dpkg-1.16.1.1/scripts/Dpkg/Shlibs/SymbolFile.pm - nest-learning-thermostat/5.1.6/dpkg - Git at Google

 # Copyright © 2007 Raphaël Hertzog <hertzog@debian.org>
 # Copyright © 2009-2010 Modestas Vainius <modax@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 <http://www.gnu.org/licenses/>.

 package Dpkg::Shlibs::SymbolFile;

 use strict;
 use warnings;

 our $VERSION = "0.01";

 use Dpkg::Gettext;
 use Dpkg::ErrorHandling;
 use Dpkg::Version;
 use Dpkg::Control::Fields;
 use Dpkg::Shlibs::Symbol;
 use Dpkg::Arch qw(get_host_arch);

 use base qw(Dpkg::Interface::Storable);

 my %blacklist = (
     '__bss_end__' => 1,		# arm
     '__bss_end' => 1,		# arm
     '_bss_end__' => 1,		# arm
     '__bss_start' => 1,		# ALL
     '__bss_start__' => 1,	# arm
     '__data_start' => 1,	# arm
     '__do_global_ctors_aux' => 1,   # ia64
     '__do_global_dtors_aux' => 1,   # ia64
     '__do_jv_register_classes' => 1,# ia64
     '_DYNAMIC' => 1,		# ALL
     '_edata' => 1,		# ALL
     '_end' => 1,		# ALL
     '__end__' => 1,		# arm
     '__exidx_end' => 1,		# armel
     '__exidx_start' => 1,	# armel
     '_fbss' => 1,		# mips, mipsel
     '_fdata' => 1,		# mips, mipsel
     '_fini' => 1,		# ALL
     '_ftext' => 1,		# mips, mipsel
     '_GLOBAL_OFFSET_TABLE_' => 1,   # hppa, mips, mipsel
     '__gmon_start__' => 1,	# hppa
     '__gnu_local_gp' => 1,      # mips, mipsel
     '_gp' => 1,			# mips, mipsel
     '_init' => 1,		# ALL
     '_PROCEDURE_LINKAGE_TABLE_' => 1, # sparc, alpha
     '_SDA2_BASE_' => 1,		# powerpc
     '_SDA_BASE_' => 1,		# powerpc
 );

 for (my $i = 14; $i <= 31; $i++) {
     # Many powerpc specific symbols
     $blacklist{"_restfpr_$i"} = 1;
     $blacklist{"_restfpr_$i\_x"} = 1;
     $blacklist{"_restgpr_$i"} = 1;
     $blacklist{"_restgpr_$i\_x"} = 1;
     $blacklist{"_savefpr_$i"} = 1;
     $blacklist{"_savegpr_$i"} = 1;
 }

 # Many armel-specific symbols
 $blacklist{"__aeabi_$_"} = 1 foreach (qw(cdcmpeq cdcmple cdrcmple cfcmpeq
 cfcmple cfrcmple d2f d2iz d2lz d2uiz d2ulz dadd dcmpeq dcmpge dcmpgt
 dcmple dcmplt dcmpun ddiv dmul dneg drsub dsub f2d f2iz f2lz f2uiz f2ulz
 fadd fcmpeq fcmpge fcmpgt fcmple fcmplt fcmpun fdiv fmul fneg frsub fsub
 i2d i2f idiv idivmod l2d l2f lasr lcmp ldivmod llsl llsr lmul ui2d ui2f
 uidiv uidivmod ul2d ul2f ulcmp uldivmod unwind_cpp_pr0 unwind_cpp_pr1
 unwind_cpp_pr2 uread4 uread8 uwrite4 uwrite8));

 sub new {
     my $this = shift;
     my %opts=@_;
     my $class = ref($this) || $this;
     my $self = \%opts;
     bless $self, $class;
     $self->{arch} = get_host_arch() unless defined $self->{arch};
     $self->clear();
     if (exists $self->{file}) {
 	$self->load($self->{file}) if -e $self->{file};
     }
     return $self;
 }

 sub get_arch {
     my ($self) = @_;
     return $self->{arch};
 }

 sub clear {
     my ($self) = @_;
     $self->{objects} = {};
 }

 sub clear_except {
     my ($self, @ids) = @_;
     my %has;
     $has{$_} = 1 foreach (@ids);
     foreach my $objid (keys %{$self->{objects}}) {
 	delete $self->{objects}{$objid} unless exists $has{$objid};
     }
 }

 sub get_sonames {
     my ($self) = @_;
     return keys %{$self->{objects}};
 }

 sub get_symbols {
     my ($self, $soname) = @_;
     if (defined $soname) {
 	my $obj = $self->get_object($soname);
 	return (defined $obj) ? values %{$obj->{syms}} : ();
     } else {
 	my @syms;
 	foreach my $soname ($self->get_sonames()) {
 	    push @syms, $self->get_symbols($soname);
 	}
 	return @syms;
     }
 }

 sub get_patterns {
     my ($self, $soname) = @_;
     my @patterns;
     if (defined $soname) {
 	my $obj = $self->get_object($soname);
 	foreach my $alias (values %{$obj->{patterns}{aliases}}) {
 	    push @patterns, values %$alias;
 	}
 	return (@patterns, @{$obj->{patterns}{generic}});
     } else {
 	foreach my $soname ($self->get_sonames()) {
 	    push @patterns, $self->get_patterns($soname);
 	}
 	return @patterns;
     }
 }

