#!/usr/local/bin/perl -w # # 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 libeay.num and ssleay.num,... # Previously, they had the following format: # # routine-name nnnn # # But that isn't enough for a number of reasons, the first on being that # this format is (needlessly) very Win32-centric, and even then... # One of the biggest problems is that there's no information about what # routines should actually be used, which varies with what crypto algorithms # are disabled. Also, some operating systems (for example VMS with VAX C) # need to keep track of the global variables as well as the functions. # # So, a remake of this script is done so as to include information on the # kind of symbol it is (function or variable) and what algorithms they're # part of. This will allow easy translating to .def files or the corresponding # file in other operating systems (a .opt file for VMS, possibly with a .mar # file). # # The format now becomes: # # routine-name nnnn info # # and 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 replacements 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. This script assumes those redefinitions are place in the file # crypto/symhacks.h. # The semantics for the platforms list is a bit complicated. The rule of # thumb is that the list is exclusive, but it seems to mean different things. # So, if the list is all negatives (like "!VMS,!WIN16"), the symbol exists # on all platforms except those listed. If the list is all positives (like # "VMS,WIN16"), the symbol exists only on those platforms and nowhere else. # The combination of positives and negatives will act as if the positives # weren't there. # - "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. # my $crypto_num= "util/libeay.num"; my $ssl_num= "util/ssleay.num"; my $do_update = 0; my $do_rewrite = 0; my $do_crypto = 0; my $do_ssl = 0; my $do_ctest = 0; my $do_ctestall = 0; my $rsaref = 0; my $VMS=0; my $W32=0; my $W16=0; my $NT=0; # Set this to make typesafe STACK definitions appear in DEF my $safe_stack_def = 0; my @known_platforms = ( "__FreeBSD__", "VMS", "WIN16", "WIN32", "WINNT", "PERL5", "NeXT" ); my @known_algorithms = ( "RC2", "RC4", "RC5", "IDEA", "DES", "BF", "CAST", "MD2", "MD4", "MD5", "SHA", "RIPEMD", "MDC2", "RSA", "DSA", "DH", "HMAC", "FP_API" ); my $options=""; open(IN,") { $options=$1 if (/^OPTIONS=(.*)$/); } close(IN); # The following ciphers may be excluded (by Configure). This means functions # defined with ifndef(NO_XXX) are not included in the .def file, and everything # in directory xxx is ignored. my $no_rc2; my $no_rc4; my $no_rc5; my $no_idea; my $no_des; my $no_bf; my $no_cast; my $no_md2; my $no_md4; my $no_md5; my $no_sha; my $no_ripemd; my $no_mdc2; my $no_rsa; my $no_dsa; my $no_dh; my $no_hmac=0; my $no_fp_api; foreach (@ARGV, split(/ /, $options)) { $W32=1 if $_ eq "32"; $W16=1 if $_ eq "16"; if($_ eq "NT") { $W32 = 1; $NT = 1; } $VMS=1 if $_ eq "VMS"; $rsaref=1 if $_ eq "rsaref"; $do_ssl=1 if $_ eq "ssleay"; $do_ssl=1 if $_ eq "ssl"; $do_crypto=1 if $_ eq "libeay"; $do_crypto=1 if $_ eq "crypto"; $do_update=1 if $_ eq "update"; $do_rewrite=1 if $_ eq "rewrite"; $do_ctest=1 if $_ eq "ctest"; $do_ctestall=1 if $_ eq "ctestall"; #$safe_stack_def=1 if $_ eq "-DDEBUG_SAFESTACK"; if (/^no-rc2$/) { $no_rc2=1; } elsif (/^no-rc4$/) { $no_rc4=1; } elsif (/^no-rc5$/) { $no_rc5=1; } elsif (/^no-idea$/) { $no_idea=1; } elsif (/^no-des$/) { $no_des=1; } elsif (/^no-bf$/) { $no_bf=1; } elsif (/^no-cast$/) { $no_cast=1; } elsif (/^no-md2$/) { $no_md2=1; } elsif (/^no-md4$/) { $no_md4=1; } elsif (/^no-md5$/) { $no_md5=1; } elsif (/^no-sha$/) { $no_sha=1; } elsif (/^no-ripemd$/) { $no_ripemd=1; } elsif (/^no-mdc2$/) { $no_mdc2=1; } elsif (/^no-rsa$/) { $no_rsa=1; } elsif (/^no-dsa$/) { $no_dsa=1; } elsif (/^no-dh$/) { $no_dh=1; } elsif (/^no-hmac$/) { $no_hmac=1; } } # If no platform is given, assume WIN32 if ($W32 + $W16 + $VMS == 0) { $W32 = 1; } # Add extra knowledge if ($W16) { $no_fp_api=1; } if (!$do_ssl && !$do_crypto) { print STDERR "usage: $0 ( ssl | crypto ) [ 16 | 32 | NT ] [rsaref]\n"; exit(1); } %ssl_list=&load_numbers($ssl_num); $max_ssl = $max_num; %crypto_list=&load_numbers($crypto_num); $max_crypto = $max_num; my $ssl="ssl/ssl.h"; my $crypto ="crypto/crypto.h"; $crypto.=" crypto/des/des.h" unless $no_des; $crypto.=" crypto/idea/idea.h" unless $no_idea; $crypto.=" crypto/rc4/rc4.h" unless $no_rc4; $crypto.=" crypto/rc5/rc5.h" unless $no_rc5; $crypto.=" crypto/rc2/rc2.h" unless $no_rc2; $crypto.=" crypto/bf/blowfish.h" unless $no_bf; $crypto.=" crypto/cast/cast.h" unless $no_cast; $crypto.=" crypto/md2/md2.h" unless $no_md2; $crypto.=" crypto/md4/md4.h" unless $no_md4; $crypto.=" crypto/md5/md5.h" unless $no_md5; $crypto.=" crypto/mdc2/mdc2.h" unless $no_mdc2; $crypto.=" crypto/sha/sha.h" unless $no_sha; $crypto.=" crypto/ripemd/ripemd.h" unless $no_ripemd; $crypto.=" crypto/bn/bn.h"; $crypto.=" crypto/rsa/rsa.h" unless $no_rsa; $crypto.=" crypto/dsa/dsa.h" unless $no_dsa; $crypto.=" crypto/dh/dh.h" unless $no_dh; $crypto.=" crypto/hmac/hmac.h" unless $no_hmac; $crypto.=" crypto/stack/stack.h"; $crypto.=" crypto/buffer/buffer.h"; $crypto.=" crypto/bio/bio.h"; $crypto.=" crypto/dso/dso.h"; $crypto.=" crypto/lhash/lhash.h"; $crypto.=" crypto/conf/conf.h"; $crypto.=" crypto/txt_db/txt_db.h"; $crypto.=" crypto/evp/evp.h"; $crypto.=" crypto/objects/objects.h"; $crypto.=" crypto/pem/pem.h"; #$crypto.=" crypto/meth/meth.h"; $crypto.=" crypto/asn1/asn1.h"; $crypto.=" crypto/asn1/asn1_mac.h"; $crypto.=" crypto/err/err.h"; $crypto.=" crypto/pkcs7/pkcs7.h"; $crypto.