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# Copyright © 2007-2010 Raphaël Hertzog <hertzog@debian.org>
# Copyright © 2007-2009,2012-2015,2017-2018 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::Shlibs::Objdump;
use strict;
use warnings;
use feature qw(state);
our $VERSION = '0.01';
use Dpkg::Gettext;
use Dpkg::ErrorHandling;
sub new {
my $this = shift;
my $class = ref($this) || $this;
my $self = { objects => {} };
bless $self, $class;
return $self;
}
sub add_object {
my ($self, $obj) = @_;
my $id = $obj->get_id;
if ($id) {
$self->{objects}{$id} = $obj;
}
return $id;
}
sub analyze {
my ($self, $file) = @_;
my $obj = Dpkg::Shlibs::Objdump::Object->new($file);
return $self->add_object($obj);
}
sub locate_symbol {
my ($self, $name) = @_;
foreach my $obj (values %{$self->{objects}}) {
my $sym = $obj->get_symbol($name);
if (defined($sym) && $sym->{defined}) {
return $sym;
}
}
return;
}
sub get_object {
my ($self, $objid) = @_;
if ($self->has_object($objid)) {
return $self->{objects}{$objid};
}
return;
}
sub has_object {
my ($self, $objid) = @_;
return exists $self->{objects}{$objid};
}
use constant {
ELF_BITS_NONE => 0,
ELF_BITS_32 => 1,
ELF_BITS_64 => 2,
ELF_ORDER_NONE => 0,
ELF_ORDER_2LSB => 1,
ELF_ORDER_2MSB => 2,
ELF_MACH_SPARC => 2,
ELF_MACH_MIPS => 8,
ELF_MACH_SPARC64_OLD => 11,
ELF_MACH_SPARC32PLUS => 18,
ELF_MACH_PPC64 => 21,
ELF_MACH_S390 => 22,
ELF_MACH_ARM => 40,
ELF_MACH_ALPHA_OLD => 41,
ELF_MACH_SH => 42,
ELF_MACH_SPARC64 => 43,
ELF_MACH_IA64 => 50,
ELF_MACH_AVR => 83,
ELF_MACH_M32R => 88,
ELF_MACH_MN10300 => 89,
ELF_MACH_MN10200 => 90,
ELF_MACH_OR1K => 92,
ELF_MACH_XTENSA => 94,
ELF_MACH_MICROBLAZE => 189,
ELF_MACH_AVR_OLD => 0x1057,
ELF_MACH_OR1K_OLD => 0x8472,
ELF_MACH_ALPHA => 0x9026,
ELF_MACH_M32R_CYGNUS => 0x9041,
ELF_MACH_S390_OLD => 0xa390,
ELF_MACH_XTENSA_OLD => 0xabc7,
ELF_MACH_MICROBLAZE_OLD => 0xbaab,
ELF_MACH_MN10300_CYGNUS => 0xbeef,
ELF_MACH_MN10200_CYGNUS => 0xdead,
ELF_VERSION_NONE => 0,
ELF_VERSION_CURRENT => 1,
# List of processor flags that might influence the ABI.
ELF_FLAG_ARM_ALIGN8 => 0x00000040,
ELF_FLAG_ARM_NEW_ABI => 0x00000080,
ELF_FLAG_ARM_OLD_ABI => 0x00000100,
ELF_FLAG_ARM_SOFT_FLOAT => 0x00000200,
ELF_FLAG_ARM_HARD_FLOAT => 0x00000400,
ELF_FLAG_ARM_EABI_MASK => 0xff000000,
ELF_FLAG_IA64_ABI64 => 0x00000010,
ELF_FLAG_MIPS_ABI2 => 0x00000020,
ELF_FLAG_MIPS_32BIT => 0x00000100,
ELF_FLAG_MIPS_FP64 => 0x00000200,
ELF_FLAG_MIPS_NAN2008 => 0x00000400,
ELF_FLAG_MIPS_ABI_MASK => 0x0000f000,
ELF_FLAG_MIPS_ARCH_MASK => 0xf0000000,
ELF_FLAG_PPC64_ABI64 => 0x00000003,
ELF_FLAG_SH_MACH_MASK => 0x0000001f,
};
