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tdesdk/scripts/kdesvn-build

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130 KiB

#!/usr/bin/perl -w
#Pod documentation:
=head1 NAME
=over
=item B<kdesvn-build> - automate the kde svn build process
=back
=head1 SYNOPSIS
=over
=item B<kdesvn-build> I<[options]...> I<[modules]...>
=back
=head1 DESCRIPTION
The B<kdesvn-build> script is used to automate the download, build,
and install process for KDE (using Subversion).
It is recommended that you first setup a F<.kdesvn-buildrc> file
in your home directory. Please refer to B<kdesvn-build> help file
in KDE help for information on how to write F<.kdesvn-buildrc>,
or consult the sample file which should have been included
with this program. If you don't setup a F<.kdesvn-buildrc>, a
default set of options will be used, and a few modules will be
built by default.
After setting up F<.kdesvn-buildrc>, you can run this program from
either the command-line or from cron. It will automatically
download the modules from Subversion, create the build
system, and configure and make the modules you tell it to.
You can use this program to install KDE as well,
if you are building KDE for a single user. Note that B<kdesvn-build>
will try to install the modules by default.
If you DO specify a package name, then your settings will still be
read, but the script will try to build / install the package
regardless of F<.kdesvn-buildrc>
kdesvn-build reads options in the following order:
=over
=item 1. From the command line.
=item 2. From the file F<kdesvn-buildrc> in the current directory. Note that
the file is not a hidden file.
=item 3. From the file F<~/.kdesvn-buildrc>.
=item 4. From a set of internal options.
=back
This utility is part of the KDE Software Development Kit.
=head1 OPTIONS
=over
=item B<--quiet>, B<-q>
With this switch kdesvn-build will only output a general overview of the build
process. Progress output is still displayed if available.
=item B<--really-quiet>
With this switch only warnings and errors will be output.
=item B<--verbose>, B<-v>
Be very detailed in what is going on, and what actions kdesvn-build is taking.
Only B<--debug> is more detailed.
=item B<--no-svn>
Skip contacting the Subversion server.
=item B<--no-build>
Skip the build process.
=item B<--no-install>
Don't automatically install after build.
=item B<--svn-only>
Update from Subversion only (Identical to B<--no-build> at this point).
=item B<--build-only>
Build only, do not perform updates or install.
=item B<--rc-file=E<lt>filenameE<gt>>
Read configuration from filename instead of default.
=item B<--debug>
Activates debug mode.
=item B<--pretend>, B<-p>
Do not contact the Subversion server, run make, or create / delete files
and directories. Instead, output what the script would have done.
=item B<--nice=E<lt>valueE<gt>>
Allow you to run the script with a lower priority. The default value is
10 (lower priority by 10 steps).
=item B<--prefix=/kde/path>
This option is a shortcut to change the setting for kdedir from the
command line. It implies B<--reconfigure>.
=item B<--color>
Add color to the output.
=item B<--no-color>
Remove color from the output.
=item B<--resume>
Tries to resume the make process from the last time the script was run,
without performing the Subversion update.
=item B<--resume-from=E<lt>pkgE<gt>>
Starts building from the given package, without performing the Subversion
update.
=item B<--revision=E<lt>revE<gt>>, B<-r=E<lt>revE<gt>>
Forces update to revision <rev> from Subversion.
=item B<--refresh-build>
Start the build from scratch. This means that the build directory for the
module B<will be deleted> before make -f Makefile.cvs is run again. You can
use B<--recreate-configure> to do the same thing without deleting the module
build directory.
=item B<--reconfigure>
Run configure again, but don't clean the build directory or re-run
make -f Makefile.cvs.
=item B<--recreate-configure>
Run make -f Makefile.cvs again to redo the configure script. The build
directory is not deleted.
=item B<--no-rebuild-on-fail>
Do not try to rebuild a module from scratch if it failed building. Normally
kdesvn-build will try progressively harder to build the module before giving
up.
=item B<--build-system-only>
Create the build infrastructure, but don't actually perform the build.
=item B<--install>
Try to install the packages passed on the command line, or all packages in
F<~/.kdesvn-buildrc> that don't have manual-build set. Building and
Subversion updates are not performed.
=item B<--E<lt>optionE<gt>=>
Any unrecognized options are added to the global configuration, overriding
any value that may exist.
For example, B<--svn-server=http://path.to.svn.server/> would change the
setting of the global B<svn-server> option for this instance of kdesvn-build.
=item B<--E<lt>moduleE<gt>,E<lt>optionE<gt>=>
Likewise, allow you to override any module specific option from the
command line.
Example: B<--kdelibs,use-unsermake=false> would disable unsermake for the
kdelibs module.
=item B<--help>
Display the help and exit.
=item B<--author>
Output the author(s)'s name.
=item B<--version>
Output the program version.
=back
=head1 EXAMPLES
=over
=item B<kdesvn-build>
=item B<kdesvn-build> I<--no-svn kdelibs>
=item B<kdesvn-bulid> I<--refresh-build> I<kdebase>
=back
=head1 BUGS
Since kdesvn-build doesn't generally save information related to the build and
prior settings, you may need to manually re-run kdesvn-build with a flag like
B<--recreate-configure> if you change some options, including B<use-unsermake>.
Please use KDE bugzilla at http://bugs.kde.org for information and
reporting bugs.
=head1 SEE ALSO
You can find additional information at B<kdesvn-build> home page,
F<http://kdesvn-build.kde.org/>, or using kdesvn-build
docbook documentation, using the help kioslave, F<help:/kdesvn-build>.
=head1 AUTHOR
Michael Pyne <michael.pyne@kdemail.net>
Man page written by:
Carlos Leonhard Woelz <carlos.woelz@kdemail.net>
=cut
# Script to handle building KDE from Subversion. All of the configuration is
# stored in the file ~/.kdesvn-buildrc.
#
# Please also see the documentation that should be included with this program,
# in doc.html
#
# Copyright (c) 2003, 2004, 2005 Michael Pyne. <michael.pyne@kdemail.net>
# Home page: http://kdesvn-build.kde.org/
#
# You may use, alter, and redistribute this software under the terms
# of the GNU General Public License, v2 (or any later version).
#
# TODO: It would be better to have lockfiles in each directory as it's
# being updated, instead of having one big lock for the script.
use strict;
use warnings;
use Fcntl; # For sysopen constants
use POSIX 'strftime';
use File::Find; # For our lndir reimplementation.
use Errno qw(:POSIX);
# Debugging level constants.
use constant {
DEBUG => 0,
WHISPER => 1,
INFO => 2,
NOTE => 3,
WARNING => 4,
ERROR => 5,
};
# Some global variables
# Remember kids, global variables are evil! I only get to do this
# because I'm an adult and you're not! :-P
# Options that start with a # will replace values with the same name,
# if the option is actually set.
my %package_opts = (
'global' => {
"apidox" => "",
"apply-qt-patches" => "",
"binpath" => "/bin:/usr/bin:/usr/X11R6/bin:/usr/local/bin",
"branch" => "",
"build-dir" => "build",
"build-system-only" => "",
"checkout-only" => "",
"configure-flags" => "--enable-debug",
"colorful-output" => 1, # Use color by default.
"cxxflags" => "-pipe",
"debug" => "",
"debug-level" => INFO,
"dest-dir" => '${MODULE}', # single quotes used on purpose!
"disable-agent-check" => 0, # If true we don't check on ssh-agent
"do-not-compile" => "",
"email-address" => "",
"email-on-compile-error" => "",
"install-after-build" => "1", # Default to true
"inst-apps" => "",
"kdedir" => "$ENV{HOME}/kde",
"libpath" => "",
"log-dir" => "log",
"make-install-prefix" => "", # Some people need sudo
"make-options" => "-j2",
"manual-build" => "",
"manual-update" => "",
"module-base-path" => "", # Used for tags and branches
"niceness" => "10",
"no-svn" => "",
"no-rebuild-on-fail" => "",
"override-url" => "",
"prefix" => "", # Override installation prefix.
"pretend" => "",
"qtdir" => "$ENV{HOME}/kdesvn/build/qt-copy",
"reconfigure" => "",
"recreate-configure" => "",
"refresh-build" => "",
"remove-after-install"=> "none", # { none, builddir, all }
"revision" => 0,
"set-env" => { }, # Hash of environment vars to set
"source-dir" => "$ENV{HOME}/kdesvn",
"stop-on-failure" => "",
"svn-server" => "svn://anonsvn.kde.org/home/kde",
"tag" => "",
"unsermake-options" => "--compile-jobs=2 -p",
"unsermake-path" => "unsermake",
"use-unsermake" => "1", # Default to true now, we may need a blacklist
}
);
# This is a hash since Perl doesn't have a "in" keyword.
my %ignore_list; # List of packages to refuse to include in the build list.
# update and build are lists since they support an ordering, which can't be
# guaranteed using a hash unless I want a custom sort function (which isn't
# necessarily a horrible way to go, I just chose to do it this way.
my @update_list; # List of modules to update/checkout.
my @build_list; # List of modules to build.
# Dictionary of lists of failed modules, keyed by the name of the operation
# that caused the failure (e.g. build). Note that output_failed_module_lists
# uses the key name to display text to the user so it should describe the
# actual category of failure. You should also add the key name to
# output_failed_module_lists since it uses its own sorted list.
my @fail_display_order = qw/build update install/;
my %fail_lists = (
'build' => [ ],
'install' => [ ],
'update' => [ ],
);
my $install_flag; # True if we're in install mode.
my $BUILD_ID; # Used by logging subsystem to create a unique log dir.
my $LOG_DATE; # Used by logging subsystem to create logs in same dir.
my @rcfiles = ("./kdesvn-buildrc", "$ENV{HOME}/.kdesvn-buildrc");
my $rcfile; # the file that was used; set by read_options
# Colors
my ($RED, $GREEN, $YELLOW, $NORMAL, $BOLD) = ("") x 5;
# Subroutine definitions
# I swear Perl must be the only language where the docs tell you to use a
# constant that you'll never find exported without some module from CPAN.
use constant PRIO_PROCESS => 0;
# I'm lazy and would rather write in shorthand for the colors. This sub
# allows me to do so. Put it right up top to stifle Perl warnings.
sub clr($)
{
my $str = shift;
$str =~ s/g\[/$GREEN/g;
$str =~ s/]/$NORMAL/g;
$str =~ s/y\[/$YELLOW/g;
$str =~ s/r\[/$RED/g;
$str =~ s/b\[/$BOLD/g;
return $str;
}
# Subroutine which returns true if pretend mode is on. Uses the prototype
# feature so you don't need the tqparentheses to use it.
sub pretending()
{
return get_option('global', 'pretend');
}
# Subroutine which returns true if debug mode is on. Uses the prototype
# feature so you don't need the tqparentheses to use it.
sub debugging()
{
return get_option('global', 'debug-level') <= DEBUG;
}
# The next few subroutines are used to print output at different importance
# levels to allow for e.g. quiet switches, or verbose switches. The levels are,
# from least to most important:
# debug, whisper, info (default), note (quiet), warning (very-quiet), and error.
#
# You can also use the pretend output subroutine, which is emitted if, and only
# if pretend mode is enabled.
#
# clr is automatically run on the input for all of those functions.
# Also, the terminal color is automatically reset to normal as well so you don't
# need to manually add the ] to reset.
# Subroutine used to actually display the data, calls clr on each entry first.
sub print_clr(@)
{
print clr $_ foreach (@_);
print clr "]\n";
}
sub debug(@)
{
print_clr @_ if debugging;
}
sub whisper(@)
{
print_clr @_ if get_option('global', 'debug-level') <= WHISPER;
}
sub info(@)
{
print_clr @_ if get_option('global', 'debug-level') <= INFO;
}
sub note(@)
{
print_clr @_ if get_option('global', 'debug-level') <= NOTE;
}
sub warning(@)
{
print_clr @_ if get_option('global', 'debug-level') <= WARNING;
}
# This sub has the additional side effect of printing the errno value if it
# is set.
sub error(@)
{
print STDERR (clr $_) foreach (@_);
print " $!\n" if $!;
}
sub pretend(@)
{
print_clr @_ if pretending;
}
# Subroutine to handle removing the lock file upon receiving a signal
sub quit_handler
{
note "Signal received, terminating.";
finish(5);
}
# Subroutine that returns the path of a file used to output the results of the
# build process. It accepts one parameter, which changes the kind of file
# returned. If the parameter is set to 'existing', then the file returned is
# the latest file that exists, or undef if no log has been created yet. This
# is useful for the --resume mode. All other values will return the name if a
# file that does not yet exist.
#
# All files will be stored in the log directory.
sub get_output_file
{
my $logdir;
my $mode;
$mode = shift or $mode = '';
my $fname;
debug "get_output_file in mode $mode";
if ($mode eq 'existing')
{
# There's two ways of finding the old file. Searching backwards with
# valid combinations of the date and build id, or just reading in the
# name from a known file or location. Since the latter option is much
# easier, that's what I'm going with. Note that this depends on the
# latest symlink being in place.
$logdir = get_subdir_path ('global', 'log-dir');
$fname = "$logdir/latest/build-status";
debug "Old build status file is $fname";
# The _ at the end returns the cached file stats to avoid multiple
# stat() calls.
return "" if not -e $fname or not -r _;
return $fname;
}
# This call must follow the test above, because it changes the 'latest'
# symlink leading to failures later.
$logdir = get_log_dir('global');
$fname = "$logdir/build-status";
debug "Build status file is $fname";
return $fname;
}
# Subroutine to retrieve a subdirecty path for the given module.
# First parameter is the name of the module, and the second
# parameter is the option key (e.g. build-dir or log-dir).
sub get_subdir_path
{
my $module = shift;
my $option = shift;
my $dir = get_option($module, $option);
# If build-dir starts with a slash, it is an absolute path.
return $dir if $dir =~ /^\//;
# If it starts with a tilde, expand it out.
if ($dir =~ /^~/)
{
$dir =~ s/^~/$ENV{'HOME'}/;
}
else
{
# Relative directory, tack it on to the end of $kdesvn.
my $kdesvndir = get_kdesvn_dir();
$dir = "$kdesvndir/$dir";
}
return $dir;
