#! /usr/bin/env perl # Copyright 1995-2018 The OpenSSL Project Authors. All Rights Reserved. # # Licensed under the OpenSSL license (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 .def file # # It does this by parsing the header files and looking for the # prototyped functions: it then prunes the output. # # Intermediary files are created, call libcrypto.num and libssl.num, # The format of these files is: # # routine-name nnnn vers info # # The "nnnn" and "vers" fields are the numeric id and version for the symbol # respectively. The "info" part is actually a colon-separated string of fields # with the following meaning: # # existence:platform:kind:algorithms # # - "existence" can be "EXIST" or "NOEXIST" depending on if the symbol is # found somewhere in the source, # - "platforms" is empty if it exists on all platforms, otherwise it contains # comma-separated list of the platform, just as they are if the symbol exists # for those platforms, or prepended with a "!" if not. This helps resolve # symbol name variants for platforms where the names are too long for the # compiler or linker, or if the systems is case insensitive and there is a # clash, or the symbol is implemented differently (see # EXPORT_VAR_AS_FUNCTION). This script assumes renaming of symbols is found # in the file crypto/symhacks.h. # The semantics for the platforms is that every item is checked against the # environment. For the negative items ("!FOO"), if any of them is false # (i.e. "FOO" is true) in the environment, the corresponding symbol can't be # used. For the positive items, if all of them are false in the environment, # the corresponding symbol can't be used. Any combination of positive and # negative items are possible, and of course leave room for some redundancy. # - "kind" is "FUNCTION" or "VARIABLE". The meaning of that is obvious. # - "algorithms" is a comma-separated list of algorithm names. This helps # exclude symbols that are part of an algorithm that some user wants to # exclude. # use lib "."; use configdata; use File::Spec::Functions; use File::Basename; use FindBin; use lib "$FindBin::Bin/perl"; use OpenSSL::Glob; # 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 $SO_VARIANT = qq{\U$target{"shlib_variant"}}) =~ s/\W/_/g; my $debug=0; my $trace=0; my $verbose=0; my $crypto_num= catfile($config{sourcedir},"util","libcrypto.num"); my $ssl_num= catfile($config{sourcedir},"util","libssl.num"); my $libname; my $do_update = 0; my $do_rewrite = 1; my $do_crypto = 0; my $do_ssl = 0; my $do_ctest = 0; my $do_ctestall = 0; my $do_checkexist = 0; my $VMS=0; my $W32=0; my $NT=0; my $UNIX=0; my $linux=0; # Set this to make typesafe STACK definitions appear in DEF my $safe_stack_def = 0; my @known_platforms = ( "__FreeBSD__", "PERL5", "EXPORT_VAR_AS_FUNCTION", "ZLIB", "_WIN32" ); my @known_ossl_platforms = ( "UNIX", "VMS", "WIN32", "WINNT", "OS2" ); my @known_algorithms = ( # These are algorithms we know are guarded in relevant # header files, but aren't actually disablable. # Without these, this script will warn a lot. "RSA", "MD5", # @disablables comes from configdata.pm map { (my $x = uc $_) =~ s|-|_|g; $x; } @disablables, # Deprecated functions. Not really algorithmss, but # treated as such here for the sake of simplicity "DEPRECATEDIN_0_9_8", "DEPRECATEDIN_1_0_0", "DEPRECATEDIN_1_1_0", "DEPRECATEDIN_1_2_0", ); # %disabled comes from configdata.pm my %disabled_algorithms = map { (my $x = uc $_) =~ s|-|_|g; $x => 1; } keys %disabled; my $apiv = sprintf "%x%02x%02x", split(/\./, $config{api}); foreach (@known_algorithms) { if (/^DEPRECATEDIN_(\d+)_(\d+)_(\d+)$/) { my $depv = sprintf "%x%02x%02x", $1, $2, $3; $disabled_algorithms{$_} = 1 if $apiv ge $depv; } } my $zlib; foreach (@ARGV, split(/ /, $config{options})) { $debug=1 if $_ eq "debug"; $trace=1 if $_ eq "trace"; $verbose=1 if $_ eq "verbose"; $W32=1 if $_ eq "32"; die "win16 not supported" if $_ eq "16"; if($_ eq "NT") { $W32 = 1; $NT = 1; } if ($_ eq "linux") { $linux=1; $UNIX=1; } $VMS=1 if $_ eq "VMS"; if ($_ eq "zlib" || $_ eq "enable-zlib" || $_ eq "zlib-dynamic" || $_ eq "enable-zlib-dynamic") { $zlib = 1; } $do_crypto=1 if $_ eq "libcrypto" || $_ eq "crypto"; $do_ssl=1 if $_ eq "libssl" || $_ eq "ssl"; $do_update=1 if $_ eq "update"; $do_rewrite=1 if $_ eq "rewrite"; $do_ctest=1 if $_ eq "ctest"; $do_ctestall=1 if $_ eq "ctestall"; $do_checkexist=1 if $_ eq "exist"; } $libname = $unified_info{sharednames}->{libcrypto} if $do_crypto; $libname = $unified_info{sharednames}->{libssl} if $do_ssl; if (!$libname) { if ($do_ssl) { $libname="LIBSSL"; } if ($do_crypto) { $libname="LIBCRYPTO"; } } # If no platform is given, assume WIN32 if ($W32 + $VMS + $linux == 0) { $W32 = 1; } die "Please, only one platform at a time" if ($W32 + $VMS + $linux > 1); if (!$do_ssl && !$do_crypto) { print STDERR "usage: $0 ( ssl | crypto ) [ 16 | 32 | NT | OS2 | linux | VMS ]\n"; exit(1); } %ssl_list=&load_numbers($ssl_num); $max_ssl = $max_num; %crypto_list=&load_numbers($crypto_num); $max_crypto = $max_num; my $ssl="include/openssl/ssl.h"; $ssl.=" include/openssl/sslerr.h"; $ssl.=" include/openssl/tls1.h"; $ssl.