# These map alternative or old machine IDs to their canonical form.
my %elf_mach_map = (
ELF_MACH_ALPHA_OLD() => ELF_MACH_ALPHA,
ELF_MACH_AVR_OLD() => ELF_MACH_AVR,
ELF_MACH_M32R_CYGNUS() => ELF_MACH_M32R,
ELF_MACH_MICROBLAZE_OLD() => ELF_MACH_MICROBLAZE,
ELF_MACH_MN10200_CYGNUS() => ELF_MACH_MN10200,
ELF_MACH_MN10300_CYGNUS() => ELF_MACH_MN10300,
ELF_MACH_OR1K_OLD() => ELF_MACH_OR1K,
ELF_MACH_S390_OLD() => ELF_MACH_S390,
ELF_MACH_SPARC32PLUS() => ELF_MACH_SPARC,
ELF_MACH_SPARC64_OLD() => ELF_MACH_SPARC64,
ELF_MACH_XTENSA_OLD() => ELF_MACH_XTENSA,
);
# These masks will try to expose processor flags that are ABI incompatible,
# and as such are part of defining the architecture ABI. If uncertain it is
# always better to not mask a flag, because that preserves the historical
# behavior, and we do not drop dependencies.
my %elf_flags_mask = (
ELF_MACH_IA64() => ELF_FLAG_IA64_ABI64,
ELF_MACH_MIPS() => ELF_FLAG_MIPS_ABI_MASK | ELF_FLAG_MIPS_ABI2,
ELF_MACH_PPC64() => ELF_FLAG_PPC64_ABI64,
);
sub get_format {
my ($file) = @_;
state %format;
return $format{$file} if exists $format{$file};
my $header;
open my $fh, '<', $file or syserr(g_('cannot read %s'), $file);
my $rc = read $fh, $header, 64;
if (not defined $rc) {
syserr(g_('cannot read %s'), $file);
} elsif ($rc != 64) {
return;
}
close $fh;
my %elf;
# Unpack the identifier field.
@elf{qw(magic bits endian vertype osabi verabi)} = unpack 'a4C5', $header;
return unless $elf{magic} eq "\x7fELF";
return unless $elf{vertype} == ELF_VERSION_CURRENT;
my ($elf_word, $elf_endian);
if ($elf{bits} == ELF_BITS_32) {
$elf_word = 'L';
} elsif ($elf{bits} == ELF_BITS_64) {
$elf_word = 'Q';
} else {
return;
}
if ($elf{endian} == ELF_ORDER_2LSB) {
$elf_endian = '<';
} elsif ($elf{endian} == ELF_ORDER_2MSB) {
$elf_endian = '>';
} else {
return;
}
# Unpack the endianness and size dependent fields.
my $tmpl = "x16(S2Lx[${elf_word}3]L)${elf_endian}";
@elf{qw(type mach version flags)} = unpack $tmpl, $header;
# Canonicalize the machine ID.
$elf{mach} = $elf_mach_map{$elf{mach}} // $elf{mach};
# Mask any processor flags that might not change the architecture ABI.
$elf{flags} &= $elf_flags_mask{$elf{mach}} // 0;
# Repack for easy comparison, as a big-endian byte stream, so that
# unpacking for output gives meaningful results.
$format{$file} = pack 'C2(SL)>', @elf{qw(bits endian mach flags)};
return $format{$file};
}
sub is_elf {
my $file = shift;
open(my $file_fh, '<', $file) or syserr(g_('cannot read %s'), $file);
my ($header, $result) = ('', 0);
if (read($file_fh, $header, 4) == 4) {
$result = 1 if ($header =~ /^\177ELF$/);
}
close($file_fh);
return $result;
}
package Dpkg::Shlibs::Objdump::Object;
use strict;
use warnings;
use feature qw(state);
use Dpkg::Gettext;
use Dpkg::ErrorHandling;
use Dpkg::Path qw(find_command);
use Dpkg::Arch qw(debarch_to_gnutriplet get_build_arch get_host_arch);
sub new {
my $this = shift;
my $file = shift // '';
my $class = ref($this) || $this;
