# Create global symbol declarations, transfer vector, and # linker options files for PerlShr. # # Input: # $cflags - command line qualifiers passed to cc when preprocesing perl.h # Note: A rather simple-minded attempt is made to restore quotes to # a /Define clause - use with care. # $objsuffix - file type (including '.') used for object files. # $libperl - Perl object library. # $extnames - package names for static extensions (used to generate # linker options file entries for boot functions) # $rtlopt - name of options file specifying RTLs to which PerlShr.Exe # must be linked # # Output: # PerlShr_Attr.Opt - linker options file which speficies that global vars # be placed in NOSHR,WRT psects. Use when linking any object files # against PerlShr.Exe, since cc places global vars in SHR,WRT psects # by default. # PerlShr_Bld.Opt - declares universal symbols for PerlShr.Exe # Perlshr_Gbl*.Mar, Perlshr_Gbl*.Obj (VAX only) - declares global symbols # for global vars (done here because gcc can't globaldef) and creates # transfer vectors for routines on a VAX. # PerlShr_Gbl.Opt (VAX only) - list of PerlShr_Gbl*.Obj, used for input # to the linker when building PerlShr.Exe. # # To do: # - figure out a good way to collect global vars in one psect, given that # we can't use globaldef because of gcc. # - then, check for existing files and preserve symbol and transfer vector # order for upward compatibility # - then, add GSMATCH to options file - but how do we insure that new # library has everything old one did # (i.e. /Define=DEBUGGING,EMBED,MULTIPLICITY)? # # Author: Charles Bailey bailey@genetics.upenn.edu require 5.000; $debug = $ENV{'GEN_SHRFLS_DEBUG'}; print "gen_shrfls.pl Rev. 14-Dec-1997\n" if $debug; if ($ARGV[0] eq '-f') { open(INP,$ARGV[1]) or die "Can't read input file $ARGV[1]: $!\n"; print "Input taken from file $ARGV[1]\n" if $debug; @ARGV = (); while () { chomp; push(@ARGV,split(/\|/,$_)); } close INP; print "Read input data | ",join(' | ',@ARGV)," |\n" if $debug > 1; } $cc_cmd = shift @ARGV; # Someday, we'll have $GetSyI built into perl . . . $isvax = `\$ Write Sys\$Output F\$GetSyI(\"HW_MODEL\")` <= 1024; print "\$isvax: \\$isvax\\\n" if $debug; print "Input \$cc_cmd: \\$cc_cmd\\\n" if $debug; $docc = ($cc_cmd !~ /^~~/); print "\$docc = $docc\n" if $debug; if ($docc) { if (-f 'perl.h') { $dir = '[]'; } elsif (-f '[-]perl.h') { $dir = '[-]'; } else { die "$0: Can't find perl.h\n"; } # Go see if debugging is enabled in config.h $config = $dir . "config.h"; open CONFIG, "< $config"; while() { $debugging_enabled++ if /define\s+DEBUGGING/; $hide_mymalloc++ if /define\s+EMBEDMYMALLOC/; $use_mymalloc++ if /define\s+MYMALLOC/; } # put quotes back onto defines - they were removed by DCL on the way in if (($prefix,$defines,$suffix) = ($cc_cmd =~ m#(.*)/Define=(.*?)([/\s].*)#i)) { $defines =~ s/^\((.