NAME

HACKERS - Devel::PPPort internals for hackers

SYNOPSIS

So you probably want to hack Devel::PPPort?

Well, here's some information to get you started with what's lying around in this distribution.

DESCRIPTION

How to build 366 versions of Perl

Devel::PPPort supports Perl versions between 5.003 and bleadperl. To guarantee this support, I need some of these versions on my machine. I currently have 366 different Perl version/configuration combinations installed on my laptop.

As many of the old Perl distributions need patching to compile cleanly on newer systems (and because building 366 Perls by hand just isn't fun), I wrote a tool to build all the different versions and configurations. You can find it in devel/buildperl.pl. It can currently build the following Perl releases:

5.003
5.004 - 5.004_05
5.005 - 5.005_04
5.6.x
5.7.x
5.8.x
5.9.x
5.1x.x

Fully automatic API checks

Knowing which parts of the API are not backwards compatible and probably need Devel::PPPort support is another problem that's not easy to deal with manually. If you run

perl Makefile.PL --with-apicheck

a C file is generated by parts/apicheck.pl that is compiled and linked with Devel::PPPort. This C file has the purpose of using each of the public API functions/macros once.

The required information is derived from parts/embed.fnc (just a copy of bleadperl's embed.fnc), parts/apidoc.fnc (which is generated by devel/mkapidoc.sh and simply collects the rest of the apidoc entries spread over the Perl source code) and parts/ppport.fnc (which lists all API provided purely by Devel::PPPort). The generated C file apicheck.c is currently about 500k in size and takes quite a while to compile.

Usually, apicheck.c won't compile with older perls. And even if it compiles, there's still a good chance of the dynamic linker failing at make test time. But that's on purpose!

We can use these failures to find changes in the API automatically. The two Perl scripts devel/mktodo and devel/mktodo.pl repeatedly run Devel::PPPort with the apicheck code through all different versions of perl. Scanning the output of the compiler and the dynamic linker for errors, the files in parts/todo/ are generated. These files list all parts of the public API that don't work with less than a certain version of Perl.

This information is in turn used by parts/apicheck.pl to mask API calls in the generated C file for these versions, so the process can be stopped by the time apicheck.c compiles cleanly and the dynamic linker is happy. (Actually, this process may generate false positives, so by default each API call is checked once more afterwards.)

Running devel/mktodo takes about an hour, depending of course on the machine you're running it on. If you run it with the --nocheck option, it won't recheck the API calls that failed in the compilation stage and it'll take significantly less time. Running with --nocheck should usually be safe.

When running devel/mktodo with the --base option, it will generate the baseline todo files by disabling all functionality provided by Devel::PPPort. These are required for implementing the --compat-version option of the ppport.h script. The baseline todo files hold the information about which version of Perl lacks a certain part of the API.

However, only the documented public API can be checked this way. And since Devel::PPPort provides more macros, these would not be affected by --compat-version. It's the job of devel/scanprov to figure out the baseline information for all remaining provided macros by scanning the include files in the CORE directory of various Perl versions.

The whole process isn't platform independent. It has currently been tested only under Linux, and it definitely requires at least gcc and the nm utility.

It's not very often that one has to regenerate the baseline and todo files. If you have to, you can either run devel/regenerate or just execute the following steps by hand:

  • You need a whole bunch of different Perls. The more, the better. You can use devel/buildperl.pl to build them. I keep my perls in /tmp/perl, so most of the tools take this as a default.

  • You also need a freshly built bleadperl that is in the path under exactly this name. (The name of the executable is currently hardcoded in devel/mktodo and devel/scanprov.)

  • Remove all existing todo files in the parts/base and parts/todo directories.

  • Update the API information. Copy the latest embed.fnc file from bleadperl to the parts directory and run devel/mkapidoc.sh to collect the remaining information in parts/apidoc.fnc.

  • Build the new baseline by running

    perl devel/mktodo --base

    in the root directory of the distribution. When it's finished, move all files from the parts/todo directory to parts/base.

  • Build the new todo files by running

    perl devel/mktodo

    in the root directory of the distribution.