}
# Subroutine to return the name of the destination directory for the checkout
# and build routines. Based on the dest-dir option. The return value will be
# relative to the src/build dir. The user may use the '$MODULE' or '${MODULE}'
# sequences, which will be replaced by the name of the module in question.
#
# The first parameter should be the module name.
sub get_dest_dir
{
my $module = shift;
my $dest_dir = get_option($module, 'dest-dir');
$dest_dir =~ s/(\${MODULE})|(\$MODULE\b)/$module/g;
return $dest_dir;
}
# Convienience subroutine to get the source root dir.
sub get_kdesvn_dir
{
return get_option ('global', 'source-dir');
}
# Function to work around a Perl language limitation.
# First parameter is the list to search.
# Second parameter is the value to search for.
# Returns true if the value is in the list
sub list_has(\@$)
{
my ($list_ref, $value) = @_;
return scalar grep ($_ eq $value, @{$list_ref});
}
# Subroutine to return the branch prefix. i.e. the part before the branch name
# and module name.
#
# The first parameter is the module in question.
# The second parameter should be 'branches' if we're dealing with a branch or
# 'tags' if we're dealing with a tag.
#
# Ex: 'kdelibs' => 'branches/KDE'
# 'kdevelop' => 'branches/kdevelop'
sub branch_prefix
{
my $module = shift;
my $type = shift;
# These modules seem to have their own subdir in /tags.
my @tag_components = qw/arts koffice amarok kst qt taglib/;
# The map call adds the kde prefix to the module names because I don't feel
# like typing them all in. kdevelop and konstruct are special cases.
my @kde_module_list = ((map {'kde' . $_} qw/-i18n -common accessibility
addons admin artwork base bindings edu games graphics libs
multimedia network nonbeta pim sdk toys utils webdev/), 'kdevelop',
'konstruct');
# KDE proper modules seem to use this pattern.
return "$type/KDE" if list_has(@kde_module_list, $module);
# If we doing a tag just return 'tags' because the next part is the actual
# tag name, which is added by the caller, unless the module has its own
# subdirectory in /tags.
return "$type" if $type eq 'tags' and not list_has(@tag_components, $module);
# Everything else.
return "$type/$module";
}
# Subroutine to return a module URL for a module using the 'branch' option.
# First parameter is the module in question.
# Second parameter is the type ('tags' or 'branches')
sub handle_branch_tag_option
{
my ($module, $type) = @_;
my $svn_server = get_option($module, 'svn-server');
my $branch = branch_prefix($module, $type);
my $branchname = get_option($module, 'tag');
if($type eq 'branches')
{
$branchname = get_option($module, 'branch');
}
# Remove trailing slashes.
$svn_server =~ s/\/*$//;
return "$svn_server/$branch/$branchname/$module";
}
# Subroutine to return the appropriate SVN URL for a given module, based on
# the user settings. For example, 'kdelibs' -> https://svn.kde.org/home/kde/trunk/KDE/kdelibs
sub svn_module_url
{
my $module = shift;
my $svn_server = get_option($module, 'svn-server');
my $branch = get_option($module, 'module-base-path');
# Allow user to override normal processing of the module in a few ways,
# to make it easier to still be able to use kdesvn-build even when I
# can't be there to manually update every little special case.
if(get_option($module, 'override-url'))
{
return get_option($module, 'override-url');
}
if(get_option($module, 'tag'))
{
return handle_branch_tag_option($module, 'tags');
}
if(get_option($module, 'branch'))
{
return handle_branch_tag_option($module, 'branches');
}
# The following modules are in /trunk, not /trunk/KDE. There are others,
# but there are the important ones. The hash is associated with the value
# 1 so that we can do a boolean test by looking up the module name.
my @non_trunk_modules = qw(extragear kdenonbeta kdesupport koffice
playground qt-copy valgrind KDE kdereview www l10n);
my $module_root = $module;
$module_root =~ s/\/.*//; # Remove everything after the first slash
if (not $branch)
{
$branch = 'trunk/KDE';
$branch = 'trunk' if list_has(@non_trunk_modules, $module_root);
}
$branch =~ s/^\/*//; # Eliminate / at beginning of string.
$branch =~ s/\/*$//; # Likewise at the end.
# Remove trailing slashes.
$svn_server =~ s/\/*$//;
return "$svn_server/$branch/$module";
}
# Convienience subroutine to return the build directory for a module. Use
# this instead of get_subdir_path because this special-cases modules for you,
# such as qt-copy.
# TODO: From what I hear this hack is no longer necessary. Investigate this.
sub get_build_dir
{
my $module = shift;
# It is the responsibility of the caller to append $module!
return get_kdesvn_dir() if ($module eq 'qt-copy') and not get_option('qt-copy', 'use-qt-builddir-hack');
return get_subdir_path($module, 'build-dir');
}
# Subroutine to return a list of the different log directories that are used
# by the different modules in the script.
sub get_all_log_directories
{
my @module_list = keys %package_opts;
my %log_dict;
# A hash is used to track directories to avoid duplicate entries.
unshift @module_list, "global";
$log_dict{get_subdir_path($_, 'log-dir')} = 1 foreach @module_list;
debug "Log directories are ", join (", ", keys %log_dict);
return keys %log_dict;
}
# Subroutine to determine the build id for this invocation of the script. The
# idea of a build id is that we want to be able to run the script more than
# once in a day and still retain each set of logs. So if we run the script
# more than once in a day, we need to increment the build id so we have a
# unique value. This subroutine sets the global variable $BUILD_ID and
# $LOG_DATE for use by the logging subroutines.
sub setup_logging_subsystem
{
my $min_build_id = "00";
my $date = strftime "%F", localtime; # ISO 8601 date
my @log_dirs = get_all_log_directories();
for (@log_dirs)
{
my $id = "01";
$id++ while -e "$_/$date-$id";
# We need to use a string comparison operator to keep
# the magic in the ++ operator.
$min_build_id = $id if $id gt $min_build_id;
}
$LOG_DATE = $date;
$BUILD_ID = $min_build_id;
}
# Convienience subroutine to return the log directory for a module.
# It also creates the directory and manages the 'latest' symlink.
#
# Returns undef on an error, or the name of the directory otherwise.
sub get_log_dir
{
my $module = shift;
my $logbase = get_subdir_path($module, 'log-dir');
my $logpath = "$logbase/$LOG_DATE-$BUILD_ID/$module";
$logpath = "$logbase/$LOG_DATE-$BUILD_ID" if $module eq 'global';
debug "Log directory for $module is $logpath";
if (not -e $logpath and not pretending and not super_mkdir($logpath))
{
error "Unable to create log directory r[$logpath]";
return undef;
}
# Add symlink to the directory.
# TODO: This probably can result in a few dozen unnecessary calls to
# unlink and symlink, fix this.
if (not pretending)
{
unlink("$logbase/latest") if -l "$logbase/latest";
symlink("$logbase/$LOG_DATE-$BUILD_ID", "$logbase/latest");
}
return $logpath;
}
# This function returns true if the given option doesn't make sense with the
# given module.
# blacklisted($module, $option)
sub blacklisted
{
my ($module, $option) = @_;
# Known to not work.
my @unsermake_ban_list = qw/valgrind kde-common qt-copy kdebindings/;
return list_has(@unsermake_ban_list, $module) if ($option eq 'use-unsermake');
return 0;
}
# This subroutine returns an option value for a given module. Some
# globals can't be overridden by a module's choice. If so, the
# module's choice will be ignored, and a warning will be issued.
#
# Option names are case-sensitive!
#
# First parameter: Name of module
# Second paramenter: Name of option
sub get_option
{
my $module = shift;
my $option = shift;
my $global_opts = $package_opts{'global'};
my $defaultQtCopyArgs = '-qt-gif -plugin-imgfmt-mng -thread -no-exceptions -debug -dlopen-opengl -plugin-sql-sqlite';
my @lockedOpts = qw(source-dir svn-server qtdir libpath binpath kdedir
pretend disable-agent-check);
# These options can't override globals
if (list_has(@lockedOpts, $option) or $module eq 'global')
{
return ${$global_opts}{"#$option"} if exists ${$global_opts}{"#$option"};
return ${$global_opts}{$option};
}
# Don't even try this
return 0 if blacklisted($module, $option);
my $ref = $package_opts{$module};
# Check for a sticky option
return $$ref{"#$option"} if exists $$ref{"#$option"};
# Next in order of precedence
if (defined ${$global_opts}{"#$option"} and not
($module eq 'qt-copy' and $option eq 'configure-flags'))
{
return ${$global_opts}{"#$option"};
}
# No sticky options left.
# Configure flags and CXXFLAGS are appended to the global option
if (($module ne 'qt-copy' && $option eq 'configure-flags')
|| $option eq 'cxxflags')
{
my $value = ${$global_opts}{$option};
if(defined $$ref{$option})
{
my $modvalue = $$ref{$option};
$value .= " $modvalue";
}
return $value;
}
# As always qt-copy has to be difficult
if ($module eq 'qt-copy' and $option eq 'configure-flags')
{
return $defaultQtCopyArgs if not defined $$ref{$option};
return $$ref{$option};
}
# Everything else overrides the global, unless of course it's not set.
# If we're reading for global options, we're pretty much done.
return $$ref{$option} if defined $$ref{$option};
return ${$global_opts}{$option};
}
# Subroutine used to handle the checkout-only option. It handles
# updating subdirectories of an already-checked-out module.
# First parameter is the module, all remaining parameters are subdirectories
# to check out.
#
# Returns 0 on success, non-zero on failure.
sub update_module_subdirectories
{
my $module = shift;
my $result;
# If we have elements in @path, download them now
for my $dir (@_)
{
info "\tUpdating g[$dir]";
$result = run_svn($module, "svn-up-$dir", [ 'svn', 'up', $dir ]);
return $result if $result;
}
return 0;
}
# Returns true if a module has a base component to their name (e.g. KDE/,
# extragear/, or playground). Note that modules that aren't in trunk/KDE
# don't necessary meet this criteria (e.g. kdereview is a module itself).
sub has_base_module
{
my $module = shift;
return $module =~ /^(extragear|playground|KDE)(\/[^\/]+)?$/;
}
# Subroutine to return the directory that a module will be stored in.
# NOTE: The return value is a hash. The key 'module' will return the final
# module name, the key 'path' will return the full path to the module. The
# key 'fullpath' will return their concatenation.
# For example, with $module == 'KDE/kdelibs', and no change in the dest-dir
# option, you'd get something like:
# {
# 'path' => '/home/user/kdesvn/KDE',
# 'module' => 'kdelibs',
# 'fullpath' => '/home/user/kdesvn/KDE/kdelibs'
# }
# If dest-dir were changed to e.g. extragear-multimedia, you'd get:
# {
# 'path' => '/home/user/kdesvn',
# 'module' => 'extragear-multimedia',
# 'fullpath' => '/home/user/kdesvn/extragear-multimedia'
# }
# First parameter is the module.
# Second parameter is either source or build.
sub get_module_path_dir
{
my $module = shift;
my $type = shift;
my $destdir = get_dest_dir($module);
my $srcbase = get_kdesvn_dir();
$srcbase = get_build_dir($module) if $type eq 'build';
my $combined = "$srcbase/$destdir";
# Remove dup //
$combined =~ s/\/+/\//;
my @parts = split(/\//, $combined);
my %result = ();
$result{'module'} = pop @parts;
$result{'path'} = join('/', @parts);
$result{'fullpath'} = "$result{path}/$result{module}";
return %result;
}
sub get_fullpath
{
my ($module, $type) = @_;
my %pathinfo = get_module_path_dir($module, $type);
return $pathinfo{'fullpath'};
}
# Checkout a module that has not been checked out before, along with any
# subdirectories the user desires.
# The first parameter is the module to checkout (including extragear and
# playground modules), all remaining parameters are subdirectories of the
# module to checkout.
# Returns 0 on success, non-zero on failure.
sub checkout_module_path
{
my ($module, @path) = @_;
my %pathinfo = get_module_path_dir($module, 'source');
my $result;
my @args;
if (not -e $pathinfo{'path'} and not super_mkdir($pathinfo{'path'}))
{
error "Unable to create path r[$pathinfo{path}]!";
return 1;
}
chdir($pathinfo{'path'});
push @args, ('svn', 'co');
push @args, '-N' if scalar @path;
push @args, svn_module_url($module);
push @args, $pathinfo{'module'};
note "Checking out g[$module]";
$result = run_svn($module, 'svn-co', \@args);
return $result if $result;
chdir($pathinfo{'module'}) if scalar @path;
return update_module_subdirectories($module, @path);
}
# Update a module that has already been checked out, along with any
# subdirectories the user desires.
# The first parameter is the module to checkout (including extragear and
# playground modules), all remaining parameters are subdirectories of the
# module to checkout.
# Returns 0 on success, non-zero on failure.
sub update_module_path
{
my ($module, @path) = @_;
my $fullpath = get_fullpath($module, 'source');
my $result;
my @args;
chdir $fullpath;
push @args, ('svn', 'up');
push @args, '-N' if scalar @path;
note "Updating g[$module]";
$result = run_svn($module, 'svn-up', \@args);
if($result) # Update failed, try svn cleanup.
