#!/usr/bin/perl -w # # Library functions for debhelper programs, perl version. # # Joey Hess, GPL copyright 1997-2000. package Debian::Debhelper::Dh_Lib; use strict; use Exporter; use vars qw(@ISA @EXPORT %dh); @ISA=qw(Exporter); @EXPORT=qw(&init &doit &complex_doit &verbose_print &error &warning &tmpdir &pkgfile &pkgext &pkgfilename &isnative &autoscript &filearray &filedoublearray &getpackages &basename &dirname &xargs %dh &compat &addsubstvar &delsubstvar &excludefile &package_arch &is_udeb &udeb_filename &debhelper_script_subst &escape_shell); my $max_compat=6; sub init { # If DH_OPTIONS is set, prepend it @ARGV. if (defined($ENV{DH_OPTIONS})) { # Ignore leading/trailing whitespace. $ENV{DH_OPTIONS}=~s/^\s+//; $ENV{DH_OPTIONS}=~s/\s+$//; unshift @ARGV,split(/\s+/,$ENV{DH_OPTIONS}); } # Check to see if an argument on the command line starts with a dash. # if so, we need to pass this off to the resource intensive # Getopt::Long, which I'd prefer to avoid loading at all if possible. my $parseopt=undef; my $arg; foreach $arg (@ARGV) { if ($arg=~m/^-/) { $parseopt=1; last; } } if ($parseopt) { eval "use Debian::Debhelper::Dh_Getopt"; error($!) if $@; %dh=Debian::Debhelper::Dh_Getopt::parseopts(); } # Another way to set excludes. if (exists $ENV{DH_ALWAYS_EXCLUDE} && length $ENV{DH_ALWAYS_EXCLUDE}) { push @{$dh{EXCLUDE}}, split(":", $ENV{DH_ALWAYS_EXCLUDE}); } # Generate EXCLUDE_FIND. if ($dh{EXCLUDE}) { $dh{EXCLUDE_FIND}=''; foreach (@{$dh{EXCLUDE}}) { my $x=$_; $x=escape_shell($x); $x=~s/\./\\\\./g; $dh{EXCLUDE_FIND}.="-regex .\\*$x.\\* -or "; } $dh{EXCLUDE_FIND}=~s/ -or $//; } # Check to see if DH_VERBOSE environment variable was set, if so, # make sure verbose is on. if (defined $ENV{DH_VERBOSE} && $ENV{DH_VERBOSE} ne "") { $dh{VERBOSE}=1; } # Check to see if DH_NO_ACT environment variable was set, if so, # make sure no act mode is on. if (defined $ENV{DH_NO_ACT} && $ENV{DH_NO_ACT} ne "") { $dh{NO_ACT}=1; } my @allpackages=getpackages(); # Get the name of the main binary package (first one listed in # debian/control). Only if the main package was not set on the # command line. if (! exists $dh{MAINPACKAGE} || ! defined $dh{MAINPACKAGE}) { $dh{MAINPACKAGE}=$allpackages[0]; } # Check if packages to build have been specified, if not, fall back to # the default, doing them all. if (! defined $dh{DOPACKAGES} || ! @{$dh{DOPACKAGES}}) { if ($dh{DOINDEP} || $dh{DOARCH} || $dh{DOSAME}) { error("You asked that all arch in(dep) packages be built, but there are none of that type."); } push @{$dh{DOPACKAGES}},@allpackages; } # Check to see if -P was specified. If so, we can only act on a single # package. if ($dh{TMPDIR} && $#{$dh{DOPACKAGES}} > 0) { error("-P was specified, but multiple packages would be acted on (".join(",",@{$dh{DOPACKAGES}}).")."); } # Figure out which package is the first one we were instructed to build. # This package gets special treatement: files and directories specified on # the command line may affect it. $dh{FIRSTPACKAGE}=${$dh{DOPACKAGES}}[0]; # If no error handling function was specified, just propigate # errors out. if (! exists $dh{ERROR_HANDLER} || ! defined $dh{ERROR_HANDLER}) { $dh{ERROR_HANDLER}='exit \$?'; } } # Pass it an array containing the arguments of a shell command like would # be run by exec(). It turns that into a line like you might enter at the # shell, escaping metacharacters and quoting arguments that contain spaces. sub escape_shell { my @args=@_; my $line=""; my @ret; foreach my $word (@args) { if ($word=~/\s/) { # Escape only a few things since it will be quoted. # Note we use double quotes because you cannot # escape ' in single quotes, while " can be escaped # in double. # This does make -V"foo bar" turn into "-Vfoo bar", # but that will be parsed identically by the shell # anyway.. $word=~s/([\n`\$"\\])/\\$1/g; push @ret, "\"$word\""; } else { # This list is from _Unix in a Nutshell_. (except '#') $word=~s/([\s!"