=" include/openssl/srtp.h"; # When scanning include/openssl, skip all SSL files and some internal ones. my %skipthese; foreach my $f ( split(/\s+/, $ssl) ) { $skipthese{$f} = 1; } $skipthese{'include/openssl/conf_api.h'} = 1; $skipthese{'include/openssl/ebcdic.h'} = 1; $skipthese{'include/openssl/opensslconf.h'} = 1; # We use headers found in include/openssl and include/internal only. # The latter is needed so libssl.so/.dll/.exe can link properly. my $crypto ="include/internal/dso.h"; $crypto.=" include/internal/o_dir.h"; $crypto.=" include/internal/o_str.h"; $crypto.=" include/internal/err.h"; foreach my $f ( glob(catfile($config{sourcedir},'include/openssl/*.h')) ) { my $fn = "include/openssl/" . lc(basename($f)); $crypto .= " $fn" if !defined $skipthese{$fn}; } my $symhacks="include/openssl/symhacks.h"; my @ssl_symbols = &do_defs("LIBSSL", $ssl, $symhacks); my @crypto_symbols = &do_defs("LIBCRYPTO", $crypto, $symhacks); if ($do_update) { if ($do_ssl == 1) { &maybe_add_info("LIBSSL",*ssl_list,@ssl_symbols); if ($do_rewrite == 1) { open(OUT, ">$ssl_num"); &rewrite_numbers(*OUT,"LIBSSL",*ssl_list,@ssl_symbols); } else { open(OUT, ">>$ssl_num"); } &update_numbers(*OUT,"LIBSSL",*ssl_list,$max_ssl,@ssl_symbols); close OUT; } if($do_crypto == 1) { &maybe_add_info("LIBCRYPTO",*crypto_list,@crypto_symbols); if ($do_rewrite == 1) { open(OUT, ">$crypto_num"); &rewrite_numbers(*OUT,"LIBCRYPTO",*crypto_list,@crypto_symbols); } else { open(OUT, ">>$crypto_num"); } &update_numbers(*OUT,"LIBCRYPTO",*crypto_list,$max_crypto,@crypto_symbols); close OUT; } } elsif ($do_checkexist) { &check_existing(*ssl_list, @ssl_symbols) if $do_ssl == 1; &check_existing(*crypto_list, @crypto_symbols) if $do_crypto == 1; } elsif ($do_ctest || $do_ctestall) { print <<"EOF"; /* Test file to check all DEF file symbols are present by trying * to link to all of them. This is *not* intended to be run! */ int main() { EOF &print_test_file(*STDOUT,"LIBSSL",*ssl_list,$do_ctestall,@ssl_symbols) if $do_ssl == 1; &print_test_file(*STDOUT,"LIBCRYPTO",*crypto_list,$do_ctestall,@crypto_symbols) if $do_crypto == 1; print "}\n"; } else { &print_def_file(*STDOUT,$libname,*ssl_list,@ssl_symbols) if $do_ssl == 1; &print_def_file(*STDOUT,$libname,*crypto_list,@crypto_symbols) if $do_crypto == 1; } sub do_defs { my($name,$files,$symhacksfile)=@_; my $file; my @ret; my %syms; my %platform; # For anything undefined, we assume "" my %kind; # For anything undefined, we assume "FUNCTION" my %algorithm; # For anything undefined, we assume "" my %variant; my %variant_cnt; # To be able to allocate "name{n}" if "name" # is the same name as the original. my $cpp; my %unknown_algorithms = (); my $parens = 0; foreach $file (split(/\s+/,$symhacksfile." ".$files)) { my $fn = catfile($config{sourcedir},$file); print STDERR "DEBUG: starting on $fn:\n" if $debug; print STDERR "TRACE: start reading $fn\n" if $trace; open(IN,"<$fn") || die "Can't open $fn, $!,"; my $line = "", my $def= ""; my %tag = ( (map { $_ => 0 } @known_platforms), (map { "OPENSSL_SYS_".$_ => 0 } @known_ossl_platforms), (map { "OPENSSL_NO_".$_ => 0 } @known_algorithms), (map { "OPENSSL_USE_".$_ => 0 } @known_algorithms), (grep /^DEPRECATED_/, @known_algorithms), NOPROTO => 0, PERL5 => 0, _WINDLL => 0, CONST_STRICT => 0, TRUE => 1, ); my $symhacking = $file eq $symhacksfile; my @current_platforms = (); my @current_algorithms = (); # params: symbol, alias, platforms, kind # The reason to put this subroutine in a variable is that # it will otherwise create it's own, unshared, version of # %tag and %variant... my $make_variant = sub { my ($s, $a, $p, $k) = @_; my ($a1, $a2); print STDERR "DEBUG: make_variant: Entered with ",$s,", ",$a,", ",(defined($p)?$p:""),", ",(defined($k)?$k:""),"\n" if $debug; if (defined($p)) { $a1 = join(",",$p, grep(!/^$/, map { $tag{$_} == 1 ? $_ : "" } @known_platforms)); } else { $a1 = join(",", grep(!/^$/, map { $tag{$_} == 1 ? $_ : "" } @known_platforms)); } $a2 = join(",", grep(!/^$/, map { $tag{"OPENSSL_SYS_".$_} == 1 ? $_ : "" } @known_ossl_platforms)); print STDERR "DEBUG: make_variant: a1 = $a1; a2 = $a2\n" if $debug; if ($a1 eq "") { $a1 = $a2; } elsif ($a1 ne "" && $a2 ne "") { $a1 .= ",".$a2; } if ($a eq $s) { if (!defined($variant_cnt{$s})) { $variant_cnt{$s} = 0; } $variant_cnt{$s}++; $a .= "{$variant_cnt{$s}}"; } my $toadd = $a.":".$a1.(defined($k)?":".$k:""); my $togrep = $s.'(\{[0-9]+\})?:'.$a1.(defined($k)?":".$k:""); if (!grep(/^$togrep$/, split(/;/, defined($variant{$s})?$variant{$s}:""))) { if (defined($variant{$s})) { $variant{$s} .= ";"; } $variant{$s} .= $toadd; } print STDERR "DEBUG: make_variant: Exit with variant of ",$s," = ",$variant{$s},"\n" if $debug; }; print STDERR "DEBUG: parsing ----------\n" if $debug; while() { s|\R$||; # Better chomp if($parens > 0) { #Inside a DEPRECATEDIN $stored_multiline .= $_; print STDERR "DEBUG: Continuing multiline DEPRECATEDIN: $stored_multiline\n" if $debug; $parens = count_parens($stored_multiline); if ($parens == 0) { $def .= do_deprecated($stored_multiline, \@current_platforms, \@current_algorithms); } next; } if (/\/\* Error codes for the \w+ functions\. \*\//) { undef @tag; last; } if ($line ne '') { $_ = $line . $_; $line = ''; } if (/\\$/) { $line = $`; # keep what was before the backslash next; } if(/\/\*/) { if (not /\*\//) { # multi-line comment... $line = $_; # ... just accumulate next; } else { s/\/\*.*?