wine/tools/wineconf

458 lines
14 KiB
Perl
Executable File

#!/usr/bin/perl -w
# This program generates wine.conf files on STDOUT.
# (C) 1996 Stephen Simmons
# Redistributable under Wine License
$RCS_ID = '$Id$ ';
# This program examines the contents of the DOS filesystems and
# attempts to generate a sensible wine.conf file. This is output
# to STDOUT.
# It reads /etc/FSTAB to find mounting locations of the hard disk drives
# It uses the correct algorithm for ordering DOS drives, with the
# exception of the case of multiple drive controller types, where I don't
# know what DOS's algorithm is.
# It uses find to find all of the win.ini files on any DOS partition
# and sorts them by age to guess which is part of the active Windows
# installation.
# It reads the autoexec.bat file (if found) and records all variable
# settings. There are some inaccuracies in its determination.
# First, while variables are interpolated properly, no control
# structures are supported so calls and execs to other batch files are
# ignored, and all variable settings take effect regardless of whether
# they would in DOS (i,e., both if and else clauses are read).
# This is used to determine the path and temp directories. Duplicate
# path directories and path directories that don't exist are thrown
# out.
# On failing to find C:\AUTOEXEC.BAT, wineconf finds all executables
# in the windows directory and subdirectories, and generates an
# optimized path statement encompassing all the executables.
# Then it also looks for \TEMP and \TMP on all drives taking the first
# one it finds.
# wineconf doesn't support floppy drives, network drives, printers,
# and serial device configuration is hardcoded and not configured for
# the machine it runs on. Similarly, spy parameters are hard coded.
# It would make sense to incorporate much of the hueristic code in
# this program into a library to be shared with a dosemu configuration
# program, because it seems that at least some of the same stuff will
# be wanted. The program needs to be cleaned up still. A better tmp
# search algorithm could be written. A fast option is planned. Less
# Linux-dependence is desired. Should look for devices independent
# of /etc/fstab; then sanity checks on /etc/fstab can be performed.
use Getopt::Long;
use File::Basename;
use strict;
use Carp;
GetOptions('windir=s', 'sysdir=s', 'thorough', 'debug:s') || &Usage;
&ReadFSTAB();
&FindWindowsDir();
&ReadAutoexecBat();
&StandardStuff();
sub Usage {
print "Usage: $0 <options>\n";
# print "-fstab <filename> Location of alternate fstab file\n";
print "-windir <filename> Location of windows dir in DOS space\n";
print "-thorough Do careful analysis (default)\n";
print "-sysdir <filename> Location of systems dir in DOS space\n";
# print "-tmpdir <filename> Location of tmp directory\n";
print "Generates (to STDOUT) a wine configuration file based on\n";
print "/etc/fstab and searching around in DOS directories\n";
print "The options above can override certain values\n";
print "This should be considered ALPHA code\n";
exit(0);
}
sub ReadFSTAB {
$::opt_f = $::opt_f ? $::opt_f : '/etc/fstab';
open(FSTAB, $::opt_f) || die "Cannot read $::opt_f\n";
while(<FSTAB>) {
next if /^\s*\#/;
next if /^\s*$/;
my ($device, $mntpoint, $type, @rest) = split(' ', $_);
if ($device !~ m"^/dev/fd") {
if ($type eq "msdos" || $type eq "vfat") {
push(@::FatDrives, [$device, $mntpoint, $type]);
}
elsif ($type eq "iso9660" ||
$mntpoint eq "/cdrom" ||
($device eq '/dev/cdrom' && $type eq 'auto') ) {
push(@::CdromDrives, [$device, $mntpoint, 'win95']);
}
}
}
if (!@::FatDrives) {
warn "ERROR ($0): Cannot find any MSDOS drives.\n";
warn "This does not mean you cannot run Wine, but $0\n";
warn "cannot help you (yet)\n";
exit(1);
}
push(@::UnixDrives, ['', '/tmp', 'hd']);
push(@::UnixDrives, ['', '${HOME}', 'network']);
my $MagicDrive = 'C';
@::FatDrives = sort byDriveOrder @::FatDrives;
@::CdromDrives = sort byCdOrder @::CdromDrives;
foreach my $FatDrive (@::FatDrives) {
print "[Drive $MagicDrive]\n";
my $MntPoint = $FatDrive->[1];
my $FileSys = $FatDrive->[2];
print "Path=$MntPoint\n";
print "Type=hd\n";
print "Filesystem=$FileSys\n";
print "\n";
&RegisterDrive($MagicDrive, $FatDrive);
if(!&IsMounted($FatDrive->[0])) {
warn "WARNING: DOS Drive $MagicDrive (" . $FatDrive->[0] .