\$()*+#;<>?@\[\]\\`|~])/\\$1/g; push @ret,$word; } } return join(' ', @ret); } # Run a command, and display the command to stdout if verbose mode is on. # All commands that modifiy files in $TMP should be ran via this # function. # # Note that this cannot handle complex commands, especially anything # involving redirection. Use complex_doit instead. sub doit { verbose_print(escape_shell(@_)); if (! $dh{NO_ACT}) { my $ret=system(@_); $ret == 0 || error("command returned error code $ret"); } } # Run a command and display the command to stdout if verbose mode is on. # Use doit() if you can, instead of this function, because this function # forks a shell. However, this function can handle more complicated stuff # like redirection. sub complex_doit { verbose_print(join(" ",@_)); if (! $dh{NO_ACT}) { # The join makes system get a scalar so it forks off a shell. system(join(" ",@_)) == 0 || error("command returned error code"); } } # Run a command that may have a huge number of arguments, like xargs does. # Pass in a reference to an array containing the arguments, and then other # parameters that are the command and any parameters that should be passed to # it each time. sub xargs { my $args=shift; # The kernel can accept command lines up to 20k worth of characters. my $command_max=20000; # LINUX SPECIFIC!! # I could use POSIX::ARG_MAX, but that would be slow. # Figure out length of static portion of command. my $static_length=0; foreach (@_) { $static_length+=length($_)+1; } my @collect=(); my $length=$static_length; foreach (@$args) { if (length($_) + 1 + $static_length > $command_max) { error("This command is greater than the maximum command size allowed by the kernel, and cannot be split up further. What on earth are you doing? \"@_ $_\""); } $length+=length($_) + 1; if ($length < $command_max) { push @collect, $_; } else { doit(@_,@collect) if $#collect > -1; @collect=($_); $length=$static_length + length($_) + 1; } } doit(@_,@collect) if $#collect > -1; } # Print something if the verbose flag is on. sub verbose_print { my $message=shift; if ($dh{VERBOSE}) { print "\t$message\n"; } } # Output an error message and exit. sub error { my $message=shift; warning($message); exit 1; } # Output a warning. sub warning { my $message=shift; print STDERR basename($0).": $message\n"; } # Returns the basename of the argument passed to it. sub basename { my $fn=shift; $fn=~s/\/$//g; # ignore trailing slashes $fn=~s:^.*/(.*?)$:$1:; return $fn; } # Returns the directory name of the argument passed to it. sub dirname { my $fn=shift; $fn=~s/\/$//g; # ignore trailing slashes $fn=~s:^(.*)/.*?$:$1:; return $fn; } # Pass in a number, will return true iff the current compatibility level # is less than or equal to that number. { my $warned_compat=0; my $c; sub compat { my $num=shift; if (! defined $c) { $c=1; if (defined $ENV{DH_COMPAT}) { $c=$ENV{DH_COMPAT}; } elsif (-e 'debian/compat') { # Try the file.. open (COMPAT_IN, "debian/compat") || error "debian/compat: $!"; my $l=; if (! defined $l || ! length $l) { warning("debian/compat is empty, assuming level $c"); } else { chomp $l; $c=$l; } } } if ($c < 4 && ! $warned_compat) { warning("Compatibility levels before 4 are