\*\///gs;# wipe it } } if ($cpp) { $cpp++ if /^#\s*if/; $cpp-- if /^#\s*endif/; next; } if (/^#.*ifdef.*cplusplus/) { $cpp = 1; next; } s/{[^{}]*}//gs; # ignore {} blocks print STDERR "DEBUG: \$def=\"$def\"\n" if $debug && $def ne ""; print STDERR "DEBUG: \$_=\"$_\"\n" if $debug; if (/^\#\s*if\s+OPENSSL_API_COMPAT\s*(\S)\s*(0x[0-9a-fA-F]{8})L\s*$/) { my $op = $1; my $v = hex($2); if ($op ne '<' && $op ne '>=') { die "$file unacceptable operator $op: $_\n"; } my ($one, $major, $minor) = ( ($v >> 28) & 0xf, ($v >> 20) & 0xff, ($v >> 12) & 0xff ); my $t = "DEPRECATEDIN_${one}_${major}_${minor}"; push(@tag,"-"); push(@tag,$t); $tag{$t}=($op eq '<' ? 1 : -1); print STDERR "DEBUG: $file: found tag $t = $tag{$t}\n" if $debug; } elsif (/^\#\s*ifndef\s+(.*)/) { push(@tag,"-"); push(@tag,$1); $tag{$1}=-1; print STDERR "DEBUG: $file: found tag $1 = -1\n" if $debug; } elsif (/^\#\s*if\s+!defined\s*\(([^\)]+)\)/) { push(@tag,"-"); if (/^\#\s*if\s+(!defined\s*\(([^\)]+)\)(\s+\&\&\s+!defined\s*\(([^\)]+)\))*)$/) { my $tmp_1 = $1; my $tmp_; foreach $tmp_ (split '\&\&',$tmp_1) { $tmp_ =~ /!defined\s*\(([^\)]+)\)/; print STDERR "DEBUG: $file: found tag $1 = -1\n" if $debug; push(@tag,$1); $tag{$1}=-1; } } else { print STDERR "Warning: $file: taking only '!defined($1)' of complicated expression: $_" if $verbose; # because it is O... print STDERR "DEBUG: $file: found tag $1 = -1\n" if $debug; push(@tag,$1); $tag{$1}=-1; } } elsif (/^\#\s*ifdef\s+(\S*)/) { push(@tag,"-"); push(@tag,$1); $tag{$1}=1; print STDERR "DEBUG: $file: found tag $1 = 1\n" if $debug; } elsif (/^\#\s*if\s+defined\s*\(([^\)]+)\)/) { push(@tag,"-"); if (/^\#\s*if\s+(defined\s*\(([^\)]+)\)(\s+\|\|\s+defined\s*\(([^\)]+)\))*)$/) { my $tmp_1 = $1; my $tmp_; foreach $tmp_ (split '\|\|',$tmp_1) { $tmp_ =~ /defined\s*\(([^\)]+)\)/; print STDERR "DEBUG: $file: found tag $1 = 1\n" if $debug; push(@tag,$1); $tag{$1}=1; } } else { print STDERR "Warning: $file: taking only 'defined($1)' of complicated expression: $_\n" if $verbose; # because it is O... print STDERR "DEBUG: $file: found tag $1 = 1\n" if $debug; push(@tag,$1); $tag{$1}=1; } } elsif (/^\#\s*error\s+(\w+) is disabled\./) { my $tag_i = $#tag; while($tag[$tag_i] ne "-") { if ($tag[$tag_i] eq "OPENSSL_NO_".$1) { $tag{$tag[$tag_i]}=2; print STDERR "DEBUG: $file: changed tag $1 = 2\n" if $debug; } $tag_i--; } } elsif (/^\#\s*endif/) { my $tag_i = $#tag; while($tag_i > 0 && $tag[$tag_i] ne "-") { my $t=$tag[$tag_i]; print STDERR "DEBUG: \$t=\"$t\"\n" if $debug; if ($tag{$t}==2) { $tag{$t}=-1; } else { $tag{$t}=0; } print STDERR "DEBUG: $file: changed tag ",$t," = ",$tag{$t},"\n" if $debug; pop(@tag); if ($t =~ /^OPENSSL_NO_([A-Z0-9_]+)$/) { $t=$1; } elsif($t =~ /^OPENSSL_USE_([A-Z0-9_]+)$/) { $t=$1; } else { $t=""; } if ($t ne "" && !grep(/^$t$/, @known_algorithms)) { $unknown_algorithms{$t} = 1; #print STDERR "DEBUG: Added as unknown algorithm: $t\n" if $debug; } $tag_i--; } pop(@tag); } elsif (/^\#\s*else/) { my $tag_i = $#tag; die "$file unmatched else\n" if $tag_i < 0; while($tag[$tag_i] ne "-") { my $t=$tag[$tag_i]; $tag{$t}= -$tag{$t}; print STDERR "DEBUG: $file: changed tag ",$t," = ",$tag{$t},"\n" if $debug; $tag_i--; } } elsif (/^\#\s*if\s+1/) { push(@tag,"-"); # Dummy tag push(@tag,"TRUE"); $tag{"TRUE"}=1; print STDERR "DEBUG: $file: found 1\n" if $debug; } elsif (/^\#\s*if\s+0/) { push(@tag,"-"); # Dummy tag push(@tag,"TRUE"); $tag{"TRUE"}=-1; print STDERR "DEBUG: $file: found 0\n" if $debug; } elsif (/^\#\s*if\s+/) { #Some other unrecognized "if" style push(@tag,"-"); print STDERR "Warning: $file: ignoring unrecognized expression: $_\n" if $verbose; # because it is O... } elsif (/^\#\s*define\s+(\w+)\s+(\w+)/ && $symhacking && $tag{'TRUE'} != -1) { # This is for aliasing. When we find an alias, # we have to invert &$make_variant($1,$2); print STDERR "DEBUG: $file: defined $1 = $2\n" if $debug; } if (/^\#/) { @current_platforms = grep(!/^$/, map { $tag{$_} == 1 ? $_ : $tag{$_} == -1 ? "!".$_ : "" } @known_platforms); push @current_platforms , grep(!/^$/, map { $tag{"OPENSSL_SYS_".$_} == 1 ? $_ : $tag{"OPENSSL_SYS_".$_} == -1 ? "!".$_ : "" } @known_ossl_platforms); @current_algorithms = (); @current_algorithms = grep(!/^$/, map { $tag{"OPENSSL_NO_".$_} == -1 ? $_ : "" } @known_algorithms); push @current_algorithms , grep(!/^$/, map { $tag{"OPENSSL_USE_".$_} == 1 ? $_ : "" } @known_algorithms); push @current_algorithms, grep { /^DEPRECATEDIN_/ && $tag{$_} == 1 } @known_algorithms; $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',@current_algorithms).";"; next; } if ($tag{'TRUE'} != -1) { if (/^\s*DEFINE_STACK_OF\s*\(\s*(\w*)\s*\)/ || /^\s*DEFINE_STACK_OF_CONST\s*\(\s*(\w*)\s*\)/) { next; } elsif (/^\s*DECLARE_ASN1_ENCODE_FUNCTIONS\s*\(\s*(\w*)\s*,\s*(\w*)\s*,\s*(\w*)\s*\)/) { $def .= "int d2i_$3(void);"; $def .= "int i2d_$3(void);"; # Variant for platforms that do not # have to access global variables # in shared libraries through functions $def .= "#INFO:" .join(',',"!EXPORT_VAR_AS_FUNCTION",@current_platforms).":" .join(',',@current_algorithms).";"; $def .= "OPENSSL_EXTERN int $2_it;"; $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',@current_algorithms).";"; # Variant for platforms that have to # access global variables in shared # libraries through functions &$make_variant("$2_it","$2_it", "EXPORT_VAR_AS_FUNCTION", "FUNCTION"); next; } elsif (/^\s*DECLARE_ASN1_FUNCTIONS_fname\s*\(\s*(\w*)\s*,\s*(\w*)\s*,\s*(\w*)\s*\)/) { $def .