# Copyright © 2009-2011 Raphaël Hertzog # Copyright © 2009-2024 Guillem Jover # # Hardening build flags handling derived from work of: # Copyright © 2009-2011 Kees Cook # Copyright © 2007-2008 Canonical, Ltd. # # 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 . =encoding utf8 =head1 NAME Dpkg::Vendor::Debian - Debian vendor class =head1 DESCRIPTION This vendor class customizes the behavior of dpkg scripts for Debian specific behavior and policies. B: This is a private module, its API can change at any time. =cut package Dpkg::Vendor::Debian 0.01; use strict; use warnings; use List::Util qw(any none); use Dpkg; use Dpkg::Gettext; use Dpkg::ErrorHandling; use Dpkg::Control::Types; use parent qw(Dpkg::Vendor::Default); sub run_hook { my ($self, $hook, @params) = @_; if ($hook eq 'package-keyrings') { return ('/usr/share/keyrings/debian-keyring.gpg', '/usr/share/keyrings/debian-nonupload.gpg', '/usr/share/keyrings/debian-maintainers.gpg'); } elsif ($hook eq 'archive-keyrings') { return ('/usr/share/keyrings/debian-archive-keyring.gpg'); } elsif ($hook eq 'archive-keyrings-historic') { return ('/usr/share/keyrings/debian-archive-removed-keys.gpg'); } elsif ($hook eq 'builtin-build-depends') { return qw(build-essential:native); } elsif ($hook eq 'builtin-build-conflicts') { return (); } elsif ($hook eq 'register-custom-fields') { } elsif ($hook eq 'extend-patch-header') { my ($textref, $ch_info) = @params; if ($ch_info->{'Closes'}) { foreach my $bug (split(/\s+/, $ch_info->{'Closes'})) { $$textref .= "Bug-Debian: https://bugs.debian.org/$bug\n"; } } # XXX: Layer violation... require Dpkg::Vendor::Ubuntu; my $b = Dpkg::Vendor::Ubuntu::find_launchpad_closes($ch_info->{'Changes'}); foreach my $bug (@$b) { $$textref .= "Bug-Ubuntu: https://bugs.launchpad.net/bugs/$bug\n"; } } elsif ($hook eq 'update-buildflags') { $self->set_build_features(@params); $self->add_build_flags(@params); } elsif ($hook eq 'builtin-system-build-paths') { return qw(/build/); } elsif ($hook eq 'build-tainted-by') { return $self->_build_tainted_by(); } elsif ($hook eq 'sanitize-environment') { # Reset umask to a sane default. umask 0022; # Reset locale to a sane default. # # We ignore the LANGUAGE GNU extension, as that only affects # LC_MESSAGES which will use LC_CTYPE for its codeset. We need to # move the high priority LC_ALL catch-all into the low-priority # LANG catch-all so that we can override LC_* variables, and remove # any existing LC_* variables which would have been ignored anyway, # and would now take precedence over LANG. if (length $ENV{LC_ALL}) { $ENV{LANG} = delete $ENV{LC_ALL}; foreach my $lc (grep { m/^LC_/ } keys %ENV) { delete $ENV{$lc}; } } $ENV{LC_COLLATE} = 'C.UTF-8'; $ENV{LC_CTYPE} = 'C.UTF-8'; } elsif ($hook eq 'backport-version-regex') { return qr/~(bpo|deb)/; } else { return $self->SUPER::run_hook($hook, @params); } } sub init_build_features { my ($self, $use_feature, $builtin_feature) = @_; } sub set_build_features { my ($self, $flags) = @_; # Default feature states. my %use_feature = ( future => { # XXX: Should start a deprecation cycle at some point. lfs => 0, }, abi => { # XXX: This is set to undef so that we can handle the alias from # the future feature area. lfs => undef, # XXX: This is set to undef to handle mask on the default setting. time64 => undef, }, qa => { bug => undef, 'bug-implicit-func' => undef, canary => 0, }, reproducible => { timeless => 1, fixfilepath => 1, fixdebugpath => 1, }, optimize => { lto => 0, }, sanitize => { address => 0, thread => 0, leak => 0, undefined => 0, }, hardening => { # XXX: This is set to undef so that we can cope with the brokenness # of gcc managing