deprecated."); $warned_compat=1; } if ($c > $max_compat) { error("Sorry, but $max_compat is the highest compatibility level supported by this debhelper."); } return ($c <= $num); } } # Pass it a name of a binary package, it returns the name of the tmp dir to # use, for that package. sub tmpdir { my $package=shift; if ($dh{TMPDIR}) { return $dh{TMPDIR}; } elsif (compat(1) && $package eq $dh{MAINPACKAGE}) { # This is for back-compatibility with the debian/tmp tradition. return "debian/tmp"; } else { return "debian/$package"; } } # Pass this the name of a binary package, and the name of the file wanted # for the package, and it will return the actual existing filename to use. # # It tries several filenames: # * debian/package.filename.buildarch # * debian/package.filename # * debian/file (if the package is the main package) # If --name was specified then tonly the first two are tried, and they must # have the name after the pacage name: # * debian/package.name.filename.buildarch # * debian/package.name.filename sub pkgfile { my $package=shift; my $filename=shift; if (defined $dh{NAME}) { $filename="$dh{NAME}.$filename"; } if (-f "debian/$package.$filename.".buildarch()) { return "debian/$package.$filename.".buildarch(); } elsif (-f "debian/$package.$filename") { return "debian/$package.$filename"; } elsif ($package eq $dh{MAINPACKAGE} && -f "debian/$filename") { return "debian/$filename"; } else { return ""; } } # Pass it a name of a binary package, it returns the name to prefix to files # in debian/ for this package. sub pkgext { my $package=shift; if (compat(1) and $package eq $dh{MAINPACKAGE}) { return ""; } return "$package."; } # Pass it the name of a binary package, it returns the name to install # files by in eg, etc. Normally this is the same, but --name can override # it. sub pkgfilename { my $package=shift; if (defined $dh{NAME}) { return $dh{NAME}; } return $package; } # Returns 1 if the package is a native debian package, null otherwise. # As a side effect, sets $dh{VERSION} to the version of this package. { # Caches return code so it only needs to run dpkg-parsechangelog once. my %isnative_cache; sub isnative { my $package=shift; return $isnative_cache{$package} if defined $isnative_cache{$package}; # Make sure we look at the correct changelog. my $isnative_changelog=pkgfile($package,"changelog"); if (! $isnative_changelog) { $isnative_changelog="debian/changelog"; } # Get the package version. my $version=`dpkg-parsechangelog -l$isnative_changelog`; ($dh{VERSION})=$version=~m/Version:\s*(.*)/m; # Did the changelog parse fail? if (! defined $dh{VERSION}) { error("changelog parse failure"); } # Is this a native Debian package? if ($dh{VERSION}=~m/.*-/) { return $isnative_cache{$package}=0; } else { return $isnative_cache{$package}=1; } } } # Automatically add a shell script snippet to a debian script. # Only works if the script has #DEBHELPER# in it. # # Parameters: # 1: package # 2: script to add to # 3: filename of snippet # 4: sed to run on the snippet. Ie, s/#PACKAGE#/$PACKAGE/ sub autoscript { my $package=shift; my $script=shift; my $filename=shift; my $sed=shift || ""; # This is the file we will modify. my $outfile="debian/".pkgext($package)."$script.debhelper"; # Figure out what shell script snippet to use. my $infile; if (defined($ENV{DH_AUTOSCRIPTDIR}) && -e "$ENV{DH_AUTOSCRIPTDIR}/$filename") { $infile="$ENV{DH_AUTOSCRIPTDIR}/$filename"; } else { if (-e "/usr/share/debhelper/autoscripts/$filename") { $infile="/usr/share/debhelper/autoscripts/$filename"; } else { error("/usr/share/debhelper/autoscripts/$filename does not exist"); } } if (-e $outfile && ($script eq 'postrm' || $script eq 'prerm') && !compat(5)) { # Add fragments to top so they run in reverse order when removing. complex_doit("echo \"# Automatically added by ".basename($0)."