File: //proc/1526/task/1921/root/usr/share/perl5/Dpkg/Arch.pm
# Copyright © 2006-2015 Guillem Jover <guillem@debian.org>
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
# the Free Software Foundation; either version 2 of the License, or
# (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program. If not, see <https://www.gnu.org/licenses/>.
package Dpkg::Arch;
=encoding utf8
=head1 NAME
Dpkg::Arch - handle architectures
=head1 DESCRIPTION
The Dpkg::Arch module provides functions to handle Debian architectures,
wildcards, and mapping from and to GNU triplets.
No symbols are exported by default. The :all tag can be used to import all
symbols. The :getters, :parsers, :mappers and :operators tags can be used
to import specific symbol subsets.
=cut
use strict;
use warnings;
use feature qw(state);
our $VERSION = '1.03';
our @EXPORT_OK = qw(
get_raw_build_arch
get_raw_host_arch
get_build_arch
get_host_arch
get_host_gnu_type
get_valid_arches
debarch_eq
debarch_is
debarch_is_wildcard
debarch_is_illegal
debarch_is_concerned
debarch_to_abiattrs
debarch_to_cpubits
debarch_to_gnutriplet
debarch_to_debtuple
debarch_to_multiarch
debarch_list_parse
debtuple_to_debarch
debtuple_to_gnutriplet
gnutriplet_to_debarch
gnutriplet_to_debtuple
gnutriplet_to_multiarch
);
our %EXPORT_TAGS = (
all => [ @EXPORT_OK ],
getters => [ qw(
get_raw_build_arch
get_raw_host_arch
get_build_arch
get_host_arch
get_host_gnu_type
get_valid_arches
) ],
parsers => [ qw(
debarch_list_parse
) ],
mappers => [ qw(
debarch_to_abiattrs
debarch_to_gnutriplet
debarch_to_debtuple
debarch_to_multiarch
debtuple_to_debarch
debtuple_to_gnutriplet
gnutriplet_to_debarch
gnutriplet_to_debtuple
gnutriplet_to_multiarch
) ],
operators => [ qw(
debarch_eq
debarch_is
debarch_is_wildcard
debarch_is_illegal
debarch_is_concerned
) ],
);
use Exporter qw(import);
use List::Util qw(any);
use Dpkg ();
use Dpkg::Gettext;
use Dpkg::ErrorHandling;
use Dpkg::Build::Env;
my (@cpu, @os);
my (%cputable, %ostable);
my (%cputable_re, %ostable_re);
my (%cpubits, %cpuendian);
my %abibits;
my %debtuple_to_debarch;
my %debarch_to_debtuple;
=head1 FUNCTIONS
=over 4
=item $arch = get_raw_build_arch()
Get the raw build Debian architecture, without taking into account variables
from the environment.
=cut
sub get_raw_build_arch()
{
state $build_arch;
return $build_arch if defined $build_arch;
# Note: We *always* require an installed dpkg when inferring the
# build architecture. The bootstrapping case is handled by
# dpkg-architecture itself, by avoiding computing the DEB_BUILD_
# variables when they are not requested.
## no critic (TestingAndDebugging::ProhibitNoWarnings)
no warnings qw(exec);
$build_arch = qx(dpkg --print-architecture);
syserr('dpkg --print-architecture failed') if $? >> 8;
chomp $build_arch;
return $build_arch;
}
=item $arch = get_build_arch()
Get the build Debian architecture, using DEB_BUILD_ARCH from the environment
if available.
=cut
sub get_build_arch()
{
return Dpkg::Build::Env::get('DEB_BUILD_ARCH') || get_raw_build_arch();
}
{
my %cc_host_gnu_type;
sub get_host_gnu_type()
{
my $CC = $ENV{CC} || 'gcc';
return $cc_host_gnu_type{$CC} if defined $cc_host_gnu_type{$CC};
## no critic (TestingAndDebugging::ProhibitNoWarnings)
no warnings qw(exec);
$cc_host_gnu_type{$CC} = qx($CC -dumpmachine);
if ($? >> 8) {
$cc_host_gnu_type{$CC} = '';
} else {
chomp $cc_host_gnu_type{$CC};
}
return $cc_host_gnu_type{$CC};
}
sub set_host_gnu_type
{
my ($host_gnu_type) = @_;
my $CC = $ENV{CC} || 'gcc';
$cc_host_gnu_type{$CC} = $host_gnu_type;
}
}
=item $arch = get_raw_host_arch()
Get the raw host Debian architecture, without taking into account variables
from the environment.