{
info "\tUpdate failed, trying a cleanup.";
$result = safe_system('svn', 'cleanup');
return $result if $result;
info "\tCleanup complete.";
# Now try again.
$result = run_svn($module, 'svn-up-2', \@args);
}
return $result if $result;
# If the admin dir exists and is a soft link, remove it so that svn can
# update it if need be. The link will automatically be re-created later
# in the process if necessary by the build functions.
unlink ("$fullpath/admin") if -l "$fullpath/admin";
return update_module_subdirectories($module, @path);
}
# Subroutine to run a command with redirected STDOUT and STDERR. First parameter
# is name of the log file (relative to the log directory), and the
# second parameter is a reference to an array with the command and
# its arguments
sub log_command
{
my $pid;
my $module = shift;
my $filename = shift;
my @command = @{(shift)};
my $logdir = get_log_dir($module);
debug "log_command(): Module $module, Command: ", join(' ', @command);
if (pretending)
{
pretend "\tWould have run g[", join (' ', @command);
return 0;
}
if ($pid = fork)
{
# Parent
waitpid $pid, 0;
# If the module fails building, set an internal flag in the module
# options with the name of the log file containing the error message.
my $result = $?;
set_error_logfile($module, "$filename.log") if $result;
# If we are using the alias to a kdesvn-build function, it should have
# already printed the error message, so clear out errno (but still
# return failure status).
if ($command[0] eq 'kdesvn-build')
{
$! = 0;
}
return $result;
}
else
{
# Child
if (not defined $logdir or not -e $logdir)
{
# Error creating directory for some reason.
error "\tLogging to std out due to failure creating log dir.";
}
# Redirect stdout and stderr to the given file.
if (not debugging)
{
# Comment this out because it conflicts with make-install-prefix
# open (STDIN, "</dev/null");
open (STDOUT, ">$logdir/$filename.log") or do {
error "Error opening $logdir/$filename.log for logfile.";
# Don't abort, hopefully STDOUT still works.
};
}
else
{
open (STDOUT, "|tee $logdir/$filename.log") or do {
error "Error opening pipe to tee command.";
# Don't abort, hopefully STDOUT still works.
};
}
# Make sure we log everything. If the command is svn, it is possible
# that the client will produce output trying to get a password, so
# don't redirect stderr in that case.
open (STDERR, ">&STDOUT") unless $command[0] eq 'svn';
# Call internal function, name given by $command[1]
if($command[0] eq 'kdesvn-build')
{
debug "Calling $command[1]";
my $cmd = $command[1];
splice (@command, 0, 2); # Remove first two elements.
no strict 'refs'; # Disable restriction on symbolic subroutines.
if (not &{$cmd}(@command)) # Call sub
{
exit EINVAL;
}
exit 0;
}
# External command.
exec (@command) or do {
my $cmd_string = join(' ', @command);
error <<EOF;
r[b[Unable to execute "$cmd_string"]!
$!
Please check your binpath setting (it controls the PATH used by kdesvn-build).
Currently it is set to g[$ENV{PATH}].
EOF
# Don't use return, this is the child still!
exit 1;
};
}
}
# Subroutine to mark a file as being the error log for a module. This also
# creates a symlink in the module log directory for easy viewing.
# First parameter is the module in question.
# Second parameter is the filename in the log directory of the error log.
sub set_error_logfile
{
my ($module, $logfile) = @_;
my $logdir = get_log_dir($module);
return unless $logfile;
set_option($module, '#error-log-file', "$logdir/$logfile");
# Setup symlink in the module log directory pointing to the appropriate
# file. Make sure to remove it first if it already exists.
unlink("$logdir/error.log") if -l "$logdir/error.log";
if(-e "$logdir/error.log")
{
# Maybe it was a regular file?
error "r[b[ * Unable to create symlink to error log file]";
return 0;
}
symlink "$logdir/$logfile", "$logdir/error.log";
}
# Subroutine to run make/unsermake with redirected STDOUT and STDERR,
# and to process the percentage in unsermake (-p). First parameter
# is name of the log file (relative to the log directory), and the
# second parameter is a reference to an array with the command and
# its arguments.
#
# TODO: This is a fork of log_command(). Find a way to re-merge them.
# Returns 0 on success, non-zero on failure.
sub run_make_command
{
my $pid;
my $module = shift;
my $filename = shift;
my @command = @{(shift)};
my $logdir = get_log_dir($module);
my $isunsermake = $command[0] =~ 'unsermake';
# Don't print ANSI characters if we're not on a tty. Also, automake
# doesn't support printing output status. Finally, we output the whole
# log to screen when debugging which makes this useless.
if (!$isunsermake or not -t STDERR or debugging)
{
return log_command($module, $filename, \@command);
}
# Make sure -p is in the unsermake flags, it's the whole reason for using
# this function.
if (!(grep /^(-p)|(--print-progress)$/, @command))
{
# Add in front of element 1, deleting 0 elements.
splice @command, 1, 0, '-p';
}
if (pretending)
{
pretend "\tWould have run g[", join (' ', @command);
return 0;
}
$pid = open(CHILD, '-|');
if ($pid)
{
my $last = -1;
while (<CHILD>)
{
chomp;
# Update terminal (\e[K clears the line) if the percentage
# changed.
if (/([0-9]+)% (creating|compiling|linking)/)
{
print STDERR "\r$1% \e[K" unless ($1 == $last);
$last = $1;
}
}
close(CHILD);
print STDERR "\r\e[K";
# If the module fails building, set an internal flag in the module
# options with the name of the log file containing the error message.
my $result = $?;
set_error_logfile($module, "$filename.log") if $result;
return $result;
}
else
{
# Child
if (not defined $logdir or not -e $logdir)
{
# Error creating directory for some reason.
error "\tLogging to standard output due to failure creating log dir.";
}
open (STDOUT, "|tee $logdir/$filename.log") or do {
error "Error opening pipe to tee command."
};
# Make sure we log everything.
open (STDERR, ">&STDOUT");
exec (@command) or do {
my $cmd_string = join(' ', @command);
error <<EOF;
r[b[Unable to execute "$cmd_string"]!
$!
Please check your binpath setting (it controls the PATH used by kdesvn-build).
Currently it is set to g[$ENV{PATH}].
EOF
# Don't return, we're still in the child!
exit 1;
};
}
}
# Subroutine to determine if the given subdirectory of a module can actually be
# built or not. For instance, /admin can never be built, and the /kalyptus subdir
# of kdebindings can't either.
sub is_subdir_buildable
{
my ($module, $dir) = @_;
return 0 if $dir eq 'admin';
return 0 if $dir eq 'kalyptus' and $module eq 'kdebindings';
return 1;
}
# Subroutine to return the path to the given executable based on the current
# binpath settings. e.g. if you pass make you could get '/usr/bin/make'. If
# the executable is not found undef is returned.
#
# This assumes that the module environment has already been updated since
# binpath doesn't exactly correspond to $ENV{'PATH'}.
sub path_to_prog
{
my $prog = shift;
my @paths = split(/:/, $ENV{'PATH'});
# If it starts with a / the path is already absolute.
return $prog if $prog =~ /^\//;
for my $path (@paths)
{
return "$path/$prog" if (-x "$path/$prog");
}
return undef;
}
# Subroutine to run the make command with the arguments given by the passed
# list. The first argument of the list given must be the module that we're
# making. The second argument is the "try number", used in creating the log
# file name.
#
# Returns 0 on success, non-zero on failure (shell script style)
sub safe_make (@)
{
my ($module, $trynumber, $apidox, @args) = @_;
my $opts;
my $logdir = get_log_dir($module);
my $checkout_dirs = get_option($module, "checkout-only");
my @dirs = split(' ', $checkout_dirs);
my $installing = $trynumber eq 'install';
my $make = 'make';
if (get_option($module, 'use-unsermake'))
{
$make = get_option('global', 'unsermake-path');
$opts = get_option($module, 'unsermake-options');
}
else
{
$opts = get_option($module, 'make-options');
}
# Convert the path to an absolute path since I've encountered a sudo that
# is aptqparently unable to guess. Maybe it's better that it doesn't guess
# anyways from a security point-of-view.
$make = path_to_prog($make) unless pretending;
if(not defined $make)
{
# Weird, we can't find make, you'd think configure would have
# noticed...
error " r[b[*] Unable to find the g[make] executable!";
# Make sure we don't bother trying again, this is a more serious
# error.
set_option($module, "#was-rebuilt", 1);
return 1;
}
# Add make-options to the given options, as long as we're not installing
# If we are installing, unsermake seems to assume that the options are a
# make target, and parallel builds don't help with installing anyways.
unshift (@args, split(' ', $opts)) unless $installing;
my $description;
# Check if we're installing
if($installing)
{
debug "Prepending install options, apidox: $apidox.";
$description = $apidox ? "API Documentation" : clr "g[$module]";
unshift @args, $make, $apidox ? 'install-apidox' : 'install';
unshift @args, split(' ', get_option ($module, 'make-install-prefix'));
info "\tInstalling $description.";
}
else
{
$description = "Building API Documentation";
$description = "Compiling, attempt $trynumber" unless $apidox;
push @args, 'apidox' if $apidox;
unshift @args, $make;
info "\t$description...";
}
push (@dirs, "") if scalar @dirs == 0;
for my $subdir (@dirs)
{
# Some subdirectories shouldn't have make run within them.
next unless is_subdir_buildable($module, $subdir);
my $logname = "build-$trynumber";
if ($installing)
{
$logname = $apidox ? 'install-apidox' : 'install';
}
if ($subdir ne '')
{
$logname = $installing ? "install-$subdir" : "build-$subdir-$trynumber";
next if $apidox; # Don't built apidox in a subdirectory
info $installing ? "\tInstalling " : "\tBuilding ", "subdirectory g[$subdir]";
}
my %pathinfo = get_module_path_dir($module, 'build');
my $builddir = "$pathinfo{fullpath}/$subdir";
$builddir =~ s/\/*$//;
chdir ($builddir);
my $result = run_make_command ($module, $logname, \@args );
return $result if $result;
};
return 0;
}
# Subroutine to add a variable to the environment, but ONLY if it
# is set. First parameter is the variable to set, the second is the
# value to give it.
sub setenv
{
my ($var, $val) = @_;
return unless $val;
pretend "\tWould have set g[$var]=y[$val].";
$ENV{$var} = $val;
}
# Display a message to the user regarding their relative lack of
# ~/.kdesvn-buildrc, and point them to some help. We will continue using a
# default set of options.
sub no_config_whine
{
my $searched = join("\n ", @rcfiles);
my $homepage = "http://kdesvn-build.kde.org/";
note <<"HOME";
Unable to open configuration file!
We looked for:
$searched
kdesvn-build will continue using a default set of options. These options may
not apply to you, so feel free to visit the kdesvn-build homepage
b[g[$homepage]
and use the configuration file generator to guide you through the process of
creating a config file to customize your kdesvn-build process.
HOME
}
# This subroutine assigns the appropriate options to %package_opts and the
# update and build lists to build a default set of modules.
sub setup_default_modules()
{
@update_list = qw(qt-copy arts kdesupport kdelibs kdebase kdeartwork
kdemultimedia kdepim kdeutils kdegraphics kdegames
kdetoys kdeedu kdeaddons);
@build_list = @update_list;
for my $i (@update_list) {
if (not exists $package_opts{$i})
{
$package_opts{$i} = { }; # Set up defaults
$package_opts{$i}{'set-env'} = { };
}
}
# Setup default options for qt-copy
$package_opts{'qt-copy'} = {
'conf-flags' => q(-system-zlib -qt-gif -system-libjpeg -system-libpng
-plugin-imgfmt-mng -thread -no-exceptions -debug
-dlopen-opengl),
'apply-qt-patches' => 'true',
# See setup_kde35_hack() for why this option is here.
'module-base-path' => 'branches/qt/3.3',
'use-qt-builddir-hack' => 'true',
'use-unsermake' => 0,
'set-env' => { },
};
# That handy q() construct above kept the newlines, I don't want them.
$package_opts{'qt-copy'}{'conf-flags'} =~ s/\s+/ /gm;
}
# Reads in the options from the config file and adds them to the option store.
# The first parameter is a reference to the file handle to read from.
# The second parameter is 'global' if we're reading the global section, or
# 'module' if we should expect an end module statement.
sub parse_module
{
my ($fh, $module) = @_;
$module = 'global' unless $module;
# Make sure we acknowledge that we read the module name in from the
# file.
if (not defined $package_opts{$module})
{
$package_opts{$module} = {
'set-env' => { }
};
}
# Read in each option
while (<$fh>)
{
# Handle line continuation
chomp;
if(s/\\\s*$//) # Replace \ followed by optional space at EOL and try again.
{
$_ .= <$fh>;
redo unless eof($fh);
}
s/#.*$//; # Remove comments
next if /^\s*$/; # Skip blank lines
if($module eq 'global')
{
last if /^end\s+global/; # Stop
}
else
{
last if /^end\s+module/; # Stop
}
# The option is the first word, followed by the
# flags on the rest of the line. The interpretation
# of the flags is dependant on the option.
my ($option, $value) = /^\s* # Find all spaces
([-\w]+) # First match, alphanumeric, -, and _
# (?: ) means non-capturing group, so (.*) is $value
# So, skip spaces and pick up the rest of the line.
(?:\s+(.*))?$/x;
$value = "" unless defined $value;
# Simplify this.
$value =~ s/\s+$//;
$value =~ s/^\s+//;
$value =~ s/\s+/ /;
# Check for false keyword and convert it to Perl false.
$value = 0 if lc($value) =~ /^false$/;
# Replace tildes with home directory.
1 while ($value =~ s"(^|:|=)~/"$1$ENV{'HOME'}/");
set_option($module, $option, $value);
}
}
# This subroutine reads in the settings from the user's configuration
# file.
sub read_options
{
# The options are stored in the file $rcfile
my $success = 0;
my $global_opts = $package_opts{'global'};
for my $file (@rcfiles)
{
if (open CONFIG, "<$file")
{
$success = 1;
$rcfile = $file;
last;
}
}
if (not $success)
{
if(scalar @rcfiles == 1)
{
# This can only happen if the user uses --rc-file, if we fail to
# load the file, we need to fail to load.
error <<EOM;
Unable to open config file $rcfiles[0]
Script stopping here since you specified --rc-file on the command line to
load $rcfiles[0] manually. If you wish to run the script with no configuration
file, leave the --rc-file option out of the command line.
EOM
exit 1;
}
no_config_whine();
setup_default_modules();
return;
}
my ($option, $flags, $modulename);
# FIXME: Make global settings optional if only tweaks needed are for
# modules.
# Read in global settings
while (<CONFIG>)
{
s/#.*$//; # Remove comments
next if (/^\s*$/); # Skip blank lines
# First command in .kdesvn-buildrc should be a global
# options declaration, even if none are defined.
if (not /^global\s*$/)
{
error "Invalid configuration file: $rcfile.";
error "Expecting global settings section!";
exit 1;
}
# Now read in each global option
parse_module(\*CONFIG, 'global');
last;
}
my $using_default = 1;
# Now read in module settings
while (<CONFIG>)
{
s/#.*$//; # Remove comments
next if (/^\s*$/); # Skip blank lines
# Get modulename (has dash, dots, slashes, or letters/numbers)
($modulename) = /^module\s+([-\/\.\w]+)\s*$/;
if (not $modulename)
{
warning "Invalid configuration file $rcfile!";
warning "Expecting a start of module section.";
warning "Global settings will be retained.";
$modulename = 'null'; # Keep reading the module section though.