 # Create a symbol from the supplied string specification.
 sub create_symbol {
     my ($self, $spec, %opts) = @_;
     my $symbol = (exists $opts{base}) ? $opts{base} :
 	Dpkg::Shlibs::Symbol->new();

     my $ret = $opts{dummy} ? $symbol->parse_symbolspec($spec, default_minver => 0) :
 	$symbol->parse_symbolspec($spec);
     if ($ret) {
 	$symbol->initialize(arch => $self->get_arch());
 	return $symbol;
     }
     return undef;
 }

 sub add_symbol {
     my ($self, $symbol, $soname) = @_;
     my $object = $self->get_object($soname);

     if ($symbol->is_pattern()) {
 	if (my $alias_type = $symbol->get_alias_type()) {
 	    unless (exists $object->{patterns}{aliases}{$alias_type}) {
 		$object->{patterns}{aliases}{$alias_type} = {};
 	    }
 	    # Alias hash for matching.
 	    my $aliases = $object->{patterns}{aliases}{$alias_type};
 	    $aliases->{$symbol->get_symbolname()} = $symbol;
 	} else {
 	    # Otherwise assume this is a generic sequential pattern. This
 	    # should be always safe.
 	    push @{$object->{patterns}{generic}}, $symbol;
 	}
 	return 'pattern';
     } else {
 	# invalidate the minimum version cache
         $object->{minver_cache} = [];
 	$object->{syms}{$symbol->get_symbolname()} = $symbol;
 	return 'sym';
     }
 }

 # Parameter seen is only used for recursive calls
 sub parse {
     my ($self, $fh, $file, $seen, $obj_ref, $base_symbol) = @_;

     sub new_symbol {
         my $base = shift || 'Dpkg::Shlibs::Symbol';
         return (ref $base) ? $base->clone(@_) : $base->new(@_);
     }

     if (defined($seen)) {
 	return if exists $seen->{$file}; # Avoid include loops
     } else {
 	$self->{file} = $file;
 	$seen = {};
     }
     $seen->{$file} = 1;

     if (not ref($obj_ref)) { # Init ref to name of current object/lib
         $$obj_ref = undef;
     }

     while (defined($_ = <$fh>)) {
 	chomp($_);

 	if (/^(?:\s+|#(?:DEPRECATED|MISSING): ([^#]+)#\s*)(.*)/) {
 	    if (not defined ($$obj_ref)) {
 		error(_g("Symbol information must be preceded by a header (file %s, line %s)."), $file, $.);
 	    }
 	    # Symbol specification
 	    my $deprecated = ($1) ? $1 : 0;
 	    my $sym = new_symbol($base_symbol, deprecated => $deprecated);
 	    if ($self->create_symbol($2, base => $sym)) {
 		$self->add_symbol($sym, $$obj_ref);
 	    } else {
 		warning(_g("Failed to parse line in %s: %s"), $file, $_);
 	    }
 	} elsif (/^(\(.*\))?#include\s+"([^"]+)"/) {
 	    my $tagspec = $1;
 	    my $filename = $2;
 	    my $dir = $file;
 	    my $new_base_symbol;
 	    if (defined $tagspec) {
                 $new_base_symbol = new_symbol($base_symbol);
 		$new_base_symbol->parse_tagspec($tagspec);
 	    }
 	    $dir =~ s{[^/]+$}{}; # Strip filename
 	    $self->load("$dir$filename", $seen, $obj_ref, $new_base_symbol);
 	} elsif (/^#|^$/) {
 	    # Skip possible comments and empty lines
 	} elsif (/^\|\s*(.*)$/) {
 	    # Alternative dependency template
 	    push @{$self->{objects}{$$obj_ref}{deps}}, "$1";
 	} elsif (/^\*\s*([^:]+):\s*(.*\S)\s*$/) {
 	    # Add meta-fields
 	    $self->{objects}{$$obj_ref}{fields}{field_capitalize($1)} = $2;
 	} elsif (/^(\S+)\s+(.*)$/) {
 	    # New object and dependency template
 	    $$obj_ref = $1;
 	    if (exists $self->{objects}{$$obj_ref}) {
 		# Update/override infos only
 		$self->{objects}{$$obj_ref}{deps} = [ "$2" ];
 	    } else {
 		# Create a new object
 		$self->create_object($$obj_ref, "$2");
 	    }
 	} else {
 	    warning(_g("Failed to parse a line in %s: %s"), $file, $_);
 	}
     }
     delete $seen->{$file};
 }

 # Beware: we reuse the data structure of the provided symfile so make
 # sure to not modify them after having called this function
 sub merge_object_from_symfile {
     my ($self, $src, $objid) = @_;
     if (not $self->has_object($objid)) {
         $self->{objects}{$objid} = $src->get_object($objid);
     } else {
         warning(_g("Tried to merge the same object (%s) twice in a symfile."), $objid);
     }
 }

 sub output {
     my ($self, $fh, %opts) = @_;
     $opts{template_mode} = 0 unless exists $opts{template_mode};
     $opts{with_deprecated} = 1 unless exists $opts{with_deprecated};
     $opts{with_pattern_matches} = 0 unless exists $opts{with_pattern_matches};
     my $res = "";
     foreach my $soname (sort $self->get_sonames()) {
 	my @deps = $self->get_dependencies($soname);
 	my $dep = shift @deps;
 	$dep =~ s/#PACKAGE#/$opts{package}/g if exists $opts{package};
 	print $fh "$soname $dep\n" if defined $fh;
 	$res .= "$soname $dep\n" if defined wantarray;

 	foreach $dep (@deps) {
 	    $dep =~ s/#PACKAGE#/$opts{package}/g if exists $opts{package};
 	    print $fh "| $dep\n" if defined $fh;
 	    $res .= "| $dep\n" if defined wantarray;
 	}
 	my $f = $self->{objects}{$soname}{fields};
 	foreach my $field (sort keys %{$f}) {
 	    my $value = $f->{$field};
 	    $value =~ s/#PACKAGE#/$opts{package}/g if exists $opts{package};
 	    print $fh "* $field: $value\n" if defined $fh;
 	    $res .= "* $field: $value\n" if defined wantarray;
 	}