=cut
sub get_raw_host_arch()
{
state $host_arch;
return $host_arch if defined $host_arch;
my $host_gnu_type = get_host_gnu_type();
if ($host_gnu_type eq '') {
warning(g_('cannot determine CC system type, falling back to ' .
'default (native compilation)'));
} else {
my (@host_archtuple) = gnutriplet_to_debtuple($host_gnu_type);
$host_arch = debtuple_to_debarch(@host_archtuple);
if (defined $host_arch) {
$host_gnu_type = debtuple_to_gnutriplet(@host_archtuple);
} else {
warning(g_('unknown CC system type %s, falling back to ' .
'default (native compilation)'), $host_gnu_type);
$host_gnu_type = '';
}
set_host_gnu_type($host_gnu_type);
}
if (!defined($host_arch)) {
# Switch to native compilation.
$host_arch = get_raw_build_arch();
}
return $host_arch;
}
=item $arch = get_host_arch()
Get the host Debian architecture, using DEB_HOST_ARCH from the environment
if available.
=cut
sub get_host_arch()
{
return Dpkg::Build::Env::get('DEB_HOST_ARCH') || get_raw_host_arch();
}
=item @arch_list = get_valid_arches()
Get an array with all currently known Debian architectures.
=cut
sub get_valid_arches()
{
_load_cputable();
_load_ostable();
my @arches;
foreach my $os (@os) {
foreach my $cpu (@cpu) {
my $arch = debtuple_to_debarch(split(/-/, $os, 3), $cpu);
push @arches, $arch if defined($arch);
}
}
return @arches;
}
my %table_loaded;
sub _load_table
{
my ($table, $loader) = @_;
return if $table_loaded{$table};
local $_;
local $/ = "\n";
open my $table_fh, '<', "$Dpkg::DATADIR/$table"
or syserr(g_('cannot open %s'), $table);
while (<$table_fh>) {
$loader->($_);
}
close $table_fh;
$table_loaded{$table} = 1;
}
sub _load_cputable
{
_load_table('cputable', sub {
if (m/^(?!\#)(\S+)\s+(\S+)\s+(\S+)\s+(\S+)\s+(\S+)/) {
$cputable{$1} = $2;
$cputable_re{$1} = $3;
$cpubits{$1} = $4;
$cpuendian{$1} = $5;
push @cpu, $1;
}
});
}
sub _load_ostable
{
_load_table('ostable', sub {
if (m/^(?!\#)(\S+)\s+(\S+)\s+(\S+)/) {
$ostable{$1} = $2;
$ostable_re{$1} = $3;
push @os, $1;
}
});
}
sub _load_abitable()
{
_load_table('abitable', sub {
if (m/^(?!\#)(\S+)\s+(\S+)/) {
$abibits{$1} = $2;
}
});
}
sub _load_tupletable()
{
_load_cputable();
_load_table('tupletable', sub {
if (m/^(?!\#)(\S+)\s+(\S+)/) {
my $debtuple = $1;
my $debarch = $2;
if ($debtuple =~ /<cpu>/) {
foreach my $_cpu (@cpu) {
(my $dt = $debtuple) =~ s/<cpu>/$_cpu/;
(my $da = $debarch) =~ s/<cpu>/$_cpu/;
next if exists $debarch_to_debtuple{$da}
or exists $debtuple_to_debarch{$dt};
$debarch_to_debtuple{$da} = $dt;
$debtuple_to_debarch{$dt} = $da;
}
} else {
$debarch_to_debtuple{$2} = $1;
$debtuple_to_debarch{$1} = $2;
}
}
});
}
sub debtuple_to_gnutriplet(@)
{
my ($abi, $libc, $os, $cpu) = @_;
_load_cputable();
_load_ostable();
return unless
defined $abi && defined $libc && defined $os && defined $cpu &&
exists $cputable{$cpu} && exists $ostable{"$abi-$libc-$os"};
return join('-', $cputable{$cpu}, $ostable{"$abi-$libc-$os"});
}
sub gnutriplet_to_debtuple($)
{
my $gnu = shift;
return unless defined($gnu);
my ($gnu_cpu, $gnu_os) = split(/-/, $gnu, 2);
return unless defined($gnu_cpu) && defined($gnu_os);
_load_cputable();
_load_ostable();
my ($os, $cpu);
foreach my $_cpu (@cpu) {
if ($gnu_cpu =~ /^$cputable_re{$_cpu}$/) {
$cpu = $_cpu;
last;
}
}
foreach my $_os (@os) {
if ($gnu_os =~ /^(.*-)?$ostable_re{$_os}$/) {
$os = $_os;
last;
}
}
return if !defined($cpu) || !defined($os);
return (split(/-/, $os, 3), $cpu);
}
=item $multiarch = gnutriplet_to_multiarch($gnutriplet)
Map a GNU triplet into a Debian multiarch triplet.