\"> $outfile.new"); complex_doit("sed \"$sed\" $infile >> $outfile.new"); complex_doit("echo '# End automatically added section' >> $outfile.new"); complex_doit("cat $outfile >> $outfile.new"); complex_doit("mv $outfile.new $outfile"); } else { complex_doit("echo \"# Automatically added by ".basename($0)."\">> $outfile"); complex_doit("sed \"$sed\" $infile >> $outfile"); complex_doit("echo '# End automatically added section' >> $outfile"); } } # Removes a whole substvar line. sub delsubstvar { my $package=shift; my $substvar=shift; my $ext=pkgext($package); my $substvarfile="debian/${ext}substvars"; if (-e $substvarfile) { complex_doit("grep -s -v '^${substvar}=' $substvarfile > $substvarfile.new || true"); doit("mv", "$substvarfile.new","$substvarfile"); } } # Adds a dependency on some package to the specified # substvar in a package's substvar's file. sub addsubstvar { my $package=shift; my $substvar=shift; my $deppackage=shift; my $verinfo=shift; my $remove=shift; my $ext=pkgext($package); my $substvarfile="debian/${ext}substvars"; my $str=$deppackage; $str.=" ($verinfo)" if defined $verinfo && length $verinfo; # Figure out what the line will look like, based on what's there # now, and what we're to add or remove. my $line=""; if (-e $substvarfile) { my %items; open(SUBSTVARS_IN, "$substvarfile") || error "read $substvarfile: $!"; while () { chomp; if (/^\Q$substvar\E=(.*)/) { %items = map { $_ => 1} split(", ", $1); last; } } close SUBSTVARS_IN; if (! $remove) { $items{$str}=1; } else { delete $items{$str}; } $line=join(", ", keys %items); } elsif (! $remove) { $line=$str; } if (length $line) { complex_doit("(grep -s -v ${substvar} $substvarfile; echo ".escape_shell("${substvar}=$line").") > $substvarfile.new"); doit("mv", "$substvarfile.new", $substvarfile); } else { delsubstvar($package,$substvar); } } # Reads in the specified file, one line at a time. splits on words, # and returns an array of arrays of the contents. # If a value is passed in as the second parameter, then glob # expansion is done in the directory specified by the parameter ("." is # frequently a good choice). sub filedoublearray { my $file=shift; my $globdir=shift; my @ret; open (DH_FARRAY_IN, $file) || error("cannot read $file: $1"); while () { chomp; # Only ignore comments and empty lines in v5 mode. if (! compat(4)) { next if /^#/ || /^$/; } my @line; # Only do glob expansion in v3 mode. # # The tricky bit is that the glob expansion is done # as if we were in the specified directory, so the # filenames that come out are relative to it. if (defined $globdir && ! compat(2)) { for (map { glob "$globdir/$_" } split) { s#^$globdir/##; push @line, $_; } } else { @line = split; } push @ret, [@line]; } close DH_FARRAY_IN; return @ret; } # Reads in the specified file, one word at a time, and returns an array of # the result. Can do globbing as does filedoublearray. sub filearray { return map { @$_ } filedoublearray(@_); } # Passed a filename, returns true if -X says that file should be excluded. sub excludefile { my $filename = shift; foreach my $f (@{$dh{EXCLUDE}}) { return 1 if $filename =~ /\Q$f\E/; } return 0; } # Returns the build architecture. (Memoized) { my $arch; sub buildarch { return $arch if defined $arch; $arch=`dpkg-architecture -qDEB_HOST_ARCH 2>/dev/null` || error("dpkg-architecture