my $self = {};
bless $self, $class;
$self->reset;
if ($file) {
$self->analyze($file);
}
return $self;
}
sub reset {
my $self = shift;
$self->{file} = '';
$self->{id} = '';
$self->{HASH} = '';
$self->{GNU_HASH} = '';
$self->{INTERP} = 0;
$self->{SONAME} = '';
$self->{NEEDED} = [];
$self->{RPATH} = [];
$self->{dynsyms} = {};
$self->{flags} = {};
$self->{dynrelocs} = {};
return $self;
}
sub _select_objdump {
# Decide which objdump to call
if (get_build_arch() ne get_host_arch()) {
my $od = debarch_to_gnutriplet(get_host_arch()) . '-objdump';
return $od if find_command($od);
}
return 'objdump';
}
sub analyze {
my ($self, $file) = @_;
$file ||= $self->{file};
return unless $file;
$self->reset;
$self->{file} = $file;
$self->{exec_abi} = Dpkg::Shlibs::Objdump::get_format($file);
if (not defined $self->{exec_abi}) {
warning(g_("unknown executable format in file '%s'"), $file);
return;
}
state $OBJDUMP = _select_objdump();
local $ENV{LC_ALL} = 'C';
open(my $objdump, '-|', $OBJDUMP, '-w', '-f', '-p', '-T', '-R', $file)
or syserr(g_('cannot fork for %s'), $OBJDUMP);
my $ret = $self->parse_objdump_output($objdump);
close($objdump);
return $ret;
}
sub parse_objdump_output {
my ($self, $fh) = @_;
my $section = 'none';
while (<$fh>) {
s/\s*$//;
next if length == 0;
if (/^DYNAMIC SYMBOL TABLE:/) {
$section = 'dynsym';
next;
} elsif (/^DYNAMIC RELOCATION RECORDS/) {
$section = 'dynreloc';
$_ = <$fh>; # Skip header
next;
} elsif (/^Dynamic Section:/) {
$section = 'dyninfo';
next;
} elsif (/^Program Header:/) {
$section = 'program';
next;
} elsif (/^Version definitions:/) {
$section = 'verdef';
next;
} elsif (/^Version References:/) {
$section = 'verref';
next;
}
if ($section eq 'dynsym') {
$self->parse_dynamic_symbol($_);
} elsif ($section eq 'dynreloc') {
if (/^\S+\s+(\S+)\s+(.+)$/) {
$self->{dynrelocs}{$2} = $1;
} else {
warning(g_("couldn't parse dynamic relocation record: %s"), $_);
}
} elsif ($section eq 'dyninfo') {
if (/^\s*NEEDED\s+(\S+)/) {
push @{$self->{NEEDED}}, $1;
} elsif (/^\s*SONAME\s+(\S+)/) {
$self->{SONAME} = $1;
} elsif (/^\s*HASH\s+(\S+)/) {
$self->{HASH} = $1;
} elsif (/^\s*GNU_HASH\s+(\S+)/) {
$self->{GNU_HASH} = $1;
} elsif (/^\s*RUNPATH\s+(\S+)/) {
# RUNPATH takes precedence over RPATH but is
# considered after LD_LIBRARY_PATH while RPATH
# is considered before (if RUNPATH is not set).
my $runpath = $1;
$self->{RPATH} = [ split /:/, $runpath ];
} elsif (/^\s*RPATH\s+(\S+)/) {
my $rpath = $1;
unless (scalar(@{$self->{RPATH}})) {
$self->{RPATH} = [ split /:/, $rpath ];
}
}
} elsif ($section eq 'program') {
if (/^\s*INTERP\s+/) {
$self->{INTERP} = 1;
}
} elsif ($section eq 'none') {
if (/^\s*.+:\s*file\s+format\s+(\S+)$/) {
$self->{format} = $1;
} elsif (/^architecture:\s*\S+,\s*flags\s*\S+:$/) {
# Parse 2 lines of "-f"
# architecture: i386, flags 0x00000112:
# EXEC_P, HAS_SYMS, D_PAGED
# start address 0x08049b50
$_ = <$fh>;
chomp;
$self->{flags}{$_} = 1 foreach (split(/,\s*/));
