#!/usr/bin/perl -w # # Helper program to generate Makefile rules into file Rom from table in # file NIC # # GPL, Ken Yap 2001, with major contributions by Klaus Espenlaub # Revised 2002 # use strict; use bytes; use File::Basename; use vars qw($familyfile $nic @families $curfam %drivers %pcient %isaent %isalist %buildent $arch @srcs); sub __gendep ($$$) { my ($file, $deps, $driver_dep) = @_; foreach my $source (@$deps) { my $inc; my @collect_dep = (); $inc = "arch/$arch/include/$source" unless ! -e "arch/$arch/include/$source"; $inc = "include/$source" unless ! -e "include/$source"; $inc = dirname($file) . "/$source" unless ! -e dirname($file) . "/$source"; unless (defined($inc)) { print STDERR "$source from $file not found (shouldn't happen)\n"; next; }; next if (exists ${$driver_dep}{$inc}); ${$driver_dep}{$inc} = $inc; # Warn about failure to open, then skip, rather than soldiering on with the read unless (open(INFILE, "$inc")) { print STDERR "$inc: $! (shouldn't happen)\n"; next; }; while () { chomp($_); # This code is not very smart: no C comments or CPP conditionals processing is # done. This may cause unexpected (or incorrect) additional dependencies. # However, ignoring the CPP conditionals is in some sense correct: we need to # figure out a superset of all the headers for the driver source. next unless (s/^\s*#include\s*"([^"]*)".*$/$1/); # Ignore system includes, like the ones in osdep.h next if ($_ =~ m:^/:); # Ignore "special" includes, like .buildserial.h next if /^\./; push(@collect_dep, $_); } close(INFILE); if (@collect_dep) { &__gendep($inc, \@collect_dep, $driver_dep); } } } sub gendep ($) { my ($driver) = @_; # Automatically generate the dependencies for the driver sources. my %driver_dep = (); __gendep( "", [ $driver ], \%driver_dep); return sort values %driver_dep } # Make sure that every rom name exists only once. # make will warn if it finds duplicate rules, but it is better to stop sub checkduplicate (\%$$) { my ($anyent, $curfam, $romname) = @_; foreach my $family (@families) { if (exists($$anyent{$family})) { my $aref = $$anyent{$family}; foreach my $entry (@$aref) { if ($entry->[0] eq $romname) { print STDERR "\nROM name $romname defined twice. Please correct.\n"; exit 1; } } } } } sub genroms($) { my ($driver) = @_; # Automatically discover the ROMS this driver can produce. unless (open(INFILE, "$driver")) { print STDERR "$driver: %! (shouldn't happen)\n"; next; }; while () { chomp($_); if ($_ =~ m/^\s*PCI_ROM\(\s*0x([0-9A-Fa-f]*)\s*,\s*0x([0-9A-Fa-f]*)\s*,\s*"([^"]*)"\s*,\s*"([^"]*)"\)/) { # We store a list of PCI IDs and comments for each PC target my ($vendor_id, $device_id, $rom, $comment) = (hex($1), hex($2), $3, $4); my $ids = sprintf("0x%04x,0x%04x", $vendor_id, $device_id); checkduplicate(%pcient, $curfam, $rom); push(@{$pcient{$curfam}}, [$rom, $ids, $comment]); } elsif($_ =~ m/^\s*ISA_ROM\(\s*"([^"]*)"\s*,\s*"([^"]*)"\)/) { my ($rom, $comment) = ($1, $2); # We store the base driver file for each ISA target $isalist{$rom} = $curfam; $buildent{$rom} = 1; checkduplicate(%isaent, $curfam, $rom); push(@{$isaent{$curfam}}, [$rom, $comment]); } elsif($_ =~ m/^\s*PCI_ROM/ or $_ =~ m/^\s*ISA_ROM/) { # Complain since we cannot parse this. Of course it would be nicer if we could parse... print STDERR "\nFound incomplete PCI_ROM or ISA_ROM macro in file $driver.