 	my @symbols;
 	if ($opts{template_mode}) {
 	    # Exclude symbols matching a pattern, but include patterns themselves
 	    @symbols = grep { not $_->get_pattern() } $self->get_symbols($soname);
 	    push @symbols, $self->get_patterns($soname);
 	} else {
 	    @symbols = $self->get_symbols($soname);
 	}
 	foreach my $sym (sort { $a->get_symboltempl() cmp
 	                        $b->get_symboltempl() } @symbols) {
 	    next if $sym->{deprecated} and not $opts{with_deprecated};
 	    # Do not dump symbols from foreign arch unless dumping a template.
 	    next if not $opts{template_mode} and
 	            not $sym->arch_is_concerned($self->get_arch());
 	    # Dump symbol specification. Dump symbol tags only in template mode.
 	    print $fh $sym->get_symbolspec($opts{template_mode}), "\n" if defined $fh;
 	    $res .= $sym->get_symbolspec($opts{template_mode}) . "\n" if defined wantarray;
 	    # Dump pattern matches as comments (if requested)
 	    if ($opts{with_pattern_matches} && $sym->is_pattern()) {
 		for my $match (sort { $a->get_symboltempl() cmp
 		                      $b->get_symboltempl() } $sym->get_pattern_matches())
 		{
 		    print $fh "#MATCH:", $match->get_symbolspec(0), "\n" if defined $fh;
 		    $res .= "#MATCH:" . $match->get_symbolspec(0) . "\n" if defined wantarray;
 		}
 	    }
 	}
     }
     return $res;
 }

 # Tries to match a symbol name and/or version against the patterns defined.
 # Returns a pattern which matches (if any).
 sub find_matching_pattern {
     my ($self, $refsym, $sonames, $inc_deprecated) = @_;
     $inc_deprecated = 0 unless defined $inc_deprecated;
     my $name = (ref $refsym) ? $refsym->get_symbolname() : $refsym;

     my $pattern_ok = sub {
 	my $p = shift;
 	return defined $p && ($inc_deprecated || !$p->{deprecated}) &&
 	       $p->arch_is_concerned($self->get_arch());
     };

     foreach my $soname ((ref($sonames) eq 'ARRAY') ? @$sonames : $sonames) {
 	my $obj = $self->get_object($soname);
 	my ($type, $pattern);
 	next unless defined $obj;

 	my $all_aliases = $obj->{patterns}{aliases};
 	for my $type (Dpkg::Shlibs::Symbol::ALIAS_TYPES) {
 	    if (exists $all_aliases->{$type} && keys(%{$all_aliases->{$type}})) {
 		my $aliases = $all_aliases->{$type};
 		my $converter = $aliases->{(keys %$aliases)[0]};
 		if (my $alias = $converter->convert_to_alias($name)) {
 		    if ($alias && exists $aliases->{$alias}) {
 			$pattern = $aliases->{$alias};
 			last if &$pattern_ok($pattern);
 			$pattern = undef; # otherwise not found yet
 		    }
 		}
 	    }
 	}

 	# Now try generic patterns and use the first that matches
 	if (not defined $pattern) {
 	    for my $p (@{$obj->{patterns}{generic}}) {
 		if (&$pattern_ok($p) && $p->matches_rawname($name)) {
 		    $pattern = $p;
 		    last;
 		}
 	    }
 	}
 	if (defined $pattern) {
 	    return (wantarray) ?
 		( symbol => $pattern, soname => $soname ) : $pattern;
 	}
     }
     return (wantarray) ? () : undef;
 }

 # merge_symbols($object, $minver)
 # Needs $Objdump->get_object($soname) as parameter
 # Don't merge blacklisted symbols related to the internal (arch-specific)
 # machinery
 sub merge_symbols {
     my ($self, $object, $minver) = @_;
     my $soname = $object->{SONAME} || error(_g("Can't merge symbols from objects without SONAME."));
     my %dynsyms;
     foreach my $sym ($object->get_exported_dynamic_symbols()) {
         my $name = $sym->{name} . '@' .
                    ($sym->{version} ? $sym->{version} : "Base");
         my $symobj = $self->lookup_symbol($name, $soname);
         if (exists $blacklist{$sym->{name}}) {
             next unless (defined $symobj and $symobj->has_tag("ignore-blacklist"));
         }
         $dynsyms{$name} = $sym;
     }

     unless ($self->has_object($soname)) {
 	$self->create_object($soname, '');
     }
     # Scan all symbols provided by the objects
     my $obj = $self->get_object($soname);
     # invalidate the minimum version cache - it is not sufficient to
     # invalidate in add_symbol, since we might change a minimum
     # version for a particular symbol without adding it
     $obj->{minver_cache} = [];
     foreach my $name (keys %dynsyms) {
         my $sym;
 	if ($sym = $self->lookup_symbol($name, $obj, 1)) {
 	    # If the symbol is already listed in the file
 	    $sym->mark_found_in_library($minver, $self->get_arch());
 	} else {
 	    # The exact symbol is not present in the file, but it might match a
 	    # pattern.
 	    my $pattern = $self->find_matching_pattern($name, $obj, 1);
 	    if (defined $pattern) {
 		$pattern->mark_found_in_library($minver, $self->get_arch());
 		$sym = $pattern->create_pattern_match(symbol => $name);
 	    } else {
 		# Symbol without any special info as no pattern matched
 		$sym = Dpkg::Shlibs::Symbol->new(symbol => $name,
 		                                 minver => $minver);
 	    }
 	    $self->add_symbol($sym, $obj);
 	}
     }

     # Process all symbols which could not be found in the library.
     foreach my $sym ($self->get_symbols($soname)) {
 	if (not exists $dynsyms{$sym->get_symbolname()}) {
 	    $sym->mark_not_found_in_library($minver, $self->get_arch());
 	}
     }