this feature builtin. pie => undef, stackprotector => 1, stackprotectorstrong => 1, stackclash => 1, fortify => 1, format => 1, relro => 1, bindnow => 0, branch => 1, }, ); my %builtin_feature = ( abi => { lfs => 0, time64 => 0, }, hardening => { pie => 1, }, ); require Dpkg::Arch; my $arch = Dpkg::Arch::get_host_arch(); my ($abi, $libc, $os, $cpu) = Dpkg::Arch::debarch_to_debtuple($arch); my ($abi_bits, $abi_endian) = Dpkg::Arch::debarch_to_abiattrs($arch); unless (defined $abi and defined $libc and defined $os and defined $cpu) { warning(g_("unknown host architecture '%s'"), $arch); ($abi, $os, $cpu) = ('', '', ''); } unless (defined $abi_bits and defined $abi_endian) { warning(g_("unknown abi attributes for architecture '%s'"), $arch); ($abi_bits, $abi_endian) = (0, 'unknown'); } # Mask builtin features that are not enabled by default in the compiler. my %builtin_pie_arch = map { $_ => 1 } qw( amd64 arm64 armel armhf hurd-amd64 hurd-i386 i386 kfreebsd-amd64 kfreebsd-i386 loong64 mips mips64 mips64el mips64r6 mips64r6el mipsel mipsn32 mipsn32el mipsn32r6 mipsn32r6el mipsr6 mipsr6el powerpc ppc64 ppc64el riscv64 s390x sparc sparc64 ); if (not exists $builtin_pie_arch{$arch}) { $builtin_feature{hardening}{pie} = 0; } if ($abi_bits != 32) { $builtin_feature{abi}{lfs} = 1; } # On glibc, new ports default to time64, old ports currently default # to time32, so we track the latter as that is a list that is not # going to grow further, and might shrink. # On musl libc based systems all ports use time64. my %time32_arch = map { $_ => 1 } qw( arm armeb armel armhf hppa i386 hurd-i386 kfreebsd-i386 m68k mips mipsel mipsn32 mipsn32el mipsn32r6 mipsn32r6el mipsr6 mipsr6el nios2 powerpc powerpcel powerpcspe s390 sh3 sh3eb sh4 sh4eb sparc ); if ($abi_bits != 32 or not exists $time32_arch{$arch} or $libc eq 'musl') { $builtin_feature{abi}{time64} = 1; } $self->init_build_features(\%use_feature, \%builtin_feature); ## Setup require Dpkg::BuildOptions; # Adjust features based on user or maintainer's desires. my $opts_build = Dpkg::BuildOptions->new(envvar => 'DEB_BUILD_OPTIONS'); my $opts_maint = Dpkg::BuildOptions->new(envvar => 'DEB_BUILD_MAINT_OPTIONS'); foreach my $area (sort keys %use_feature) { $opts_build->parse_features($area, $use_feature{$area}); $opts_maint->parse_features($area, $use_feature{$area}); } ## Area: abi if (any { $arch eq $_ } qw(hurd-i386 kfreebsd-i386)) { # Mask time64 on hurd-i386 and kfreebsd-i386, as their kernel lacks # support for that arch and it will not be implemented. $use_feature{abi}{time64} = 0; } elsif (not defined $use_feature{abi}{time64}) { # If the user has not requested a specific setting, by default only # enable time64 everywhere except for i386, where we preserve it for # binary backwards compatibility. if ($arch eq 'i386') { $use_feature{abi}{time64} = 0; } else { $use_feature{abi}{time64} = 1; } } # In Debian gcc enables time64 (and lfs) for the following architectures # by injecting pre-processor flags, though the libc ABI has not changed. if (any { $arch eq $_ } qw(armel armhf hppa m68k mips mipsel powerpc sh4)) { $flags->set_option_value('cc-abi-time64', 1); } else { $flags->set_option_value('cc-abi-time64', 0); } if ($use_feature{abi}{time64} && ! $builtin_feature{abi}{time64}) { # On glibc 64-bit time_t support requires LFS. $use_feature{abi}{lfs} = 1 if $libc eq 'gnu'; } # XXX: Handle lfs alias from future abi feature area. $use_feature{abi}{lfs} //= $use_feature{future}{lfs}; # XXX: Once the feature is set in the abi area, we always override the # one in the future area. $use_feature{future}{lfs} = $use_feature{abi}{lfs}; ## Area: qa # For time64 we