=cut
sub gnutriplet_to_multiarch($)
{
my $gnu = shift;
my ($cpu, $cdr) = split(/-/, $gnu, 2);
if ($cpu =~ /^i[4567]86$/) {
return "i386-$cdr";
} else {
return $gnu;
}
}
=item $multiarch = debarch_to_multiarch($arch)
Map a Debian architecture into a Debian multiarch triplet.
=cut
sub debarch_to_multiarch($)
{
my $arch = shift;
return gnutriplet_to_multiarch(debarch_to_gnutriplet($arch));
}
sub debtuple_to_debarch(@)
{
my ($abi, $libc, $os, $cpu) = @_;
_load_tupletable();
if (!defined $abi || !defined $libc || !defined $os || !defined $cpu) {
return;
} elsif (exists $debtuple_to_debarch{"$abi-$libc-$os-$cpu"}) {
return $debtuple_to_debarch{"$abi-$libc-$os-$cpu"};
} else {
return;
}
}
sub debarch_to_debtuple($)
{
my $arch = shift;
return if not defined $arch;
_load_tupletable();
if ($arch =~ /^linux-([^-]*)/) {
# XXX: Might disappear in the future, not sure yet.
$arch = $1;
}
my $tuple = $debarch_to_debtuple{$arch};
if (defined($tuple)) {
my @tuple = split /-/, $tuple, 4;
return @tuple if wantarray;
return {
abi => $tuple[0],
libc => $tuple[1],
os => $tuple[2],
cpu => $tuple[3],
};
} else {
return;
}
}
=item $gnutriplet = debarch_to_gnutriplet($arch)
Map a Debian architecture into a GNU triplet.
=cut
sub debarch_to_gnutriplet($)
{
my $arch = shift;
return debtuple_to_gnutriplet(debarch_to_debtuple($arch));
}
=item $arch = gnutriplet_to_debarch($gnutriplet)
Map a GNU triplet into a Debian architecture.
=cut
sub gnutriplet_to_debarch($)
{
my $gnu = shift;
return debtuple_to_debarch(gnutriplet_to_debtuple($gnu));
}
sub debwildcard_to_debtuple($)
{
my $arch = shift;
my @tuple = split /-/, $arch, 4;
if (any { $_ eq 'any' } @tuple) {
if (scalar @tuple == 4) {
return @tuple;
} elsif (scalar @tuple == 3) {
return ('any', @tuple);
} elsif (scalar @tuple == 2) {
return ('any', 'any', @tuple);
} else {
return ('any', 'any', 'any', 'any');
}
} else {
return debarch_to_debtuple($arch);
}
}
sub debarch_to_abiattrs($)
{
my $arch = shift;
my ($abi, $libc, $os, $cpu) = debarch_to_debtuple($arch);
if (defined($cpu)) {
_load_abitable();
return ($abibits{$abi} // $cpubits{$cpu}, $cpuendian{$cpu});
} else {
return;
}
}
sub debarch_to_cpubits($)
{
my $arch = shift;
my (undef, undef, undef, $cpu) = debarch_to_debtuple($arch);
if (defined $cpu) {
return $cpubits{$cpu};
} else {
return;
}
}
=item $bool = debarch_eq($arch_a, $arch_b)
Evaluate the equality of a Debian architecture, by comparing with another
Debian architecture. No wildcard matching is performed.