=" crypto/pkcs12/pkcs12.h"; $crypto.=" crypto/x509/x509.h"; $crypto.=" crypto/x509/x509_vfy.h"; $crypto.=" crypto/x509v3/x509v3.h"; $crypto.=" crypto/rand/rand.h"; $crypto.=" crypto/comp/comp.h"; $crypto.=" crypto/tmdiff.h"; my $symhacks="crypto/symhacks.h"; my @ssl_symbols = &do_defs("SSLEAY", $ssl, $symhacks); my @crypto_symbols = &do_defs("LIBEAY", $crypto, $symhacks); if ($do_update) { if ($do_ssl == 1) { &maybe_add_info("SSLEAY",*ssl_list,@ssl_symbols); if ($do_rewrite == 1) { open(OUT, ">$ssl_num"); &rewrite_numbers(*OUT,"SSLEAY",*ssl_list,@ssl_symbols); close OUT; } else { open(OUT, ">>$ssl_num"); } &update_numbers(*OUT,"SSLEAY",*ssl_list,$max_ssl,@ssl_symbols); close OUT; } if($do_crypto == 1) { &maybe_add_info("LIBEAY",*crypto_list,@crypto_symbols); if ($do_rewrite == 1) { open(OUT, ">$crypto_num"); &rewrite_numbers(*OUT,"LIBEAY",*crypto_list,@crypto_symbols); } else { open(OUT, ">>$crypto_num"); } &update_numbers(*OUT,"LIBEAY",*crypto_list,$max_crypto,@crypto_symbols); close OUT; } } elsif ($do_ctest || $do_ctestall) { print <<"EOF"; /* Test file to check all DEF file symbols are present by trying * to link to all of them. This is *not* intended to be run! */ int main() { EOF &print_test_file(*STDOUT,"SSLEAY",*ssl_list,$do_ctestall,@ssl_symbols) if $do_ssl == 1; &print_test_file(*STDOUT,"LIBEAY",*crypto_list,$do_ctestall,@crypto_symbols) if $do_crypto == 1; print "}\n"; } else { &print_def_file(*STDOUT,"SSLEAY",*ssl_list,@ssl_symbols) if $do_ssl == 1; &print_def_file(*STDOUT,"LIBEAY",*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 %rename; my $cpp; foreach $file (split(/\s+/,$symhacksfile." ".$files)) { open(IN,"<$file") || die "unable to open $file:$!\n"; my $line = "", my $def= ""; my %tag = ( (map { $_ => 0 } @known_platforms), (map { "NO_".$_ => 0 } @known_algorithms), NOPROTO => 0, PERL5 => 0, _WINDLL => 0, CONST_STRICT => 0, TRUE => 1, ); my $symhacking = $file eq $symhacksfile; while() { last if (/BEGIN ERROR CODES/); if ($line ne '') { $_ = $line . $_; $line = ''; } if (/\\$/) { $line = $_; next; } $cpp = 1 if /^\#.*ifdef.*cplusplus/; if ($cpp) { $cpp = 0 if /^\#.*endif/; next; } s/\/\*.*?\*\///gs; # ignore comments s/{[^{}]*}//gs; # ignore {} blocks if (/^\#\s*ifndef (.*)/) { push(@tag,$1); $tag{$1}=-1; } elsif (/^\#\s*if !defined\(([^\)]+)\)/) { push(@tag,$1); $tag{$1}=-1; } elsif (/^\#\s*ifdef (.*)/) { push(@tag,$1); $tag{$1}=1; } elsif (/^\#\s*if defined\(([^\)]+)\)/) { push(@tag,$1); $tag{$1}=1; } elsif (/^\#\s*error\s+(\w+) is disabled\./) { if ($tag[$#tag] eq "NO_".$1) { $tag{$tag[$#tag]}=2; } } elsif (/^\#\s*endif/) { if ($tag{$tag[$#tag]}==2) { $tag{$tag[$#tag]}=-1; } else { $tag{$tag[$#tag]}=0; } pop(@tag); } elsif (/^\#\s*else/) { my $t=$tag[$#tag]; $tag{$t}= -$tag{$t}; } elsif (/^\#\s*if\s+1/) { # Dummy tag push(@tag,"TRUE"); $tag{"TRUE"}=1; } elsif (/^\#\s*if\s+0/) { # Dummy tag push(@tag,"TRUE"); $tag{"TRUE"}=-1; } elsif (/^\#\s*define\s+(\w+)\s+(\w+)/ && $symhacking) { my $s = $1; my $a = $2.":".join(",", grep(!