*)\)$/$1/; $debugging_enabled ||= $defines =~ /\bDEBUGGING\b/; @defines = split(/,/,$defines); $cc_cmd = "$prefix/Define=(" . join(',',grep($_ = "\"$_\"",@defines)) . ')' . $suffix; } print "Filtered \$cc_cmd: \\$cc_cmd\\\n" if $debug; # check for gcc - if present, we'll need to use MACRO hack to # define global symbols for shared variables $isvaxc = 0; $isgcc = `$cc_cmd _nla0:/Version` =~ /GNU/ or 0; # make debug output nice $isvaxc = (!$isgcc && $isvax && # Check exit status too, in case message is shut off (`$cc_cmd /prefix=all _nla0:` =~ /IVQUAL/ || $? == 0x38240)) or 0; # again, make debug output nice print "\$isgcc: $isgcc\n" if $debug; print "\$isvaxc: $isvaxc\n" if $debug; print "\$debugging_enabled: $debugging_enabled\n" if $debug; } else { ($junk,$junk,$cpp_file,$cc_cmd) = split(/~~/,$cc_cmd,4); $isgcc = $cc_cmd =~ /case_hack/i or 0; # for nice debug output $isvaxc = (!$isgcc && $cc_cmd !~ /standard=/i) or 0; # again, for nice debug output $debugging_enabled = $cc_cmd =~ /\bdebugging\b/i; print "\$isgcc: \\$isgcc\\\n" if $debug; print "\$isvaxc: \\$isvaxc\\\n" if $debug; print "\$debugging_enabled: \\$debugging_enabled\\\n" if $debug; print "Not running cc, preprocesor output in \\$cpp_file\\\n" if $debug; } $objsuffix = shift @ARGV; print "\$objsuffix: \\$objsuffix\\\n" if $debug; $dbgprefix = shift @ARGV; print "\$dbgprefix: \\$dbgprefix\\\n" if $debug; $olbsuffix = shift @ARGV; print "\$olbsuffix: \\$olbsuffix\\\n" if $debug; $libperl = "${dbgprefix}libperl$olbsuffix"; $extnames = shift @ARGV; print "\$extnames: \\$extnames\\\n" if $debug; $rtlopt = shift @ARGV; print "\$rtlopt: \\$rtlopt\\\n" if $debug; # This part gets tricky. VAXC creates global symbols for each of the # constants in an enum if that enum is ever used as the data type of a # global[dr]ef. We have to detect enums which are used in this way, so we # can set up the constants as universal symbols, since anything which # #includes perl.h will want to resolve these global symbols. # We're using a weak test here - we basically know that the only enums # we need to handle now are the big one in opcode.h, and the # "typedef enum { ... } expectation" in perl.h, so we hard code # appropriate tests below. Since we can't know in general whether a given # enum will be used elsewhere in a globaldef, it's hard to decide a # priori whether its constants need to be treated as global symbols. sub scan_enum { my($line) = @_; return unless $isvaxc; return unless /^\s+(OP|X)/; # we only want opcode and expectation enums print "\tchecking for enum constant\n" if $debug > 1; $line =~ s#/\*.+##; $line =~ s/,?\s*\n?$//; print "\tfiltered to \\$line\\\n" if $debug > 1; if ($line =~ /(\w+)$/) { print "\tconstant name is \\$1\\\n" if $debug > 1; $enums{$1}++; } } sub scan_var { my($line) = @_; my($const) = $line =~ /^EXTCONST/; print "\tchecking for global variable\n" if $debug > 1; $line =~ s/\s*EXT/EXT/; $line =~ s/INIT\s*\(.*\)//; $line =~ s/\[.*//; $line =~ s/=.*//; $line =~ s/\W*;?\s*$//; $line =~ s/\W*\)\s*\(.