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20c09f0034
openssl/util/mkdef.pl
Richard Levitte a6a4d0acd2 Change the logic and behaviour surrounding '--api' and 'no-deprecated' 
At some point in time, there was a 'no-deprecated' configuration
option, which had the effect of hiding all declarations of deprecated
stuff, i.e. make the public API look like they were all removed.

At some point in time, there was a '--api' configuration option, which
had the effect of having the public API look like it did in the version
given as value, on a best effort basis.  In practice, this was used to
get different implementations of BN_zero(), depending on the desired
API compatibility level.

At some later point in time, '--api' was changed to mean the same as
'no-deprecated', but only for the deprecations up to and including the
desired API compatibility level.  BN_zero() has been set to the
pre-1.0.0 implementation ever since, unless 'no-deprecation' has been
given.

This change turns these options back to their original meaning, but
with the slight twist that when combined, i.e. both '--api' and
'no-deprecated' is given, the declarations that are marked deprecated
up to an including the desired API compatibility level are hidden,
simulating that they have been removed.

If no desired API compatibility level has been given, then
configuration sets the current OpenSSL version by default.

Furthermore, the macro OPENSSL_API_LEVEL is now used exclusively to
check what API compatibility level is desired.  For checking in code
if `no-deprecated` has been configured for the desired API
compatibility level, macros for each supported level is generated,
such as OPENSSL_NO_DEPRECATED_1_1_1, corresponding to the use of
DEPRECATEDIN_ macros, such as DEPRECATEDIN_1_1_1().

Just like before, to set an API compatibility level when building an
application, define OPENSSL_API_COMPAT with an appropriate value.  If
it's desirable to hide deprecated functions up to and including that
level, additionally define OPENSSL_NO_DEPRECATED (the value is
ignored).

Reviewed-by: Tim Hudson <tjh@openssl.org>
(Merged from https://github.com/openssl/openssl/pull/10364)
2019-11-07 11:37:25 +01:00