/^$/, map { $tag{$_} == 1 ? $_ : "" } @known_platforms)); $rename{$s} = $a; } if (/^\#/) { my @p = grep(!/^$/, map { $tag{$_} == 1 ? $_ : $tag{$_} == -1 ? "!".$_ : "" } @known_platforms); my @a = grep(!/^$/, map { $tag{"NO_".$_} == -1 ? $_ : "" } @known_algorithms); $def .= "#INFO:".join(',',@p).":".join(',',@a).";"; next; } if (/^\s*DECLARE_STACK_OF\s*\(\s*(\w*)\s*\)/) { next; } elsif (/^\s*DECLARE_PKCS12_STACK_OF\s*\(\s*(\w*)\s*\)/) { next; } elsif (/^\s*DECLARE_ASN1_SET_OF\s*\(\s*(\w*)\s*\)/) { next; } elsif (/^DECLARE_PEM_rw\s*\(\s*(\w*)\s*,/ || /^DECLARE_PEM_rw_cb\s*\(\s*(\w*)\s*,/ ) { # Things not in Win16 $syms{"PEM_read_${1}"} = 1; $platform{"PEM_read_${1}"} = "!WIN16"; $syms{"PEM_write_${1}"} = 1; $platform{"PEM_write_${1}"} = "!WIN16"; # Things that are everywhere $syms{"PEM_read_bio_${1}"} = 1; $syms{"PEM_write_bio_${1}"} = 1; if ($1 eq "RSAPrivateKey" || $1 eq "RSAPublicKey" || $1 eq "RSA_PUBKEY") { $algorithm{"PEM_read_${1}"} = "RSA"; $algorithm{"PEM_write_${1}"} = "RSA"; $algorithm{"PEM_read_bio_${1}"} = "RSA"; $algorithm{"PEM_write_bio_${1}"} = "RSA"; } elsif ($1 eq "DSAPrivateKey" || $1 eq "DSAparams" || $1 eq "RSA_PUBKEY") { $algorithm{"PEM_read_${1}"} = "DSA"; $algorithm{"PEM_write_${1}"} = "DSA"; $algorithm{"PEM_read_bio_${1}"} = "DSA"; $algorithm{"PEM_write_bio_${1}"} = "DSA"; } elsif ($1 eq "DHparams") { $algorithm{"PEM_read_${1}"} = "DH"; $algorithm{"PEM_write_${1}"} = "DH"; $algorithm{"PEM_read_bio_${1}"} = "DH"; $algorithm{"PEM_write_bio_${1}"} = "DH"; } } elsif (/^DECLARE_PEM_write\s*\(\s*(\w*)\s*,/ || /^DECLARE_PEM_write_cb\s*\(\s*(\w*)\s*,/ ) { # Things not in Win16 $syms{"PEM_write_${1}"} = 1; $platform{"PEM_write_${1}"} .= ",!WIN16"; # Things that are everywhere $syms{"PEM_write_bio_${1}"} = 1; if ($1 eq "RSAPrivateKey" || $1 eq "RSAPublicKey" || $1 eq "RSA_PUBKEY") { $algorithm{"PEM_write_${1}"} = "RSA"; $algorithm{"PEM_write_bio_${1}"} = "RSA"; } elsif ($1 eq "DSAPrivateKey" || $1 eq "DSAparams" || $1 eq "RSA_PUBKEY") { $algorithm{"PEM_write_${1}"} = "DSA"; $algorithm{"PEM_write_bio_${1}"} = "DSA"; } elsif ($1 eq "DHparams") { $algorithm{"PEM_write_${1}"} = "DH"; $algorithm{"PEM_write_bio_${1}"} = "DH"; } } elsif (/^DECLARE_PEM_read\s*\(\s*(\w*)\s*,/ || /^DECLARE_PEM_read_cb\s*\(\s*(\w*)\s*,/ ) { # Things not in Win16 $syms{"PEM_read_${1}"} = 1; $platform{"PEM_read_${1}"} .= ",!WIN16"; # Things that are everywhere $syms{"PEM_read_bio_${1}"} = 1; } elsif ( ($tag{'TRUE'} != -1) && ($tag{'CONST_STRICT'} != 1) ) { if (/\{|\/\*|\([^\)]*$/) { $line = $_; } else { $def .= $_; } } } close(IN); my $algs; my $plays; 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/); if (/^\#INFO:([^:]*):(.