\n"; print STDERR "ROM macros spanning more than one line are not supported,\n"; print STDERR "please adjust $driver accordingly.\n\n\n"; exit 1; } } } sub addfam ($) { my ($family) = @_; push(@families, $family); # We store the list of dependencies in the hash for each family my @deps = &gendep("$family.c"); $drivers{$family} = join(' ', @deps); $pcient{$family} = []; genroms("$family.c"); } sub addrom ($) { my ($rom, $ids, $comment) = split(' ', $_[0], 3); # defaults if missing $ids = '-' unless ($ids); $comment = $rom unless ($comment); if ($ids ne '-') { # We store a list of PCI IDs and comments for each PCI target checkduplicate(%pcient, $curfam, $rom); push(@{$pcient{$curfam}}, [$rom, $ids, $comment]); } else { # We store the base driver file for each ISA target $isalist{$rom} = $curfam; $buildent{$rom} = 1; checkduplicate(%isaent, $curfam, $rom); push(@{$isaent{$curfam}}, [$rom, $comment]); } } # Return true if this driver is ISA only sub isaonly ($) { my $aref = $pcient{$_[0]}; return ($#$aref < 0); } $#ARGV >= 1 or die "Usage: $0 Families bin/NIC arch sources...\n"; $familyfile = shift(@ARGV); $nic = shift(@ARGV); $arch = shift(@ARGV); @srcs = @ARGV; open FAM, "<$familyfile" or die "Could not open $familyfile: $!\n"; $curfam = ''; while ( ) { chomp($_); next if (/^\s*(#.*)?$/); my ($keyword) = split(' ', $_ , 2); if ($keyword eq 'family') { my ($keyword, $driver) = split(' ', $_, 2); $curfam = ''; if (! -e "$driver.c") { print STDERR "Driver file $driver.c not found, skipping...\n"; next; } if ($driver =~ "^arch" && $driver !~ "^arch/$arch") { # This warning just makes noise for most compilations. # print STDERR "Driver file $driver.c not for arch $arch, skipping...\n"; next; } &addfam($curfam = $driver); } else { # skip until we have a valid family next if ($curfam eq ''); &addrom($_); } } close FAM; open(N,">$nic") or die "$nic: $!\n"; print N <[0]; my $ids = $entry->[1]; my $comment = $entry->[2]; print N "$rom\t$ids\t$comment\n"; } } if (exists($isaent{$family})) { my $aref = $isaent{$family}; foreach my $entry (@$aref) { my $rom = $entry->[0]; my $comment = $entry->[1]; print N "$rom\t-\t$comment\n"; } } print N "\n"; } close(N); # Generate the normal source dependencies print "# Core object file dependencies\n"; foreach my $source (@srcs) { next if ($source !~ '[.][cS]$'); my @deps = &gendep($source); my $obj = $source; $obj =~ s/^.*?([^\/]+)\.[cS]/bin\/$1.o/; foreach my $dep (@deps) { print "$obj: $dep\n"; } print("\n"); } # Generate the assignments to DOBJS and BINS print "# Driver object files and ROM image files\n"; print "DOBJS\t:=\n"; print "PCIOBJS\t:=\n"; print "# Target formats\n"; print "EB_ISOS\t:=\n"; print "EB_LISOS\t:=\n"; print "EB_COMS\t:=\n"; print "EB_EXES\t:=\n"; print "EB_LILOS\t:=\n"; print "EB_ZLILOS\t:=\n"; print "EB_PXES\t:=\n"; print "EB_ZPXES\t:=\n"; print "EB_DSKS\t:=\n"; print "EB_ZDSKS\t:=\n"; print "EB_HDS\t:=\n"; print "EB_ZHDS\t:=\n"; print "EB_ELFS\t:=\n"; print "EB_ZELFS\t:=\n"; print "EB_LMELFS\t:=\n"; print "EB_ZLMELFS\t:=\n"; print "EB_ELFDS\t:=\n"; print "EB_ZELFDS\t:=\n"; print "EB_LMELFDS\t:=\n"; print "EB_ZLMELFDS\t:=\n"; foreach my $pci (sort keys %pcient) { my $img = basename($pci); print "DOBJS\t+= \$(BIN)/$img.o\n"; print "PCIOBJS\t+= \$(BIN)/$img.o\n" unless isaonly($pci); # Output targets print "EB_LILOS\t+= \$(BIN)/$img.lilo \nEB_ZLILOS\t+= \$(BIN)/$img.zlilo\n"; print "EB_PXES\t+= \$(BIN)/$img.pxe \nEB_ZPXES\t+= \$(BIN)/$img.zpxe\n"; print "EB_DSKS\t+= \$(BIN)/$img.dsk \nEB_ZDSKS\t+= \$(BIN)/$img.zdsk\n"; print "EB_HDS\t+= \$(BIN)/$img.hd \nEB_ZHDS\t+= \$(BIN)/$img.zhd\n"; print "EB_ELFS\t+= \$(BIN)/$img.elf \nEB_ZELFS\t+= \$(BIN)/$img.zelf\n"; print "EB_LMELFS\t+= \$(BIN)/$img.lmelf \nEB_ZLMELFS\t+= \$(BIN)/$img.zlmelf\n"; print "EB_ELFDS\t+= \$(BIN)/$img.elfd \nEB_ZELFDS\t+= \$(BIN)/$img.zelfd\n"; print "EB_LMELFDS\t+= \$(BIN)/$img.lmelfd \nEB_ZLMELFDS\t+= \$(BIN)/$img.zlmelfd\n"; print "EB_BIMAGES\t+= \$(BIN)/$img.bImage \nEB_BZIMAGES\t+= \$(BIN)/$img.bzImage\n"; print "EB_ISOS\t+= \$(BIN)/$img.iso\n"; print "EB_LISOS\t+= \$(BIN)/$img.liso\n"; print "EB_COMS\t+= \$(BIN)/$img.com\n"; print "EB_EXES\t+= \$(BIN)/$img.exe\n"; } foreach my $img (sort keys %buildent) { print "DOBJS\t+= \$(BIN)/$img.o\n"; # Output targets print "EB_LILOS\t+= \$(BIN)/$img.lilo \nEB_ZLILOS\t+= \$(BIN)/$img.zlilo\n"; print "EB_PXES\t+= \$(BIN)/$img.pxe \nEB_ZPXES\t+= \$(BIN)/$img.zpxe\n"; print "EB_DSKS\t+= \$(BIN)/$img.dsk \nEB_ZDSKS\t+= \$(BIN)/$img.zdsk\n"; print "EB_HDS\t+= \$(BIN)/$img.hd \nEB_ZHDS\t+= \$(BIN)/$img.zhd\n"; print "EB_ELFS\t+= \$(BIN)/$img.elf \nEB_ZELFS\t+= \$(BIN)/$img.zelf\n"; print "EB_LMELFS\t+= \$(BIN)/$img.lmelf \nEB_ZLMELFS\t+= \$(BIN)/$img.zlmelf\n"; print "EB_ELFDS\t+= \$(BIN)/$img.elfd \nEB_ZELFDS\t+= \$(BIN)/$img.zelfd\n"; print "EB_LMELFDS\t+= \$(BIN)/$img.lmelfd \nEB_ZLMELFDS\t+= \$(BIN)/$img.zlmelfd\n"; print "EB_BIMAGES\t+= \$(BIN)/$img.bImage \nEB_BZIMAGE\t+= \$(BIN)/$img.bzImage\n"; print "EB_ISOS\t+= \$(BIN)/$img.iso\n"; print "EB_LISOS\t+= \$(BIN)/$img.liso\n"; print "EB_COMS\t+= \$(BIN)/$img.com\n"; print "EB_EXES\t+= \$(BIN)/$img.exe\n"; } print "ROMS\t:=\n"; foreach my $family (sort keys %pcient) { my $aref = $pcient{$family}; foreach my $entry (@$aref) { my $rom = $entry->[0]; print "ROMS\t+= \$(BIN)/$rom.rom \$(BIN)/$rom.zrom\n"; } } foreach my $isa (sort keys %isalist) { print "ROMS\t+= \$(BIN)/$isa.rom \$(BIN)/$isa.zrom\n"; } # Generate the *.o rules print "\n# Rules to build the driver object files\n"; foreach my $pci (sort keys %drivers) { # For ISA the rule for .o will generated later next if isaonly($pci); # PCI drivers are compiled only once for all ROMs (my $macro = basename($pci)) =~ tr/\-/_/; my $obj = basename($pci); my $deps = $drivers{$pci}; print < \$@ \$(MAKEROM) \$(MAKEROM_FLAGS) \$(MAKEROM_\$(ROMCARD)) \$(MAKEROM_ID_\$(ROMCARD)) -i\$(IDENT) \$@ EOF } } # ISA ROMs are prepared from the matching code images # Think this can probably be removed, but not sure foreach my $isa (sort keys %isalist) { print <