}
# Don't build default modules if user has their own wishes.
if ($using_default)
{
$using_default = 0;
@update_list = @build_list = ( );
}
parse_module(\*CONFIG, $modulename);
next if ($modulename eq 'null');
# Done reading options, add this module to the update list
push (@update_list, $modulename) unless exists $ignore_list{$modulename};
# Add it to the build list, unless the build is only
# supposed to be done manually.
if (not get_option ($modulename, 'manual-build') and not exists $ignore_list{$modulename})
{
push (@build_list, $modulename);
}
}
close CONFIG;
delete $package_opts{'null'}; # Just in case.
# For the 3.5 edition we want to set the qt-copy option module-base-path
# to branches/qt/3.3 unless the user already has it set.
unless (exists $package_opts{'qt-copy'}{'module-base-path'})
{
set_option ('qt-copy', 'module-base-path', 'branches/qt/3.3');
}
# If the user doesn't ask to build any modules, build a default set.
# The good question is what exactly should be built, but oh well.
setup_default_modules() if $using_default;
}
# Subroutine to check if the given module needs special treatment to support
# srcdir != builddir. If this function returns true kdesvn-build will use a
# few hacks to simulate it, and will update e.g. configure paths appropriately
# as well.
sub module_needs_builddir_help
{
my $module = shift;
my @module_help_list = qw/qt-copy kdebindings valgrind/;
# qt-copy special case to support use-qt-builddir-hack.
if ($module eq 'qt-copy' and not get_option('qt-copy', 'use-qt-builddir-hack'))
{
return 0;
}
return list_has(@module_help_list, $module);
}
# This subroutine reads the set-env option for a given module and initializes
# the environment based on that setting.
sub setup_module_environment
{
my $module = shift;
my ($key, $value);
# Let's see if the user has set env vars to be set.
my $env_hash_ref = get_option($module, 'set-env');
while (($key, $value) = each %{$env_hash_ref})
{
setenv($key, $value);
}
}
# Subroutine to initialize some environment variable for building
# KDE from Subversion. Change this section if a dependency changes later.
sub initialize_environment
{
$ENV{"WANT_AUTOMAKE"} = "1.7";
$ENV{"WANT_AUTOCONF_2_5"} = "1";
$ENV{"PATH"} = get_option ('global', 'binpath');
my $svnserver = get_option ('global', 'svn-server');
my $pc_path = get_option('global', 'kdedir') . "/lib/pkgconfig";
$pc_path .= ":" . $ENV{'PKG_CONFIG_PATH'} if ( exists $ENV{'PKG_CONFIG_PATH'} );
$ENV{'PKG_CONFIG_PATH'} = $pc_path;
if(-t STDOUT and get_option('global', 'colorful-output'))
{
$RED = "\e[31m";
$GREEN = "\e[32m";
$YELLOW = "\e[33m";
$NORMAL = "\e[0m";
$BOLD = "\e[1m";
}
# Set the process priority
setpriority PRIO_PROCESS, 0, get_option('global', 'niceness');
setup_module_environment ('global');
}
# Subroutine to get a list of modules to install, either from the command line
# if it's not empty, or based on the list of modules successfully built.
sub get_install_list
{
my @install_list;
if ($#ARGV > -1)
{
@install_list = @ARGV;
@ARGV = ();
}
else
{
# Get list of built items from $logdir/latest/build-status
my $logdir = get_subdir_path('global', 'log-dir');
if (not open BUILTLIST, "<$logdir/latest/build-status")
{
error "Can't determine what modules have built. You must";
error "specify explicitly on the command line what modules to build.";
exit (1); # Don't finish, no lock has been taken.
}
while (<BUILTLIST>)
{
chomp;
if (/Succeeded/)
{
# Clip to everything before the first colon.
my $module = (split(/:/))[0];
push @install_list, $module;
}
}
close BUILTLIST;
}
return @install_list;
}
# Print out an error message, and a list of modules that match that error
# message. It will also display the log file name if one can be determined.
# The message will be displayed all in uppercase, with PACKAGES prepended, so
# all you have to do is give a descriptive message of what this list of
# packages failed at doing.
sub output_failed_module_list($@)
{
my ($message, @fail_list) = @_;
$message = uc $message; # Be annoying
debug "Message is $message";
debug "\tfor ", join(', ', @fail_list);
if (scalar @fail_list > 0)
{
my $homedir = $ENV{'HOME'};
my $logfile;
warning "\nr[b[<<< PACKAGES $message >>>]";
for (@fail_list)
{
$logfile = get_option($_, '#error-log-file');
$logfile = "No log file" unless $logfile;
$logfile =~ s|$homedir|~|;
warning "r[$_] - g[$logfile]";
}
}
}
# This subroutine reads the fail_lists dictionary to automatically call
# output_failed_module_list for all the module failures in one function
# call.
sub output_failed_module_lists()
{
for my $type (@fail_display_order)
{
my @failures = @{$fail_lists{$type}};
output_failed_module_list("failed to $type", @failures);
}
}
# This subroutine extract the value from options of the form --option=value,
# which can also be expressed as --option value. The first parameter is the
# option that the user passed to the cmd line (e.g. --prefix=/opt/foo), and
# the second parameter is a reference to the list of command line options.
# The return value is the value of the option (the list might be shorter by
# 1, copy it if you don't want it to change), or undef if no value was
# provided.
sub extract_option_value($\@)
{
my ($option, $options_ref) = @_;
if ($option =~ /=/)
{
my @value = split(/=/, $option);
shift @value; # We don't need the first one, that the --option part.
return undef if (scalar @value == 0);
# If we have more than one element left in @value it's because the
# option itself has an = in it, make sure it goes back in the answer.
return join('=', @value);
}
return undef if scalar @{$options_ref} == 0;
return shift @{$options_ref};
}
# Utility subroutine to handle setting the environment variable type of value.
# Returns true (non-zero) if this subroutine handled everything, 0 otherwise.
# The first parameter should by the reference to the hash with the 'set-env'
# hash ref, second parameter is the exact option to check, and the third
# option is the value to set that option to.
sub handle_set_env
{
my ($href, $option, $value) = @_;
return 0 if $option !~ /^#?set-env$/;
my ($var, @values) = split(' ', $value);
$$href{$option} = ( ) unless exists $$href{$option};
$$href{$option}{$var} = join(' ', @values);
return 1;
}
# Sets the option for the given module to the given value. If the data for the
# module doesn't exist yet, it will be defined starting with a default value.
# First parameter: module to set option for (or 'global')
# Second parameter: option name (Preceded by # for a sticky option)
# Third parameter: option value
# Return value is void
sub set_option
{
my ($module, $option, $value) = @_;
# Set module options
if (not exists $package_opts{$module})
{
$package_opts{$module} = {
'set-env' => { }
};
}
return if handle_set_env($package_opts{$module}, $option, $value);
$package_opts{$module}{$option} = $value;
}
# Subroutine to process the command line arguments. Any arguments so
# processed will be removed from @ARGV.
# The arguments are generally documented in doc.html now.
# NOTE: Don't call finish() from this routine, the lock hasn't been obtained.
# NOTE: The options have not been loaded yet either. Any option which
# requires more than rudimentary processing should set a flag for later work.
sub process_arguments
{
my $arg;
my $version = "kdesvn-build 0.97.6 (KDE 3.5 Edition)";
my $author = <<DONE;
$version was written (mostly) by:
Michael Pyne <michael.pyne\@kdemail.net>
Many people have contributed code, bugfixes, and documentation.
Please report bugs using the KDE Bugzilla, at http://bugs.kde.org/
DONE
my @argv;
while ($_ = shift @ARGV)
{
SWITCH: {
/^(--version)$/ && do { print "$version\n"; exit; };
/^--author$/ && do { print $author; exit; };
/^(-h)|(--?help)$/ && do {
print <<DONE;
$version
This script automates the download, build, and install process for KDE (using
Subversion).
It is recommended that you first setup a .kdesvn-buildrc file in your home
directory. Please visit http://kdesvn-build.kde.org/ for
information on how to write the file, or consult the sample file which should
have been included with this program. If you don't setup a .kdesvn-buildrc,
a default set of options will be used, which a few modules to be built by
default.
After setting up .kdesvn-buildrc, you can run this program from either the
command-line or from cron. It will automatically download the modules from
Subversion, create the build system, and configure and make the modules you
tell it to. If you\'d like, you can use this program to install KDE as well,
if you\'re building KDE for a single user. Note that kdesvn-build will try
by default to install the modules.
Basic synopsis, after setting up .kdesvn-buildrc:
\$ kdesvn-build [package names] (Download, build, and install KDE)
If you don\'t specify any particular package names, then your settings
in .kdesvn-buildrc will be used. If you DO specify a package name, then
your settings will still be read, but the script will try to build/install
the package regardless of .kdesvn-buildrc
Copyright (c) 2003, 2004, 2005 $author
The script is distributed under the terms of the GNU General Public License
v2, and includes ABSOLUTELY NO WARRANTY!!!
Options:
--no-svn Skip contacting the Subversion server.
--no-build Skip the build process.
--no-install Don't automatically install after build.
--svn-only Update from Subversion only (Identical to --no-build
at this point).
--build-only Build only, don't perform updates or install.
--pretend (or -p) Don't actually contact the Subversion server, run make,
or create/delete files and directories. Instead,
output what the script would have done.
--quiet (or -q) Be less descriptive of the build process, without
printing each little substep kdesvn-build is
performing.
--really-quiet Only warnings and errors will be displayed.
--verbose (or -v) Be *very* descriptive of the build process. Only
--debug outputs more.
--debug Activates debug mode.
--color
--no-color Add (or remove) color from the output.
--rc-file=<filename> Read configuration from filename instead of default.
--nice=<value> Allows you to run the script with a lower priority
The default value is 10 (lower priority by 10 steps).
--prefix=/kde/path This option is a shortcut to change the setting for
kdedir from the command line. It implies
--reconfigure.
--resume Tries to resume the make process from the last time
the script was run, without performing the Subversion
update.
--resume-from=<pkg> Starts building from the given package, without
performing the Subversion update.
--revision (or -r)=<rev> Forces update to revision <rev> from Subversion.
--refresh-build Start the build from scratch.
--reconfigure Run configure again, but don't clean the build
directory or re-run make -f Makefile.cvs.
--recreate-configure Run make -f Makefile.cvs again to redo the configure
script.
--no-rebuild-on-fail Don't try to rebuild a module from scratch if it
failed building and we didn't already try to build it
from scratch.
--build-system-only Create the build infrastructure, but don't actually
perform the build.
--install Try to install the packages passed on the command
line, or all packages in ~/.kdesvn-buildrc that don't
have manual-build set. Building and Subversion
updates are not performed.
--<option>= Any unrecognized options are added to the global
configuration, overriding any value that may exist.
--<module>,<option>= Likewise, this allows you to override any module
specific option from the command line.
--help You\'re reading it. :-)
--author Output the author(s)\'s name.
--version Output the program version.
You can get more help by reading the included HTML documentation, or going
online to http://kdesvn-build.kde.org/
DONE
# We haven't done any locking... no need to finish()
# Avoids log-dir errors due to having not performed.
# read_options() and setup_logging_subsystem().
exit 0;
};
/^--install$/ && do {
$install_flag = 1;
last SWITCH;
};
/^--no-svn$/ && do {
set_option('global', '#no-svn', 1);
last SWITCH;
};
/^--no-install$/ && do {
set_option('global', '#install-after-build', 0);
last SWITCH;
};
/^(-v)|(--verbose)$/ && do {
set_option('global', '#debug-level', WHISPER);
last SWITCH;
};
/^(-q)|(--quiet)$/ && do {
set_option('global', '#debug-level', NOTE);
last SWITCH;
};
/^--really-quiet$/ && do {
set_option('global', '#debug-level', WARNING);
last SWITCH;
};
/^--debug$/ && do {
set_option('global', 'debug-level', DEBUG);
last SWITCH;
};
/^--reconfigure$/ && do {
set_option('global', '#reconfigure', 1);
last SWITCH;
};
/^--recreate-configure$/ && do {
set_option('global', '#recreate-configure', 1);
last SWITCH;
};
/^--color$/ && do {
set_option('global', '#colorful-output', 1);
last SWITCH;
};
/^--no-color$/ && do {
set_option('global', '#colorful-output', 0);
last SWITCH;
};
/^--no-build$/ && do {
set_option('global', '#manual-build', 1);
last SWITCH;
};