= "int d2i_$3(void);"; $def .= "int i2d_$3(void);"; $def .= "int $3_free(void);"; $def .= "int $3_new(void);"; # Variant for platforms that do not # have to access global variables # in shared libraries through functions $def .= "#INFO:" .join(',',"!EXPORT_VAR_AS_FUNCTION",@current_platforms).":" .join(',',@current_algorithms).";"; $def .= "OPENSSL_EXTERN int $2_it;"; $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',@current_algorithms).";"; # Variant for platforms that have to # access global variables in shared # libraries through functions &$make_variant("$2_it","$2_it", "EXPORT_VAR_AS_FUNCTION", "FUNCTION"); next; } elsif (/^\s*DECLARE_ASN1_FUNCTIONS\s*\(\s*(\w*)\s*\)/ || /^\s*DECLARE_ASN1_FUNCTIONS_const\s*\(\s*(\w*)\s*\)/) { $def .= "int d2i_$1(void);"; $def .= "int i2d_$1(void);"; $def .= "int $1_free(void);"; $def .= "int $1_new(void);"; # Variant for platforms that do not # have to access global variables # in shared libraries through functions $def .= "#INFO:" .join(',',"!EXPORT_VAR_AS_FUNCTION",@current_platforms).":" .join(',',@current_algorithms).";"; $def .= "OPENSSL_EXTERN int $1_it;"; $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',@current_algorithms).";"; # Variant for platforms that have to # access global variables in shared # libraries through functions &$make_variant("$1_it","$1_it", "EXPORT_VAR_AS_FUNCTION", "FUNCTION"); next; } elsif (/^\s*DECLARE_ASN1_ENCODE_FUNCTIONS_const\s*\(\s*(\w*)\s*,\s*(\w*)\s*\)/) { $def .= "int d2i_$2(void);"; $def .= "int i2d_$2(void);"; # Variant for platforms that do not # have to access global variables # in shared libraries through functions $def .= "#INFO:" .join(',',"!EXPORT_VAR_AS_FUNCTION",@current_platforms).":" .join(',',@current_algorithms).";"; $def .= "OPENSSL_EXTERN int $2_it;"; $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',@current_algorithms).";"; # Variant for platforms that have to # access global variables in shared # libraries through functions &$make_variant("$2_it","$2_it", "EXPORT_VAR_AS_FUNCTION", "FUNCTION"); next; } elsif (/^\s*DECLARE_ASN1_ALLOC_FUNCTIONS\s*\(\s*(\w*)\s*\)/) { $def .= "int $1_free(void);"; $def .= "int $1_new(void);"; next; } elsif (/^\s*DECLARE_ASN1_FUNCTIONS_name\s*\(\s*(\w*)\s*,\s*(\w*)\s*\)/) { $def .= "int d2i_$2(void);"; $def .= "int i2d_$2(void);"; $def .= "int $2_free(void);"; $def .= "int $2_new(void);"; # Variant for platforms that do not # have to access global variables # in shared libraries through functions $def .= "#INFO:" .join(',',"!EXPORT_VAR_AS_FUNCTION",@current_platforms).":" .join(',',@current_algorithms).";"; $def .= "OPENSSL_EXTERN int $2_it;"; $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',@current_algorithms).";"; # Variant for platforms that have to # access global variables in shared # libraries through functions &$make_variant("$2_it","$2_it", "EXPORT_VAR_AS_FUNCTION", "FUNCTION"); next; } elsif (/^\s*DECLARE_ASN1_ITEM\s*\(\s*(\w*)\s*\)/) { # Variant for platforms that do not # have to access global variables # in shared libraries through functions $def .= "#INFO:" .join(',',"!EXPORT_VAR_AS_FUNCTION",@current_platforms).":" .join(',',@current_algorithms).";"; $def .= "OPENSSL_EXTERN int $1_it;"; $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',@current_algorithms).";"; # Variant for platforms that have to # access global variables in shared # libraries through functions &$make_variant("$1_it","$1_it", "EXPORT_VAR_AS_FUNCTION", "FUNCTION"); next; } elsif (/^\s*DECLARE_ASN1_NDEF_FUNCTION\s*\(\s*(\w*)\s*\)/) { $def .= "int i2d_$1_NDEF(void);"; } elsif (/^\s*DECLARE_ASN1_SET_OF\s*\(\s*(\w*)\s*\)/) { next; } elsif (/^\s*DECLARE_ASN1_PRINT_FUNCTION\s*\(\s*(\w*)\s*\)/) { $def .= "int $1_print_ctx(void);"; next; } elsif (/^\s*DECLARE_ASN1_PRINT_FUNCTION_name\s*\(\s*(\w*)\s*,\s*(\w*)\s*\)/) { $def .= "int $2_print_ctx(void);"; next; } elsif (/^\s*DECLARE_PKCS12_STACK_OF\s*\(\s*(\w*)\s*\)/) { next; } elsif (/^DECLARE_PEM_rw\s*\(\s*(\w*)\s*,/ || /^DECLARE_PEM_rw_cb\s*\(\s*(\w*)\s*,/ || /^DECLARE_PEM_rw_const\s*\(\s*(\w*)\s*,/ ) { $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',"STDIO",@current_algorithms).";"; $def .= "int PEM_read_$1(void);"; $def .= "int PEM_write_$1(void);"; $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',@current_algorithms).";"; # Things that are everywhere $def .= "int PEM_read_bio_$1(void);"; $def .= "int PEM_write_bio_$1(void);"; next; } elsif (/^DECLARE_PEM_write\s*\(\s*(\w*)\s*,/ || /^DECLARE_PEM_write_const\s*\(\s*(\w*)\s*,/ || /^DECLARE_PEM_write_cb\s*\(\s*(\w*)\s*,/ ) { $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',"STDIO",@current_algorithms).";"; $def .= "int PEM_write_$1(void);"; $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',@current_algorithms).";"; # Things that are everywhere $def .= "int PEM_write_bio_$1(void);"; next; } elsif (/^DECLARE_PEM_read\s*\(\s*(\w*)\s*,/ || /^DECLARE_PEM_read_cb\s*\(\s*(\w*)\s*,/ ) { $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',"STDIO",@current_algorithms).";"; $def .= "int PEM_read_$1(void);"; $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',"STDIO",@current_algorithms).";"; # Things that are everywhere $def .