     # Deprecate patterns which didn't match anything
     for my $pattern (grep { $_->get_pattern_matches() == 0 }
                           $self->get_patterns($soname)) {
 	$pattern->mark_not_found_in_library($minver, $self->get_arch());
     }
 }

 sub is_empty {
     my ($self) = @_;
     return scalar(keys %{$self->{objects}}) ? 0 : 1;
 }

 sub has_object {
     my ($self, $soname) = @_;
     return exists $self->{objects}{$soname};
 }

 sub get_object {
     my ($self, $soname) = @_;
     return ref($soname) ? $soname : $self->{objects}{$soname};
 }

 sub create_object {
     my ($self, $soname, @deps) = @_;
     $self->{objects}{$soname} = {
 	syms => {},
 	fields => {},
 	patterns => {
 	    aliases => {},
 	    generic => [],
 	},
 	deps => [ @deps ],
         minver_cache => []
     };
 }

 sub get_dependency {
     my ($self, $soname, $dep_id) = @_;
     $dep_id = 0 unless defined($dep_id);
     return $self->get_object($soname)->{deps}[$dep_id];
 }

 sub get_smallest_version {
     my ($self, $soname, $dep_id) = @_;
     $dep_id = 0 unless defined($dep_id);
     my $so_object = $self->get_object($soname);
     return $so_object->{minver_cache}[$dep_id] if(defined($so_object->{minver_cache}[$dep_id]));
     my $minver;
     foreach my $sym ($self->get_symbols($so_object)) {
         next if $dep_id != $sym->{dep_id};
         $minver = $sym->{minver} unless defined($minver);
         if (version_compare($minver, $sym->{minver}) > 0) {
             $minver = $sym->{minver};
         }
     }
     $so_object->{minver_cache}[$dep_id] = $minver;
     return $minver;
 }

 sub get_dependencies {
     my ($self, $soname) = @_;
     return @{$self->get_object($soname)->{deps}};
 }

 sub get_field {
     my ($self, $soname, $name) = @_;
     if (my $obj = $self->get_object($soname)) {
 	if (exists $obj->{fields}{$name}) {
 	    return $obj->{fields}{$name};
 	}
     }
     return undef;
 }

 # Tries to find a symbol like the $refsym and returns its descriptor.
 # $refsym may also be a symbol name.
 sub lookup_symbol {
     my ($self, $refsym, $sonames, $inc_deprecated) = @_;
     $inc_deprecated = 0 unless defined($inc_deprecated);
     my $name = (ref $refsym) ? $refsym->get_symbolname() : $refsym;

     foreach my $so ((ref($sonames) eq 'ARRAY') ? @$sonames : $sonames) {
 	if (my $obj = $self->get_object($so)) {
 	    my $sym = $obj->{syms}{$name};
 	    if ($sym and ($inc_deprecated or not $sym->{deprecated}))
 	    {
 		return (wantarray) ?
 		    ( symbol => $sym, soname => $so ) : $sym;
 	    }
 	}
     }
     return (wantarray) ? () : undef;
 }

 # Tries to find a pattern like the $refpat and returns its descriptor.
 # $refpat may also be a pattern spec.
 sub lookup_pattern {
     my ($self, $refpat, $sonames, $inc_deprecated) = @_;
     $inc_deprecated = 0 unless defined($inc_deprecated);
     # If $refsym is a string, we need to create a dummy ref symbol.
     $refpat = $self->create_symbol($refpat, dummy => 1) if ! ref($refpat);

     if ($refpat && $refpat->is_pattern()) {
 	foreach my $soname ((ref($sonames) eq 'ARRAY') ? @$sonames : $sonames) {
 	    if (my $obj = $self->get_object($soname)) {
 		my $pat;
 		if (my $type = $refpat->get_alias_type()) {
 		    if (exists $obj->{patterns}{aliases}{$type}) {
 			$pat = $obj->{patterns}{aliases}{$type}{$refpat->get_symbolname()};
 		    }
 		} elsif ($refpat->get_pattern_type() eq "generic") {
 		    for my $p (@{$obj->{patterns}{generic}}) {
 			if (($inc_deprecated || !$p->{deprecated}) &&
 			    $p->equals($refpat, versioning => 0))
 			{
 			    $pat = $p;
 			    last;
 			}
 		    }
 		}
 		if ($pat && ($inc_deprecated || !$pat->{deprecated})) {
 		    return (wantarray) ?
 			(symbol => $pat, soname => $soname) : $pat;
 		}
 	    }
 	}
     }
     return (wantarray) ? () : undef;
 }

 # Get symbol object reference either by symbol name or by a reference object.
 sub get_symbol_object {
     my ($self, $refsym, $soname) = @_;
     my $sym = $self->lookup_symbol($refsym, $soname, 1);
     if (! defined $sym) {
 	$sym = $self->lookup_pattern($refsym, $soname, 1);
     }
     return $sym;
 }

 sub get_new_symbols {
     my ($self, $ref, %opts) = @_;
     my $with_optional = (exists $opts{with_optional}) ?
 	$opts{with_optional} : 0;
     my @res;
     foreach my $soname ($self->get_sonames()) {
 	next if not $ref->has_object($soname);

 	# Scan raw symbols first.
 	foreach my $sym (grep { ($with_optional || ! $_->is_optional())
 	                        && $_->is_legitimate($self->get_arch()) }
 	                      $self->get_symbols($soname))
 	{
 	    my $refsym = $ref->lookup_symbol($sym, $soname, 1);
 	    my $isnew;
 	    if (defined $refsym) {
 		# If the symbol exists in the $ref symbol file, it might
 		# still be new if $refsym is not legitimate.
 		$isnew = not $refsym->is_legitimate($self->get_arch());
 	    } else {
 		# If the symbol does not exist in the $ref symbol file, it does
 		# not mean that it's new. It might still match a pattern in the
 		# symbol file. However, due to performance reasons, first check
 		# if the pattern that the symbol matches (if any) exists in the
 		# ref symbol file as well.
 		$isnew = not (
 		    ($sym->get_pattern() and $ref->lookup_pattern($sym->get_pattern(), $soname, 1)) or
 		    $ref->find_matching_pattern($sym, $soname, 1)
 		);
 	    }
 	    push @res, { symbol => $sym, soname => $soname } if $isnew;
 	}