# Although equivalent to --no-build at this point, someday the
# script may interpret the two differently, so get ready now.
/^--svn-only$/ && do { # Identically to --no-build
set_option('global', '#manual-build', 1);
last SWITCH;
};
# Don't run Subversion or install
/^--build-only$/ && do {
set_option('global', '#no-svn', 1);
set_option('global', '#install-after-build', 0);
last SWITCH;
};
/^--build-system-only$/ && do {
set_option('global', '#build-system-only', 1);
last SWITCH;
};
/^--rc-file=?/ && do {
my $rcfile = extract_option_value($_, @ARGV);
if (not $rcfile)
{
print "You must specify a filename to use as the config file!\n";
exit 8;
}
@rcfiles = ( $rcfile );
last SWITCH;
};
/^--prefix=?/ && do {
my $prefix = extract_option_value($_, @ARGV);
if (not $prefix)
{
print "No prefix selected with the --prefix option.\n";
exit 8;
}
set_option('global', '#kdedir', $prefix);
set_option('global', '#reconfigure', 1);
last SWITCH;
};
/^--no-rebuild-on-fail$/ && do {
set_option('global', '#no-rebuild-on-fail', 1);
last SWITCH;
};
/^--nice=?/ && do {
my $niceness = extract_option_value($_, @ARGV);
if($niceness)
{
set_option('global', '#niceness', $niceness);
}
else
{
print "You need to specify a value for the --nice option\n";
exit 8;
}
last SWITCH;
};
/^--ignore-modules$/ && do {
# We need to keep read_options() from adding these modules to
# the build list, taken care of by ignore_list. We then need
# to remove the modules from the command line, taken care of
# by the @ARGV = () statement;
my @options = ();
foreach (@ARGV)
{
if (/^-/)
{
push @options, $_;
}
else
{
$ignore_list{$_} = 1;
# the pattern match doesn't work with $_, alias it.
my $module = $_;
@argv = grep (!/^$module$/, @argv);
}
}
@ARGV = @options;
last SWITCH;
};
/^(--dry-run)|(--pretend)|(-p)$/ && do {
set_option('global', '#pretend', 1);
last SWITCH;
};
/^--refresh-build$/ && do {
set_option('global', '#refresh-build', 1);
last SWITCH;
};
/^(--revision|-r)=?/ && do {
my $revision = extract_option_value($_, @ARGV);
if (not $revision)
{
print "No revision selected with the --revision option.\n";
exit 8;
}
set_option('global', '#revision', $revision);
last SWITCH;
};
/^--resume-from=?/ && do {
$_ = extract_option_value($_, @ARGV);
if (not $_)
{
print "You must pass a module to resume from to the --resume-from option!\n";
exit 7;
}
if (defined $package_opts{'global'}{'#resume'})
{
print "WARNING: Don't pass both --resume and --resume-from\n";
delete $package_opts{'global'}{'#resume'};
}
set_option('global', '#resume-from', $_);
set_option('global', '#no-svn', 1);
last SWITCH;
};
/^--resume$/ && do {
if (defined $package_opts{'global'}{'#resume'})
{
print "WARNING: Don't pass both --resume and --resume-from\n";
delete $package_opts{'global'}{'#resume-from'};
}
set_option('global', '#resume', 1);
set_option('global', '#no-svn', 1);
last SWITCH;
};
/^--/ && do {
# First let's see if they're trying to override a global option.
my ($option) = /^--([-\w\d\/]+)/;
my $value = extract_option_value($_, @ARGV);
if (exists $package_opts{'global'}{$option})
{
# Global option
set_option('global', "#$option", $value);
}
else
{
# Module specific option. The module options haven't been
# read in, so we'll just have to assume that the module the
# user passes actually does exist.
my ($module, $option) = /^--([\w\/-]+),([-\w\d\/]+)/;
if (not $module)
{
print "Unknown option $_\n";
exit 8;
}
set_option($module, "#$option", $value);
}
last SWITCH;
};
/^-/ && do { print "WARNING: Unknown option $_\n"; last SWITCH; };
# Strip trailing slashes.
s/\/*$//;
push @argv, $_; # Reconstruct correct @ARGV
}
}
@ARGV = @argv;
}
# Subroutine to try to get a lock on the script's lockfile to prevent
# more than one script from updating KDE Subversion at once.
# The value returned depends on the system's open() call. Normally 0
# is failure and non-zero is success (e.g. a file descriptor to read).
# TODO: This could be improved to not fight over the lock when the scripts are
# handling separate tasks.
sub get_lock
{
my $lockfile = "$ENV{HOME}/.kdesvn-lock";
sysopen LOCKFILE, $lockfile, O_WRONLY | O_CREAT | O_EXCL;
my $errorCode = $!; # Save for later testing.
# Install signal handlers to ensure that the lockfile gets closed.
# There is a race condition here, but at worst we have a stale lock
# file, so I'm not *too* concerned.
$SIG{'HUP'} = \&quit_handler;
$SIG{'INT'} = \&quit_handler;
$SIG{'QUIT'} = \&quit_handler;
$SIG{'ABRT'} = \&quit_handler;
$SIG{'TERM'} = \&quit_handler;
$SIG{'PIPE'} = \&quit_handler;
# Note that we can use color codes at this point since get_lock is called
# after read_options (which sets up the color).
if($errorCode == EEXIST)
{
# Path already exists, read the PID and see if it belongs to a
# running process.
open PIDFILE, "<$lockfile" or do
{
# Lockfile is there but we can't open it?!? Maybe a race
# condition but I have to give up somewhere.
warning " WARNING: Can't open or create lockfile r[$lockfile]";
return 1;
};
my $pid = <PIDFILE>;
close PIDFILE;
if($pid)
{
# Recent kdesvn-build; we wrote a PID in there.
chomp $pid;
# See if something's running with this PID.
if (kill(0, $pid) == 1)
{
# Something *is* running, likely kdesvn-build. Don't use error,
# it'll scan for $!
print clr " r[*y[*r[*] kdesvn-build appears to be running. Do you want to:\n";
print clr " (b[Q])uit, (b[P])roceed anyways?: ";
my $choice = <STDIN>;
chomp $choice;
if(lc $choice ne 'p')
{
print clr " y[*] kdesvn-build run canceled.\n";
exit 1;
}
# We still can't grab the lockfile, let's just hope things
# work out.
print clr " y[*] kdesvn-build run in progress by user request.\n";
return 1;
}
# If we get here, then the program isn't running (or at least not
# as the current user), so allow the flow of execution to fall
# through below and unlink the lockfile.
} # pid
# No pid found, optimistically assume the user isn't running
# twice.
warning " y[WARNING]: stale kdesvn-build lockfile found, deleting.";
unlink $lockfile;
sysopen LOCKFILE, $lockfile, O_WRONLY | O_CREAT | O_EXCL and do
{
print LOCKFILE "$$\n";
close LOCKFILE;
};
return 1; # Hope the sysopen worked.
}
print LOCKFILE "$$\n";
close LOCKFILE;
# Even if we fail it's generally better to allow the script to proceed
# without being a jerk about things, especially as more non-CLI-skilled
# users start using kdesvn-build to build KDE.
return 1;
}
# Subroutine to free the lock allocated by get_lock()
sub close_lock
{
my $lockfile = "$ENV{HOME}/.kdesvn-lock";
close LOCKFILE;
unlink $lockfile;
}
sub adjust_update_list
{
my $list_ref = shift;
my $build_ref = shift;
# Check to see if the user has requested for one of the modules to be
# built is using unsermake. If so, we need to check if kdenonbeta is
# already supposed to be checked out. If so, we need to make sure that
# unsermake is present in any checkout-only directives, and if not, we need
# to add kdenonbeta/unsermake to the checkout list.
my $unsermake_needed = grep (get_option ($_, 'use-unsermake'), @{$build_ref});
# If the user has told us that they will manage unsermake then we don't
# need to do anything.
$unsermake_needed = 0 if get_option('global', 'use-unsermake') eq 'self';
# If the user has set manual-update, don't second-guess them.
$unsermake_needed = 0 if get_option('kdenonbeta', 'manual-update');
debug "Do we update unsermake? ", ($unsermake_needed ? 'yes' : 'no');
if ($unsermake_needed)
{
if (not list_has(@{$list_ref}, 'kdenonbeta'))
{
whisper "Adding kdenonbeta/unsermake to build.";
# kdenonbeta isn't being downloaded by the user.
unshift (@{$list_ref}, 'kdenonbeta');
$package_opts{'kdenonbeta'} = {
'manual-build' => 'true',
'checkout-only' => 'unsermake',
'#suppress-auto-admin' => 1,
};
}
else
{
my $checkouts = get_option('kdenonbeta', 'checkout-only');
if ($checkouts !~ /\bunsermake\b/)
{
# kdenonbeta is being checked out, but the user has
# excluded unsermake.
set_option('kdenonbeta', 'checkout-only', "$checkouts unsermake");
set_option('kdenonbeta', '#suppress-auto-admin', 1);
}
}
}
}
# Subroutine to get the list of Subversion modules to update. Returned
# as a list. Parse the command-line arguments first.
sub get_update_list
{
return @ARGV unless $#ARGV == -1;
my @return_list;
for (@update_list)
{
push @return_list, $_ if not get_option($_, "manual-update");
}
return @return_list;
}
# Subroutine to get the list of Subversion modules to build. Returned
# as a list. A module will not be built if manual-build is set
# in the module's options. The command-line arguments should have been
# parsed first.
#
# This subroutine will handle the --resume and --resume-from options.
sub get_build_list
{
my $resume_point;
my $autoresuming;
# We check explicity for sticky options here since they can only be
# set from the command line.
if (get_option('global', '#manual-build'))
{
if (get_option('global', '#resume') || get_option('global',
'#resume-from'))
{
warning "I'm confused, you enabled y[--no-build] and y[--resume].";
warning "Skipping the build process.";
}
return ();
}
if (get_option ('global', '#resume'))
{
if (scalar @ARGV > 0)
{
warning "Ignoring modules specified on command line because y[--resume] was set.";
}
# Try to determine location of last existing status file.
my $status_fname = get_output_file('existing');
if (not $status_fname)
{
error "Unable to open status file from last run, can't resume!";
return ();
}
my ($line, $oldline);
open STATUS_FILE, "<$status_fname" or do {
error "Can't open $status_fname, so I can't resume!";
return ();
};
while ($line = <STATUS_FILE>)
{
$oldline = $line;
}
close STATUS_FILE;
if (not defined $oldline)
{
# Hmm, empty file?
error <<"EOF";
Unable to read information from resume status file.
It's probably empty, but there's no way to resume!
EOF
return ();
}
chomp $oldline;
debug "The last success line is $oldline";
($resume_point = $oldline) =~ s/^([^:]+):.*/$1/;
whisper "Resuming at $resume_point";
}
elsif (get_option ('global', '#resume-from'))
{
$resume_point = get_option ('global', '#resume-from');
$autoresuming = 1;
}
if ($resume_point)
{
my $resume_found = 0;
# Pop stuff off of the list until we hit the resume point.
while (scalar @build_list > 0 and not $resume_found)
{
$resume_found = 1 if $build_list[0] eq $resume_point;
# If we're doing an auto resume, pop off the last package read
# from the file. If we're doing resume from on the other hand,
# I'm assuming the user intends to start with building that
# package.
shift @build_list unless $resume_found and $autoresuming;
}
return @build_list;
}
return @ARGV unless $#ARGV == -1;
my @list;
for (@build_list)
{
push @list, $_ unless get_option($_, 'manual-update');
}
return @list;
}
# Used to sort module names. 'global' always starts first, modules with /
# sort last.
sub module_sort
{
# This is always true.
return 0 if $a eq $b;
# Look for global modules.
return -1 if $a eq 'global';
return 1 if $b eq 'global';
# If both have /, use a normal sort.
return $a cmp $b if $a =~ /\// and $b =~ /\//;
# If left has slash, it's < $b (and vice versa)
return 1 if $a =~ /\//;
return -1 if $b =~ /\//;
# Normal sort.
return $a cmp $b;
}
# Helper subroutine for debugging purposes. Dumps all of the
# options which have been read in to %global_opts and %package_opts.
sub dump_options
{
my ($item, $ref_item, $ref);
my @keys = sort module_sort keys %package_opts;
my $c; # $c is a color variable to be used with clr()
# Now dump the options for each module
foreach $item (@keys)
{
debug "\nOptions for module g[$item]:";
my $ref = $package_opts{$item};
foreach $ref_item (sort keys %{$package_opts{$item}})
{
# Put the first bracket in here, otherwise it breaks on some
# Perl systems.
$c = $ref_item =~ /^#/ ? 'r[' : 'g[';
if($ref_item !~ /^#?set-env$/)
{
next unless defined $$ref{$ref_item};
debug " ${c}$ref_item] is \"y[", $$ref{$ref_item}, clr ']"';
}
else
{
# Dump the environment variables that will be set.
my $setref = $$ref{$ref_item};
foreach my $envitem (keys %{$setref})
{
debug " Set env variable ${c}$envitem] to y[", $$setref{$envitem};
}
}
}
}
}
# Subroutine to unlink the given symlink if global-pretend isn't set.
sub safe_unlink
{
if (pretending)
{
pretend "\tWould have unlinked ", shift, ".";
return 1; # Return true
}
return unlink (shift);
}
# Subroutine to execute the system call on the given list if the pretend
# global option is not set.
sub safe_system(@)
{
if (not pretending)
{
info "\tExecuting g[", join(" ", @_);
return system (@_) >> 8;
}
pretend "\tWould have run g[", join(' ', @_);
return 0; # Return true
}
# Helper subroutine to create a directory, including any tqparent
# directories that may also need created.
# Returns 0 on failure, non-zero on success
sub super_mkdir
{
my $pathname = shift;
my $temp;
my @parts = split (/\//, $pathname);
if (pretending)
{
pretend "\tWould have created g[$pathname]";
return 1;
}
foreach (@parts)
{
$temp .= "$_/";
next if -e $temp;
return 0 if not mkdir ($temp);
}
return 1;
}
# Subroutine to remove a package from the package build list. This
# is for use when you've detected an error that should keep the
# package from building, but you don't want to abort completely.
sub dont_build
{
my $module = shift;
whisper "Not building $module";
# Weed out matches of the module name
@build_list = grep (!/^$module$/, @build_list);
push @{$fail_lists{'update'}}, $module;
}
# Subroutine to split a url into a protocol and host
sub split_url
{
my $url = shift;
my ($proto, $host) = ($url =~ m|([^:]*)://([^/]*)/|);
return ($proto, $host);
}
# This subroutine checks if we are supposed to use ssh agent by examining the
# environment, and if so checks if ssh-agent has a list of identities. If it
# doesn't, we run ssh-add (with no arguments) and inform the user. This can
# be controlled with the disable-agent-check parameter.
sub check_for_ssh_agent
{
my $agent_running = 0;
my $server = get_option('global', 'svn-server');
my ($proto, $host) = split_url($server);
# Don't bother with all this if the user isn't even using SSH.
return 1 if($proto !~ /ssh/) or get_option('global', 'disable-agent-check');
# We're using ssh to download, see if ssh-agent is running.
return 1 unless exists $ENV{'SSH_AGENT_PID'};
my $pid = $ENV{'SSH_AGENT_PID'};
# It's supposed to be running, let's see if there exists the program with
# that pid.
# PORTABILITY NOTE: I'm not sure if this works under *BSD or Solaris.
if (not -e "/proc/$pid")
{
warning "r[ *] SSH Agent is enabled, but y[doesn't seem to be running].";
warning "Since SSH is used to download from Subversion you may want to see why";
warning "SSH Agent is not working, or correct the environment variable settings.";
return 0;
}
# The agent is running, but does it have any keys? We can't be more specific
# with this check because we don't know what key is required.
my $keys = `ssh-add -l 2>/dev/null`;
if ($keys =~ /no identities/)
{
# Use print so user can't inadvertently keep us quiet about this.
print clr <<EOF;
b[y[*] SSH Agent does not appear to be managing any keys. This will lead to you
being prompted for every module update for your SSH passphrase. So, we're
running g[ssh-add] for you. Please type your passphrase at the prompt when
requested, (or simply Ctrl-C to abort the script).