=cut
sub debarch_eq($$)
{
my ($a, $b) = @_;
return 1 if ($a eq $b);
my @a = debarch_to_debtuple($a);
my @b = debarch_to_debtuple($b);
return 0 if scalar @a != 4 or scalar @b != 4;
return $a[0] eq $b[0] && $a[1] eq $b[1] && $a[2] eq $b[2] && $a[3] eq $b[3];
}
=item $bool = debarch_is($arch, $arch_wildcard)
Evaluate the identity of a Debian architecture, by matching with an
architecture wildcard.
=cut
sub debarch_is($$)
{
my ($real, $alias) = @_;
return 1 if ($alias eq $real or $alias eq 'any');
my @real = debarch_to_debtuple($real);
my @alias = debwildcard_to_debtuple($alias);
return 0 if scalar @real != 4 or scalar @alias != 4;
if (($alias[0] eq $real[0] || $alias[0] eq 'any') &&
($alias[1] eq $real[1] || $alias[1] eq 'any') &&
($alias[2] eq $real[2] || $alias[2] eq 'any') &&
($alias[3] eq $real[3] || $alias[3] eq 'any')) {
return 1;
}
return 0;
}
=item $bool = debarch_is_wildcard($arch)
Evaluate whether a Debian architecture is an architecture wildcard.
=cut
sub debarch_is_wildcard($)
{
my $arch = shift;
return 0 if $arch eq 'all';
my @tuple = debwildcard_to_debtuple($arch);
return 0 if scalar @tuple != 4;
return 1 if any { $_ eq 'any' } @tuple;
return 0;
}
=item $bool = debarch_is_illegal($arch, %options)
Validate an architecture name.
If the "positive" option is set to a true value, only positive architectures
will be accepted, otherwise negated architectures are allowed.
=cut
sub debarch_is_illegal
{
my ($arch, %opts) = @_;
my $arch_re = qr/[a-zA-Z0-9][a-zA-Z0-9-]*/;
if ($opts{positive}) {
return $arch !~ m/^$arch_re$/;
} else {
return $arch !~ m/^!?$arch_re$/;
}
}
=item $bool = debarch_is_concerned($arch, @arches)
Evaluate whether a Debian architecture applies to the list of architecture
restrictions, as usually found in dependencies inside square brackets.
=cut
sub debarch_is_concerned
{
my ($host_arch, @arches) = @_;
my $seen_arch = 0;
foreach my $arch (@arches) {
$arch = lc $arch;
if ($arch =~ /^!/) {
my $not_arch = $arch;
$not_arch =~ s/^!//;
if (debarch_is($host_arch, $not_arch)) {
$seen_arch = 0;
last;
} else {
# !arch includes by default all other arches
# unless they also appear in a !otherarch
$seen_arch = 1;
}
} elsif (debarch_is($host_arch, $arch)) {
$seen_arch = 1;
last;
}
}
return $seen_arch;
}
=item @array = debarch_list_parse($arch_list, %options)
Parse an architecture list.
If the "positive" option is set to a true value, only positive architectures
will be accepted, otherwise negated architectures are allowed.
=cut
sub debarch_list_parse
{
my ($arch_list, %opts) = @_;
my @arch_list = split ' ', $arch_list;
foreach my $arch (@arch_list) {
if (debarch_is_illegal($arch, %opts)) {
error(g_("'%s' is not a legal architecture in list '%s'"),
$arch, $arch_list);
}
}
return @arch_list;
}
1;
__END__
=back
=head1 CHANGES
=head2 Version 1.03 (dpkg 1.19.1)
New argument: Accept a "positive" option in debarch_is_illegal() and
debarch_list_parse().
=head2 Version 1.02 (dpkg 1.18.19)
New import tags: ":all", ":getters", ":parsers", ":mappers", ":operators".
=head2 Version 1.01 (dpkg 1.18.5)
New functions: debarch_is_illegal(), debarch_list_parse().
=head2 Version 1.00 (dpkg 1.18.2)
Mark the module as public.
=head1 SEE ALSO
dpkg-architecture(1).