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#! /usr/bin/env perl
# Copyright 2018 The OpenSSL Project Authors. All Rights Reserved.
#
# Licensed under the Apache License 2.0 (the "License"). You may not use
# this file except in compliance with the License. You can obtain a copy
# in the file LICENSE in the source distribution or at
# https://www.openssl.org/source/license.html
# Generate a linker version script suitable for the given platform
# from a given ordinals file.
use strict;
use warnings;
use Getopt::Long;
use FindBin;
use lib "$FindBin::Bin/perl";
use OpenSSL::Ordinals;
use lib '.';
use configdata;
use File::Spec::Functions;
use lib catdir($config{sourcedir}, 'Configurations');
use platform;
my $name = undef; # internal library/module name
my $ordinals_file = undef; # the ordinals file to use
my $version = undef; # the version to use for the library
my $OS = undef; # the operating system family
my $verbose = 0;
my $ctest = 0;
# For VMS, some modules may have case insensitive names
my $case_insensitive = 0;
GetOptions('name=s' => \$name,
'ordinals=s' => \$ordinals_file,
'version=s' => \$version,
'OS=s' => \$OS,
'ctest' => \$ctest,
'verbose' => \$verbose,
# For VMS
'case-insensitive' => \$case_insensitive)
or die "Error in command line arguments\n";
die "Please supply arguments\n"
unless $name && $ordinals_file && $OS;
# When building a "variant" shared library, with a custom SONAME, also customize
# all the symbol versions. This produces a shared object that can coexist
# without conflict in the same address space as a default build, or an object
# with a different variant tag.
#
# For example, with a target definition that includes:
#
# shlib_variant => "-opt",
#
# we build the following objects:
#
# $ perl -le '
# for (@ARGV) {
# if ($l = readlink) {
# printf "%s -> %s\n", $_, $l
# } else {
# print
# }
# }' *.so*
# libcrypto-opt.so.1.1
# libcrypto.so -> libcrypto-opt.so.1.1
# libssl-opt.so.1.1
# libssl.so -> libssl-opt.so.1.1
#
# whose SONAMEs and dependencies are:
#
# $ for l in *.so; do
# echo $l
# readelf -d $l | egrep 'SONAME|NEEDED.*(ssl|crypto)'
# done
# libcrypto.so
# 0x000000000000000e (SONAME) Library soname: [libcrypto-opt.so.1.1]
# libssl.so
# 0x0000000000000001 (NEEDED) Shared library: [libcrypto-opt.so.1.1]
# 0x000000000000000e (SONAME) Library soname: [libssl-opt.so.1.1]
#
# We case-fold the variant tag to upper case and replace all non-alnum
# characters with "_". This yields the following symbol versions:
#
# $ nm libcrypto.so | grep -w A
# 0000000000000000 A OPENSSL_OPT_1_1_0
# 0000000000000000 A OPENSSL_OPT_1_1_0a
# 0000000000000000 A OPENSSL_OPT_1_1_0c
# 0000000000000000 A OPENSSL_OPT_1_1_0d
# 0000000000000000 A OPENSSL_OPT_1_1_0f
# 0000000000000000 A OPENSSL_OPT_1_1_0g
# $ nm libssl.so | grep -w A
# 0000000000000000 A OPENSSL_OPT_1_1_0
# 0000000000000000 A OPENSSL_OPT_1_1_0d
#
(my $SO_VARIANT = uc($target{"shlib_variant"} // '')) =~ s/\W/_/g;
my $libname = platform->sharedname($name);
my %OS_data = (
solaris => { writer => \&writer_linux,
sort => sorter_linux(),
platforms => { UNIX => 1 } },
linux => 'solaris', # alias
"bsd-gcc" => 'solaris', # alias
aix => { writer => \&writer_aix,
sort => sorter_unix(),
platforms => { UNIX => 1 } },
VMS => { writer => \&writer_VMS,
sort => OpenSSL::Ordinals::by_number(),
platforms => { VMS => 1 } },
vms => 'VMS', # alias
WINDOWS => { writer => \&writer_windows,
sort => OpenSSL::Ordinals::by_name(),
platforms => { WIN32 => 1,
_WIN32 => 1 } },
windows => 'WINDOWS', # alias
WIN32 => 'WINDOWS', # alias
win32 => 'WIN32', # alias
32 => 'WIN32', # alias
NT => 'WIN32', # alias
nt => 'WIN32', # alias
mingw => 'WINDOWS', # alias
);
do {
die "Unknown operating system family $OS\n"
unless exists $OS_data{$OS};
$OS = $OS_data{$OS};
} while(ref($OS) eq '');
my %disabled_uc = map { my $x = uc $_; $x =~ s|-|_|g; $x => 1 } keys %disabled;
my %ordinal_opts = ();
$ordinal_opts{sort} = $OS->{sort} if $OS->{sort};
$ordinal_opts{filter} =
sub {
my $item = shift;
return
$item->exists()
&& platform_filter($item)
&& feature_filter($item);
};
my $ordinals = OpenSSL::Ordinals->new(from => $ordinals_file);
my $writer = $OS->{writer};
$writer = \&writer_ctest if $ctest;
$writer->($ordinals->items(%ordinal_opts));
exit 0;
sub platform_filter {
my $item = shift;
my %platforms = ( $item->platforms() );
# True if no platforms are defined
return 1 if scalar keys %platforms == 0;
# For any item platform tag, return the equivalence with the
# current platform settings if it exists there, return 0 otherwise
# if the item platform tag is true
for (keys %platforms) {
if (exists $OS->{platforms}->{$_}) {
return $platforms{$_} == $OS->{platforms}->{$_};
}
if ($platforms{$_}) {
return 0;
}
}
# Found no match? Then it's a go
return 1;
}
sub feature_filter {
my $item = shift;
my @features = ( $item->features() );