 	# Now scan patterns
 	foreach my $p (grep { ($with_optional || ! $_->is_optional())
 	                      && $_->is_legitimate($self->get_arch()) }
 	                    $self->get_patterns($soname))
 	{
 	    my $refpat = $ref->lookup_pattern($p, $soname, 0);
 	    # If reference pattern was not found or it is not legitimate,
 	    # considering current one as new.
 	    if (not defined $refpat or
 	        not $refpat->is_legitimate($self->get_arch()))
 	    {
 		push @res, { symbol => $p , soname => $soname };
 	    }
 	}
     }
     return @res;
 }

 sub get_lost_symbols {
     my ($self, $ref, %opts) = @_;
     return $ref->get_new_symbols($self, %opts);
 }


 sub get_new_libs {
     my ($self, $ref) = @_;
     my @res;
     foreach my $soname ($self->get_sonames()) {
 	push @res, $soname if not $ref->get_object($soname);
     }
     return @res;
 }

 sub get_lost_libs {
     my ($self, $ref) = @_;
     return $ref->get_new_libs($self);
 }

 1;
	# Copyright © 2007 Raphaël Hertzog <hertzog@debian.org>
	# Copyright © 2009-2010 Modestas Vainius <modax@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 <http://www.gnu.org/licenses/>.

	package Dpkg::Shlibs::SymbolFile;

	use strict;
	use warnings;

	our $VERSION = "0.01";

	use Dpkg::Gettext;
	use Dpkg::ErrorHandling;
	use Dpkg::Version;
	use Dpkg::Control::Fields;
	use Dpkg::Shlibs::Symbol;
	use Dpkg::Arch qw(get_host_arch);

	use base qw(Dpkg::Interface::Storable);

	my %blacklist = (
	'__bss_end__' => 1, # arm
	'__bss_end' => 1, # arm
	'_bss_end__' => 1, # arm
	'__bss_start' => 1, # ALL
	'__bss_start__' => 1, # arm
	'__data_start' => 1, # arm
	'__do_global_ctors_aux' => 1, # ia64
	'__do_global_dtors_aux' => 1, # ia64
	'__do_jv_register_classes' => 1,# ia64
	'_DYNAMIC' => 1, # ALL
	'_edata' => 1, # ALL
	'_end' => 1, # ALL
	'__end__' => 1, # arm
	'__exidx_end' => 1, # armel
	'__exidx_start' => 1, # armel
	'_fbss' => 1, # mips, mipsel
	'_fdata' => 1, # mips, mipsel
	'_fini' => 1, # ALL
	'_ftext' => 1, # mips, mipsel
	'_GLOBAL_OFFSET_TABLE_' => 1, # hppa, mips, mipsel
	'__gmon_start__' => 1, # hppa
	'__gnu_local_gp' => 1, # mips, mipsel
	'_gp' => 1, # mips, mipsel
	'_init' => 1, # ALL
	'_PROCEDURE_LINKAGE_TABLE_' => 1, # sparc, alpha
	'_SDA2_BASE_' => 1, # powerpc
	'_SDA_BASE_' => 1, # powerpc
	);

	for (my $i = 14; $i <= 31; $i++) {
	# Many powerpc specific symbols
	$blacklist{"_restfpr_$i"} = 1;
	$blacklist{"_restfpr_$i\_x"} = 1;
	$blacklist{"_restgpr_$i"} = 1;
	$blacklist{"_restgpr_$i\_x"} = 1;
	$blacklist{"_savefpr_$i"} = 1;
	$blacklist{"_savegpr_$i"} = 1;
	}

	# Many armel-specific symbols
	$blacklist{"__aeabi_$_"} = 1 foreach (qw(cdcmpeq cdcmple cdrcmple cfcmpeq
	cfcmple cfrcmple d2f d2iz d2lz d2uiz d2ulz dadd dcmpeq dcmpge dcmpgt
	dcmple dcmplt dcmpun ddiv dmul dneg drsub dsub f2d f2iz f2lz f2uiz f2ulz
	fadd fcmpeq fcmpge fcmpgt fcmple fcmplt fcmpun fdiv fmul fneg frsub fsub
	i2d i2f idiv idivmod l2d l2f lasr lcmp ldivmod llsl llsr lmul ui2d ui2f
	uidiv uidivmod ul2d ul2f ulcmp uldivmod unwind_cpp_pr0 unwind_cpp_pr1
	unwind_cpp_pr2 uread4 uread8 uwrite4 uwrite8));

	sub new {
	my $this = shift;
	my %opts=@_;
	my $class = ref($this) \|\| $this;
	my $self = \%opts;
	bless $self, $class;
	$self->{arch} = get_host_arch() unless defined $self->{arch};
	$self->clear();
	if (exists $self->{file}) {
	$self->load($self->{file}) if -e $self->{file};
	}
	return $self;
	}

	sub get_arch {
	my ($self) = @_;
	return $self->{arch};
	}

	sub clear {
	my ($self) = @_;
	$self->{objects} = {};
	}

	sub clear_except {
	my ($self, @ids) = @_;
	my %has;
	$has{$_} = 1 foreach (@ids);
	foreach my $objid (keys %{$self->{objects}}) {
	delete $self->{objects}{$objid} unless exists $has{$objid};
	}
	}

	sub get_sonames {
	my ($self) = @_;
	return keys %{$self->{objects}};
	}

	sub get_symbols {
	my ($self, $soname) = @_;
	if (defined $soname) {
	my $obj = $self->get_object($soname);
	return (defined $obj) ? values %{$obj->{syms}} : ();
	} else {
	my @syms;
	foreach my $soname ($self->get_sonames()) {
	push @syms, $self->get_symbols($soname);
	}
	return @syms;
	}
	}

	sub get_patterns {
	my ($self, $soname) = @_;
	my @patterns;
	if (defined $soname) {
	my $obj = $self->get_object($soname);
	foreach my $alias (values %{$obj->{patterns}{aliases}}) {
	push @patterns, values %$alias;
	}
	return (@patterns, @{$obj->{patterns}{generic}});
	} else {
	foreach my $soname ($self->get_sonames()) {
	push @patterns, $self->get_patterns($soname);
	}
	return @patterns;
	}
	}