= "int PEM_read_bio_$1(void);"; next; } elsif (/^OPENSSL_DECLARE_GLOBAL\s*\(\s*(\w*)\s*,\s*(\w*)\s*\)/) { # Variant for platforms that do not # have to access global variables # in shared libraries through functions $def .= "#INFO:" .join(',',"!EXPORT_VAR_AS_FUNCTION",@current_platforms).":" .join(',',@current_algorithms).";"; $def .= "OPENSSL_EXTERN int _shadow_$2;"; $def .= "#INFO:" .join(',',@current_platforms).":" .join(',',@current_algorithms).";"; # Variant for platforms that have to # access global variables in shared # libraries through functions &$make_variant("_shadow_$2","_shadow_$2", "EXPORT_VAR_AS_FUNCTION", "FUNCTION"); } elsif (/^\s*DEPRECATEDIN/) { $parens = count_parens($_); if ($parens == 0) { $def .= do_deprecated($_, \@current_platforms, \@current_algorithms); } else { $stored_multiline = $_; print STDERR "DEBUG: Found multiline DEPRECATEDIN starting with: $stored_multiline\n" if $debug; next; } } elsif ($tag{'CONST_STRICT'} != 1) { if (/\{|\/\*|\([^\)]*$/) { $line = $_; } else { $def .= $_; } } } } close(IN); die "$file: Unmatched tags\n" if $#tag >= 0; my $algs; my $plays; print STDERR "DEBUG: postprocessing ----------\n" if $debug; foreach (split /;/, $def) { my $s; my $k = "FUNCTION"; my $p; my $a; s/^[\n\s]*//g; s/[\n\s]*$//g; next if(/\#undef/); next if(/typedef\W/); next if(/\#define/); print STDERR "TRACE: processing $_\n" if $trace && !/^\#INFO:/; # Reduce argument lists to empty () # fold round brackets recursively: (t(*v)(t),t) -> (t{}{},t) -> {} my $nsubst = 1; # prevent infinite loop, e.g., on int fn() while($nsubst && /\(.*\)/s) { $nsubst = s/\([^\(\)]+\)/\{\}/gs; $nsubst+= s/\(\s*\*\s*(\w+)\s*\{\}\s*\)/$1/gs; #(*f{}) -> f } # pretend as we didn't use curly braces: {} -> () s/\{\}/\(\)/gs; s/STACK_OF\(\)/void/gs; s/LHASH_OF\(\)/void/gs; print STDERR "DEBUG: \$_ = \"$_\"\n" if $debug; if (/^\#INFO:([^:]*):(.*)$/) { $plats = $1; $algs = $2; print STDERR "DEBUG: found info on platforms ($plats) and algorithms ($algs)\n" if $debug; next; } elsif (/^\s*OPENSSL_EXTERN\s.*?(\w+(\{[0-9]+\})?)(\[[0-9]*\])*\s*$/) { $s = $1; $k = "VARIABLE"; print STDERR "DEBUG: found external variable $s\n" if $debug; } elsif (/TYPEDEF_\w+_OF/s) { next; } elsif (/(\w+)\s*\(\).*/s) { # first token prior [first] () is $s = $1; # a function name! print STDERR "DEBUG: found function $s\n" if $debug; } elsif (/\(/ and not (/=/)) { print STDERR "File $file: cannot parse: $_;\n"; next; } else { next; } $syms{$s} = 1; $kind{$s} = $k; $p = $plats; $a = $algs; $platform{$s} = &reduce_platforms((defined($platform{$s})?$platform{$s}.',':"").$p); $algorithm{$s} .= ','.$a; if (defined($variant{$s})) { foreach $v (split /;/,$variant{$s}) { (my $r, my $p, my $k) = split(/:/,$v); my $ip = join ',',map({ /^!(.*)$/ ? $1 : "!".$_ } split /,/, $p); $syms{$r} = 1; if (!defined($k)) { $k = $kind{$s}; } $kind{$r} = $k."(".$s.")"; $algorithm{$r} = $algorithm{$s}; $platform{$r} = &reduce_platforms($platform{$s}.",".$p.",".$p); $platform{$s} = &reduce_platforms($platform{$s}.','.$ip.','.$ip); print STDERR "DEBUG: \$variant{\"$s\"} = ",$v,"; \$r = $r; \$p = ",$platform{$r},"; \$a = ",$algorithm{$r},"; \$kind = ",$kind{$r},"\n" if $debug; } } print STDERR "DEBUG: \$s = $s; \$p = ",$platform{$s},"; \$a = ",$algorithm{$s},"; \$kind = ",$kind{$s},"\n" if $debug; } } # Prune the returned symbols delete $syms{"bn_dump1"}; $platform{"BIO_s_log"} .= ",!WIN32,!macintosh"; $platform{"PEM_read_NS_CERT_SEQ"} = "VMS"; $platform{"PEM_write_NS_CERT_SEQ"} = "VMS"; $platform{"PEM_read_P8_PRIV_KEY_INFO"} = "VMS"; $platform{"PEM_write_P8_PRIV_KEY_INFO"} = "VMS"; # Info we know about push @ret, map { $_."\\".&info_string($_,"EXIST", $platform{$_}, $kind{$_}, $algorithm{$_}) } keys %syms; if (keys %unknown_algorithms) { print STDERR "WARNING: mkdef.pl doesn't know the following algorithms:\n"; print STDERR "\t",join("\n\t",keys %unknown_algorithms),"\n"; } return(@ret); } # Param: string of comma-separated platform-specs. sub reduce_platforms { my ($platforms) = @_; my $pl = defined($platforms) ? $platforms : ""; my %p = map { $_ => 0 } split /,/, $pl; my $ret; print STDERR "DEBUG: Entered reduce_platforms with \"$platforms\"\n" if $debug; # We do this, because if there's code like the following, it really # means the function exists in all cases and should therefore be # everywhere. By increasing and decreasing, we may attain 0: # # ifndef WIN16 # int foo(); # else # int _fat foo(); # endif foreach $platform (split /,/, $pl) { if ($platform =~ /^!(.*)$/) { $p{$1}--; } else { $p{$platform}++; } } foreach $platform (keys %p) { if ($p{$platform} == 0) { delete $p{$platform}; } } delete $p{""}; $ret = join(',',sort(map { $p{$_} < 0 ? "!".$_ : $_ } keys %p)); print STDERR "DEBUG: Exiting reduce_platforms with \"$ret\"\n" if $debug; return $ret; } sub info_string { (my $symbol, my $exist, my $platforms, my $kind, my $algorithms) = @_; my %a = defined($algorithms) ? map { $_ => 1 } split /,/, $algorithms : (); my $k = defined($kind) ? $kind : "FUNCTION"; my $ret; my $p = &reduce_platforms($platforms); delete $a{""}; $ret = $exist; $ret .= ":".$p; $ret .= ":".$k; $ret .