*$//; # closing paren for args stripped in previous stmt print "\tfiltered to \\$line\\\n" if $debug > 1; if ($line =~ /(\w+)$/) { print "\tvar name is \\$1\\" . ($const ? ' (const)' : '') . "\n" if $debug > 1; if ($const) { $cvars{$1}++; } else { $vars{$1}++; } } if ($isvaxc) { my($type) = $line =~ /^\s*EXT\w*\s+(\w+)/; print "\tchecking for use of enum (type is \"$type\")\n" if $debug > 2; if ($type eq 'expectation') { $used_expectation_enum++; print "\tsaw global use of enum \"expectation\"\n" if $debug > 1; } if ($type eq 'opcode') { $used_opcode_enum++; print "\tsaw global use of enum \"opcode\"\n" if $debug > 1; } } } sub scan_func { my($line) = @_; print "\tchecking for global routine\n" if $debug > 1; if ( $line =~ /(\w+)\s+\(/ ) { print "\troutine name is \\$1\\\n" if $debug > 1; if ($1 eq 'main' || $1 eq 'perl_init_ext') { print "\tskipped\n" if $debug > 1; } else { $fcns{$1}++ } } } # Go add some right up front if we need 'em if ($use_mymalloc) { $fcns{'Perl_malloc'}++; $fcns{'Perl_calloc'}++; $fcns{'Perl_realloc'}++; $fcns{'Perl_myfree'}++; } $used_expectation_enum = $used_opcode_enum = 0; # avoid warnings if ($docc) { open(CPP,"${cc_cmd}/NoObj/PreProc=Sys\$Output ${dir}perl.h|") or die "$0: Can't preprocess ${dir}perl.h: $!\n"; } else { open(CPP,"$cpp_file") or die "$0: Can't read preprocessed file $cpp_file: $!\n"; } %checkh = map { $_,1 } qw( thread bytecode byterun proto ); $ckfunc = 0; LINE: while () { while (/^#.*vmsish\.h/i .. /^#.*perl\.h/i) { while (/__VMS_PROTOTYPES__/i .. /__VMS_SEPYTOTORP__/i) { print "vms_proto>> $_" if $debug > 2; if (/^\s*EXT/) { &scan_var($_); } else { &scan_func($_); } last LINE unless defined($_ = ); } print "vmsish.h>> $_" if $debug > 2; if (/^\s*EXT/) { &scan_var($_); } last LINE unless defined($_ = ); } while (/^#.*opcode\.h/i .. /^#.*perl\.h/i) { print "opcode.h>> $_" if $debug > 2; if (/^OP \*\s/) { &scan_func($_); } if (/^\s*EXT/) { &scan_var($_); } if (/^\s+OP_/) { &scan_enum($_); } last LINE unless defined($_ = ); } while (/^typedef enum/ .. /^\s*\}/) { print "global enum>> $_" if $debug > 2; &scan_enum($_); last LINE unless defined($_ = ); } # Check for transition to new header file if (/^# \d+ "(\S+)"/) { my $spec = $1; # Pull name from library module or header filespec $spec =~ /^(\w+)$/ or $spec =~ /(\w+)\.h/i; my $name = lc $1; $ckfunc = exists $checkh{$name} ? 1 : 0; $scanname = $name if $ckfunc; print "Header file transition: ckfunc = $ckfunc for $name.h\n" if $debug > 1; } if ($ckfunc) { print "$scanname>> $_" if $debug > 2; if (/\s*^EXT/) { &scan_var($_); } else { &scan_func($_); } } else { print $_ if $debug > 3 && ($debug > 5 || length($_)); if (/^\s*EXT/) { &scan_var($_); } } } close CPP; # Kluge to determine whether we need to add EMBED prefix to # symbols read from local list. vmsreaddirversions() is a VMS- # specific function whose Perl_ prefix is added in vmsish.h # if EMBED is #defined. $embed = exists($fcns{'Perl_vmsreaddirversions'}) ? 'Perl_' : ''; while () { next if /^#/; s/\s+#.