*)$/) { $plats = $1; $algs = $2; next; } elsif (/^\s*OPENSSL_EXTERN\s.*?(\w+)(\[[0-9]*\])*\s*$/) { $s = $1; $k = "VARIABLE"; } elsif (/\(\*(\w*)\([^\)]+/) { $s = $1; } elsif (/\w+\W+(\w+)\W*\(\s*\)$/s) { # K&R C next; } elsif (/\w+\W+\w+\W*\(.*\)$/s) { while (not /\(\)$/s) { s/[^\(\)]*\)$/\)/s; s/\([^\(\)]*\)\)$/\)/s; } s/\(void\)//; /(\w+)\W*\(\)/s; $s = $1; } elsif (/\(/ and not (/=/)) { print STDERR "File $file: cannot parse: $_;\n"; next; } else { next; } $syms{$s} = 1; $kind{$s} = $k; $p = $plats; $a = $algs; $a .= ",BF" if($s =~ /EVP_bf/); $a .= ",CAST" if($s =~ /EVP_cast/); $a .= ",DES" if($s =~ /EVP_des/); $a .= ",DSA" if($s =~ /EVP_dss/); $a .= ",IDEA" if($s =~ /EVP_idea/); $a .= ",MD2" if($s =~ /EVP_md2/); $a .= ",MD4" if($s =~ /EVP_md4/); $a .= ",MD5" if($s =~ /EVP_md5/); $a .= ",RC2" if($s =~ /EVP_rc2/); $a .= ",RC4" if($s =~ /EVP_rc4/); $a .= ",RC5" if($s =~ /EVP_rc5/); $a .= ",RIPEMD" if($s =~ /EVP_ripemd/); $a .= ",SHA" if($s =~ /EVP_sha/); $a .= ",RSA" if($s =~ /EVP_(Open|Seal)(Final|Init)/); $a .= ",RSA" if($s =~ /PEM_Seal(Final|Init|Update)/); $a .= ",RSA" if($s =~ /RSAPrivateKey/); $a .= ",RSA" if($s =~ /SSLv23?_((client|server)_)?method/); $platform{$s} .= ','.$p; $algorithm{$s} .= ','.$a; if (defined($rename{$s})) { (my $r, my $p) = split(/:/,$rename{$s}); my @ip = map { /^!(.*)$/ ? $1 : "!".$_ } split /,/, $p; $syms{$r} = 1; $kind{$r} = $kind{$s}."(".$s.")"; $algorithm{$r} = $algorithm{$s}; $platform{$r} = $platform{$s}.",".$p; $platform{$s} .= ','.join(',', @ip).','.join(',', @ip); } } } # Prune the returned symbols $platform{"crypt"} .= ",!PERL5,!__FreeBSD__,!NeXT"; delete $syms{"SSL_add_dir_cert_subjects_to_stack"}; delete $syms{"bn_dump1"}; $platform{"BIO_s_file_internal"} .= ",WIN16"; $platform{"BIO_new_file_internal"} .= ",WIN16"; $platform{"BIO_new_fp_internal"} .= ",WIN16"; $platform{"BIO_s_file"} .= ",!WIN16"; $platform{"BIO_new_file"} .= ",!WIN16"; $platform{"BIO_new_fp"} .= ",!WIN16"; $platform{"BIO_s_log"} .= ",!WIN32,!WIN16,!macintosh"; if(exists $syms{"ERR_load_CRYPTO_strings"}) { $platform{"ERR_load_CRYPTO_strings"} .= ",!VMS,!WIN16"; $syms{"ERR_load_CRYPTOlib_strings"} = 1; $platform{"ERR_load_CRYPTOlib_strings"} .= ",VMS,WIN16"; } # Info we know about $platform{"RSA_PKCS1_RSAref"} = "RSAREF"; $algorithm{"RSA_PKCS1_RSAref"} = "RSA"; push @ret, map { $_."\\".&info_string($_,"EXIST", $platform{$_}, $kind{$_}, $algorithm{$_}) } keys %syms; return(@ret); } sub info_string { (my $symbol, my $exist, my $platforms, my $kind, my $algorithms) = @_; my %a = defined($algorithms) ? map { $_ => 1 } split /,/, $algorithms : (); my $pl = defined($platforms) ? $platforms : ""; my %p = map { $_ => 0 } split /,/, $pl; my $k = defined($kind) ? $kind : "FUNCTION"; my $ret; # 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{""}; delete $a{""}; $ret = $exist; $ret .