= ":".join(',',sort keys %a); return $ret; } sub maybe_add_info { (my $name, *nums, my @symbols) = @_; my $sym; my $new_info = 0; my %syms=(); foreach $sym (@symbols) { (my $s, my $i) = split /\\/, $sym; if (defined($nums{$s})) { $i =~ s/^(.*?:.*?:\w+)(\(\w+\))?/$1/; (my $n, my $vers, my $dummy) = split /\\/, $nums{$s}; if (!defined($dummy) || $i ne $dummy) { $nums{$s} = $n."\\".$vers."\\".$i; $new_info++; print STDERR "DEBUG: maybe_add_info for $s: \"$dummy\" => \"$i\"\n" if $debug; } } $syms{$s} = 1; } my @s=sort { &parse_number($nums{$a},"n") <=> &parse_number($nums{$b},"n") } keys %nums; foreach $sym (@s) { (my $n, my $vers, my $i) = split /\\/, $nums{$sym}; if (!defined($syms{$sym}) && $i !~ /^NOEXIST:/) { $new_info++; print STDERR "DEBUG: maybe_add_info for $sym: -> undefined\n" if $debug; } } if ($new_info) { print STDERR "$name: $new_info old symbols have updated info\n"; if (!$do_rewrite) { print STDERR "You should do a rewrite to fix this.\n"; } } else { } } # Param: string of comma-separated keywords, each possibly prefixed with a "!" sub is_valid { my ($keywords_txt,$platforms) = @_; my (@keywords) = split /,/,$keywords_txt; my ($falsesum, $truesum) = (0, 1); # Param: one keyword sub recognise { my ($keyword,$platforms) = @_; if ($platforms) { # platforms if ($keyword eq "UNIX" && $UNIX) { return 1; } if ($keyword eq "VMS" && $VMS) { return 1; } if ($keyword eq "WIN32" && $W32) { return 1; } if ($keyword eq "_WIN32" && $W32) { return 1; } if ($keyword eq "WINNT" && $NT) { return 1; } # Special platforms: # EXPORT_VAR_AS_FUNCTION means that global variables # will be represented as functions. if ($keyword eq "EXPORT_VAR_AS_FUNCTION" && $W32) { return 1; } if ($keyword eq "ZLIB" && $zlib) { return 1; } return 0; } else { # algorithms if ($disabled_algorithms{$keyword}) { return 0;} # Nothing recognise as true return 1; } } foreach $k (@keywords) { if ($k =~ /^!(.*)$/) { $falsesum += &recognise($1,$platforms); } else { $truesum *= &recognise($k,$platforms); } } print STDERR "DEBUG: [",$#keywords,",",$#keywords < 0,"] is_valid($keywords_txt) => (\!$falsesum) && $truesum = ",(!$falsesum) && $truesum,"\n" if $debug; return (!$falsesum) && $truesum; } sub print_test_file { (*OUT,my $name,*nums,my $testall,my @symbols)=@_; my $n = 1; my @e; my @r; my $sym; my $prev = ""; my $prefSSLeay; (@e)=grep(/^SSLeay(\{[0-9]+\})?\\.*?:.*?:.*/,@symbols); (@r)=grep(/^\w+(\{[0-9]+\})?\\.*?:.*?:.*/ && !/^SSLeay(\{[0-9]+\})?\\.*?:.*?:.*/,@symbols); @symbols=((sort @e),(sort @r)); foreach $sym (@symbols) { (my $s, my $i) = $sym =~ /^(.*?)\\(.*)$/; my $v = 0; $v = 1 if $i=~ /^.*?:.*?:VARIABLE/; my $p = ($i =~ /^[^:]*:([^:]*):/,$1); my $a = ($i =~ /^[^:]*:[^:]*:[^:]*:([^:]*)/,$1); if (!defined($nums{$s})) { print STDERR "Warning: $s does not have a number assigned\n" if(!$do_update); } elsif (is_valid($p,1) && is_valid($a,0)) { my $s2 = ($s =~ /^(.*?)(\{[0-9]+\})?$/, $1); if ($prev eq $s2) { print OUT "\t/* The following has already appeared previously */\n"; print STDERR "Warning: Symbol '",$s2,"' redefined. old=",($nums{$prev} =~ /^(.*?)\\/,$1),", new=",($nums{$s2} =~ /^(.*?)\\/,$1),"\n"; } $prev = $s2; # To warn about duplicates... (my $nn, my $vers, my $ni) = split /\\/, $nums{$s2}; if ($v) { print OUT "\textern int $s2; /* type unknown */ /* $nn $ni */\n"; } else { print OUT "\textern int $s2(); /* type unknown */ /* $nn $ni */\n"; } } } } sub get_version { return $config{version}; } sub print_def_file { (*OUT,my $name,*nums,my @symbols)=@_; my $n = 1; my @e; my @r; my @v; my $prev=""; my $liboptions=""; my $libname = $name; my $http_vendor = 'www.openssl.org/'; my $version = get_version(); my $what = "OpenSSL: implementation of Secure Socket Layer"; my $description = "$what $version, $name - http://$http_vendor"; my $prevsymversion = "", $prevprevsymversion = ""; # For VMS my $prevnum = 0; my $symvtextcount = 0; if ($W32) { print OUT <<"EOF"; ; ; Definition file for the DLL version of the $name library from OpenSSL ; LIBRARY $libname $liboptions EOF print "EXPORTS\n"; } elsif ($VMS) { print OUT <<"EOF"; IDENTIFICATION=$version CASE_SENSITIVE=YES SYMBOL_VECTOR=(- EOF $symvtextcount = 16; # length of "SYMBOL_VECTOR=(-" } (@r)=grep(/^\w+(\{[0-9]+\})?\\.*?:.*?:FUNCTION/,@symbols); (@v)=grep(/^\w+(\{[0-9]+\})?\\.*?:.*?:VARIABLE/,@symbols); if ($VMS) { # VMS needs to have the symbols on slot number order @symbols=(map { $_->[1] } sort { $a->[0] <=> $b->[0] } map { (my $s, my $i) = $_ =~ /^(.*?)\\(.*)$/; die "Error: $s doesn't have a number assigned\n" if !defined($nums{$s}); (my $n, my @rest) = split /\\/, $nums{$s}; [ $n, $_ ] } (@e, @r, @v)); } else { @symbols=((sort @e),(sort @r), (sort @v)); } my ($baseversion, $currversion) = get_openssl_version(); my $thisversion; do { if (!defined($thisversion)) { $thisversion = $baseversion; } else { $thisversion = get_next_version($thisversion); } foreach $sym (@symbols) { (my $s, my $i) = $sym =~ /^(.*?)\\(.*)$/; my $v = 0; $v = 1 if $i =~ /^.*?:.*?:VARIABLE/; if (!defined($nums{$s})) { die "Error: $s does not have a number assigned\n" if(!$do_update); } else { (my $n, my $symversion, my $dummy) = split /\\/, $nums{$s}; my %pf = (); my $p = ($i =~ /^[^:]*:([^:]*):/,$1); my $a = ($i =~ /^[^:]*:[^:]*:[^:]*:([^:]*)/,$1); if (is_valid($p,1) && is_valid($a,0)) { my $s2 = ($s =~ /^(.*?)(\{[0-9]+\})?