*\n//; next if /^\s*$/; ($key,$array) = split('=',$_); $key = "$embed$key"; print "Adding $key to \%$array list\n" if $debug > 1; ${$array}{$key}++; } if ($debugging_enabled and ($isvaxc or $isgcc)) { $vars{'colors'}++ } foreach (split /\s+/, $extnames) { my($pkgname) = $_; $pkgname =~ s/::/__/g; $fcns{"boot_$pkgname"}++; print "Adding boot_$pkgname to \%fcns (for extension $_)\n" if $debug; } # If we're using VAXC, fold in the names of the constants for enums # we've seen as the type of global vars. if ($isvaxc) { foreach (keys %enums) { if (/^OP/) { $vars{$_}++ if $used_opcode_enum; next; } if (/^X/) { $vars{$_}++ if $used_expectation_enum; next; } print STDERR "Unrecognized enum constant \"$_\" ignored\n"; } } elsif ($isgcc) { # gcc creates this as a SHR,WRT psect in globals.c, but we # don't see it in the perl.h scan, since it's only declared # if DOINIT is #defined. Bleah. It's cheaper to just add # it by hand than to add /Define=DOINIT to the preprocessing # run and wade through all the extra junk. $vars{"${embed}Error"}++; } # Eventually, we'll check against existing copies here, so we can add new # symbols to an existing options file in an upwardly-compatible manner. $marord++; open(OPTBLD,">${dir}${dbgprefix}perlshr_bld.opt") or die "$0: Can't write to ${dir}${dbgprefix}perlshr_bld.opt: $!\n"; if ($isvax) { open(MAR,">${dir}perlshr_gbl${marord}.mar") or die "$0: Can't write to ${dir}perlshr_gbl${marord}.mar: $!\n"; print MAR "\t.title perlshr_gbl$marord\n"; } unless ($isgcc) { print OPTBLD "PSECT_ATTR=\$GLOBAL_RO_VARS,PIC,NOEXE,RD,NOWRT,SHR\n"; print OPTBLD "PSECT_ATTR=\$GLOBAL_RW_VARS,PIC,NOEXE,RD,WRT,NOSHR\n"; } foreach $var (sort (keys %vars,keys %cvars)) { if ($isvax) { print OPTBLD "UNIVERSAL=$var\n"; } else { print OPTBLD "SYMBOL_VECTOR=($var=DATA)\n"; } # This hack brought to you by the lack of a globaldef in gcc. if ($isgcc) { if ($count++ > 200) { # max 254 psects/file print MAR "\t.end\n"; close MAR; $marord++; open(MAR,">${dir}perlshr_gbl${marord}.mar") or die "$0: Can't write to ${dir}perlshr_gbl${marord}.mar: $!\n"; print MAR "\t.title perlshr_gbl$marord\n"; $count = 0; } print MAR "\t.psect ${var},long,pic,ovr,rd,wrt,noexe,noshr\n"; print MAR "\t${var}:: .blkl 1\n"; } } print MAR "\t.psect \$transfer_vec,pic,rd,nowrt,exe,shr\n" if ($isvax); foreach $func (sort keys %fcns) { if ($isvax) { print MAR "\t.transfer $func\n"; print MAR "\t.mask $func\n"; print MAR "\tjmp G\^${func}+2\n"; } else { print OPTBLD "SYMBOL_VECTOR=($func=PROCEDURE)\n"; } } if ($isvax) { print MAR "\t.end\n"; close MAR; } open(OPTATTR,">${dir}perlshr_attr.opt") or die "$0: Can't write to ${dir}perlshr_attr.opt: $!\n"; if ($isvaxc) { print OPTATTR "PSECT_ATTR=\$CHAR_STRING_CONSTANTS,PIC,SHR,NOEXE,RD,NOWRT\n"; } elsif ($isgcc) { foreach $var (sort keys %cvars) { print OPTATTR "PSECT_ATTR=${var},PIC,OVR,RD,NOEXE,NOWRT,SHR\n"; } foreach $var (sort keys %vars) { print OPTATTR "PSECT_ATTR=${var},PIC,OVR,RD,NOEXE,WRT,NOSHR\n"; } } else { print OPTATTR "! No additional linker directives are needed when using DECC\n"; } close OPTATTR; $incstr = 'perl,globals'; if ($isvax) { $drvrname = "Compile_shrmars.tmp_".time; open (DRVR,">$drvrname") or die "$0: Can't write to $drvrname: $!