EOF
my $result = system('ssh-add');
if ($result) # Run this code for both death-by-signal and nonzero return
{
print "\nUnable to add SSH identity, aborting.\n";
print "If you don't want kdesvn-build to check in the future,\n";
print clr "Set the g[disable-agent-check] option to g[true] in your $rcfile.\n\n";
return 0;
}
}
return 1;
}
# Subroutine to update a list of Subversion modules. The first
# parameter is a reference of a list of the modules to update.
# If the module has not already been checkout out, this subroutine
# will do so for you.
#
# Returns 0 on success, non-zero on error.
sub handle_updates
{
my $update_ref = shift;
my $kdesvn = get_kdesvn_dir();
my $svnroot = get_option ('global', 'svn-server');
my $result = 0;
my $module;
# No reason to print out the text if we're not doing anything.
return 0 if get_option ('global', 'no-svn');
return 0 if scalar @$update_ref == 0;
return 1 if (not check_for_ssh_agent());
note "<<< Updating Subversion Directories >>>";
info " "; # Add newline for aesthetics unless in quiet mode.
if (not -e $kdesvn)
{
whisper "KDE Subversion download directory doesn't exist, creating.\n";
if (not super_mkdir ($kdesvn))
{
error "Unable to make directory r[$kdesvn]!";
@build_list = (); # Clear out the build list, since we can't build.
$install_flag = 0; # Can't install either.
return 1;
}
}
foreach $module (@{$update_ref})
{
my $fullpath = get_fullpath($module, 'source');
if (not exists $package_opts{$module})
{
warning "Unknown module y[$module], configure it in $rcfile.";
# Continue in case the user just needs default options, hopefully
# it isn't a misspelling.
$package_opts{$module} = { 'set-env' => { } };
}
next if get_option($module, 'no-svn');
my @options = split(' ', get_option($module, 'checkout-only'));
if (-e "$fullpath/.svn")
{
# Warn user if the current repo URL is different than expected.
check_module_validity($module);
$result = update_module_path($module, @options);
}
else
{
$result = checkout_module_path($module, @options);
}
if ($result)
{
error "Error updating r[$module], removing from list of packages to build.";
dont_build ($module);
}
print "\n";
}
info "<<< Update Complete >>>\n";
return $result;
}
# Subroutine to run the qt-copy apply_patches script.
# Returns 0 on success, non-zero on failure.
sub safe_apply_patches
{
my %pathinfo = get_module_path_dir('qt-copy', 'build');
my $builddir = "$pathinfo{fullpath}";
if (pretending)
{
pretend "\tWould have run g[./apply_patches]";
return 0;
}
info "\tg[Applying recommended Qt patches].";
chdir ("$builddir");
return (log_command('qt-copy', 'apply-patches', [ "./apply_patches" ]));
}
# Subroutine to run and log the configure command. First parameter is the
# path to the configure script to run, the second parameter is a scalar
# containing all of the configure flags to apply
sub safe_configure
{
my $module = shift;
my $fullpath = get_fullpath($module, 'source');
my $script = "$fullpath/configure";
my @commands = split (/\s+/, get_option($module, 'configure-flags'));
# Get the user's CXXFLAGS
my $cxxflags = get_option ($module, 'cxxflags');
setenv ('CXXFLAGS', $cxxflags);
setenv ('DO_NOT_COMPILE', get_option ($module, 'do-not-compile'));
if ($module ne 'qt-copy')
{
my $kdedir = get_option ('global', 'kdedir');
my $prefix = get_option ($module, 'prefix');
$prefix = $kdedir unless $prefix;
push @commands, "CXXFLAGS=$cxxflags" if $cxxflags;
push @commands, "--prefix=$prefix";
# We're special casing these modules because we're using the lndir
# hack for them.
if (module_needs_builddir_help($module))
{
$script = get_fullpath($module, 'build') . "/configure";
}
}
else
{
my $qtdir = get_fullpath('qt-copy', 'build');
if(not pretending)
{
# Copy the configure script to accept the GPL license.
open CONFIG, "<$script";
open NEWCONFIG, ">$qtdir/configure.new";
while(<CONFIG>)
{
s/read acceptance/acceptance=yes/;
print NEWCONFIG $_;
}
close NEWCONFIG;
close CONFIG;
chmod 0755, "$qtdir/configure.new";
}
$script = "$qtdir/configure.new";
note "\tb[r[GPL license selected for Qt]. See $fullpath/LICENSE.GPL";
}
info "\tRunning g[configure]...";
unshift @commands, $script;
return log_command($module, "configure", \@commands);
}
# Subroutine to try and see if we've already tried to update kde-common
sub has_updated_kdecommon
{
# Test fast case first.
return 1 if get_option('global', '#has-checked-for-admin');
# Double check that it wasn't in the update list.
if (grep(/^(KDE\/)?kde-common$/, @update_list))
{
set_option('global', '#has-checked-for-admin', 1);
return 1;
}
return 0;
}
# Subroutine to automatically create an admir dir for a module if it doesn't
# have one. The first parameter is the module name. It is assumed that we
# are already in the source directory, the current directory will not be
# changed.
#
# Returns boolean true on success, boolean false on failure.
#
# NOTE: This subroutine might try to call an svn update, as long as #no-svn
# isn't set.
sub create_admin_dir
{
my $module = shift;
my $fullpath = get_fullpath($module, 'source');
# Don't bother if it's qt-copy, or if we've already got an admin
# directory.
return 1 if $module eq 'qt-copy';
return 1 if -e "$fullpath/admin";
# Find kde-common
my $admindir = get_fullpath('kde-common', 'source') . '/admin';
if (not -e $admindir)
{
$admindir = get_fullpath('KDE/kde-common', 'source') . '/admin';
}
if (not -e $admindir)
{
# Can't find kde-common, it's aptqparently not installed.
if (not has_updated_kdecommon())
{
# We haven't tried downloading it, now would be a good time.
note "Can't find y[kde-common], going to try downloading it.";
if (get_option('global', 'no-svn'))
{
# Not allowed to update.
error "r[!!] Updating has been blocked, can't get y[kde-common].";
return 0;
}
# Checkout the directory.
$admindir = get_fullpath('kde-common', 'source') . '/admin';
if (pretending)
{
pretend "Would have checked out g[kde-common]\n";
}
elsif (checkout_module_path('kde-common', 'admin') != 0)
{
return 0;
}
}
}
chdir ($fullpath);
whisper "\tCreating symbolic link to g[/admin directory].";
return symlink $admindir, "$fullpath/admin";
}
# Subroutine to recursively symlink a directory into another location, in a
# similar fashion to how the XFree/X.org lndir() program does it. This is
# reimplemented here since some systems lndir doesn't seem to work right.
#
# As a special exception to the GNU GPL, you may use and redistribute this
# function however you would like (i.e. consider it public domain).
#
# The first parameter is the directory to symlink from.
# The second parameter is the destination directory name.
#
# e.g. if you have $from/foo and $from/bar, lndir would create $to/foo and
# $to/bar.
#
# All intervening directories will be created as needed. In addition, you
# may safely run this function again if you only want to catch additional files
# in the source directory.
#
# Note that this function will unconditionally output the files/directories
# created, as it is meant to be a close match to lndir.
#
# RETURN VALUE: Boolean true (non-zero) if successful, Boolean false (0, "")
# if unsuccessful.
sub safe_lndir
{
my ($from, $to) = @_;
# Create destination directory.
if (not -e $to)
{
print "$to\n";
mkdir ($to) unless pretending;
}
# Create closure callback subroutine.
my $wanted = sub {
my $dir = $File::Find::dir;
my $file = $File::Find::fullname;
$dir =~ s/$from/$to/;
# Ignore the .svn directory and files.
return if $dir =~ m,/\.svn,;
# Create the directory.
if (not -e $dir)
{
print "$dir\n";
if (not pretending)
{
mkdir ($dir) or die "Couldn't create directory $dir: $!";
}
}
# Symlink the file. Check if it's a regular file because File::Find
# has no qualms about telling you you have a file called "foo/bar"
# before pointing out that it was really a directory.
if (-f $file and not -e "$dir/$_")
{
print "$dir/$_\n";
if (not pretending)
{
symlink $File::Find::fullname, "$dir/$_" or
die "Couldn't create file $dir/$_: $!";
}
}
};
# Recursively descend from source dir using File::Find
eval {
tqfind ({ 'wanted' => $wanted,
'follow_fast' => 1,
'follow_skip' => 2},
$from);
};
if ($@)
{
$! = 0; # sub error will use $! to display error message.
error "Unable to symlink $from to $to: $@";
return 0;
}
return 1;
}
# Subroutine to link a source directory into an alternate directory in order
# to fake srcdir != builddir for modules that don't natively support it.
# The first parameter is the module to prepare.
#
# The return value is true (non-zero) if it succeeded, and 0 (false) if it
# failed.
#
# On return from the subroutine the current directory will be in the build
# directory, since that's the only directory you should touch from then on.
#
# You may safely call this subroutine for modules that don't need it, they
# will automatically be ignored.
sub prepare_fake_builddir
{
my $module = shift;
my $builddir = get_fullpath($module, 'build');
my $srcdir = get_fullpath($module, 'source');
# List reference, not a real list. The initial kdesvn-build does *NOT*
# fork another kdesvn-build using exec, see sub log_command() for more
# info.
my $args = [ 'kdesvn-build', 'safe_lndir', $srcdir, $builddir ];
# Skip modules that don't need special treatment.
return 1 unless module_needs_builddir_help($module);
# Backwards compatibility hack.
# kdesvn-build 0.97 and earlier would physically copy the Qt source
# directory to the build directory. kdesvn-build versions after that use
# the lndir program that is used for kdebindings and valgrind for
# portability reasons. This will break for users who have a real copy of
# Qt, so check here if the qt-copy configure script file is a real file
# (not a symlink), and if so, use the old method (since presumably it
# worked earlier).
if ($module eq 'qt-copy' and -e "$builddir/configure" and not -l "$builddir/configure")
{
whisper "Using deprecated qt-copy builddir faking method.";
# Use old method of copying.
$args = [ 'cp', '-af', $srcdir, $builddir ];
}
# Use an internal routine to complete the directory symlinking (or the
# alternate routine in the case of old qt-copy).
if (log_command ($module, 'create-builddir', $args))
{
warning "\tUnable to setup special build system for r[$module].";
return 0;
}
return 1; # Success
}
# Subroutine to create the build system for a module. This involves making
# sure the directory exists and then running make -f Makefile.cvs. This
# subroutine assumes that the module is already downloaded.
sub safe_create_build_system
{
my $module = shift;
my $fullpath = get_fullpath($module, 'source');
my $builddir = get_fullpath($module, 'build');
my $instapps = get_option($module, 'inst-apps');
if (pretending)
{
pretend "\tWould have created g[$module]\'s build system.";
return 0;
}
chdir ($fullpath); # Run make -f Makefile.cvs in srcdir.
# These modules will run make -f Makefile.cvs in (fake) builddir to keep
# srcdir clean. Except for qt-copy when not using qt-builddir-hack.
if(module_needs_builddir_help($module))
{
chdir ($builddir);
}
return 0 if $module eq 'qt-copy'; # since 3.3.6
if ($instapps)
{
open (INSTAPPS, ">inst-apps") or do {
error "\tUnable to create inst-apps file for r[$module]!";
return 1;
};
print INSTAPPS "$instapps\n";
close INSTAPPS;
}
else
{
unlink ("$fullpath/inst-apps");
}
my $cmd_ref = [ 'make', '-f', 'Makefile.cvs' ];
$cmd_ref = [ './autogen.sh' ] if $module eq 'valgrind';
if (log_command ($module, "build-system", $cmd_ref))
{
error "\tUnable to create build system for r[$module]";
return 1;
}
return 0;
}
# Subroutine to determine if a given module needs to have the build system
# recreated from scratch.
# If so, it returns boolean true.
sub needs_refreshed
{
my $module = shift;
my $builddir = get_fullpath($module, 'build');
my $conf_file_key = "Makefile"; # File that exists after configure is run
# Use a different file to indicate configure has been run for qt-copy
$conf_file_key = "src/tools/qconfig.cpp" if $module eq 'qt-copy';
if (debugging)
{
debug "Build directory not setup for $module." if not -e "$builddir";
debug ".refresh-me exists for $module." if -e "$builddir/.refresh-me";
debug "refresh-build option set for $module." if get_option($module, 'refresh-build');
debug "Can't find configure key file for $module." if not -e "$builddir/$conf_file_key";
}
return 1 if ((not -e "$builddir") ||
(-e "$builddir/.refresh-me") ||
get_option($module, "refresh-build") ||
(not -e "$builddir/$conf_file_key"));
return 0;
}
# Run the svn command. This is a special subroutine so that we can munge the
# generated output to see what files have been added, and adjust the build
# according.
# First parameter is the module we're building.
# Second parameter is the filename to use for the log file.
# Third parameter is a reference to a list, which is the command ('svn') and all
# of its arguments.
sub run_svn
{
my ($module, $logfilename, $arg_ref) = @_;
my %hash_count;
my $result;
my $force_refresh = 0;
my $conflict = 0;
my $logdir = get_log_dir($module);
my $revision = get_option('global', 'revision');
if ($revision ne '0')
{
my @tmp = @{$arg_ref};
# Insert after first two entries, deleting 0 entries from the
# list.
splice @tmp, 2, 0, '-r', $revision;
$arg_ref = \@tmp;
}
# Do svn update.
$result = log_command($module, $logfilename, $arg_ref);
# There will be no result if we're pretending, so don't even
# bother.
return 0 if pretending;
$logfilename = "$logdir/$logfilename.log";
# We need to open the file and try to determine what the Subversion process
# did.
open SVN_LOG, "<$logfilename";
while (<SVN_LOG>)