}
}
}
# Update status of dynamic symbols given the relocations that have
# been parsed after the symbols...
$self->apply_relocations();
return $section ne 'none';
}
# Output format of objdump -w -T
#
# /lib/libc.so.6: file format elf32-i386
#
# DYNAMIC SYMBOL TABLE:
# 00056ef0 g DF .text 000000db GLIBC_2.2 getwchar
# 00000000 g DO *ABS* 00000000 GCC_3.0 GCC_3.0
# 00069960 w DF .text 0000001e GLIBC_2.0 bcmp
# 00000000 w D *UND* 00000000 _pthread_cleanup_pop_restore
# 0000b788 g DF .text 0000008e Base .protected xine_close
# 0000b788 g DF .text 0000008e .hidden IA__g_free
# | ||||||| | | | |
# | ||||||| | | Version str (.visibility) + Symbol name
# | ||||||| | Alignment
# | ||||||| Section name (or *UND* for an undefined symbol)
# | ||||||F=Function,f=file,O=object
# | |||||d=debugging,D=dynamic
# | ||||I=Indirect
# | |||W=warning
# | ||C=constructor
# | |w=weak
# | g=global,l=local,!=both global/local
# Size of the symbol
#
# GLIBC_2.2 is the version string associated to the symbol
# (GLIBC_2.2) is the same but the symbol is hidden, a newer version of the
# symbol exist
my $vis_re = qr/(\.protected|\.hidden|\.internal|0x\S+)/;
my $dynsym_re = qr<
^
[0-9a-f]+ # Symbol size
\ (.{7}) # Flags
\s+(\S+) # Section name
\s+[0-9a-f]+ # Alignment
(?:\s+(\S+))? # Version string
(?:\s+$vis_re)? # Visibility
\s+(.+) # Symbol name
>x;
sub parse_dynamic_symbol {
my ($self, $line) = @_;
if ($line =~ $dynsym_re) {
my ($flags, $sect, $ver, $vis, $name) = ($1, $2, $3, $4, $5);
# Special case if version is missing but extra visibility
# attribute replaces it in the match
if (defined($ver) and $ver =~ /^$vis_re$/) {
$vis = $ver;
$ver = '';
}
# Cleanup visibility field
$vis =~ s/^\.// if defined($vis);
my $symbol = {
name => $name,
version => $ver // '',
section => $sect,
dynamic => substr($flags, 5, 1) eq 'D',
debug => substr($flags, 5, 1) eq 'd',
type => substr($flags, 6, 1),
weak => substr($flags, 1, 1) eq 'w',
local => substr($flags, 0, 1) eq 'l',
global => substr($flags, 0, 1) eq 'g',
visibility => $vis // '',
hidden => '',
defined => $sect ne '*UND*'
};
# Handle hidden symbols
if (defined($ver) and $ver =~ /^\((.*)\)$/) {
$ver = $1;
$symbol->{version} = $1;
$symbol->{hidden} = 1;
}
# Register symbol
$self->add_dynamic_symbol($symbol);
} elsif ($line =~ /^[0-9a-f]+ (.{7})\s+(\S+)\s+[0-9a-f]+/) {
# Same start but no version and no symbol ... just ignore
} elsif ($line =~ /^REG_G\d+\s+/) {
# Ignore some s390-specific output like
# REG_G6 g R *UND* 0000000000000000 #scratch
} else {
warning(g_("couldn't parse dynamic symbol definition: %s"), $line);
}
}
sub apply_relocations {
my $self = shift;
foreach my $sym (values %{$self->{dynsyms}}) {
# We want to mark as undefined symbols those which are currently
# defined but that depend on a copy relocation
next if not $sym->{defined};
next if not exists $self->{dynrelocs}{$sym->{name}};
if ($self->{dynrelocs}{$sym->{name}} =~ /^R_.*_COPY$/) {
$sym->{defined} = 0;
}
}
}
sub add_dynamic_symbol {
my ($self, $symbol) = @_;
$symbol->{objid} = $symbol->{soname} = $self->get_id();
$symbol->{soname} =~ s{^.*/}{} unless $self->{SONAME};
if ($symbol->{version}) {
$self->{dynsyms}{$symbol->{name} . '@' . $symbol->{version}} = $symbol;
} else {
$self->{dynsyms}{$symbol->{name} . '@Base'} = $symbol;
}
}
sub get_id {
my $self = shift;
return $self->{SONAME} || $self->{file};
}
sub get_symbol {
my ($self, $name) = @_;
if (exists $self->{dynsyms}{$name}) {
return $self->{dynsyms}{$name};
}
if ($name !~ /@/) {
if (exists $self->{dynsyms}{$name . '@Base'}) {
return $self->{dynsyms}{$name . '@Base'};
}
}
return;
}
sub get_exported_dynamic_symbols {
my $self = shift;
return grep { $_->{defined} && $_->{dynamic} && !$_->{local} }
values %{$self->{dynsyms}};
}
sub get_undefined_dynamic_symbols {
my $self = shift;
return grep { (!$_->{defined}) && $_->{dynamic} }
values %{$self->{dynsyms}};
}
sub get_needed_libraries {
my $self = shift;
return @{$self->{NEEDED}};
}
sub is_executable {
my $self = shift;
return (exists $self->{flags}{EXEC_P} && $self->{flags}{EXEC_P}) ||
(exists $self->{INTERP} && $self->{INTERP});
}
sub is_public_library {
my $self = shift;
return exists $self->{flags}{DYNAMIC} && $self->{flags}{DYNAMIC}
&& exists $self->{SONAME} && $self->{SONAME};
}
1;
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