\n"; print DRVR "\$ Set NoOn\n"; print DRVR "\$ Delete/NoLog/NoConfirm $drvrname;\n"; print DRVR "\$ old_proc_vfy = F\$Environment(\"VERIFY_PROCEDURE\")\n"; print DRVR "\$ old_img_vfy = F\$Environment(\"VERIFY_IMAGE\")\n"; print DRVR "\$ MCR $^X -e \"\$ENV{'LIBPERL_RDT'} = (stat('$libperl'))[9]\"\n"; print DRVR "\$ Set Verify\n"; print DRVR "\$ If F\$Search(\"$libperl\").eqs.\"\" Then Library/Object/Create $libperl\n"; do { push(@symfiles,"perlshr_gbl$marord"); print DRVR "\$ Macro/NoDebug/Object=PerlShr_Gbl${marord}$objsuffix PerlShr_Gbl$marord.Mar\n"; print DRVR "\$ Library/Object/Replace/Log $libperl PerlShr_Gbl${marord}$objsuffix\n"; } while (--$marord); # We had to have a working miniperl to run this program; it's probably the # one we just built. It depended on LibPerl, which will be changed when # the PerlShr_Gbl* modules get inserted, so miniperl will be out of date, # and so, therefore, will all of its dependents . . . # We touch LibPerl here so it'll be back 'in date', and we won't rebuild # miniperl etc., and therefore LibPerl, the next time we invoke MM[KS]. print DRVR "\$ old_proc_vfy = F\$Verify(old_proc_vfy,old_img_vfy)\n"; print DRVR "\$ MCR $^X -e \"utime 0, \$ENV{'LIBPERL_RDT'}, '$libperl'\"\n"; close DRVR; } # Initial hack to permit building of compatible shareable images for a # given version of Perl. if ($ENV{PERLSHR_USE_GSMATCH}) { my $major = int($] * 1000) & 0xFF; # range 0..255 my $minor = int(($] * 1000 - $major) * 100 + 0.5) & 0xFF; # range 0..255 print OPTBLD "GSMATCH=LEQUAL,$major,$minor\n"; print OPTBLD 'CLUSTER=$$TRANSFER_VECTOR,,', map(",$_$objsuffix",@symfiles), "\n"; } elsif (@symfiles) { $incstr .= ',' . join(',',@symfiles); } # Include object modules and RTLs in options file # Linker wants /Include and /Library on different lines print OPTBLD "$libperl/Include=($incstr)\n"; print OPTBLD "$libperl/Library\n"; open(RTLOPT,$rtlopt) or die "$0: Can't read options file $rtlopt: $!\n"; while () { print OPTBLD; } close RTLOPT; close OPTBLD; exec "\$ \@$drvrname" if $isvax; __END__ # Oddball cases, so we can keep the perl.h scan above simple rcsid=vars # declared in perl.c regkind=vars # declared in regcomp.h simple=vars # declared in regcomp.h varies=vars # declared in regcomp.h watchaddr=vars # declared in run.c watchok=vars # declared in run.c yychar=vars # generated by byacc in perly.c yycheck=vars # generated by byacc in perly.c yydebug=vars # generated by byacc in perly.c yydefred=vars # generated by byacc in perly.c yydgoto=vars # generated by byacc in perly.c yyerrflag=vars # generated by byacc in perly.c yygindex=vars # generated by byacc in perly.c yylen=vars # generated by byacc in perly.c yylhs=vars # generated by byacc in perly.c yylval=vars # generated by byacc in perly.c yyname=vars # generated by byacc in perly.c yynerrs=vars # generated by byacc in perly.c yyrindex=vars # generated by byacc in perly.c yyrule=vars # generated by byacc in perly.c yysindex=vars # generated by byacc in perly.c yytable=vars # generated by byacc in perly.c yyval=vars # generated by byacc in perly.c