	# Create a symbol from the supplied string specification.
	sub create_symbol {
	my ($self, $spec, %opts) = @_;
	my $symbol = (exists $opts{base}) ? $opts{base} :
	Dpkg::Shlibs::Symbol->new();

	my $ret = $opts{dummy} ? $symbol->parse_symbolspec($spec, default_minver => 0) :
	$symbol->parse_symbolspec($spec);
	if ($ret) {
	$symbol->initialize(arch => $self->get_arch());
	return $symbol;
	}
	return undef;
	}

	sub add_symbol {
	my ($self, $symbol, $soname) = @_;
	my $object = $self->get_object($soname);

	if ($symbol->is_pattern()) {
	if (my $alias_type = $symbol->get_alias_type()) {
	unless (exists $object->{patterns}{aliases}{$alias_type}) {
	$object->{patterns}{aliases}{$alias_type} = {};
	}
	# Alias hash for matching.
	my $aliases = $object->{patterns}{aliases}{$alias_type};
	$aliases->{$symbol->get_symbolname()} = $symbol;
	} else {
	# Otherwise assume this is a generic sequential pattern. This
	# should be always safe.
	push @{$object->{patterns}{generic}}, $symbol;
	}
	return 'pattern';
	} else {
	# invalidate the minimum version cache
	$object->{minver_cache} = [];
	$object->{syms}{$symbol->get_symbolname()} = $symbol;
	return 'sym';
	}
	}

	# Parameter seen is only used for recursive calls
	sub parse {
	my ($self, $fh, $file, $seen, $obj_ref, $base_symbol) = @_;

	sub new_symbol {
	my $base = shift \|\| 'Dpkg::Shlibs::Symbol';
	return (ref $base) ? $base->clone(@_) : $base->new(@_);
	}

	if (defined($seen)) {
	return if exists $seen->{$file}; # Avoid include loops
	} else {
	$self->{file} = $file;
	$seen = {};
	}
	$seen->{$file} = 1;

	if (not ref($obj_ref)) { # Init ref to name of current object/lib
	$$obj_ref = undef;
	}

	while (defined($_ = <$fh>)) {
	chomp($_);

	if (/^(?:\s+\|#(?:DEPRECATED\|MISSING): ([^#]+)#\s)(.)/) {
	if (not defined ($$obj_ref)) {
	error(_g("Symbol information must be preceded by a header (file %s, line %s)."), $file, $.);
	}
	# Symbol specification
	my $deprecated = ($1) ? $1 : 0;
	my $sym = new_symbol($base_symbol, deprecated => $deprecated);
	if ($self->create_symbol($2, base => $sym)) {
	$self->add_symbol($sym, $$obj_ref);
	} else {
	warning(_g("Failed to parse line in %s: %s"), $file, $_);
	}
	} elsif (/^(\(.*\))?#include\s+"([^"]+)"/) {
	my $tagspec = $1;
	my $filename = $2;
	my $dir = $file;
	my $new_base_symbol;
	if (defined $tagspec) {
	$new_base_symbol = new_symbol($base_symbol);
	$new_base_symbol->parse_tagspec($tagspec);
	}
	$dir =~ s{[^/]+$}{}; # Strip filename
	$self->load("$dir$filename", $seen, $obj_ref, $new_base_symbol);
	} elsif (/^#\|^$/) {
	# Skip possible comments and empty lines
	} elsif (/^\\|\s(.)$/) {
	# Alternative dependency template
	push @{$self->{objects}{$$obj_ref}{deps}}, "$1";
	} elsif (/^\\s([^:]+):\s(.\S)\s*$/) {
	# Add meta-fields
	$self->{objects}{$$obj_ref}{fields}{field_capitalize($1)} = $2;
	} elsif (/^(\S+)\s+(.*)$/) {
	# New object and dependency template
	$$obj_ref = $1;
	if (exists $self->{objects}{$$obj_ref}) {
	# Update/override infos only
	$self->{objects}{$$obj_ref}{deps} = [ "$2" ];
	} else {
	# Create a new object
	$self->create_object($$obj_ref, "$2");
	}
	} else {
	warning(_g("Failed to parse a line in %s: %s"), $file, $_);
	}
	}
	delete $seen->{$file};
	}

	# Beware: we reuse the data structure of the provided symfile so make
	# sure to not modify them after having called this function
	sub merge_object_from_symfile {
	my ($self, $src, $objid) = @_;
	if (not $self->has_object($objid)) {
	$self->{objects}{$objid} = $src->get_object($objid);
	} else {
	warning(_g("Tried to merge the same object (%s) twice in a symfile."), $objid);
	}
	}

	sub output {
	my ($self, $fh, %opts) = @_;
	$opts{template_mode} = 0 unless exists $opts{template_mode};
	$opts{with_deprecated} = 1 unless exists $opts{with_deprecated};
	$opts{with_pattern_matches} = 0 unless exists $opts{with_pattern_matches};
	my $res = "";
	foreach my $soname (sort $self->get_sonames()) {
	my @deps = $self->get_dependencies($soname);
	my $dep = shift @deps;
	$dep =~ s/#PACKAGE#/$opts{package}/g if exists $opts{package};
	print $fh "$soname $dep\n" if defined $fh;
	$res .= "$soname $dep\n" if defined wantarray;

	foreach $dep (@deps) {
	$dep =~ s/#PACKAGE#/$opts{package}/g if exists $opts{package};
	print $fh "\| $dep\n" if defined $fh;
	$res .= "\| $dep\n" if defined wantarray;
	}
	my $f = $self->{objects}{$soname}{fields};
	foreach my $field (sort keys %{$f}) {
	my $value = $f->{$field};
	$value =~ s/#PACKAGE#/$opts{package}/g if exists $opts{package};
	print $fh "* $field: $value\n" if defined $fh;
	$res .= "* $field: $value\n" if defined wantarray;
	}

	my @symbols;
	if ($opts{template_mode}) {
	# Exclude symbols matching a pattern, but include patterns themselves
	@symbols = grep { not $_->get_pattern() } $self->get_symbols($soname);
	push @symbols, $self->get_patterns($soname);
	} else {
	@symbols = $self->get_symbols($soname);
	}
	foreach my $sym (sort { $a->get_symboltempl() cmp
	$b->get_symboltempl() } @symbols) {
	next if $sym->{deprecated} and not $opts{with_deprecated};
	# Do not dump symbols from foreign arch unless dumping a template.
	next if not $opts{template_mode} and
	not $sym->arch_is_concerned($self->get_arch());
	# Dump symbol specification. Dump symbol tags only in template mode.
	print $fh $sym->get_symbolspec($opts{template_mode}), "\n" if defined $fh;
	$res .= $sym->get_symbolspec($opts{template_mode}) . "\n" if defined wantarray;
	# Dump pattern matches as comments (if requested)
	if ($opts{with_pattern_matches} && $sym->is_pattern()) {
	for my $match (sort { $a->get_symboltempl() cmp
	$b->get_symboltempl() } $sym->get_pattern_matches())
	{
	print $fh "#MATCH:", $match->get_symbolspec(0), "\n" if defined $fh;
	$res .= "#MATCH:" . $match->get_symbolspec(0) . "\n" if defined wantarray;
	}
	}
	}
	}
	return $res;
	}