failed"); chomp $arch; return $arch; } } # Passed an arch and a list of arches to match against, returns true if matched sub samearch { my $arch=shift; my @archlist=split(/\s+/,shift); foreach my $a (@archlist) { system("dpkg-architecture", "-a$arch", "-i$a") == 0 && return 1; } return 0; } # Returns a list of packages in the control file. # Must pass "arch" or "indep" or "same" to specify arch-dependant or # -independant or same arch packages. If nothing is specified, returns all # packages. # As a side effect, populates %package_arches and %package_types with the # types of all packages (not only those returned). my (%package_types, %package_arches); sub getpackages { my $type=shift; %package_types=(); %package_arches=(); $type="" if ! defined $type; # Look up the build arch if we need to. my $buildarch=''; if ($type eq 'same') { $buildarch=buildarch(); } my $package=""; my $arch=""; my $package_type; my @list=(); my %seen; open (CONTROL, 'debian/control') || error("cannot read debian/control: $!\n"); while () { chomp; s/\s+$//; if (/^Package:\s*(.*)/) { $package=$1; # Detect duplicate package names in the same control file. if (! $seen{$package}) { $seen{$package}=1; } else { error("debian/control has a duplicate entry for $package"); } $package_type="deb"; } if (/^Architecture:\s*(.*)/) { $arch=$1; } if (/^(?:X[BC]*-)?Package-Type:\s*(.*)/) { $package_type=$1; } if (!$_ or eof) { # end of stanza. if ($package) { $package_types{$package}=$package_type; $package_arches{$package}=$arch; } if ($package && (($type eq 'indep' && $arch eq 'all') || ($type eq 'arch' && $arch ne 'all') || ($type eq 'same' && ($arch eq 'any' || samearch($buildarch, $arch))) || ! $type)) { push @list, $package; $package=""; $arch=""; } } } close CONTROL; return @list; } # Returns the arch a package will build for. sub package_arch { my $package=shift; if (! exists $package_arches{$package}) { warning "package $package is not in control info"; return buildarch(); } return $package_arches{$package} eq 'all' ? "all" : buildarch(); } # Return true if a given package is really a udeb. sub is_udeb { my $package=shift; if (! exists $package_types{$package}) { warning "package $package is not in control info"; return 0; } return $package_types{$package} eq 'udeb'; } # Generates the filename that is used for a udeb package. sub udeb_filename { my $package=shift; my $filearch=package_arch($package); isnative($package); # side effect my $version=$dh{VERSION}; $version=~s/^[0-9]+://; # strip any epoch return "${package}_${version}_$filearch.udeb"; } # Handles #DEBHELPER# substitution in a script; also can generate a new # script from scratch if none exists but there is a .debhelper file for it. sub debhelper_script_subst { my $package=shift; my $script=shift; my $tmp=tmpdir($package); my $ext=pkgext($package); my $file=pkgfile($package,$script); if ($file ne '') { if (-f "debian/$ext$script.debhelper") { # Add this into the script, where it has #DEBHELPER# complex_doit("perl -pe 's~#DEBHELPER#~qx{cat debian/$ext$script.debhelper}~eg' < $file > $tmp/DEBIAN/$script"); } else { # Just get rid of any #DEBHELPER# in the script. complex_doit("sed s/#DEBHELPER#// < $file > $tmp/DEBIAN/$script"); } doit("chown","0:0","$tmp/DEBIAN/$script"); doit("chmod",755,"$tmp/DEBIAN/$script"); } elsif ( -f "debian/$ext$script.debhelper" ) { complex_doit("printf '#!/bin/sh\nset -e\n' > $tmp/DEBIAN/$script"); complex_doit("cat debian/$ext$script.debhelper >> $tmp/DEBIAN/$script"); doit("chown","0:0","$tmp/DEBIAN/$script"); doit("chmod",755,"$tmp/DEBIAN/$script"); } } 1