= ":".join(',',map { $p{$_} < 0 ? "!".$_ : $_ } keys %p); $ret .= ":".$k; $ret .= ":".join(',',keys %a); return $ret; } sub maybe_add_info { (my $name, *nums, my @symbols) = @_; my $sym; my $new_info = 0; print STDERR "Updating $name info\n"; foreach $sym (@symbols) { (my $s, my $i) = split /\\/, $sym; $i =~ s/^(.*?:.*?:\w+)(\(\w+\))?/$1/; if (defined($nums{$s})) { (my $n, my $dummy) = split /\\/, $nums{$s}; if (!defined($dummy) || $i ne $dummy) { $nums{$s} = $n."\\".$i; $new_info++; #print STDERR "DEBUG: maybe_add_info for $s: \"$dummy\" => \"$i\"\n"; } } } if ($new_info) { print STDERR "$new_info old symbols got an info update\n"; if (!$do_rewrite) { print STDERR "You should do a rewrite to fix this.\n"; } } else { print STDERR "No old symbols needed info update\n"; } } sub print_test_file { (*OUT,my $name,*nums,my @symbols)=@_; my $n = 1; my @e; my @r; my $sym; my $prev = ""; my $prefSSLeay; (@e)=grep(/^SSLeay\\.*?:.*?:FUNCTION/,@symbols); (@r)=grep(/^\w+\\.*?:.*?:FUNCTION/ && !/^SSLeay\\.*?:.*?:FUNCTION/,@symbols); @symbols=((sort @e),(sort @r)); foreach $sym (@symbols) { (my $s, my $i) = $sym =~ /^(.*?)\\(.*)$/; if ($s ne $prev) { if (!defined($nums{$sym})) { printf STDERR "Warning: $sym does not have a number assigned\n" if(!$do_update); } else { $n=$nums{$s}; print OUT "\t$s();\n"; } } $prev = $s; # To avoid duplicates... } } sub print_def_file { (*OUT,my $name,*nums,my @symbols)=@_; my $n = 1; my @e; my @r; if ($W32) { $name.="32"; } else { $name.="16"; } print OUT <<"EOF"; ; ; Definition file for the DLL version of the $name library from OpenSSL ; LIBRARY $name DESCRIPTION 'OpenSSL $name - http://www.openssl.org/' EOF if (!$W32) { print <<"EOF"; CODE PRELOAD MOVEABLE DATA PRELOAD MOVEABLE SINGLE EXETYPE WINDOWS HEAPSIZE 4096 STACKSIZE 8192 EOF } print "EXPORTS\n"; (@e)=grep(/^SSLeay\\.*?:.*?:FUNCTION/,@symbols); (@r)=grep(/^\w+\\.*?:.*?:FUNCTION/ && !/^SSLeay\\.*?:.*?:FUNCTION/,@symbols); @symbols=((sort @e),(sort @r)); foreach $sym (@symbols) { (my $s, my $i) = $sym =~ /^(.*?)\\(.*)$/; if (!defined($nums{$s})) { printf STDERR "Warning: $s does not have a number assigned\n" if(!$do_update); } else { (my $n, my $i) = split /\\/, $nums{$s}; my %pf = (); my @p = split(/,/, ($i =~ /^.*?:(.*?):/,$1)); # @p_purged must contain hardware platforms only my @p_purged = (); foreach $ptmp (@p) { next if $ptmp =~ /^!?RSAREF$/; push @p_purged, $ptmp; } my $negatives = !!grep(/^!/,@p); # It is very important to check NT before W32 if ((($NT && (!@p_purged || (!$negatives && grep(/^WINNT$/,@p)) || ($negatives && !grep(/^!WINNT$/,@p)))) || ($W32 && (!@p_purged || (!$negatives && grep(/^WIN32$/,@p)) || ($negatives && !grep(/^!WIN32$/,@p)))) || ($W16 && (!@p_purged || (!