{
# The check for capitalized letters in the second column is because
# svn can use the first six columns for updates (the characters will
# all be uppercase), which makes it hard to tell apart from normal
# sentences (like "At Revision foo"
# Count updates and patches together.
$hash_count{'updated'}++ if /^U[ A-Z]/;
$hash_count{'updated'}++ if /^P[ A-Z]/;
$hash_count{'deleted'}++ if /^D[ A-Z]/;
$hash_count{'added'}++ if /^A[ A-Z]/;
$hash_count{'removed'}++ if /^R[ A-Z]/;
$hash_count{'merged'}++ if /^G[ A-Z]/;
$hash_count{'modified'}++ if /^M[ A-Z]/;
$hash_count{'conflicted'}++ if /^C[ A-Z]/;
# Check if we need to force a refresh.
$force_refresh = 1 if /^A[ A-Z]/ and /Makefile\.am/;
$force_refresh = 1 if /^[PAMGU][ A-Z]/ and /configure\.in\.in/;
$conflict = 1 if /^C[ A-Z]/;
}
close SVN_LOG;
my %endings = (
'updated' => 'files were updated',
'1updated' => 'file was updated',
'added' => 'files were added',
'1added' => 'file was added',
'removed' => 'files were removed',
'1removed' => 'file was removed',
'modified' => 'files were modified',
'1modified' => 'file was modified',
'conflicted' => 'files had conflicts',
'1conflicted' => 'file had conflicts',
'deleted' => 'files were deleted',
'1deleted' => 'file was deleted',
'merged' => 'files had changes merged',
'1merged' => 'file had changes merged',
);
my ($key, $value);
while (($key, $value) = each %hash_count)
{
next unless $value > 0;
my $ending_key = $value > 1 ? $key : ('1' . $key);
my $ending = $endings{$ending_key};
info "\t$value $ending.";
}
if ($conflict)
{
warning "Source code conflict exists in r[$module], this module will not";
warning "build until it is resolved.";
dont_build($module);
return $result;
}
if ($force_refresh and -e get_fullpath($module, 'build'))
{
info "File(s) related to the build system were updated, forcing a refresh.";
set_option($module, 'refresh-build', 1);
set_option($module, '#cancel-clean', 1);
}
return $result;
}
# Subroutine to clean the build system for the given module. Works by
# recursively deleting the directory and then recreating it. Returns
# 0 for failure, non-zero for success.
sub clean_build_system
{
my $module = shift;
my $moduledir = get_fullpath($module, 'source');
my $builddir = get_fullpath($module, 'build');
if (pretending)
{
pretend "\tWould have cleaned build system for g[$module]";
return 1;
}
if (not -e $moduledir)
{
warning "\tUnable to clean build system for r[$module], it's not been checked out!";
return 0;
}
# Clean qt-copy separately
if ($module eq 'qt-copy' and not get_option('qt-copy', 'use-qt-builddir-hack'))
{
chdir ("$builddir");
if (log_command ('qt-copy', 'clean', ['make', 'clean']))
{
warning "\tr[WARNING]: Error cleaning r[qt-copy].";
}
unlink ("$builddir/.qmake.cache");
return 1;
}
if (-e "$builddir")
{
if(safe_system ('rm', '-rf', "$builddir"))
{
# Remove build directory for normal module.
error "\tUnable to clean r[$builddir].";
return 0; # False for this function.
}
# Let users know we're done so they don't wonder why rm -rf is taking so
# long and oh yeah, why'd my HD so active?...
info "\tOld build system cleaned, starting new build system.";
}
# Now create the directory
if (not super_mkdir ("$builddir"))
{
error "\tUnable to create directory r[$builddir].";
return 0;
}
return 1;
}
# Subroutine to setup the build system in a directory. The first parameter
# is the module name. Returns boolean true on success, boolean false (0)
# on failure.
sub setup_build_system
{
my $module = shift;
my $fullpath = get_fullpath($module, 'source');
my $builddir = get_fullpath($module, 'build');
my $do_configure = get_option ($module, 'reconfigure');
my $do_makeconf = get_option ($module, 'recreate-configure');
if (needs_refreshed($module))
{
# The build system needs created, either because it doesn't exist, or
# because the user has asked that it be completely rebuilt.
info "\tPreparing build system for y[$module].";
# Define this option to tell later functions that we tried to rebuild
# this module.
set_option($module, '#was-rebuilt', 1);
# Check to see if we're actually supposed to go through the cleaning
# process.
if (not get_option($module, '#cancel-clean') and
not clean_build_system($module))
{
warning "\tUnable to clean r[$module]!";
return 0;
}
$do_makeconf = 1;
}
# Symlink source directory to build directory if module doesn't support
# srcdir != builddir. If it's qt-copy only do so if use-qt-builddir-hack
# is on (true by default). Note that module_needs_builddir_help() already
# takes care of that test.
if (module_needs_builddir_help($module))
{
whisper "\tFaking builddir for g[$module]";
if (not prepare_fake_builddir($module))
{
error "Error creating r[$module] build system!";
return 0;
}
}
# Check for admin dir, if it doesn't exist, create a softlink
if (not create_admin_dir($module))
{
warning "Unable to tqfind /admin directory for y[$module], it probably";
warning "won't build.";
# But continue anyways, because in this case I'm just not sure that it
# won't work in the future. ;)
}
my $confpath = module_needs_builddir_help($module) ? $builddir : $fullpath;
if ($do_makeconf or not -e "$confpath/configure")
{
whisper "\ty[Recreating configure script].";
# Update the PATH and other important environment variables.
update_module_environment ($module);
if (safe_create_build_system ($module))
{
error "\tUnable to create configure system from checkout.";
return 0;
}
$do_configure = 1;
if ($module eq "qt-copy" and get_option($module, 'apply-qt-patches'))
{
# Run apply-patches script
return 0 if safe_apply_patches ();
}
# Check to see if we're supposed to stop here
return 1 if get_option ($module, 'build-system-only');
}
# File which exists after configure has been run.
my $conf_key_file = "$builddir/Makefile";
$conf_key_file = "$builddir/src/tools/qconfig.cpp" if $module eq 'qt-copy';
if ($do_configure or not -e $conf_key_file)
{
if (not -e "$builddir" and not super_mkdir("$builddir"))
{
error "\tUnable to create build directory for r[$module]!!";
return 0;
}
# Now we're in the checkout directory
# So, switch to the build dir.
# builddir is automatically set to the right value for qt-copy
chdir ("$builddir");
# configure the module (sh script return value semantics)
if (safe_configure ($module))
{
error "\tUnable to configure r[$module]!";
return 0;
}
}
return 1;
}
# Subroutine to setup the environment for a module. First parameter is the name of
# the module to set the environment for
sub update_module_environment
{
my $module = shift;
my $kdedir = get_option ($module, 'kdedir');
my $qtdir = get_option ($module, 'qtdir');
my $path = join(':', "$qtdir/bin", "$kdedir/bin", get_option ($module, 'binpath'));
my $libdir = join(':', "$qtdir/lib", "$kdedir/lib", get_option ($module, 'libpath'));
# Set up the tqchildren's environment. We use setenv since it
# won't set an environment variable to nothing. (e.g, setting
# QTDIR to a blank string might confuse Qt or KDE.
# Remove leading and trailing colons, just in case.
# Also remove more than one colon.
for ($path, $libdir)
{
s/:+/:/;
s/^:*//;
s/:*$//;
}
# Everyone loves unsermake. It's a pity that not every module will compile with it.
# Benjamin Meyer has an excellent article about speeding up distributed builds using
# unsermake. You should notice a much faster build using distcc, and
# a slightly faster build even with only one CPU.
if (get_option ($module, "use-unsermake"))
{
my $kdenonbeta = get_fullpath('kdenonbeta', 'source');
$path = "$kdenonbeta/unsermake:$path";
}
else
{
setenv ("UNSERMAKE", "no");
}
setenv ('LD_LIBRARY_PATH', $libdir);
setenv ('PATH', $path);
setenv ('KDEDIR', $kdedir);
setenv ('QTDIR', $qtdir);
# Qt has several defines of its own. Special case qt-copy for this
# reason.
setenv ("YACC", 'byacc -d') if ($module eq "qt-copy");
# Read in user environment defines
setup_module_environment ($module);
}
# Subroutine to make sure the build directory for a module is setup.
# The module to setup is the first parameter.
#
# Returns boolean true on success, boolean false on failure.
sub setup_build_directory
{
my $module = shift;
my $builddir = get_build_dir($module);
if (not -e "$builddir")
{
whisper "\ty[$builddir] doesn't exist, creating.";
if (not super_mkdir ("$builddir"))
{
error "\tUnable to create r[$builddir]!";
return 0;
}
}
return 1;
}
# Subroutine to return a string suitable for displaying an elapsed time, (like
# a stopwatch) would. The first parameter is the number of seconds elapsed.
sub prettify_seconds
{
my $elapsed = $_[0];
my $str = "";
my ($days,$hours,$minutes,$seconds,$fraction);
$fraction = int (100 * ($elapsed - int $elapsed));
$elapsed = int $elapsed;
$seconds = $elapsed % 60;
$elapsed = int $elapsed / 60;
$minutes = $elapsed % 60;
$elapsed = int $elapsed / 60;
$hours = $elapsed % 24;
$elapsed = int $elapsed / 24;
$days = $elapsed;
$seconds = "$seconds.$fraction" if $fraction;
my @str_list;
for (qw(days hours minutes seconds))
{
# Use a symbolic reference without needing to disable strict refs.
# I couldn't disable it even if I wanted to because these variables
# aren't global or localized global variables.
my $value = eval "return \$$_;";
my $text = $_;
$text =~ s/s$// if $value == 1; # Make singular
push @str_list, "$value $text" if $value or $_ eq 'seconds';
}
# Add 'and ' in front of last element if there was more than one.
push @str_list, ("and " . pop @str_list) if (scalar @str_list > 1);
$str = join (", ", @str_list);
return $str;
}
# Subroutine to determine if a given module can run make apidox. Returns
# boolean true if make apidox can be run.
sub make_apidox_supported
{
my $module = shift;
return $module =~ /^(KDE\/)?(kde(base|games|graphics|libs|pim|velop)|koffice)$/;
}
# Subroutine to build a given module. The module to build is the first
# parameter. The second and third paramaters is the ordinal number of the
# module being built (1 == first module, 2 == second, etc.), and the total
# number of modules being built respectively.
#
# Returns boolean false on failure, boolean true on success.
sub build_module
{
my $module = shift;
my $cur_module_num = shift;
my $total_module_num = shift;
my $apidox = shift;
my $builddir = get_fullpath($module, 'build');
my $trynumber = 1;
# Do some tests to make sure we're ready to build.
if (not exists $package_opts{$module})
{
warning "Unknown module y[$module], configure it in $rcfile.";
$package_opts{$module} = { 'set-env' => { } };
}
update_module_environment($module);
if($module eq 'qt-copy' and $builddir ne get_option('global', 'qtdir'))
{
my $qtpath = $builddir;
$qtpath =~ s/$ENV{HOME}/~/;
warning <<EOF;
b[y[!!] You're building qt-copy, but QTDIR isn't set to use qt-copy!
b[y[!!] Please set your qtdir variable in the global section of your
b[y[!!] $rcfile to g[$qtpath]
EOF
}
my $start_time = time;
while (not defined $package_opts{$module}->{'#was-rebuilt'})
{
note "Building g[$module] ($cur_module_num/$total_module_num)";
return 0 if not setup_build_directory($module);
return 0 if not setup_build_system($module);
return 1 if (get_option ($module, 'build-system-only'));
if (safe_make ($module, $trynumber))
{
# Build failed
# There are several reasons why the build could fail. If we're
# using unsermake for this module, then perhaps we just need to
# run make again. After that, we can re-run make -f Makefile.cvs
# and etc and then try make again. If that STILL doesn't work, we
# can try rm -rf $builddir/$module and rebuild.
my $elapsed = prettify_seconds (time - $start_time);
my $was_rebuilt = defined $package_opts{$module}{'#was-rebuilt'};
$start_time = time;
++$trynumber;
if ($trynumber > 3 or $was_rebuilt or get_option ($module, 'no-rebuild-on-fail'))
{
# Well we tried, but it isn't going to happen.
note "\n\tUnable to build y[$module]!";
info "\tTook g[$elapsed].";
return 0;
}
if ($trynumber == 2)
{
# Just try again
info "\n\ty[Couldn't build, going to try again just in case].";
info "\tTook g[$elapsed].";
next;
}
# Don't remove the old modules, but re-run make -f
# Makefile.cvs and configure.
info "\n\tStill couldn't build, recreating build system (builddir is safe).";
info "\tTook g[$elapsed] of time.";
set_option($module, '#cancel-clean', 1);
set_option($module, 'refresh-build', 1);
# Loop again
}
else
{
# Build succeeded, build docs if necessary
my $apidox_result = 0;
my $build_apidox = make_apidox_supported($module) && get_option($module, 'apidox');
if ($build_apidox)
{
$apidox_result = safe_make ($module, $trynumber, 1);
error "\tCouldn't build API Documentation" if $apidox_result;
}
my $elapsed = prettify_seconds (time - $start_time);
my $do_install = get_option($module, 'install-after-build');
info "\tBuild done after g[$elapsed].";
if ($do_install)
{
handle_install($module, 0);
handle_install($module, 1) if $build_apidox and $apidox_result == 0;
}
else
{
info "\tSkipping install for y[$module]";
}
last; # Don't forget to exit the loop!
}
}
return 1;
}
# Subroutine to handle the build process.
# First parameter is a reference of a list containing the packages
# we are to build.
# If the packages are not already checked-out and/or updated, this
# subroutine WILL NOT do so for you.
#
# This subroutine assumes that the $kdesvn directory has already been
# set up. It will create $builddir if it doesn't already exist.
#
# If $builddir/$module/.refresh-me exists, the subroutine will
# completely rebuild the module.
#
# Returns 0 for success, non-zero for failure.
sub handle_build
{
my @build_done;
my $build_ref = shift;
my $kdesvn = get_kdesvn_dir();
my $svnroot = get_option ('global', 'svn-server');
my $module;
my @modules = grep (!/^(KDE\/)?kde-common$/, @{$build_ref});
my $result;
my $outfile = get_output_file ();
# No reason to print building messages if we're not building.
return 0 if scalar @modules == 0;
note "<<< Build Process >>>";
# Save the environment to keep module's env changes from affecting other
# modules.
my %env_backup = %ENV;
if (pretending)
{
pretend "\tWould have opened status file g[$outfile].";
$outfile = undef; # Don't actually try it though.