# True if no features are defined
return 1 if scalar @features == 0;
my $verdict = ! grep { $disabled_uc{$_} } @features;
if ($disabled{deprecated}) {
foreach (@features) {
next unless /^DEPRECATEDIN_(\d+)_(\d+)(?:_(\d+))?$/;
my $symdep = $1 * 10000 + $2 * 100 + ($3 // 0);
$verdict = 0 if $config{api} >= $symdep;
print STDERR "DEBUG: \$symdep = $symdep, \$verdict = $verdict\n"
if $1 == 0;
}
}
return $verdict;
}
sub sorter_unix {
my $by_name = OpenSSL::Ordinals::by_name();
my %weight = (
'FUNCTION' => 1,
'VARIABLE' => 2
);
return sub {
my $item1 = shift;
my $item2 = shift;
my $verdict = $weight{$item1->type()} <=> $weight{$item2->type()};
if ($verdict == 0) {
$verdict = $by_name->($item1, $item2);
}
return $verdict;
};
}
sub sorter_linux {
my $by_version = OpenSSL::Ordinals::by_version();
my $by_unix = sorter_unix();
return sub {
my $item1 = shift;
my $item2 = shift;
my $verdict = $by_version->($item1, $item2);
if ($verdict == 0) {
$verdict = $by_unix->($item1, $item2);
}
return $verdict;
};
}
sub writer_linux {
my $thisversion = '';
my $currversion_s = '';
my $prevversion_s = '';
my $indent = 0;
for (@_) {
if ($thisversion && $_->version() ne $thisversion) {
die "$ordinals_file: It doesn't make sense to have both versioned ",
"and unversioned symbols"
if $thisversion eq '*';
print <<"_____";
}${prevversion_s};
_____
$prevversion_s = " OPENSSL${SO_VARIANT}_$thisversion";
$thisversion = ''; # Trigger start of next section
}
unless ($thisversion) {
$indent = 0;
$thisversion = $_->version();
$currversion_s = '';
$currversion_s = "OPENSSL${SO_VARIANT}_$thisversion "
if $thisversion ne '*';
print <<"_____";
${currversion_s}{
global:
_____
}
print ' ', $_->name(), ";\n";
}
print <<"_____";
local: *;
}${prevversion_s};
_____
}
sub writer_aix {
for (@_) {
print $_->name(),"\n";
}
}
sub writer_windows {
print <<"_____";
;
; Definition file for the DLL version of the $libname library from OpenSSL
;
LIBRARY $libname
EXPORTS
_____
for (@_) {
print " ",$_->name(),"\n";
}
}
sub collect_VMS_mixedcase {
return [ 'SPARE', 'SPARE' ] unless @_;
my $s = shift;
my $s_uc = uc($s);
my $type = shift;
return [ "$s=$type", 'SPARE' ] if $s_uc eq $s;
return [ "$s_uc/$s=$type", "$s=$type" ];
}
sub collect_VMS_uppercase {
return [ 'SPARE' ] unless @_;
my $s = shift;
my $s_uc = uc($s);
my $type = shift;
return [ "$s_uc=$type" ];
}
sub writer_VMS {
my @slot_collection = ();
my $collector =
$case_insensitive ? \&collect_VMS_uppercase : \&collect_VMS_mixedcase;
my $last_num = 0;
foreach (@_) {
my $this_num = $_->number();
$this_num = $last_num + 1 if $this_num =~ m|^\?|;
while (++$last_num < $this_num) {
push @slot_collection, $collector->(); # Just occupy a slot
}
my $type = {
FUNCTION => 'PROCEDURE',
VARIABLE => 'DATA'
} -> {$_->type()};
push @slot_collection, $collector->($_->name(), $type);
}
print <<"_____" if defined $version;
IDENTIFICATION=$version
_____
print <<"_____" unless $case_insensitive;
CASE_SENSITIVE=YES
_____
print <<"_____";
SYMBOL_VECTOR=(-
_____
# It's uncertain how long aggregated lines the linker can handle,
# but it has been observed that at least 1024 characters is ok.
# Either way, this means that we need to keep track of the total
# line length of each "SYMBOL_VECTOR" statement. Fortunately, we
# can have more than one of those...
my $symvtextcount = 16; # The length of "SYMBOL_VECTOR=("
while (@slot_collection) {
my $set = shift @slot_collection;
my $settextlength = 0;
foreach (@$set) {
$settextlength +=
+ 3 # two space indentation and comma
+ length($_)
+ 1 # postdent
;
}
$settextlength--; # only one space indentation on the first one
my $firstcomma = ',';
if ($symvtextcount + $settextlength > 1024) {
print <<"_____";
)
SYMBOL_VECTOR=(-
_____
$symvtextcount = 16; # The length of "SYMBOL_VECTOR=("
}
if ($symvtextcount == 16) {
$firstcomma = '';
}
my $indent = ' '.$firstcomma;
foreach (@$set) {
print <<"_____";
$indent$_ -
_____
$symvtextcount += length($indent) + length($_) + 1;
$indent = ' ,';
}
}
print <<"_____";
)
_____
if (defined $version) {
$version =~ /^(\d+)\.(\d+)\.(\d+)/;
my $libvmajor = $1;
my $libvminor = $2 * 100 + $3;
print <<"_____";
GSMATCH=LEQUAL,$libvmajor,$libvminor
_____
}
}
sub writer_ctest {
print <<'_____';
/*
* Test file to check all DEF file symbols are present by trying
* to link to all of them. This is *not* intended to be run!
*/
int main()
{
_____
my $last_num = 0;
for (@_) {
my $this_num = $_->number();
$this_num = $last_num + 1 if $this_num =~ m|^\?|;
if ($_->type() eq 'VARIABLE') {
print "\textern int ", $_->name(), '; /* type unknown */ /* ',
$this_num, ' ', $_->version(), " */\n";
} else {
print "\textern int ", $_->name(), '(); /* type unknown */ /* ',
$this_num, ' ', $_->version(), " */\n";
}
$last_num = $this_num;
}
print <<'_____';
}
_____
}
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