	# Tries to match a symbol name and/or version against the patterns defined.
	# Returns a pattern which matches (if any).
	sub find_matching_pattern {
	my ($self, $refsym, $sonames, $inc_deprecated) = @_;
	$inc_deprecated = 0 unless defined $inc_deprecated;
	my $name = (ref $refsym) ? $refsym->get_symbolname() : $refsym;

	my $pattern_ok = sub {
	my $p = shift;
	return defined $p && ($inc_deprecated \|\| !$p->{deprecated}) &&
	$p->arch_is_concerned($self->get_arch());
	};

	foreach my $soname ((ref($sonames) eq 'ARRAY') ? @$sonames : $sonames) {
	my $obj = $self->get_object($soname);
	my ($type, $pattern);
	next unless defined $obj;

	my $all_aliases = $obj->{patterns}{aliases};
	for my $type (Dpkg::Shlibs::Symbol::ALIAS_TYPES) {
	if (exists $all_aliases->{$type} && keys(%{$all_aliases->{$type}})) {
	my $aliases = $all_aliases->{$type};
	my $converter = $aliases->{(keys %$aliases)[0]};
	if (my $alias = $converter->convert_to_alias($name)) {
	if ($alias && exists $aliases->{$alias}) {
	$pattern = $aliases->{$alias};
	last if &$pattern_ok($pattern);
	$pattern = undef; # otherwise not found yet
	}
	}
	}
	}

	# Now try generic patterns and use the first that matches
	if (not defined $pattern) {
	for my $p (@{$obj->{patterns}{generic}}) {
	if (&$pattern_ok($p) && $p->matches_rawname($name)) {
	$pattern = $p;
	last;
	}
	}
	}
	if (defined $pattern) {
	return (wantarray) ?
	( symbol => $pattern, soname => $soname ) : $pattern;
	}
	}
	return (wantarray) ? () : undef;
	}

	# merge_symbols($object, $minver)
	# Needs $Objdump->get_object($soname) as parameter
	# Don't merge blacklisted symbols related to the internal (arch-specific)
	# machinery
	sub merge_symbols {
	my ($self, $object, $minver) = @_;
	my $soname = $object->{SONAME} \|\| error(_g("Can't merge symbols from objects without SONAME."));
	my %dynsyms;
	foreach my $sym ($object->get_exported_dynamic_symbols()) {
	my $name = $sym->{name} . '@' .
	($sym->{version} ? $sym->{version} : "Base");
	my $symobj = $self->lookup_symbol($name, $soname);
	if (exists $blacklist{$sym->{name}}) {
	next unless (defined $symobj and $symobj->has_tag("ignore-blacklist"));
	}
	$dynsyms{$name} = $sym;
	}

	unless ($self->has_object($soname)) {
	$self->create_object($soname, '');
	}
	# Scan all symbols provided by the objects
	my $obj = $self->get_object($soname);
	# invalidate the minimum version cache - it is not sufficient to
	# invalidate in add_symbol, since we might change a minimum
	# version for a particular symbol without adding it
	$obj->{minver_cache} = [];
	foreach my $name (keys %dynsyms) {
	my $sym;
	if ($sym = $self->lookup_symbol($name, $obj, 1)) {
	# If the symbol is already listed in the file
	$sym->mark_found_in_library($minver, $self->get_arch());
	} else {
	# The exact symbol is not present in the file, but it might match a
	# pattern.
	my $pattern = $self->find_matching_pattern($name, $obj, 1);
	if (defined $pattern) {
	$pattern->mark_found_in_library($minver, $self->get_arch());
	$sym = $pattern->create_pattern_match(symbol => $name);
	} else {
	# Symbol without any special info as no pattern matched
	$sym = Dpkg::Shlibs::Symbol->new(symbol => $name,
	minver => $minver);
	}
	$self->add_symbol($sym, $obj);
	}
	}

	# Process all symbols which could not be found in the library.
	foreach my $sym ($self->get_symbols($soname)) {
	if (not exists $dynsyms{$sym->get_symbolname()}) {
	$sym->mark_not_found_in_library($minver, $self->get_arch());
	}
	}

	# Deprecate patterns which didn't match anything
	for my $pattern (grep { $_->get_pattern_matches() == 0 }
	$self->get_patterns($soname)) {
	$pattern->mark_not_found_in_library($minver, $self->get_arch());
	}
	}

	sub is_empty {
	my ($self) = @_;
	return scalar(keys %{$self->{objects}}) ? 0 : 1;
	}

	sub has_object {
	my ($self, $soname) = @_;
	return exists $self->{objects}{$soname};
	}

	sub get_object {
	my ($self, $soname) = @_;
	return ref($soname) ? $soname : $self->{objects}{$soname};
	}

	sub create_object {
	my ($self, $soname, @deps) = @_;
	$self->{objects}{$soname} = {
	syms => {},
	fields => {},
	patterns => {
	aliases => {},
	generic => [],
	},
	deps => [ @deps ],
	minver_cache => []
	};
	}

	sub get_dependency {
	my ($self, $soname, $dep_id) = @_;
	$dep_id = 0 unless defined($dep_id);
	return $self->get_object($soname)->{deps}[$dep_id];
	}