}
if ($outfile)
{
open STATUS_FILE, ">$outfile" or do {
error <<EOF;
Unable to open output status file r[b[$outfile]
You won't be able to use the g[--resume] switch next run.\n";
EOF
$outfile = undef;
};
}
my $num_modules = scalar @modules;
my $i = 1;
while ($module = shift @modules)
{
my $start_time = time;
if (build_module ($module, $i, $num_modules))
{
my $elapsed = prettify_seconds(time - $start_time);
print STATUS_FILE "$module: Succeeded after $elapsed.\n" if $outfile;
info "\tOverall time for g[$module] was g[$elapsed].";
push @build_done, $module;
}
else
{
my $elapsed = prettify_seconds(time - $start_time);
print STATUS_FILE "$module: Failed after $elapsed.\n" if $outfile;
info "\tOverall time for r[$module] was g[$elapsed].";
push @{$fail_lists{'build'}}, $module;
if (get_option($module, 'stop-on-failure'))
{
note "\n$module didn't build, stopping here.";
return 1; # Error
}
}
print "\n";
%ENV = %env_backup;
$i++;
}
# If we have packages that failed to update we should probably mention them
# in the build-status file as well.
if ($outfile)
{
for my $failure (@{$fail_lists{'update'}})
{
print STATUS_FILE "$failure: Failed on update.\n";
}
close STATUS_FILE;
}
info "<<< Build Done >>>\n";
info "\n<<< g[PACKAGES SUCCESSFULLY BUILT] >>>" if scalar @build_done > 0;
if (not pretending)
{
# Print out results, and output to a file
open BUILT_LIST, ">$kdesvn/successfully-built";
foreach $module (@build_done)
{
info "$module";
print BUILT_LIST "$module\n";
}
close BUILT_LIST;
}
else
{
# Just print out the results
info 'g[', join ("]\ng[", @build_done), ']';
}
info " "; # Add newline for aesthetics if not in quiet mode.
return scalar @{$fail_lists{'build'}};
}
# Subroutine to exit the script cleanly, including removing any
# lock files created. If a parameter is passed, it is interpreted
# as an exit code to use
sub finish
{
my $exitcode = shift;
my $logdir = get_log_dir('global');
$exitcode = 0 unless $exitcode;
close_lock() unless pretending;
note "Your logs are saved in y[$logdir]";
exit $exitcode;
}
# Subroutine to determine the current repository URL for the current working
# directory.
sub get_repo_url
{
my $output = `svn info | grep URL`;
$output =~ s/URL: (.*)$/$1/;
chomp $output;
return $output;
}
# Subroutine to determine whether or not the given module has the correct
# URL. If not, a warning is printed out.
# First parameter: module to check.
# Return: Nothing.
sub check_module_validity
{
# This test reads the HD so don't bother during pretend.
return if pretending;
my $module = shift;
my $source_dir = get_fullpath($module, 'source');
my $module_expected_url = svn_module_url($module);
chdir($source_dir); # Required for get_repo_url
my $module_actual_url = get_repo_url();
if($module_actual_url ne $module_expected_url)
{
warning <<EOF;
y[!!]
y[!!] g[$module] seems to be checked out from somewhere other than expected.
y[!!]
kdesvn-build expects: y[$module_expected_url]
The module is actually from: y[$module_actual_url]
If the module location is incorrect, you can fix it by either deleting the
g[b[source] directory, or by changing to the source directory and running
svn switch $module_expected_url
If the module is fine, please update your configuration file.
EOF
}
}
# Subroutine to handle the installation process. Simply calls
# 'make install' in the directory.
sub handle_install
{
my $apidox = pop; # Take parameter off end of list (@_).
my @no_install_modules = qw/qt-copy kde-common/;
my $result = 0;
for my $module (@_)
{
if (list_has(@no_install_modules, $module))
{
info "\tg[$module] doesn't need to be installed.";
next;
}
my $builddir = get_fullpath($module, 'build');
if (not exists $package_opts{$module})
{
warning "\tUnknown module y[$module], configure it in $rcfile.";
$package_opts{$module} = { 'set-env' => { } };
next;
}
if (not -e "$builddir/Makefile")
{
warning "\tThe build system doesn't exist for r[$module].";
warning "\tTherefore, we can't install it. y[:-(].";
next;
}
# Just in case, I guess.
update_module_environment ($module);
# The /admin directory is needed for install as well, make sure it's
# there.
if (not create_admin_dir($module))
{
warning "Unable to tqfind /admin directory for y[$module], it probably";
warning "won't install.";
# But continue anyways, because in this case I'm just not sure that it
# won't work in the future. ;)
}
# safe_make() evilly uses the "install" parameter to use installation
# mode instead of compile mode. This is so we can get the subdirectory
# handling for free.
if (safe_make ($module, "install", $apidox))
{
error "\tUnable to install r[$module]!";
$result = 1;
push @{$fail_lists{'install'}}, $module;
if (get_option($module, 'stop-on-failure'))
{
note "y[Stopping here].";
return 1; # Error
}
}
if (pretending)
{
pretend "\tWould have installed g[$module]";
next;
}
next if $result != 0; # Don't delete anything if the build failed.
my $remove_setting = get_option($module, 'remove-after-install');
# Possibly remove the srcdir and builddir after install for users with
# a little bit of HD space.
if($remove_setting eq 'all')
{
# Remove srcdir
my $srcdir = get_fullpath($module, 'source');
note "\tRemoving b[r[$module source].";
system ('rm', '-rf', $srcdir);
}
if($remove_setting eq 'builddir' or $remove_setting eq 'all')
{
# Remove builddir
note "\tRemoving b[r[$module build directory].";
system ('rm', '-rf', $builddir);
}
}
return $result;
}
# This subroutine goes and makes sure that any entries in the update and build
# lists that have a directory separator are faked into using the checkout-only
# feature. This doesn't really work for install mode though.
sub munge_lists
{
debug "Munging update and build list";
my $cleared = 0;
for my $list_ref ( ( \@update_list, \@build_list) ) {
my @temp;
while ($_ = shift @$list_ref) {
# Split at directory separators.
my ($modulename, @dirs) = split(/\//);
# For these modules, the first part of the directory separator
# actually belongs with the module name.
if (has_base_module($modulename))
{
$modulename .= "/" . shift @dirs;
}
if (scalar @dirs > 0)
{
# Only build the specified subdirs
if (not $cleared)
{
debug "Clearing checkout-only option.";
$cleared = 1;
set_option($modulename, 'checkout-only', '');
}
# The user has included a directory separator in the module name, so
# let's fake the svn partial checkout
$_ = $modulename;
# Don't automatically add the /admin dir for this module now.
set_option($_, '#suppress-auto-admin', 1);
my $checkout_str = join ("/", @dirs);
debug "Adding $checkout_str to checkout-only for $_";
if (get_option($_, 'checkout-only') !~ /$checkout_str/)
{
$package_opts{$_}{'checkout-only'} .= " $checkout_str";
}
else
{
debug print "\tOption was already present.";
}
}
else
{
debug "Skipping $_ in munge process.";
}
# Don't add the modulename to the list twice.
push @temp, $_ if not list_has(@temp, $_);
}
@$list_ref = @temp;
}
}
# Subroutine to try an intelligently determine what caused the module to fail
# to build/update/whatever. The first parameter is the name of the module,
# and the return value is the best guess at the error. If no error is detected
# the last 30 lines of the file are returned instead.
sub whats_the_module_error
{
my $module = shift;
my $file = get_option($module, '#error-log-file');
open ERRORFILE, "<$file" or return "Can't open logfile $file.\n";
my @lastlines; # Used to buffer last lines read.
my @errors; # Tracks errors and the file they were found in.
my $lastfile = ''; # Tracks last filename read in error log.
my $errorCount = 0;
my $output;
# TODO: This code is tested for gcc and GNU ld, as, etc, I'm not sure how
# effective it is at parsing the error output of other build toolchains.
while (<ERRORFILE>)
{
# Keep last 30 lines.
push @lastlines, $_;
shift @lastlines if scalar @lastlines > 30;
my ($file, $line, $msg) = /^([^:]*):(\d+):\s*(.*)$/;
next unless ($file and $line and $msg);
next if $msg =~ /warn/i;
next if $msg =~ /^in file included from/i;
next if $msg =~ /^\s*$/ or $file =~ /^\s*$/;
$msg =~ s/^error: ?//i;
if ($file eq $lastfile)
{
$errorCount++;
push @errors, $msg if $errorCount < 5;
}
else
{
# Check is because we print info on the last file read, so there
# should be a last file. ;)
if ($lastfile)
{
my $error = $errorCount == 1 ? "error" : "errors";
$output .= "$errorCount $error in $lastfile\n";
$output .= "Error: $_\n" foreach (@errors);
$output .= "\t<clipped>\n" if $errorCount > 5;
$output .= "\n";
}
$errorCount = 1;
@errors = ($msg);
}
$lastfile = $file;
}
close ERRORFILE;
if (not $lastfile)
{
# Print out last lines read, hopefully a more descriptive error
# message is in there.
$output .= "Can't find errors, last " . scalar @lastlines . " line(s) of the output are:\n";
$output .= $_ foreach (@lastlines);
return $output;
}
# Don't forget to display info on last file read since it won't be done in
# the loop.
my $error = $errorCount == 1 ? "error" : "errors";
$output .= "$errorCount $error in $lastfile\n";
$output .= "Error: $_\n" foreach (@errors);
$output .= "\t<clipped>\n" if $errorCount > 5;
return $output;
}
# Subroutine to get the e-mail address to send e-mail from.
# It is pulled from the global email-address option by default.
# The first parameter is a default e-mail address to use (may be left off, in
# which case this function will create a default of its own if necessary.)
sub get_email_address
{
my $email = get_option('global', 'email-address');
my $default = shift;
# Use user's value if set.
return $email if $email;
# Let's use the provided default if set.
return $default if $default;
# Let's make a default of our own. It's likely to suck, so oh well.
use Sys::Hostname;
my $username = getpwuid($>);
my $hostname = hostname; # From Sys::Hostname
debug "User has no email address, using $username\@$hostname";
return "$username\@$hostname";
}
# Subroutine to look through the various failed lists, and send an email to the
# given email address with a description of the failures. If the user has
# selected no email address the subroutine does nothing.
sub email_error_report
{
my $email_addy = get_option('global', 'email-on-compile-error');
my $from_addy = get_email_address($email_addy);
return unless $email_addy;
# Initial e-mail header.
my $email_body = <<EOF;
The following errors were detected in the kdesvn-build run just completed.
EOF
# Loop through modules trying to find out what caused the errors.
my $had_error = 0;
for my $type (@fail_display_order)
{
for my $module (@{$fail_lists{$type}})
{
$email_body .= "$module failed to $type:\n";
$email_body .= "-------------------------------\n\n";
$email_body .= whats_the_module_error($module);
$email_body .= "-------------------------------\n\n";
$had_error = 1;
}
}
return unless $had_error;
# Detect Mail::Mailer.
my $mailer;
eval {
require Mail::Mailer;
$mailer = new Mail::Mailer;
} or do {
error " y[*] Can't open y[b[Mail::Mailer] module, so e-mailing is disabled.";
debug "Error was $@";
return;
};
# Sendeth the email.
$mailer->open({
'From' => $from_addy,
'To' => $email_addy,
'Subject' => 'KDE Subversion build compile error',
});
print $mailer $email_body;
$mailer->close;
}
# This subroutine sets up or removes the default branch option for a few
# modules in order to build KDE 3.5 by default. branch options in the
# configuration file will still override these settings.
sub setup_kde35_hack
{
my @branched_modules = qw/kde-common kdeaccessibility kdeaddons kdeadmin
kdeartwork kdebase kdebindings kdeedu kdegames kdegraphics kdelibs
kdemultimedia kdenetwork kdepim kdesdk kdetoys kdeutils kdevelop
kdewebdev/;
# arts uses a different versioning scheme.
set_option('arts', 'branch', '1.5');
# koffice 1.5 is the last KDE 3 compatible release.
set_option('koffice', 'branch', '1.5');
# qt-copy is in branches/qt/3.3. Due to the default option handling the
# handling is done in setup_default_modules().
# set_option('qt-copy', 'module-base-path', 'branches/qt/3.3');
for my $module (@branched_modules)
{
# Default to downloading from KDE 3.5 instead of KDE 4.
set_option($module, 'branch', '3.5');
}
}
# Script starts.
# Use some exception handling to avoid ucky error messages
eval
{
# Note to self: Quit changing the order around.
process_arguments(); # Process --help, --install, etc. first.
setup_kde35_hack(); # Add 'branch' options as appropriate.
read_options(); # If we're still here, read the options
initialize_environment(); # Initialize global env vars.
setup_logging_subsystem(); # Setup logging directories.
dump_options() if debugging;
};
if ($@)
{
# We encountered an error.
print "Encountered an error in the execution of the script.\n";
print "The error reported was $@\n";
print "Please submit a bug against kdesvn-build on http://bugs.kde.org/\n";
# Don't finish, because we haven't attained the lock yet.
exit 99;
}
if (not pretending and not get_lock())
{
print "$0 is already running!\n";
exit 0; # Don't finish(), it's not our lockfile!!
}
# Now use an exception trapping loop that calls finish().
my $result;
eval
{
my $time = localtime;
info "Script started processing at g[$time]";
@update_list = get_update_list();
@build_list = get_build_list();
debug "Update list is ", join (', ', @update_list);
debug "Build list is ", join (', ', @build_list);
# Do some necessary adjusting. Right now this is used for supporting
# the command-line option shortcut to where you can enter e.g.
# kdelibs/khtml, and the script will only try to update that part of
# the module.
munge_lists();
# Make sure unsermake is checked out automatically if needed
adjust_update_list(\@update_list, \@build_list);
if (not $install_flag)
{
# No packages to install, we're in build mode
$result = handle_updates (\@update_list);
$result = handle_build (\@build_list) || $result;
}
else
{
# Installation mode (no apidox)
$result = handle_install (get_install_list(), 0);
}
output_failed_module_lists();
email_error_report();
$time = localtime;
my $color = '';
$color = 'r[' if $result;
info "${color}Script finished processing at g[$time]";
};
if ($@)
{
# We encountered an error.
print "Encountered an error in the execution of the script.\n";
print "The error reported was $@\n";
print "Please submit a bug against kdesvn-build on http://bugs.kde.org/\n";
$result = 99;
}
finish($result);
# vim: set et sw=4 ts=4: