbols from modules you "--use"'d earlier on the command line to be available. Example: force AnyEvent to detect a backend and therefore include it in the final bundle. staticperl mkbundle --eval 'use AnyEvent; AnyEvent::detect' # or like this staticperl mkbundle -MAnyEvent --eval 'AnyEvent::detect' Example: use a separate "bootstrap" script that "use"'s lots of modules and also include this in the final bundle, to be executed automatically when the interpreter is initialised. staticperl mkbundle --eval 'do "bootstrap"' --boot bootstrap "--boot" filename Include the given file in the bundle and arrange for it to be executed (using "require") before the main program when the new perl is initialised. This can be used to modify @INC or do similar modifications before the perl interpreter executes scripts given on the command line (or via "-e"). This works even in an embedded interpreter - the file will be executed during interpreter initialisation in that case. "--incglob" pattern This goes through all standard library directories and tries to match any .pm and .pl files against the extended glob pattern (see below). If a file matches, it is added. The pattern is matched against the full path of the file (sans the library directory prefix), e.g. Sys/Syslog.pm. This is very useful to include "everything": --incglob '*' It is also useful for including perl libraries, or trees of those, such as the unicode database files needed by some perl built-ins, the regex engine and other modules. --incglob '/unicore/**.pl' "--add" file | "--add" "file alias" Adds the given (perl) file into the bundle (and optionally call it "alias"). The file is either an absolute path or a path relative to the current directory. If an alias is specified, then this is the name it will use for @INC searches, otherwise the file will be used as the internal name. This switch is used to include extra files into the bundle. Example: embed the file httpd in the current directory as httpd.pm when creating the bundle. staticperl mkperl --add "httpd httpd.pm" Example: add local files as extra modules in the bundle. # specification file add file1 myfiles/file1.pm add file2 myfiles/file2.pm add file3 myfiles/file3.pl # then later, in perl, use use myfiles::file1; require myfiles::file2; my $res = do "myfiles/file3.pl"; "--binadd" file | "--add" "file alias" Just like "--add", except that it treats the file as binary and adds it without any postprocessing (perl files might get stripped to reduce their size). You should probably add a "/" prefix to avoid clashing with embedded perl files (whose paths do not start with "/"), and/or use a special directory prefix, such as "/res/name". You can later get a copy of these files by calling "staticperl::find "alias"". An alternative way to embed binary files is to convert them to perl and use "do" to get the contents - this method is a bit cumbersome, but works both inside and outside of a staticperl bundle: # a "binary" file, call it "bindata.pl" <<'SOME_MARKER' binary data NOT containing SOME_MARKER SOME_MARKER # load the binary chomp (my $data = do "bindata.pl"); Step 2: filter all files using "--include" and "--exclude" options. After all candidate files and modules are added, they are *filtered* by a combination of "--include" and "--exclude" patterns (there is an implicit "--include *" at the end, so if no filters are specified, all files are included). All that this step does is potentially reduce the number of files that are to be included - no new files are added during this step. "--include" pattern | "-i" pattern | "--exclude" pattern | "-x" pattern These specify an include or exclude pattern to be applied to the candidate file list. An include makes sure that the given files will be part of the resulting file set, an exclude will exclude remaining files. The patterns are "extended glob patterns" (see below). The patterns are applied "in order" - files included via earlier "--include" specifications cannot be removed by any following "--exclude", and likewise, and file excluded by an earlier "--exclude" cannot be added by any following "--include". For example, to include everything except "Devel" modules, but still include Devel::PPPort, you could use this: --incglob '*' -i '/Devel/PPPort.pm' -x '/Devel/**' Step 3: add any extra or "hidden" dependencies. staticperl currently knows about three extra types of depdendencies that are added automatically. Only one (.packlist files) is currently optional and can be influenced, the others are always included: "--usepacklists" Read .packlist files for each distribution that happens to match a module name you specified. Sounds weird, and it is, so expect semantics to change somehow in the future. The idea is that most CPAN distributions have a .pm file that matches the name of the distribution (which is rather reasonable after all). If this switch is enabled, then if any of the .pm files that have been selected match an install distribution, then all .pm, .pl, .al and .ix files installed by this distribution are also included. For example, using this switch, when the URI module is specified, then all URI submodules that have been installed via the CPAN distribution are included as well, so you don't have to manually specify them. AutoLoader splitfiles Some modules use AutoLoader - less commonly (hopefully) used functions are split into separate .al files, and an index (.ix) file contains the prototypes. Both .ix and .al files will be detected automatically and added to the bundle. link libraries (.a files) Modules using XS (or any other non-perl language extension compiled at installation time) will have a static archive (typically .a). These will automatically be added to the linker options in bundle.ldopts. Should staticperl find a dynamic link library (typically .so) it will warn about it - obviously this shouldn't happen unless you use staticperl on the wrong perl, or one (probably wrongly) configured to use dynamic loading. extra libraries (extralibs.ld) Some modules need linking against external libraries - these are found in extralibs.ld and added to bundle.ldopts. Step 4: write bundle files and optionally link a program At this point, the select files will be read, processed (stripped) and finally the bundle files get written to disk, and staticperl mkbundle is normally finished. Optionally, it can go a step further and either link a new perl binary with all selected modules and files inside, or build a standalone application. Both the contents of the bundle files and any extra linking is controlled by these options: "--strip" "none"|"pod"|"ppi" Specify the stripping method applied to reduce the file of the perl sources included. The default is "pod", which uses the Pod::Strip module to remove all pod documentation, which is very fast and reduces file size a lot. The "ppi" method uses PPI to parse and condense the perl sources. This saves a lot more than just Pod::Strip, and is generally safer, but is also a lot slower (some files take almost a minute to strip - staticperl maintains a cache of stripped files to speed up subsequent runs for this reason). Note that this method doesn't optimise for raw file size, but for best compression (that means that the uncompressed file size is a bit larger, but the files compress better, e.g. with upx). Last not least, if you need accurate line numbers in error messages, or in the unlikely case where "pod" is too slow, or some module gets mistreated, you can specify "none" to not mangle included perl sources in any way. "--perl" After writing out the bundle files, try to link a new perl interpreter. It will be called perl and will be left in the current working directory. The bundle files will be removed. This switch is automatically used when staticperl is invoked with the "mkperl" command instead of "mkbundle". Example: build a new ./perl binary with only common::sense inside - it will be even smaller than the standard perl interpreter as none of the modules of the base distribution (such as Fcntl) will be included. staticperl mkperl -Mcommon::sense "--app" name After writing out the bundle files, try to link a new standalone program. It will be called "name", and the bundle files get removed after linking it. This switch is automatically used when staticperl is invoked with the "mkapp" command instead of "mkbundle". The difference to the (mutually exclusive) "--perl" option is that the binary created by this option will not try to act as a perl interpreter - instead it will simply initialise the perl interpreter, clean it up and exit. This means that, by default, it will do nothing but burna few CPU cycles - for it to do something useful you *must* add some boot code, e.g. with the "--boot" option. Example: create a standalone perl binary called ./myexe that will execute appfile when it is started. staticperl mkbundle --app myexe --boot appfile "--static" Add "-static" to bundle.ldopts, which means a fully static (if supported by the OS) executable will be created. This is not immensely useful when just creating the bundle files, but is most useful when linking a binary with the "--perl" or "--app" options. The default is to link the new binary dynamically (that means all perl modules are linked statically, but all external libraries are still referenced dynamically). Keep in mind that Solaris doesn't support static linking at all, and systems based on GNU libc don't really support it in a very usable fashion either. Try uClibc if you want to create fully statically linked executables, or try the "--staticlib" option to link only some libraries statically. "--staticlib" libname When not linking fully statically, this option allows you to link specific libraries statically. What it does is simply replace all occurrences of "-llibname" with the GCC-specific "-Wl,-Bstatic -llibname -Wl,-Bdynamic" option. This will have no effect unless the library is actually linked against, specifically, "--staticlib" will not link against the named library unless it would be linked against anyway. Example: link libcrypt statically into the final binary. staticperl mkperl -MIO::AIO --staticlib crypt # ldopts might now contain: # -lm -Wl,-Bstatic -lcrypt -Wl,-Bdynamic -lpthread EXTENDED GLOB PATTERNS Some options of staticperl mkbundle expect an *extended glob pattern*. This is neither a normal shell glob nor a regex, but something in between. The idea has been copied from rsync, and there are the current matching rules: Patterns starting with / will be a anchored at the root of the library tree. That is, /unicore will match the unicore directory in @INC, but nothing inside, and neither any other file or directory called unicore anywhere else in the hierarchy. Patterns not starting with / will be anchored at the end of the path. That is, idna.pl will match any file called idna.pl anywhere in the hierarchy, but not any directories of the same name. A * matches anything within a single path component. That is, /unicore/*.pl would match all .pl files directly inside "/unicore", not any deeper level .pl files. Or in other words, * will not match slashes. A ** matches anything. That is, /unicore/**.pl would match all .pl files under /unicore, no matter how deeply nested they are inside subdirectories. A ? matches a single character within a component. That is, /Encode/??.pm matches /Encode/JP.pm, but not the hypothetical /Encode/J/.pm, as ? does not match /. STATICPERL CONFIGURATION AND HOOKS During (each) startup, staticperl tries to source some shell files to allow you to fine-tune/override configuration settings. In them you can override shell variables, or define shell functions ("hooks") to be called at specific phases during installation. For example, you could define a "postinstall" hook to install additional modules from CPAN each time you start from scratch. If the env variable $STATICPERLRC is set, then staticperl will try to source the file named with it only. Otherwise, it tries the following shell files in order: /etc/staticperlrc ~/.staticperlrc $STATICPERL/rc Note that the last file is erased during staticperl distclean, so generally should not be used. CONFIGURATION VARIABLES Variables you *should* override "EMAIL" The e-mail address of the person who built this binary. Has no good default, so should be specified by you. "CPAN" The URL of the CPAN mirror to use (e.g. ). "EXTRA_MODULES" Additional modules installed during staticperl install. Here you can set which modules you want have to installed from CPAN. Example: I really really need EV, AnyEvent, Coro and AnyEvent::AIO. EXTRA_MODULES="EV AnyEvent Coro AnyEvent::AIO" Note that you can also use a "postinstall" hook to achieve this, and more. Variables you might *want* to override "STATICPERL" The directory where staticperl stores all its files (default: ~/.staticperl). "PERL_MM_USE_DEFAULT", "EV_EXTRA_DEFS", ... Usually set to 1 to make modules "less inquisitive" during their installation, you can set any environment variable you want - some modules (such as Coro or EV) use environment variables for further tweaking. "PERL_VERSION" The perl version to install - default is currently 5.12.2, but 5.8.9 is also a good choice (5.8.9 is much smaller than 5.12.2, while 5.10.1 is about as big as 5.12.2). "PERL_PREFIX" The prefix where perl gets installed (default: $STATICPERL/perl), i.e. where the bin and lib subdirectories will end up. "PERL_CONFIGURE" Additional Configure options - these are simply passed to the perl Configure script. For example, if you wanted to enable dynamic loading, you could pass "-Dusedl". To enable ithreads (Why would you want that insanity? Don't! Use forks instead!) you would pass "-Duseithreads" and so on. More commonly, you would either activate 64 bit integer support ("-Duse64bitint"), or disable large files support (-Uuselargefiles), to reduce filesize further. "PERL_CC", "PERL_CCFLAGS", "PERL_OPTIMIZE", "PERL_LDFLAGS", "PERL_LIBS" These flags are passed to perl's Configure script, and are generally optimised for small size (at the cost of performance). Since they also contain subtle workarounds around various build issues, changing these usually requires understanding their default values - best look at the top of the staticperl script for more info on these, and use a ~/.staticperlrc to override them. Most of the variables override (or modify) the corresponding Configure variable, except "PERL_CCFLAGS", which gets appended. Variables you probably *do not want* to override "MAKE" The make command to use - default is "make". "MKBUNDLE" Where staticperl writes the "mkbundle" command to (default: $STATICPERL/mkbundle). "STATICPERL_MODULES" Additional modules needed by "mkbundle" - should therefore not be changed unless you know what you are doing. OVERRIDABLE HOOKS In addition to environment variables, it is possible to provide some shell functions that are called at specific times. To provide your own commands, just define the corresponding function. Example: install extra modules from CPAN and from some directories at staticperl install time. postinstall() { rm -rf lib/threads* # weg mit Schaden instcpan IO::AIO EV instsrc ~/src/AnyEvent instsrc ~/src/XML-Sablotron-1.0100001 instcpan Anyevent::AIO AnyEvent::HTTPD } preconfigure Called just before running ./Configur in the perl source directory. Current working directory is the perl source directory. This can be used to set any "PERL_xxx" variables, which might be costly to compute. postconfigure Called after configuring, but before building perl. Current working directory is the perl source directory. Could be used to tailor/patch config.sh (followed by sh Configure -S) or do any other modifications. postbuild Called after building, but before installing perl. Current working directory is the perl source directory. I have no clue what this could be used for - tell me. postinstall Called after perl and any extra modules have been installed in $PREFIX, but before setting the "installation O.K." flag. The current working directory is $PREFIX, but maybe you should not rely on that. This hook is most useful to customise the installation, by deleting files, or installing extra modules using the "instcpan" or "instsrc" functions. The script must return with a zero exit status, or the installation will fail. ANATOMY OF A BUNDLE When not building a new perl binary, "mkbundle" will leave a number of files in the current working directory, which can be used to embed a perl interpreter in your program. Intimate knowledge of perlembed and preferably some experience with embedding perl is highly recommended. "mkperl" (or the "--perl" option) basically does this to link the new interpreter (it also adds a main program to bundle.): $Config{cc} $(cat bundle.ccopts) -o perl bundle.c $(cat bundle.ldopts) bundle.h A header file that contains the prototypes of the few symbols "exported" by bundle.c, and also exposes the perl headers to the application. staticperl_init () Initialises the perl interpreter. You can use the normal perl functions after calling this function, for example, to define extra functions or to load a .pm file that contains some initialisation code, or the main program function: XS (xsfunction) { dXSARGS; // now we have items, ST(i) etc. } static void run_myapp(void) { staticperl_init (); newXSproto ("myapp::xsfunction", xsfunction, __FILE__, "$$;$"); eval_pv ("require myapp::main", 1); // executes "myapp/main.pm" } staticperl_xs_init (pTHX) Sometimes you need direct control over "perl_parse" and "perl_run", in which case you do not want to use "staticperl_init" but call them on your own. Then you need this function - either pass it directly as the "xs_init" function to "perl_parse", or call it from your own "xs_init" function. staticperl_cleanup () In the unlikely case that you want to destroy the perl interpreter, here is the corresponding function. PerlInterpreter *staticperl The perl interpreter pointer used by staticperl. Not normally so useful, but there it is. bundle.ccopts Contains the compiler options required to compile at least bundle.c and any file that includes bundle.h - you should probably use it in your "CFLAGS". bundle.ldopts The linker options needed to link the final program. RUNTIME FUNCTIONALITY Binaries created with "mkbundle"/"mkperl" contain extra functions, which are required to access the bundled perl sources, but might be useful for other purposes. In addition, for the embedded loading of perl files to work, staticperl overrides the @INC array. $file = staticperl::find $path Returns the data associated with the given $path (e.g. "Digest/MD5.pm", "auto/POSIX/autosplit.ix"), which is basically the UNIX path relative to the perl library directory. Returns "undef" if the file isn't embedded. @paths = staticperl::list Returns the list of all paths embedded in this binary. FULLY STATIC BINARIES - UCLIBC AND BUILDROOT To make truly static (Linux-) libraries, you might want to have a look at buildroot (). Buildroot is primarily meant to set up a cross-compile environment (which is not so useful as perl doesn't quite like cross compiles), but it can also compile a chroot environment where you can use staticperl. To do so, download buildroot, and enable "Build options => development files in target filesystem" and optionally "Build options => gcc optimization level (optimize for size)". At the time of writing, I had good experiences with GCC 4.4.x but not GCC 4.5. To minimise code size, I used "-pipe -ffunction-sections -fdata-sections -finline-limit=8 -fno-builtin-strlen -mtune=i386". The "-mtune=i386" doesn't decrease codesize much, but it makes the file much more compressible. If you don't need Coro or threads, you can go with "linuxthreads.old" (or no thread support). For Coro, it is highly recommended to switch to a uClibc newer than 0.9.31 (at the time of this writing, I used the 20101201 snapshot) and enable NPTL, otherwise Coro needs to be configured with the ultra-slow pthreads backend to work around linuxthreads bugs (it also uses twice the address space needed for stacks). If you use "linuxthreads.old", then you should also be aware that uClibc shares "errno" between all threads when statically linking. See for a workaround (And for discussion). "ccache" support is also