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It's common practice to set the [https://www.redhat.com/mailman/listinfo/fedora-perl-devel-list Fedora perl SIG mailing list] as a member of the initial-cc list for bugzilla. This can be done by adding the user <code>perl-sig</code> to the initial CC list. | It's common practice to set the [https://www.redhat.com/mailman/listinfo/fedora-perl-devel-list Fedora perl SIG mailing list] as a member of the initial-cc list for bugzilla. This can be done by adding the user <code>perl-sig</code> to the initial CC list. | ||
= | = cpanspec = | ||
<code>cpanspec</code> is an excellent little tool to assist in creating Fedora-compliant packages from CPAN-based modules. Its use as a starting point is recommended (but certainly not mandated). | <code>cpanspec</code> is an excellent little tool to assist in creating Fedora-compliant packages from CPAN-based modules. Its use as a starting point is recommended (but certainly not mandated). |
Revision as of 06:05, 27 July 2010
DRAFT of Perl Packaging
This document seeks to document the conventions and customs surrounding the proper packaging of perl modules in Fedora. It does not intend to cover all situations, but to codify those practices which have served the Fedora perl community well.
License tag
Perl itself is dual licensed, under both the GPL and Artistic licenses. Many perl modules follow this practice; when they do, the license tag should be filled out as "GPL+ or Artistic", not the other way around.
Note also that under the new license tag guidelines, it's important to specify "GPL+" not just "GPL" for those packages "licensed under the same terms as perl itself."
License: GPL+ or Artistic
Directory Ownership
As specified in the general Packaging Guidelines, perl packages are permitted to share ownership of directories.
Since F-13 are paths shorter e.g. /usr/lib/perl5/vendor_perl/ instead of /usr/lib/perl5/vendor_perl/release_number/architecture_specification
As an example, assume that perl-A-B
depends on perl-A
and installs files into /usr/lib/perl5/vendor_perl/5.10.0/i386-linux-thread-multi/A/B. The base Perl package guarantees that it will own /usr/lib/perl5/vendor_perl/5.10.0/i386-linux-thread-multi for as long as it remains compatible with version 5.10.0, but a future upgrade of the perl-A
package may install into (and thus own) /usr/lib/perl5/vendor_perl/5.11.0/i386-linux-thread-multi/A. So the perl-A-B
package needs to own /usr/lib/perl5/vendor_perl/5.10.0/i386-linux-thread-multi/A as well as /usr/lib/perl5/vendor_perl/5.8.8/i386-linux-thread-multi/A/B in order to maintain proper ownership.
In general, a noarch Perl package should own:
# For noarch packages: vendorlib %{perl_vendorlib}/*
...and a arch-specific Perl package should own:
# For arch-specific packages: vendorarch %{perl_vendorarch}/* %exclude %dir %{perl_vendorarch}/auto/
Perl Requires and Provides
Perl packages use the virtual perl(Foo)
naming to indicate a given perl module. Packages should use this methodology, and not require the package name directly. For example, a package requiring the perl module Readonly should not explicitly require perl-Readonly
, but rather perl(Readonly)
, which the perl-Readonly
package provides.
Core modules as buildrequires
Historically, buildrequiring a core module (that is, one provided by the perl package itself) has been frowned upon. However, with the perl/perl-devel split, a number of core modules are now packaged separately from the perl package. Also modules can be removed from perl package or be split into sub-packages which are not installed by default. It is recommended to buildrequire modules explicitly. For example:
- perl(CPAN)
- perl(Ext
Utils::Embed)
- perl(Ext
Utils::Make
Maker)
- perl(Test::Harness)
- perl(Test::More)
- perl(Test::Simple)
Versioned MODULE_COMPAT_ Requires
All perl modules must include the versioned MODULE_COMPAT Requires:
Requires: perl(:MODULE_COMPAT_%(eval "`%{__perl} -V:version`"; echo $version))
This is to ensure that perl packages have a dependency on the particular version of Perl it was built against, or on a newer version of Perl that provides backward compatibility with it.
For example, perl-5.8.8 provided not only perl(:MODULE_COMPAT_5.8.8), but also perl(:MODULE_COMPAT_5.8.7), etc., because backward compatibility was guaranteed for Fedora Perl 5.8.x.
On the other hand, perl-5.10.1 implements some incompatible changes to module tree layout and libperl.so build options. Once the compatibility aids are removed, perl-5.10.1 and above will no longer provide perl(:MODULE_COMPAT_5.10.0).
In the future, it is possible that perl-5.12.2 will provide not only perl(:MODULE_COMPAT_5.12.[012]), but also perl(:MODULE_COMPAT_5.10.[123]), if the backward compatibility with all versions >= 5.10.1 is maintained.
Packages that link to libperl
Some packages link to libperl.so, usually to provide embedded perl functionality. All of these packages must also use the versioned MODULE_COMPAT Requires, because the automaticaly generated dependency on libperl.so does not include any interface version number.
Filtering Requires and Provides
RPM's dependency generator can often throw in additional dependencies and will often think packages provide functionality contrary to reality. To fix this, the dependency generator needs to be overriden so that the additional dependencies can be filtered out. There are two main ways to do this:
Since F-11 it is possible to use RPM macros for filtering requires/provides; this methodology is both preferred and mandated by the Packaging Guidelines. The perl package provides a specific filtering macro for use; this has the advantage of catching most common dep issues, as well as centralizing the logic in one, common location. The use of these macros should be conditionalized such that if someone tries to rebuild them on a system w/o the macros (e.g. RHEL/CentOS/AIX/etc) they will not cause the build to fail. See Packaging:AutoProvidesAndRequiresFiltering for more details.