$/, $1); if ($prev eq $s2) { print STDERR "Warning: Symbol '",$s2, "' redefined. old=",($nums{$prev} =~ /^(.*?)\\/,$1), ", new=",($nums{$s2} =~ /^(.*?)\\/,$1),"\n"; } $prev = $s2; # To warn about duplicates... if($linux) { next if $symversion ne $thisversion; if ($symversion ne $prevsymversion) { if ($prevsymversion ne "") { if ($prevprevsymversion ne "") { print OUT "} OPENSSL${SO_VARIANT}_" ."$prevprevsymversion;\n\n"; } else { print OUT "};\n\n"; } } print OUT "OPENSSL${SO_VARIANT}_$symversion {\n global:\n"; $prevprevsymversion = $prevsymversion; $prevsymversion = $symversion; } print OUT " $s2;\n"; } elsif ($VMS) { while(++$prevnum < $n) { my $symline=" ,SPARE -\n ,SPARE -\n"; if ($symvtextcount + length($symline) - 2 > 1024) { print OUT ")\nSYMBOL_VECTOR=(-\n"; $symvtextcount = 16; # length of "SYMBOL_VECTOR=(-" } if ($symvtextcount == 16) { # Take away first comma $symline =~ s/,//; } print OUT $symline; $symvtextcount += length($symline) - 2; } (my $s_uc = $s) =~ tr/a-z/A-Z/; my $symtype= $v ? "DATA" : "PROCEDURE"; my $symline= ($s_uc ne $s ? " ,$s_uc/$s=$symtype -\n ,$s=$symtype -\n" : " ,$s=$symtype -\n ,SPARE -\n"); if ($symvtextcount + length($symline) - 2 > 1024) { print OUT ")\nSYMBOL_VECTOR=(-\n"; $symvtextcount = 16; # length of "SYMBOL_VECTOR=(-" } if ($symvtextcount == 16) { # Take away first comma $symline =~ s/,//; } print OUT $symline; $symvtextcount += length($symline) - 2; } elsif($v) { printf OUT " %s%-39s DATA\n", ($W32)?"":"_",$s2; } else { printf OUT " %s%s\n", ($W32)?"":"_",$s2; } } } } } while ($linux && $thisversion ne $currversion); if ($linux) { if ($prevprevsymversion ne "") { print OUT " local: *;\n} OPENSSL${SO_VARIANT}_$prevprevsymversion;\n\n"; } else { print OUT " local: *;\n};\n\n"; } } elsif ($VMS) { print OUT ")\n"; (my $libvmaj, my $libvmin, my $libvedit) = $currversion =~ /^(\d+)_(\d+)_(\d+)$/; # The reason to multiply the edit number with 100 is to make space # for the possibility that we want to encode the patch letters print OUT "GSMATCH=LEQUAL,",($libvmaj * 100 + $libvmin),",",($libvedit * 100),"\n"; } printf OUT "\n"; } sub load_numbers { my($name)=@_; my(@a,%ret); my $prevversion; $max_num = 0; $num_noinfo = 0; $prev = ""; $prev_cnt = 0; my ($baseversion, $currversion) = get_openssl_version(); open(IN,"<$name") || die "unable to open $name:$!\n"; while () { s|\R$||; # Better chomp s/#.*$//; next if /^\s*$/; @a=split; if (defined $ret{$a[0]}) { # This is actually perfectly OK #print STDERR "Warning: Symbol '",$a[0],"' redefined. old=",$ret{$a[0]},", new=",$a[1],"\n"; } if ($max_num > $a[1]) { print STDERR "Warning: Number decreased from ",$max_num," to ",$a[1],"\n"; } elsif ($max_num == $a[1]) { # This is actually perfectly OK #print STDERR "Warning: Symbol ",$a[0]," has same number as previous ",$prev,": ",$a[1],"\n"; if ($a[0] eq $prev) { $prev_cnt++; $a[0] .= "{$prev_cnt}"; } } else { $prev_cnt = 0; } if ($#a < 2) { # Existence will be proven later, in do_defs $ret{$a[0]}=$a[1]; $num_noinfo++; } else { #Sanity check the version number if (defined $prevversion) { check_version_lte($prevversion, $a[2]); } check_version_lte($a[2], $currversion); $prevversion = $a[2]; $ret{$a[0]}=$a[1]."\\".$a[2]."\\".$a[3]; # \\ is a special marker } $max_num = $a[1] if $a[1] > $max_num; $prev=$a[0]; } if ($num_noinfo) { print STDERR "Warning: $num_noinfo symbols were without info." if $verbose || !$do_rewrite; if ($do_rewrite) { printf STDERR " The rewrite will fix this.\n" if $verbose; } else { printf STDERR " You should do a rewrite to fix this.\n"; } } close(IN); return(%ret); } sub parse_number { (my $str, my $what) = @_; (my $n, my $v, my $i) = split(/\\/,$str); if ($what eq "n") { return $n; } else { return $i; } } sub rewrite_numbers { (*OUT,$name,*nums,@symbols)=@_; my $thing; my @r = grep(/^\w+(\{[0-9]+\})?\\.*?:.*?:\w+\(\w+\)/,@symbols); my $r; my %r; my %rsyms; foreach $r (@r) { (my $s, my $i) = split /\\/, $r; my $a = $1 if $i =~ /^.*?:.*?:\w+\((\w+)\)/; $i =~ s/^(.*?:.*?:\w+)\(\w+\)/$1/; $r{$a} = $s."\\".$i; $rsyms{$s} = 1; } my %syms = (); foreach $_ (@symbols) { (my $n, my $i) = split /\\/; $syms{$n} = 1; } my @s=sort { &parse_number($nums{$a},"n") <=> &parse_number($nums{$b},"n") || $a cmp $b } keys %nums; foreach $sym (@s) { (my $n, my $vers, my $i) = split /\\/, $nums{$sym}; next if defined($i) && $i =~ /^.*?:.*?:\w+\(\w+\)/; next if defined($rsyms{$sym}); print STDERR "DEBUG: rewrite_numbers for sym = ",$sym,": i = ",$i,", n = ",$n,", rsym{sym} = ",$rsyms{$sym},"syms{sym} = ",$syms{$sym},"\n" if $debug; $i="NOEXIST::FUNCTION:" if !defined($i) || $i eq "" || !defined($syms{$sym}); my $s2 = $sym; $s2 =~ s/\{[0-9]+\}$//; printf OUT "%s%-39s %d\t%s\t%s\n","",$s2,$n,$vers,$i; if (exists $r{$sym}) { (my $s, $i) = split /\\/,$r{$sym}; my $s2 = $s; $s2 =~ s/\{[0-9]+\}$//; printf OUT "%s%-39s %d\t%s\t%s\n","",$s2,$n,$vers,$i; } } } sub update_numbers { (*OUT,$name,*nums,my $start_num, my @symbols)=@_; my $new_syms = 0; my $basevers; my $vers; ($basevers, $vers) = get_openssl_version(); my @r = grep(/^\w+(\{[0-9]+\})?\\.*?:.*?:\w+\(\w+\)/,@symbols); my $r; my %r; my %rsyms; foreach $r (@r) { (my $s, my $i) = split /\\/, $r; my $a = $1 if $i =~ /^.*?:.*?:\w+\((\w+)\)/; $i =~ s/^(.*?:.*?:\w+)\(\w+\)/$1/; $r{$a} = $s."\\".$i; $rsyms{$s} = 1; } foreach $sym (@symbols) { (my $s, my $i) = $sym =~ /^(.