	sub get_smallest_version {
	my ($self, $soname, $dep_id) = @_;
	$dep_id = 0 unless defined($dep_id);
	my $so_object = $self->get_object($soname);
	return $so_object->{minver_cache}[$dep_id] if(defined($so_object->{minver_cache}[$dep_id]));
	my $minver;
	foreach my $sym ($self->get_symbols($so_object)) {
	next if $dep_id != $sym->{dep_id};
	$minver = $sym->{minver} unless defined($minver);
	if (version_compare($minver, $sym->{minver}) > 0) {
	$minver = $sym->{minver};
	}
	}
	$so_object->{minver_cache}[$dep_id] = $minver;
	return $minver;
	}

	sub get_dependencies {
	my ($self, $soname) = @_;
	return @{$self->get_object($soname)->{deps}};
	}

	sub get_field {
	my ($self, $soname, $name) = @_;
	if (my $obj = $self->get_object($soname)) {
	if (exists $obj->{fields}{$name}) {
	return $obj->{fields}{$name};
	}
	}
	return undef;
	}

	# Tries to find a symbol like the $refsym and returns its descriptor.
	# $refsym may also be a symbol name.
	sub lookup_symbol {
	my ($self, $refsym, $sonames, $inc_deprecated) = @_;
	$inc_deprecated = 0 unless defined($inc_deprecated);
	my $name = (ref $refsym) ? $refsym->get_symbolname() : $refsym;

	foreach my $so ((ref($sonames) eq 'ARRAY') ? @$sonames : $sonames) {
	if (my $obj = $self->get_object($so)) {
	my $sym = $obj->{syms}{$name};
	if ($sym and ($inc_deprecated or not $sym->{deprecated}))
	{
	return (wantarray) ?
	( symbol => $sym, soname => $so ) : $sym;
	}
	}
	}
	return (wantarray) ? () : undef;
	}

	# Tries to find a pattern like the $refpat and returns its descriptor.
	# $refpat may also be a pattern spec.
	sub lookup_pattern {
	my ($self, $refpat, $sonames, $inc_deprecated) = @_;
	$inc_deprecated = 0 unless defined($inc_deprecated);
	# If $refsym is a string, we need to create a dummy ref symbol.
	$refpat = $self->create_symbol($refpat, dummy => 1) if ! ref($refpat);

	if ($refpat && $refpat->is_pattern()) {
	foreach my $soname ((ref($sonames) eq 'ARRAY') ? @$sonames : $sonames) {
	if (my $obj = $self->get_object($soname)) {
	my $pat;
	if (my $type = $refpat->get_alias_type()) {
	if (exists $obj->{patterns}{aliases}{$type}) {
	$pat = $obj->{patterns}{aliases}{$type}{$refpat->get_symbolname()};
	}
	} elsif ($refpat->get_pattern_type() eq "generic") {
	for my $p (@{$obj->{patterns}{generic}}) {
	if (($inc_deprecated \|\| !$p->{deprecated}) &&
	$p->equals($refpat, versioning => 0))
	{
	$pat = $p;
	last;
	}
	}
	}
	if ($pat && ($inc_deprecated \|\| !$pat->{deprecated})) {
	return (wantarray) ?
	(symbol => $pat, soname => $soname) : $pat;
	}
	}
	}
	}
	return (wantarray) ? () : undef;
	}

	# Get symbol object reference either by symbol name or by a reference object.
	sub get_symbol_object {
	my ($self, $refsym, $soname) = @_;
	my $sym = $self->lookup_symbol($refsym, $soname, 1);
	if (! defined $sym) {
	$sym = $self->lookup_pattern($refsym, $soname, 1);
	}
	return $sym;
	}

	sub get_new_symbols {
	my ($self, $ref, %opts) = @_;
	my $with_optional = (exists $opts{with_optional}) ?
	$opts{with_optional} : 0;
	my @res;
	foreach my $soname ($self->get_sonames()) {
	next if not $ref->has_object($soname);

	# Scan raw symbols first.
	foreach my $sym (grep { ($with_optional \|\| ! $_->is_optional())
	&& $_->is_legitimate($self->get_arch()) }
	$self->get_symbols($soname))
	{
	my $refsym = $ref->lookup_symbol($sym, $soname, 1);
	my $isnew;
	if (defined $refsym) {
	# If the symbol exists in the $ref symbol file, it might
	# still be new if $refsym is not legitimate.
	$isnew = not $refsym->is_legitimate($self->get_arch());
	} else {
	# If the symbol does not exist in the $ref symbol file, it does
	# not mean that it's new. It might still match a pattern in the
	# symbol file. However, due to performance reasons, first check
	# if the pattern that the symbol matches (if any) exists in the
	# ref symbol file as well.
	$isnew = not (
	($sym->get_pattern() and $ref->lookup_pattern($sym->get_pattern(), $soname, 1)) or
	$ref->find_matching_pattern($sym, $soname, 1)
	);
	}
	push @res, { symbol => $sym, soname => $soname } if $isnew;
	}

	# Now scan patterns
	foreach my $p (grep { ($with_optional \|\| ! $_->is_optional())
	&& $_->is_legitimate($self->get_arch()) }
	$self->get_patterns($soname))
	{
	my $refpat = $ref->lookup_pattern($p, $soname, 0);
	# If reference pattern was not found or it is not legitimate,
	# considering current one as new.
	if (not defined $refpat or
	not $refpat->is_legitimate($self->get_arch()))
	{
	push @res, { symbol => $p , soname => $soname };
	}
	}
	}
	return @res;
	}

	sub get_lost_symbols {
	my ($self, $ref, %opts) = @_;
	return $ref->get_new_symbols($self, %opts);
	}


	sub get_new_libs {
	my ($self, $ref) = @_;
	my @res;
	foreach my $soname ($self->get_sonames()) {
	push @res, $soname if not $ref->get_object($soname);
	}
	return @res;
	}

	sub get_lost_libs {
	my ($self, $ref) = @_;
	return $ref->get_new_libs($self);
	}

	1;