recommended, especially if you want to play around with buildroot options. Enabling the "miniperl" package will probably enable all options required for a successful perl build. staticperl itself additionally needs either "wget" (recommended, for CPAN) or "curl". As for shells, busybox should provide all that is needed, but the default busybox configuration doesn't include comm which is needed by perl - either make a custom busybox config, or compile coreutils. For the latter route, you might find that bash has some bugs that keep it from working properly in a chroot - either use dash (and link it to /bin/sh inside the chroot) or link busybox to /bin/sh, using it's built-in ash shell. Finally, you need /dev/null inside the chroot for many scripts to work - cp /dev/null output/target/dev or bind-mounting your /dev will both provide this. After you have compiled and set up your buildroot target, you can copy staticperl from the "App::Staticperl" distribution or from your perl f directory (if you installed it) into the output/target filesystem, chroot inside and run it. RECIPES / SPECIFIC MODULES This section contains some common(?) recipes and information about problems with some common modules or perl constructs that require extra files to be included. MODULES utf8 Some functionality in the utf8 module, such as swash handling (used for unicode character ranges in regexes) is implemented in the "utf8_heavy.pl" library: -M'"utf8_heavy.pl"' Many Unicode properties in turn are defined in separate modules, such as "unicore/Heavy.pl" and more specific data tables such as "unicore/To/Digit.pl" or "unicore/lib/Perl/Word.pl". These tables are big (7MB uncompressed, although staticperl contains special handling for those files), so including them on demand by your application only might pay off. To simply include the whole unicode database, use: --incglob '/unicore/*.pl' AnyEvent AnyEvent needs a backend implementation that it will load in a delayed fashion. The AnyEvent::Impl::Perl backend is the default choice for AnyEvent if it can't find anything else, and is usually a safe fallback. If you plan to use e.g. EV (POE...), then you need to include the AnyEvent::Impl::EV (AnyEvent::Impl::POE...) backend as well. If you want to handle IRIs or IDNs (AnyEvent::Util punycode and idn functions), you also need to include "AnyEvent/Util/idna.pl" and "AnyEvent/Util/uts46data.pl". Or you can use "--usepacklists" and specify "-MAnyEvent" to include everything. Carp Carp had (in older versions of perl) a dependency on Carp::Heavy. As of perl 5.12.2 (maybe earlier), this dependency no longer exists. Config The perl -V switch (as well as many modules) needs Config, which in turn might need "Config_heavy.pl". Including the latter gives you both. Term::ReadLine::Perl Also needs Term::ReadLine::readline, or "--usepacklists". URI URI implements schemes as separate modules - the generic URL scheme is implemented in URI::_generic, HTTP is implemented in URI::http. If you need to use any of these schemes, you should include these manually, or use "--usepacklists". RECIPES Just link everything in To link just about everything installed in the perl library into a new perl, try this (the first time this runs it will take a long time, as a lot of files need to be parsed): staticperl mkperl -v --strip ppi --incglob '*' If you don't mind the extra megabytes, this can be a very effective way of creating bundles without having to worry about forgetting any modules. You get even more useful variants of this method by first selecting everything, and then excluding stuff you are reasonable sure not to need - bigperl uses this approach. Getting rid of netdb functions The perl core has lots of netdb functions ("getnetbyname", "getgrent" and so on) that few applications use. You can avoid compiling them in by putting the following fragment into a "preconfigure" hook: preconfigure() { for sym in \ d_getgrnam_r d_endgrent d_endgrent_r d_endhent \ d_endhostent_r d_endnent d_endnetent_r d_endpent \ d_endprotoent_r d_endpwent d_endpwent_r d_endsent \ d_endservent_r d_getgrent d_getgrent_r d_getgrgid_r \ d_getgrnam_r d_gethbyaddr d_gethent d_getsbyport \ d_gethostbyaddr_r d_gethostbyname_r d_gethostent_r \ d_getlogin_r d_getnbyaddr d_getnbyname d_getnent \ d_getnetbyaddr_r d_getnetbyname_r d_getnetent_r \ d_getpent d_getpbyname d_getpbynumber d_getprotobyname_r \ d_getprotobynumber_r d_getprotoent_r d_getpwent \ d_getpwent_r d_getpwnam_r d_getpwuid_r d_getsent \ d_getservbyname_r d_getservbyport_r d_getservent_r \ d_getspnam_r d_getsbyname # d_gethbyname do PERL_CONFIGURE="$PERL_CONFIGURE -U$sym" done } This mostly gains space when linking staticaly, as the functions will likely not be linked in. The gain for dynamically-linked binaries is smaller. Also, this leaves "gethostbyname" in - not only is it actually used often, the Socket module also exposes it, so leaving it out usually gains little. Why Socket exposes a C function that is in the core already is anybody's guess. AUTHOR Marc Lehmann http://software.schmorp.de/pkg/staticperl.html