$negatives && grep(/^WIN16$/,@p)) || ($negatives && !grep(/^!WIN16$/,@p))))) && (!@p || (!$negatives && ($rsaref || !grep(/^RSAREF$/,@p))) || ($negatives && (!$rsaref || !grep(/^!RSAREF$/,@p))))) { printf OUT " %s%-40s@%d\n",($W32)?"":"_",$s,$n; # } else { # print STDERR "DEBUG: \"$sym\" (@p):", # " rsaref:", !!(!@p # || (!$negatives # && ($rsaref || !grep(/^RSAREF$/,@p))) # || ($negatives # && (!$rsaref || !grep(/^!RSAREF$/,@p))))?1:0, # " 16:", !!($W16 && (!@p_purged # || (!$negatives && grep(/^WIN16$/,@p)) # || ($negatives && !grep(/^!WIN16$/,@p)))), # " 32:", !!($W32 && (!@p_purged # || (!$negatives && grep(/^WIN32$/,@p)) # || ($negatives && !grep(/^!WIN32$/,@p)))), # " NT:", !!($NT && (!@p_purged # || (!$negatives && grep(/^WINNT$/,@p)) # || ($negatives && !grep(/^!WINNT$/,@p)))), # "\n"; } } } printf OUT "\n"; } sub load_numbers { my($name)=@_; my(@a,%ret); $max_num = 0; $num_noinfo = 0; $prev = ""; open(IN,"<$name") || die "unable to open $name:$!\n"; while () { chop; s/#.*$//; next if /^\s*$/; @a=split; if (defined $ret{$a[0]}) { 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 ",$a[1],"\n"; } if ($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 < 2) { # Existence will be proven later, in do_defs $ret{$a[0]}=$a[1]; $num_noinfo++; } else { $ret{$a[0]}=$a[1]."\\".$a[2]; # \\ is a special marker } $max_num = $a[1] if $a[1] > $max_num; $prev=$a[0]; } if ($num_noinfo) { print STDERR "Warning: $num_noinfo symbols were without info."; if ($do_rewrite) { printf STDERR " The rewrite will fix this.\n"; } 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 $i) = split(/\\/,$str); if ($what eq "n") { return $n; } else { return $i; } } sub rewrite_numbers { (*OUT,$name,*nums,@symbols)=@_; my $thing; print STDERR "Rewriting $name\n"; my @r = grep(/^\w+\\.*?:.*?:\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 @s=sort { &parse_number($nums{$a},"n") <=> &parse_number($nums{$b},"n") } keys %nums; foreach $sym (@s) { (my $n, my $i) = split /\\/, $nums{$sym}; next if defined($i) && $i =~ /^.*?:.*?:\w+\(\w+\)/; next if defined($rsyms{$sym}); $i="NOEXIST::FUNCTION:" if !defined($i) || $i eq ""; printf OUT "%s%-40s%d\t%s\n","",$sym,$n,$i; if (exists $r{$sym}) { (my $s, $i) = split /\\/,$r{$sym}; printf OUT "%s%-40s%d\t%s\n","",$s,$n,$i; } } } sub update_numbers { (*OUT,$name,*nums,my $start_num, my @symbols)=@_; my $new_syms = 0; print STDERR "Updating $name numbers\n"; my @r = grep(/^\w+\\.*?:.*?:\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}) { $new_syms++; printf OUT "%s%-40s%d\t%s\n","",$s, ++$start_num,$i; if (exists $r{$s}) { ($s, $i) = split /\\/,$r{$sym}; printf OUT "%s%-40s%d\t%s\n","",$s, $start_num,$i; } } } if($new_syms) { print STDERR "$new_syms New symbols added\n"; } else { print STDERR "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"; } } }