General Case
The most common case, when there's no special need to filter anything in particular:
%{?perl_default_filter}
Filtering Errant Provides
%{?filter_setup: %filter_from_provides /perl(unwanted_provide)/d %?perl_default_filter }
Duplicate Provides
Sometimes a package provides versioned and unversioned provides. The unversioned can be removed by:
%{?filter_setup: %filter_from_provides /^perl(unwanted_provide)$/d %?perl_default_filter }
Manual Requires and Provides
Under some circumstances, RPM's automatic dependency generator can miss dependencies that should be added.
This is usually as a result of using language constructs that the dependency script wasn't expecting.
An example of this is in the perl-Class-Accessor-Chained
package, where the following can be found:
use base 'Class::Accessor::Fast'; ... use base 'Class::Accessor';
A tell-tale sign of this particular construct is that the package contains a dependency on perl(base)
, but this is not the only situation in which dependencies can be missed. This package needed additional dependencies as follows:
Requires: perl(Class::Accessor), perl(Class::Accessor::Fast)
In general, it's a good idea to look at the upstream package's documentation for details of other dependencies.
Another similar example of missing requirements can be seen in perl-Spreadsheet-WriteExcel
:
package Spreadsheet::WriteExcel::Utility; ... use autouse 'Date::Calc' => qw(Delta_DHMS Decode_Date_EU Decode_Date_US); use autouse 'Date::Manip' => qw(ParseDate Date_Init);
Similarly, it possible to miss Provides:, as was the case in Bug #167797 , where the perl-DBD-Pg
package failed to Provide: perl(DBD::Pg)
due to the following construct in DBD::Pg
version 1.43:
{ package DBD::Pg;
The usual way of writing this, and what's expected by RPM, is:
{ package DBD::Pg;
So it's wise to examine the Provides: of your packages to check that they are sane and complete. If something is missing, it can be fixed either by using manual Provides: entries, or by patching the source to use a format that RPM can parse correctly.
Provides of binary vs. sub-package with separated binary
Some packages e.g. perl-Padre have binary, which should be install in yum by simple 'yum install padre'. This could be done by defining the name of binary in provides
Provides: padre
or creating a sub-package.
%package -n padre Summary: Padre binary License: GPL+ or Artistic Group: Development/Tools Requires: perl-Padre = %{version}-%{release} %description -n padre Some description here...
Both solutions are correct. It depends on package maintainer, which of those two possibilities is chosen.
URL tag
For CPAN-based packages the URL tag should use a non-versioned search.cpan.org URL. E.g., if one were packaging the module Net::XMPP, the URL would be:
URL: http://search.cpan.org/dist/Net-XMPP/
Testing and Test Suites
Perl packages typically have a large, healthy test suite. It is policy to run as much of the test suite as possible, subject to the technical limitations of the buildsystem. This means, at the least:
- All modules required for tests should be listed as a buildrequires
- Any "optional" tests should be enabled
- Any modules needed for the tests but not yet in Fedora that could be included in Fedora should also be submitted for review
When to *not* test
There are a couple caveats here:
- Optional tests do not need to be enabled if they will cause circular build deps
- Tests which require network or display access should be disabled for the buildsystem, but with a method provided for local builds
- Tests which do not test package functionality should still be invoked, but their exclusion not be considered a blocker (e.g. Test::Pod::Coverage, Test::Kwalitee and the like)
- Author, "release candidate", or smoke tests do not need to be enabled e.g. tests using Perl::Critic
Additionally, for "meta" packages that provide a common interface to a number of similar modules, it is not necessary to package all of the modules that the package supports so long as at least one module exists to allow the meta package to provide functionality. For instance, the package perl-JSON-Any (JSON::Any) provides a common interface to JSON, JSON::XS, JSON::PC, JSON::Syck and JSON::DWIM; JSON::PC and JSON::DWIM are not currently in Fedora and do not need to be packaged as, e.g. JSON::XS enables JSON::Any.
Conditionally enabling/disabling tests
One common way to disable a test for mock but enable it locally is to use a _with_foo
macro test. e.g.:
%check %{?!_with_network_tests: rm t/roster.t } ./Build test
With this construct, an offending test will be removed and not executed, unless "--with network_tests" is passed to rpmbuild
or %_with_network_tests is defined somewhere, e.g. in a user's $HOME/.rpmmacros
. This approach preserves the test suite for local builds while working within the technical limitations of the buildsystem.
.h files in module packages
It is not uncommon for binary module packages to include .h files, see e.g. perl-DBI
, perl-Glib
, perl-Gtk2
. For a variety of reasons these should not be split off into a -devel package.
Set inital-cc to 'perl-sig'
It's common practice to set the Fedora perl SIG mailing list as a member of the initial-cc list for bugzilla. This can be done by adding the user perl-sig
to the initial CC list.
cpanspec
cpanspec
is an excellent little tool to assist in creating Fedora-compliant packages from CPAN-based modules. Its use as a starting point is recommended (but certainly not mandated).
For more information, see: Perl/cpanspec
Updates of packages
Summary of tools used for updates and helpful comments can be found here Perl/updates.
Useful tips
Some modules try to pull in modules from cpan. Instead of patching makefile, you can easily add PERL5_CPANPLUS_IS_RUNNING=1 to avoid CPAN entirely.
%build PERL5_CPANPLUS_IS_RUNNING=1 %{__perl} Makefile.PL INSTALLDIRS=vendor make %{?_smp_mflags}