#!/usr/bin/perl use MDK::Common; @ignored_modules = ( qw(alsa ignore), ); if ($0 =~ /merge2pcitable/) { $ARGV[0] eq '-f' and $force = shift; $ARGV[0] eq '-a' and $all = shift; $ARGV[0] eq '--keep-subids' and $keep_subids = shift; my $formats = join '|', grep {$_} map { /^read_(.*)/ ? $1 : '' } keys %main::; @ARGV == 3 or die "usage: $0 [-f] [-a] $formats \n"; ($format, $in, $pcitable) = @ARGV; my $read = $main::{"read_$format"} or die "unknown format $format (must be one of $formats)\n"; my $d_pci = read_pcitable($pcitable, 'strict'); my $d_in = $read->($in); merge($d_pci, $d_in); exit 1 if our $error; cleanup_subids($d_pci) if !$keep_subids; write_pcitable($d_pci); } else { 1 } sub dummy_module { my ($m) = @_; $m =~ s/"(.*)"/$1/; member($m, @ignored_modules); } sub to_string { my ($id, $driver) = @_; @$driver >= 2 or error("error: to_string $id"); my ($module, $text) = map { qq("$_") } @$driver; my ($id1, $id2, $subid1, $subid2) = map { "0x$_" } ($id =~ /(....)/g); join "\t", $id1, $id2, "$subid1 $subid2" ne "0xffff 0xffff" ? ($subid1, $subid2) : (), $module, $text; } # works for RedHat's pcitable old and new format, + mdk format (alike RedHat's old one) # (the new format has ending .o's and double quotes are removed) sub read_pcitable { my ($f, $strict) = @_; my %drivers; my $line = 0; my $rm_quote_silent = sub { local ($_) = @_; s/^"//; s/"$//; $_ }; my $rm_quote = sub { local ($_) = @_; s/^"// or error("$f:$line: missing left quote"); s/"$// or error("$f:$line: missing right quote"); /"/ && $strict and error("$f:$line: bad double quote"); $_; }; foreach (cat_($f)) { chomp; $line++; next if /^#/ || /^\s*$/; if (!$strict) { #- help poor written pcitable's like redhat's :) s/(\S+)\s+(\S+)\s+(.*)/$1\t$2\t$3/; } if (my ($id1, $id2, @l) = split /\t+/) { my ($subid1, $subid2) = ('ffff', 'ffff'); ($subid1, $subid2, @l) = @l if @l == 4; @l == 2 or die "$f:$line: bad number of fields " . (int @l) . " (in $_)\n"; my ($module, $text) = @l; my $class = $text =~ /(.*?)|/; my $id1_ = $rm_quote_silent->($id1); if ($class{$id1_}) { print STDERR "$f:$line: class $id1_ named both $class and $class{$id1_}, taking $class{$id1_}\n"; $class{$id1_} ||= $1; $text =~ s/(.*?)|/$class{$id1_}|/; } $module =~ s/\.o$//; $module = '"unknown"' if dummy_module($module); $module = '"unknown"' if $id1 eq '0x1011' && $id2 eq '0x0004'; # known errors in redhat's pcitable # these are pci to pci bridge $module = '"yenta_socket"' if $module =~ /i82365/; my $id = join '', map { s/^0x//; length == 4 or error("$f:$line: bad number $_"); lc($_); } $id1, $id2, $subid1, $subid2; $drivers{$id} && $strict and error("$f:$line: multiple entry for $id (skipping $module $text)"); $drivers{$id} ||= [ $rm_quote->($module), $rm_quote->($text), $line ]; } else { die "$f:$line: bad line\n"; } } \%drivers; } sub read_kernel_pcimap { my ($f) = @_; my %drivers; foreach (cat_($f)) { chomp; next if /^#/ || /^\s*$/; my ($module, $id1, $id2, $subid1, $subid2) = split; next if $module eq 'pci'; ($subid1, $subid2) = ("ffff", "ffff") if hex($subid1) == 0 && hex($subid2) == 0; $drivers{join '', map { /(....)$/ } $id1, $id2, $subid1, $subid2} = [ $module, '' ]; } \%drivers; } sub read_kernel_usbmap { my ($f) = @_; my %drivers; foreach (cat_($f)) { chomp; next if /^#/ || /^\s*$/; my ($module, $flag, $id1, $id2) = split; hex($flag) == 3 or next; $drivers{join '', map { /(....)$/ } $id1, $id2, "ffff", "ffff"} = [ $module, '' ]; } \%drivers; } sub read_pciids { my ($f) = @_; my %drivers; my ($id1, $id2, $class, $line, $text); foreach (cat_($f)) { chomp; $line++; next if /^#/ || /^;/ || /^\s*$/; if (/^C\s/) { last; } elsif (my ($subid1, $subid2, $text) = /^\t\t(\S+)\s+(\S+)\s+(.+)/) { $text =~ s/\t/ /g; $id1 && $id2 or die "$f:$line: unexpected device\n"; $drivers{sprintf qq(%04x%04x%04x%04x), hex($id1), hex($id2), hex($subid1), hex($subid2)} = [ "unknown", "$class|$text" ]; } elsif (/^\t(\S+)\s+(.+)/) { ($id2, $text) = ($1, $2); $text =~ s/\t/ /g; $id1 && $id2 or die "$f:$line: unexpected device\n"; $drivers{sprintf qq(%04x%04xffffffff), hex($id1), hex($id2)} = [ "unknown", "$class|$text" ]; } elsif (/^(\S+)\s+(.+)/) { $id1 = $1; $class = $class{$2} || $2; $class =~ s/(Advanced Micro Devices) \[AMD\]/$1/; } else { warn "bad line: $_\n"; } } \%drivers; } sub read_pcilst { my ($f) = @_; my %drivers; my ($id, $class, $line, $text); foreach (cat_($f)) { chomp; $line++; next if /^#/ || /^;/ || /^\s*$/; if (/^\t\S/) { my ($id, undef, $module, $text) = split ' ', $_, 4 or die "bad line: $_\n"; $text =~ s/\t/ /g; $module = "unknown" if dummy_module($module); $drivers{"${id}ffffffff"} = [ $module, "$class|$text" ]; } elsif (/^(\S+)\s+(.*)/) { $class = $class{$2} || $2; } else { die "bad line: $_\n"; } } \%drivers; } sub read_pcitablepm { my ($f) = @_; eval cat_($f); %pci_probing::pcitable::ids or die; while (my ($k, $v) = each %pci_probing::pcitable::ids) { $drivers{sprintf qq(%08xffffffff), $k >> 32} = [ $v->[1], $v->[0] ]; } \%drivers; } sub read_hwd { my ($f) = @_; my %drivers; foreach (cat_($f)) { next if /^\s*#/; chomp; my ($id1, $id2, $class, $module, $undef, $descr) = /(....):(....)\s+(\S+)\s+(\S+)(\s+(.*))/ or next; $drivers{"$id1${id2}ffffffff"} = [ $module, $descr ]; } \%drivers; } sub read_begent_pcids_htm { my ($f) = @_; my %drivers; local *F; open F, $f or die "can't open $f\n"; # drop until TBODY while () { last if m|| } my $get_one = sub { map { scalar } 1 .. 6 }; my $from_h = sub { local $_ = lc $_[0]; /([0-9a-g]{4})h/ or die "$.: bad number $_\n"; $1; }; # drop first line $get_one->(); my ($cur_vendor, $cur_vendor_descr, $cur_id); while (1) { my ($tr, $vendor, $device, $sub, $text, $tr2) = map { m|(.*)| ? $1 : $_ } $get_one->(); last if $tr =~ m||; $tr =~ m|| or die "$f:$.: bad line $tr\n"; $tr2 =~ m|| or die "$f:$.: bad line $tr2\n"; if ($vendor) { $device eq '-' && $sub eq '-' or die "$f:$.: bad vendor line\n"; $cur_vendor = $vendor; ($cur_vendor_descr) = $text =~ m|(.*)| or die "$f:$.: vendor descr not bold\n"; } else { $cur_id = $device || $cur_id; my $sub_t = $sub ? do { $sub =~ /^rev / and next; # ignoring "rev " thingy if ($sub =~ /^(.....)$/) { 'ffff' . $from_h->($sub); } else { my ($s1, $s2) = $sub =~ /^(....)(.....)$/ or die "$f:$.: bad subid $sub\n"; $from_h->($s2) . $from_h->($s1 . 'h'); } } : 'ffffffff'; $drivers{$from_h->($cur_vendor) . $from_h->($cur_id) . $sub_t} = [ 'unknown', "$cur_vendor_descr|$text" ]; } } \%drivers; } # write in RedHat's pcitable old format (mdk one) sub write_pcitable { my ($drivers) = @_; foreach (sort keys %$drivers) { print to_string($_, $drivers->{$_}), "\n"; } } sub merge { my ($drivers, $new) = @_; foreach (keys %$new) { next if $new->{$_}[0] =~ /parport_pc|i810_ng/; if ($drivers->{$_}) { if ($new->{$_}[0] ne "unknown") { if ($drivers->{$_}[0] eq "unknown" || $force) { $drivers->{$_}[0] = $new->{$_}[0]; } elsif ($drivers->{$_}[0] ne $new->{$_}[0]) { my $different = 1; $different = 0 if $new->{$_}[0] =~ /fb/; $different = 0 if $drivers->{$_}[0] =~ /^(Card|Server):/; $different = 0 if $drivers->{$_}[0] =~ /^ISDN:([^,]+)/ && $new->{$_}[0] eq $1; print STDERR "different($drivers->{$_}[0] $new->{$_}[0]): ", to_string($_, $drivers->{$_}), "\n" if $different; } } $drivers->{$_}[1] ||= $new->{$_}[1]; } else { if (!/ffffffff$/ && $new->{$_}[0] eq "unknown") { # keep sub-entry with major-entry module # will be dropped if every subids have the same module # ie. if no subids already present have a different module than the main one /(........)/; $new->{$_}[0] = $drivers->{$1 . 'ffffffff'}[0] || "unknown" if exists $drivers->{$1 . 'ffffffff'}; } $drivers->{$_} = $new->{$_} # don't keep sub-entries with unknown drivers if $all || /ffffffff$/ || $new->{$_}[0] ne "unknown"; } } } sub cleanup_subids { my ($drivers) = @_; my (%l, %m); foreach (sort keys %$drivers) { my ($id, $subid) = /(........)(........)/; if ($l{$id}) { push @{$m{$id}}, $l{$id}, $subid; } else { $l{$id} = $subid; } } foreach my $id (keys %m) { my %modules; my $text; foreach my $subid (@{$m{$id}}) { my $e = $drivers->{"$id$subid"}; $modules{$e->[0]} = 1; $text = $e->[1] if length($e->[1]) > length($text) || $subid eq 'ffffffff'; # favour previous text } if (keys(%modules) == 1) { my ($module, undef) = %modules; # remove others foreach my $subid (@{$m{$id}}) { delete $drivers->{"$id$subid"}; } # add a main one $drivers->{$id . 'ffffffff'} = [ $module, $text ]; } else { # print STDERR "keeping subids for $id ($text) because of ", join(", ", keys %modules), "\n"; } } } sub error { our $error = 1; print STDERR "$_[0]\n"; }