  • Finally, add the remaining baseline information by running

    perl Makefile.PL && make
    perl devel/scanprov --mode=write

Implementation

Residing in parts/inc/ is the "heart" of Devel::PPPort. Each of the files implements a part of the supported API, along with hints, dependency information, XS code and tests. The files are in a POD-like format that is parsed using the functions in parts/ppptools.pl.

The scripts PPPort_pm.PL, RealPPPort_xs.PL and mktests.PL all use the information in parts/inc/ to generate the main module PPPort.pm, the XS code in RealPPPort.xs and various test files in t/.

All of these files could be generated on the fly while building Devel::PPPort, but not having the tests in t/ will confuse TEST/harness in the core. Not having PPPort.pm will be bad for viewing the docs on search.cpan.org. So unfortunately, it's unavoidable to put some redundancy into the package.

Adding stuff to Devel::PPPort

First, check if the code you plan to add fits into one of the existing files in parts/inc/. If not, just start a new one and remember to include it from within PPPort_pm.PL.

Each file holds all relevant data for implementing a certain part of the API:

  • A list of the provided API in the =provides section.

  • The implementation to add to ppport.h in the =implementation section.

  • The code required to add to PPPort.xs for testing the implementation. This code goes into the =xshead, =xsinit, =xsmisc, =xsboot and =xsubs section. Have a look at the template at the bottom of RealPPPort_xs.PL to see where the code ends up.

  • The tests in the =tests section. Remember not to use any fancy modules or syntax elements, as the test code should be able to run with Perl 5.003, which, for example, doesn't support my in for-loops:

    for my $x (1, 2, 3) { }    # won't work with 5.003

    You can use ok() to report success or failure:

    ok($got == 42);
    ok($got, $expected);

    Regular expressions are not supported as the second argument to ok, because older perls do not support the qr operator.

It's usually the best approach to just copy an existing file and use it as a template.

Implementation Hints

In the =implementation section, you can use

__UNDEFINED__ macro    some definition

instead of

#ifndef macro
#  define macro    some definition
#endif

The macro can have optional arguments and the definition can even span multiple lines, like in

__UNDEFINED__ SvMAGIC_set(sv, val) \
              STMT_START { assert(SvTYPE(sv) >= SVt_PVMG); \
              (((XPVMG*) SvANY(sv))->xmg_magic = (val)); } STMT_END

This usually makes the code more compact and readable. And you only have to add the line __UNDEFINED__ to the =provides section to get all macros implemented this way to be imported into this section, so they all get documented as being provided.

Version checking can be tricky if you want to do it correct. You can use

#if { VERSION < 5.9.3 }

instead of

#if ((PERL_VERSION < 9) || (PERL_VERSION == 9 && PERL_SUBVERSION < 3))

The version number can be either of the new form 5.x.x or of the older form 5.00x_yy. Both are translated into the correct preprocessor statements. It is also possible to combine this with other statements:

#if { VERSION >= 5.004 } && !defined(sv_vcatpvf)
  /* a */
#elif { VERSION < 5.004_63 } && { VERSION != 5.004_05 }
  /* b */
#endif

This not only works in the =implementation section, but also in the =xsubs, =xsinit, =xsmisc, =xshead and =xsboot sections.

Testing

To automatically test Devel::PPPort with lots of different Perl versions, you can use the soak script. Just pass it a list of all Perl binaries you want to test.

Special Makefile targets

You can use

make regen

to regenerate all of the autogenerated files. To get rid of all generated files (except for parts/todo/* and parts/base/*), use

make purge_all

That's it.

Submitting Patches

If you've added some functionality to Devel::PPPort, please consider submitting a patch with your work to P5P by sending a mail perlbug@perl.org.

When submitting patches, please only add the relevant changes and don't include the differences of the generated files. You can use the purge_all target to delete all autogenerated files.

Integrating into the Perl core

When integrating this module into the Perl core, be sure to remove the following files from the distribution. They are either not needed or generated on the fly when building this module in the core:

MANIFEST
META.yml
PPPort.pm

COPYRIGHT

Version 3.x, Copyright (C) 2004-2013, Marcus Holland-Moritz.

Version 2.x, Copyright (C) 2001, Paul Marquess.

Version 1.x, Copyright (C) 1999, Kenneth Albanowski.

This program is free software; you can redistribute it and/or modify it under the same terms as Perl itself.

SEE ALSO

See ppport.h and devel/regenerate.