require -Werror=implicit-function-declaration, to avoid # linking against the wrong symbol. Instead of enabling this conditionally # on time64 being enabled, do it unconditionally so that the effects are # uniform and visible on all architectures. Unless it has been set # explicitly. $use_feature{qa}{'bug-implicit-func'} //= $use_feature{qa}{bug} // 1; $use_feature{qa}{bug} //= 0; ## Area: reproducible # Mask features that might have an unsafe usage. if ($use_feature{reproducible}{fixfilepath} or $use_feature{reproducible}{fixdebugpath}) { require Cwd; my $build_path =$ENV{DEB_BUILD_PATH} || Cwd::getcwd(); $flags->set_option_value('build-path', $build_path); # If we have any unsafe character in the path, disable the flag, # so that we do not need to worry about escaping the characters # on output. if ($build_path =~ m/[^-+:.0-9a-zA-Z~\/_]/) { $use_feature{reproducible}{fixfilepath} = 0; $use_feature{reproducible}{fixdebugpath} = 0; } } ## Area: optimize if ($opts_build->has('noopt')) { $flags->set_option_value('optimize-level', 0); } else { $flags->set_option_value('optimize-level', 2); } ## Area: sanitize # Handle logical feature interactions. if ($use_feature{sanitize}{address} and $use_feature{sanitize}{thread}) { # Disable the thread sanitizer when the address one is active, they # are mutually incompatible. $use_feature{sanitize}{thread} = 0; } if ($use_feature{sanitize}{address} or $use_feature{sanitize}{thread}) { # Disable leak sanitizer, it is implied by the address or thread ones. $use_feature{sanitize}{leak} = 0; } ## Area: hardening # Mask features that are not available on certain architectures. if (none { $os eq $_ } qw(linux kfreebsd hurd) or any { $cpu eq $_ } qw(alpha hppa ia64)) { # Disabled on non-(linux/kfreebsd/hurd). # Disabled on alpha, hppa, ia64. $use_feature{hardening}{pie} = 0; } if (any { $cpu eq $_ } qw(ia64 alpha hppa nios2) or $arch eq 'arm') { # Stack protector disabled on ia64, alpha, hppa, nios2. # "warning: -fstack-protector not supported for this target" # Stack protector disabled on arm (ok on armel). # compiler supports it incorrectly (leads to SEGV) $use_feature{hardening}{stackprotector} = 0; } if (none { $arch eq $_ } qw(amd64 arm64 armhf armel)) { # Stack clash protector only available on amd64 and arm. $use_feature{hardening}{stackclash} = 0; } if (any { $cpu eq $_ } qw(ia64 hppa)) { # relro not implemented on ia64, hppa. $use_feature{hardening}{relro} = 0; } if (none { $cpu eq $_ } qw(amd64 arm64)) { # On amd64 use -fcf-protection. # On arm64 use -mbranch-protection=standard. $use_feature{hardening}{branch} = 0; } $flags->set_option_value('hardening-branch-cpu', $cpu); # Mask features that might be influenced by other flags. if ($flags->get_option_value('optimize-level') == 0) { # glibc 2.16 and later warn when using -O0 and _FORTIFY_SOURCE. $use_feature{hardening}{fortify} = 0; } $flags->set_option_value('fortify-level', 2); # Handle logical feature interactions. if ($use_feature{hardening}{relro} == 0) { # Disable bindnow if relro is not enabled, since it has no # hardening ability without relro and may incur load penalties. $use_feature{hardening}{bindnow} = 0; } if ($use_feature{hardening}{stackprotector} == 0) { # Disable stackprotectorstrong if stackprotector is disabled. $use_feature{hardening}{stackprotectorstrong} = 0; } ## Commit # Set used features to their builtin setting if unset. foreach my $area (sort keys %builtin_feature) { while (my ($feature, $enabled) = each %{$builtin_feature{$area}}) { $flags->set_builtin($area, $feature, $enabled); } } # Store the feature usage. foreach my $area (sort keys %use_feature) { while (my ($feature, $enabled) = each %{$use_feature{$area}}) { $flags->set_feature($area, $feature, $enabled); } } } sub add_build_flags { my ($self, $flags) = @_; ## Global default flags my @compile_flags = qw( CFLAGS CXXFLAGS OBJCFLAGS OBJCXXFLAGS FFLAGS FCFLAGS ); my $default_flags; my $default_d_flags; my $optimize_level = $flags->get_option_value('optimize-level'); $default_flags = "-g -O$optimize_level"; if ($optimize_level == 0) { $default_d_flags = '-fdebug'; } else { $default_d_flags = '-frelease'; } $flags->append($_, $default_flags) foreach @compile_flags; $flags->append('DFLAGS', $default_d_flags); ## Area: abi my %abi_builtins = $flags->get_builtins('abi'); my $cc_abi_time64 = $flags->get_option_value('cc-abi-time64'); if ($flags->use_feature('abi', 'lfs') && ! $abi_builtins{lfs}) { $flags->append('CPPFLAGS', '-D_LARGEFILE_SOURCE -D_FILE_OFFSET_BITS=64'); } elsif (! $flags->use_feature('abi', 'lfs') && ! $abi_builtins{lfs} && $cc_abi_time64) { $flags->append('CPPFLAGS', '-U_LARGEFILE_SOURCE -U_FILE_OFFSET_BITS'); } if ($flags->use_feature('abi', 'time64') && ! $abi_builtins{time64}) { $flags->append('CPPFLAGS', '-D_TIME_BITS=64'); } elsif (! $flags->use_feature('abi', 'time64') && ! $abi_builtins{time64} && $cc_abi_time64) { $flags->append('CPPFLAGS', '-U_TIME_BITS'); } ## Area: qa # Warnings that detect actual bugs. if ($flags->use_feature('qa', 'bug-implicit-func')) { $flags->append('CFLAGS', '-Werror=implicit-function-declaration'); } else { $flags->append('CFLAGS', '-Wno-error=implicit-function-declaration'); } if ($flags->use_feature('qa', 'bug')) { # C/C++ flags my @cfamilyflags = qw( array-bounds clobbered volatile-register-var ); foreach my $warnflag (@cfamilyflags) { $flags->append('CFLAGS', "-Werror=$warnflag"); $flags->append('CXXFLAGS', "-Werror=$warnflag"); } } # Inject dummy canary options to detect issues with build flag propagation. if ($flags->use_feature('qa', 'canary')) { require Digest::MD5; my $id = Digest::MD5::md5_hex(int rand 4096); foreach my $flag (qw(CPPFLAGS CFLAGS OBJCFLAGS CXXFLAGS OBJCXXFLAGS)) { $flags->append($flag, "-D__DEB_CANARY_${flag}_${id}__"); } $flags->append('LDFLAGS', "-Wl,-z,deb-canary-${id}"); } ## Area: reproducible # Warn when the __TIME__, __DATE__ and __TIMESTAMP__ macros are used. if ($flags->use_feature('reproducible', 'timeless')) { $flags->append('CPPFLAGS', '-Wdate-time'); } # Avoid storing the build path in the binaries. if ($flags->use_feature('reproducible', 'fixfilepath') or $flags->use_feature('reproducible', 'fixdebugpath')) { my $build_path = $flags->get_option_value('build-path'); my $map; # -ffile-prefix-map is a superset of -fdebug-prefix-map, prefer it # if both are set. if ($flags->use_feature('reproducible', 'fixfilepath')) { $map = '-ffile-prefix-map=' . $build_path . '=.'; } else { $map = '-fdebug-prefix-map=' . $build_path . '=.'; } $flags->append($_, $map) foreach @compile_flags; } ## Area: optimize if ($flags->use_feature('optimize', 'lto')) { my $flag = '-flto=auto -ffat-lto-objects'; $flags->append($_, $flag) foreach (@compile_flags, 'LDFLAGS'); } ## Area: sanitize if ($flags->use_feature('sanitize', 'address')) { my $flag = '-fsanitize=address -fno-omit-frame-pointer'; $flags->append('CFLAGS', $flag); $flags->append('CXXFLAGS', $flag); $flags->append('LDFLAGS', '-fsanitize=address'); } if ($flags->use_feature('sanitize', 'thread')) { my $flag = '-fsanitize=thread'; $flags->append('CFLAGS', $flag); $flags->append('CXXFLAGS', $flag); $flags->append('LDFLAGS', $flag); } if ($flags->use_feature('sanitize', 'leak')) { $flags->append('LDFLAGS', '-fsanitize=leak'); } if ($flags->use_feature('sanitize', 'undefined')) { my $flag = '-fsanitize=undefined'; $flags->append('CFLAGS', $flag); $flags->append('CXXFLAGS', $flag); $flags->append('LDFLAGS', $flag); } ## Area: hardening # PIE my $use_pie = $flags->get_feature('hardening', 'pie'); my %hardening_builtins = $flags->get_builtins('hardening'); if (defined $use_pie && $use_pie && ! $hardening_builtins{pie}) { my $flag = "-specs=$Dpkg::DATADIR/pie-compile.specs"; $flags->append($_, $flag) foreach @compile_flags; $flags->append('LDFLAGS', "-specs=$Dpkg::DATADIR/pie-link.specs"); } elsif (defined $use_pie && ! $use_pie && $hardening_builtins{pie}) { my $flag = "-specs=$Dpkg::DATADIR/no-pie-compile.specs"; $flags->append($_, $flag) foreach @compile_flags; $flags->append('LDFLAGS', "-specs=$Dpkg::DATADIR/no-pie-link.specs"); } # Stack protector if ($flags->use_feature('hardening', 'stackprotectorstrong')) { my $flag = '-fstack-protector-strong'; $flags->append($_, $flag) foreach @compile_flags; } elsif ($flags->use_feature('hardening', 'stackprotector')) { my $flag = '-fstack-protector --param=ssp-buffer-size=4'; $flags->append($_, $flag) foreach @compile_flags; } # Stack clash if ($flags->use_feature('hardening', 'stackclash')) { my $flag = '-fstack-clash-protection'; $flags->append($_, $flag) foreach @compile_flags; } # Fortify Source if ($flags->use_feature('hardening', 'fortify')) { my $fortify_level = $flags->get_option_value('fortify-level'); $flags->append('CPPFLAGS', "-D_FORTIFY_SOURCE=$fortify_level"); } # Format Security if ($flags->use_feature('hardening', 'format')) { my $flag = '-Wformat -Werror=format-security'; $flags->append('CFLAGS', $flag); $flags->append('CXXFLAGS', $flag); $flags->append('OBJCFLAGS', $flag); $flags->append('OBJCXXFLAGS', $flag); } # Read-only Relocations if ($flags->use_feature('hardening', 'relro')) { $flags->append('LDFLAGS', '-Wl,-z,relro'); } # Bindnow if ($flags->use_feature('hardening', 'bindnow')) { $flags->append('LDFLAGS', '-Wl,-z,now'); } # Branch protection if ($flags->use_feature('hardening', 'branch')) { my $cpu = $flags->get_option_value('hardening-branch-cpu'); my $flag; if ($cpu eq 'arm64') { $flag = '-mbranch-protection=standard'; } elsif ($cpu eq 'amd64') { $flag = '-fcf-protection'; } # The following should always be true on Debian, but it might not # be on derivatives. if (defined $flag) { $flags->append($_, $flag) foreach @compile_flags; } } # XXX: Handle *_FOR_BUILD flags here until we can properly initialize them. require Dpkg::Arch; my $host_arch = Dpkg::Arch::get_host_arch(); my $build_arch = Dpkg::Arch::get_build_arch(); if ($host_arch eq $build_arch) { foreach my $flag ($flags->list()) { next if $flag =~ m/_FOR_BUILD$/; my $value = $flags->get($flag); $flags->append($flag . '_FOR_BUILD', $value); } } else { $flags->append($_ . '_FOR_BUILD', $default_flags) foreach @compile_flags; $flags->append('DFLAGS_FOR_BUILD', $default_d_flags); } } sub _build_tainted_by { my $self = shift; my %tainted; foreach my $pathname (qw(/bin /sbin /lib /lib32 /libo32 /libx32 /lib64)) { next unless -l $pathname; my $linkname = readlink $pathname; if ($linkname eq "usr$pathname" or $linkname eq "/usr$pathname") { $tainted{'merged-usr-via-aliased-dirs'} = 1; last; } } require File::Find; my %usr_local_types = ( configs => [ qw(etc) ], includes => [ qw(include) ], programs => [ qw(bin sbin) ], libraries => [ qw(lib) ], ); foreach my $type (keys %usr_local_types) { File::Find::find({ wanted => sub { $tainted{"usr-local-has-$type"} = 1 if -f }, no_chdir => 1, }, grep { -d } map { "/usr/local/$_" } @{$usr_local_types{$type}}); } my @tainted = sort keys %tainted; return @tainted; } =head1 CHANGES =head2 Version 0.xx This is a private module. =cut 1;