") is not mounted\n";
}
$MagicDrive++;
}
foreach my $CdromDrive (@::CdromDrives) {
print "[Drive $MagicDrive]\n";
my $Device = $CdromDrive->[0];
my $MntPoint = $CdromDrive->[1];
my $FileSys = $CdromDrive->[2];
print "Path=$MntPoint\n";
print "Type=cdrom\n";
print "Device=$Device\n";
print "Filesystem=$FileSys\n";
print "\n";
&RegisterDrive($MagicDrive, $CdromDrive);
$MagicDrive++;
}
foreach my $UnixDrive (@::UnixDrives) {
print "[Drive $MagicDrive]\n";
my $MntPoint = $UnixDrive->[1];
my $Type = $UnixDrive->[2];
print "Path=$MntPoint\n";
print "Type=$Type\n";
print "Filesystem=win95\n";
print "\n";
$MagicDrive++;
}
}
sub FindWindowsDir {
my($MagicDrive) = 'C';
my(@FATD)=@::FatDrives;
my(@wininis) = ();
my ($winini);
if (!$::opt_windir && !$::opt_fast && !$::opt_thorough) {
$::opt_thorough++;
}
if ($::opt_windir) {
$winini = &ToUnix($::opt_windir);
if (!-e $winini) {
die "ERROR: Specified winini file does not exist\n";
}
}
elsif ($::opt_fast) {
die "-fast code can be implemented\n";
}
elsif ($::opt_thorough) {
if ($::opt_debug) { print STDERR "DEBUG: Num FATD = ", $#FATD+1, "\n"; }
foreach(@FATD) {
my $ThisDrive = shift(@FATD);
my $MntPoint = $ThisDrive->[1];
push(@wininis, `find $MntPoint -name win.ini -print`);
}
foreach $winini (@wininis) {
chomp $winini;
}
my ($winini_cnt) = $#wininis+1;
if ($::opt_debug) {
print STDERR "DEBUG: Num wininis found: $winini_cnt\n";}
if ($winini_cnt > 1) {
warn "$winini_cnt win.ini files found:\n";
@wininis = sort byFileAge @wininis;
warn join("\n", @wininis), "\n";
$winini = $wininis[0];
warn "Using most recent one: $winini\n";
}
elsif ($winini_cnt == 0) {
die "ERROR: No win.ini found in DOS partitions\n";
}
else {
$winini = $wininis[0];
}
}
else {
die "ERROR: None of -windir, -fast, or -thorough set\n";
}
$::windir = &ToDos(dirname($winini));
print "[wine]\n";
print "windows=$::windir\n";
if ($::opt_sysdir) {
print "system=$::opt_sysdir\n";
}
else {
print "system=$::windir\\SYSTEM\n";
}
}
# Returns 1 if the device is mounted; -1 if mount check failed; 0 if not
# mounted.
# This code is Linux specific, and needs to be broadened.
sub IsMounted {
my($Device) = @_;
if (-d "/proc") {
if (-e "/proc/mounts") {
open(MOUNTS, "/proc/mounts") ||
(warn "Cannot open /proc/mounts, although it exists\n" &&
return -1);
while(<MOUNTS>) {
if (/^$Device/) {
return 1; # Tested 1.4
}
}
return 0; # Tested 1.4
}
}
return -1;
}
sub RegisterDrive {
my($DOSdrive, $Drive) = @_;
$::DOS2Unix{$DOSdrive} = $Drive;
$::Device2DOS{$Drive->[0]} = $DOSdrive;
$::MntPoint2DOS{$Drive->[1]} = $DOSdrive;
$::DOS2MntPoint{$DOSdrive} = $Drive->[1];
$::DOS2Device{$DOSdrive} = $Drive->[0];
}
sub ReadAutoexecBat {
if (!%::DOS2Unix) { &ReadFSTAB; }
my($DriveC) = $::DOS2MntPoint{"C"};
$DriveC =~ s%/$%%;
my($path);
if ($::opt_debug) {
print STDERR "DEBUG: Looking for $DriveC/autoexec.bat\n"; }
if (-e "$DriveC/autoexec.bat") {
# Tested 1.4
open(AUTOEXEC, "$DriveC/autoexec.bat") ||
die "Cannot read autoexec.bat\n";
while(<AUTOEXEC>) {
s/\015//;
if (/^\s*(set\s+)?(\w+)\s*[\s\=]\s*(.*)$/i) {
my($varname) = $2;
my($varvalue) = $3;
chomp($varvalue);
$varname =~ tr/A-Z/a-z/;
while ($varvalue =~ /%(\w+)%/) {
my $matchname = $1;
my $subname = $1;
$subname =~ tr/A-Z/a-z/;
if ($::opt_debug =~ /path/i) {
print STDERR "DEBUG: Found $matchname as $subname\n";
print STDERR "DEBUG: Old varvalue:\n$varvalue\n";
print STDERR "DEBUG: Old subname value:\n" .
$::DOSenv{$subname} . "\n";
}
if ($::DOSenv{$subname}) {
$varvalue =~ s/\%$matchname\%/$::DOSenv{$subname}/;
}
else {
warn "DOS environment variable $subname not\n";
warn "defined in autoexec.bat. (Reading config.sys\n";
warn "is not implemented.) Using null value\n";
$varvalue =~ s/%$matchname%//;
}
if ($::opt_debug =~ /path/i) {
print STDERR "DEBUG: New varvalue:\n$varvalue\n";
}
}
if ($::opt_debug) {
print STDERR "DEBUG: $varname = $varvalue\n";
}
$::DOSenv{$varname} = $varvalue;
}
}
close(AUTOEXEC);
}
else {
# Tested 1.4
warn "WARNING: C:\\AUTOEXEC.BAT was not found.\n";
}
if ($::DOSenv{"path"}) {
my @pathdirs = split(/\s*;\s*/, $::DOSenv{"path"});
if ($::opt_debug =~ /path/i) {
print STDERR "DEBUG (path): @pathdirs\n";
}
foreach my $pathdir (@pathdirs) {
if (-d &ToUnix($pathdir)) {
if ($::DOSpathdir{$pathdir}++) {
warn "Ignoring duplicate DOS path entry $pathdir\n";
}
else {
if ($::opt_debug =~ /path/i) {
print STDERR "DEBUG (path): Found $pathdir\n";
}
push(@::DOSpathlist, $pathdir);
}
}
else {
warn "Ignoring DOS path directory $pathdir, as it does not\n";
warn "exist\n";
}
}
print "path=" . join(";", @::DOSpathlist) . "\n";
}
else {
# Code status: tested 1.4
warn "WARNING: Making assumptions for PATH\n";
warn "Will scan windows directory for executables and generate\n";
warn "path from that\n";
my $shellcmd = 'find ' . &ToUnix($::windir) . " -iregex '" .
'.*\.\(exe\|bat\|com\|dll\)' . "' -print";
if ($::opt_debug) {
print STDERR "DEBUG: autoexec.bat search command:\n $shellcmd\n";
}
push(@::DOScommand, `$shellcmd`);
if ($::opt_debug && $::opt_debug =~ /autoexec/i) {
print STDERR "DEBUG: autoexec.bat search results:\n\@DOS::command\n";
}
foreach my $command (@::DOScommand) {
$command =~ s%[^/]+$%%;
$::DOSexecdir{&ToDos($command)}++;
}
print "path=" .
join(";",
grep(s%\\$%%,
sort {$::DOSexecdir{$b} <=> $::DOSexecdir{$a}}
(keys %::DOSexecdir))) . "\n";
}
if ($::DOSenv{"temp"} && -d &ToUnix($::DOSenv{"temp"})) {
print "temp=" . $::DOSenv{"temp"} . "\n";
}
else {
my $TheTemp;
warn "WARNING: Making assumptions for TEMP\n";
warn "Looking for \\TEMP and then \\TMP on every drive\n";
# Watch out .. might pick CDROM drive :-)
foreach my $DOSdrive (keys %::DOS2Unix) {
my $tmp = &ToUnix("$DOSdrive:\\temp");
if (-d $tmp) { $TheTemp = "$DOSdrive:\\temp"; last; }
$tmp = &ToUnix("$DOSdrive:\\tmp");
if (-d $tmp) { $TheTemp = "$DOSdrive:\\tmp"; last; }
}
$TheTemp = '/tmp' if (!$TheTemp && -d '/tmp');
if ($TheTemp) {
warn "Using $TheTemp\n";
print "temp=$TheTemp\n";
}
else {
warn "Using C:\\\n";
print "temp=C:\\\n";
}
}
print "\n";
}
# FNunix = &ToUnix(FNdos);
# Converts DOS filenames to Unix filenames, leaving Unix filenames
# untouched.
sub ToUnix {
my($FNdos) = @_;
my($FNunix);
# Initialize tables if necessary.
if (!%::DOS2Unix) { &ReadFSTAB; }
# Determine which type of conversion is necessary
if ($FNdos =~ /^([A-Z])\:(.*)$/) { # DOS drive specified
$FNunix = $::DOS2MntPoint{$1} . "/$2";
}
elsif ($FNdos =~ m%\\%) { # DOS drive not specified, C: is default
$FNunix = $::DOS2MntPoint{"C"} . "/$FNdos";
}
else { # Unix filename
$FNunix = $FNdos;
}
1 while ($FNunix =~ s%\\%/%); # Convert \ to /
$FNunix =~ tr/A-Z/a-z/; # Translate to lower case
1 while ($FNunix =~ s%//%/%); # Translate double / to /
return $FNunix;
}
# FNdos = &ToDOS(FNunix)
# Converts Unix filenames to DOS filenames
sub ToDos {
my($FNunix) = @_;
my(@MntList) = keys %::MntPoint2DOS;
my ($TheMntPt, $FNdos);
foreach my $MntPt (@MntList) { # Scan mount point list to see if path matches
if ($FNunix =~ /^$MntPt/) {
$TheMntPt = $MntPt;
last;
}
}
if (!$TheMntPt) {
Carp("ERROR: $FNunix not found in DOS directories\n");
exit(1);
}
$FNdos = $FNunix;
$FNdos =~ s/^$TheMntPt//;
$FNdos = $::MntPoint2DOS{$TheMntPt} . ":" . $FNdos;
1 while($FNdos =~ s%/%\\%);
return $FNdos;
}
sub InsertDefaultFile {
my ($fileName, $tag) = @_;
my $state = 0;
if (open(DEFFILE, "$fileName")) {
while (<DEFFILE>) {
$state = 0 if ($state == 1 && $_ =~ /^[ \t]*\#/o && index($_, "</$tag>") >= 0);
print $_ if ($state == 1);
$state = 1 if ($state == 0 && $_ =~ /^[ \t]*\#/o && index($_, "<$tag>" ) >= 0);
}
close(DEFFILE);
} else {
print STDERR "Cannot read $fileName\n";
}
}
sub StandardStuff {
&InsertDefaultFile("./wine.ini", "wineconf");
}
sub byFileAge {
-M $a <=> -M $b;
}
sub byDriveOrder {
my($DeviceA) = $a->[0];
my($DeviceB) = $b->[0];
# Primary drives come first, logical drives last
# DOS User's Guide (version 6) p. 70, IBM version.
# If both drives are the same type, sort alphabetically
# This makes drive a come before b, etc.
# It also makes SCSI drives come before IDE drives;
# this may or may not be right :-(
my($Alogical, $Blogical);
if (substr($DeviceA, 3, 1) >= 5) { $Alogical++; }
if (substr($DeviceB, 3, 1) >= 5) { $Blogical++; }
if ($Alogical && !$Blogical) { return -1; }
elsif ($Blogical && !$Alogical) { return 1; }
else { return ($DeviceA cmp $DeviceB); }
}
sub byCdOrder {
my($DeviceA) = $a->[0];
my($DeviceB) = $b->[0];
$DeviceA cmp $DeviceB;
}