*?)\\(.*)$/; next if $i =~ /^.*?:.*?:\w+\(\w+\)/; next if defined($rsyms{$sym}); die "ERROR: Symbol $sym had no info attached to it." if $i eq ""; if (!exists $nums{$s}) { $new_syms++; my $s2 = $s; $s2 =~ s/\{[0-9]+\}$//; printf OUT "%s%-39s %d\t%s\t%s\n","",$s2, ++$start_num,$vers,$i; if (exists $r{$s}) { ($s, $i) = split /\\/,$r{$s}; $s =~ s/\{[0-9]+\}$//; printf OUT "%s%-39s %d\t%s\t%s\n","",$s, $start_num,$vers,$i; } } } if($new_syms) { print STDERR "$name: Added $new_syms new symbols\n"; } else { print STDERR "$name: No new symbols added\n"; } } sub check_existing { (*nums, my @symbols)=@_; my %existing; my @remaining; @remaining=(); foreach $sym (@symbols) { (my $s, my $i) = $sym =~ /^(.*?)\\(.*)$/; $existing{$s}=1; } foreach $sym (keys %nums) { if (!exists $existing{$sym}) { push @remaining, $sym; } } if(@remaining) { print STDERR "The following symbols do not seem to exist:\n"; foreach $sym (@remaining) { print STDERR "\t",$sym,"\n"; } } } sub count_parens { my $line = shift(@_); my $open = $line =~ tr/\(//; my $close = $line =~ tr/\)//; return $open - $close; } #Parse opensslv.h to get the current version number. Also work out the base #version, i.e. the lowest version number that is binary compatible with this #version sub get_openssl_version() { my $fn = catfile($config{sourcedir},"include","openssl","opensslv.h"); open (IN, "$fn") || die "Can't open opensslv.h"; while() { if (/OPENSSL_VERSION_TEXT\s+"OpenSSL (\d\.\d\.)(\d[a-z]*)(-| )/) { my $suffix = $2; (my $baseversion = $1) =~ s/\./_/g; close IN; return ($baseversion."0", $baseversion.$suffix); } } die "Can't find OpenSSL version number\n"; } #Given an OpenSSL version number, calculate the next version number. If the #version number gets to a.b.czz then we go to a.b.(c+1) sub get_next_version() { my $thisversion = shift; my ($base, $letter) = $thisversion =~ /^(\d_\d_\d)([a-z]{0,2})$/; if ($letter eq "zz") { my $lastnum = substr($base, -1); return substr($base, 0, length($base)-1).(++$lastnum); } return $base.get_next_letter($letter); } #Given the letters off the end of an OpenSSL version string, calculate what #the letters for the next release would be. sub get_next_letter() { my $thisletter = shift; my $baseletter = ""; my $endletter; if ($thisletter eq "") { return "a"; } if ((length $thisletter) > 1) { ($baseletter, $endletter) = $thisletter =~ /([a-z]+)([a-z])/; } else { $endletter = $thisletter; } if ($endletter eq "z") { return $thisletter."a"; } else { return $baseletter.(++$endletter); } } #Check if a version is less than or equal to the current version. Its a fatal #error if not. They must also only differ in letters, or the last number (i.e. #the first two numbers must be the same) sub check_version_lte() { my ($testversion, $currversion) = @_; my $lentv; my $lencv; my $cvbase; my ($cvnums) = $currversion =~ /^(\d_\d_\d)[a-z]*$/; my ($tvnums) = $testversion =~ /^(\d_\d_\d)[a-z]*$/; #Die if we can't parse the version numbers or they don't look sane die "Invalid version number: $testversion and $currversion\n" if (!defined($cvnums) || !defined($tvnums) || length($cvnums) != 5 || length($tvnums) != 5); #If the base versions (without letters) don't match check they only differ #in the last number if ($cvnums ne $tvnums) { die "Invalid version number: $testversion " ."for current version $currversion\n" if (substr($cvnums, 0, 4) ne substr($tvnums, 0, 4)); return; } #If we get here then the base version (i.e. the numbers) are the same - they #only differ in the letters $lentv = length $testversion; $lencv = length $currversion; #If the testversion has more letters than the current version then it must #be later (or malformed) if ($lentv > $lencv) { die "Invalid version number: $testversion " ."is greater than $currversion\n"; } #Get the last letter from the current version my ($cvletter) = $currversion =~ /([a-z])$/; if (defined $cvletter) { ($cvbase) = $currversion =~ /(\d_\d_\d[a-z]*)$cvletter$/; } else { $cvbase = $currversion; } die "Unable to parse version number $currversion" if (!defined $cvbase); my $tvbase; my ($tvletter) = $testversion =~ /([a-z])$/; if (defined $tvletter) { ($tvbase) = $testversion =~ /(\d_\d_\d[a-z]*)$tvletter$/; } else { $tvbase = $testversion; } die "Unable to parse version number $testversion" if (!defined $tvbase); if ($lencv > $lentv) { #If current version has more letters than testversion then testversion #minus the final letter must be a substring of the current version die "Invalid version number $testversion " ."is greater than $currversion or is invalid\n" if (index($cvbase, $tvbase) != 0); } else { #If both versions have the same number of letters then they must be #equal up to the last letter, and the last letter in testversion must #be less than or equal to the last letter in current version. die "Invalid version number $testversion " ."is greater than $currversion\n" if (($cvbase ne $tvbase) && ($tvletter gt $cvletter)); } } sub do_deprecated() { my ($decl, $plats, $algs) = @_; $decl =~ /^\s*(DEPRECATEDIN_\d+_\d+_\d+)\s*\((.*)\)\s*$/ or die "Bad DEPRECATEDIN: $decl\n"; my $info1 .= "#INFO:"; $info1 .= join(',', @{$plats}) . ":"; my $info2 = $info1; $info1 .= join(',',@{$algs}, $1) . ";"; $info2 .= join(',',@{$algs}) . ";"; return $info1 . $2 . ";" . $info2; }