#!/usr/bin/perl -w
# virt-tar
-# Copyright (C) 2009 Red Hat Inc.
+# Copyright (C) 2009-2010 Red Hat Inc.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License as published by
use strict;
use Sys::Guestfs;
-use Sys::Guestfs::Lib qw(open_guest get_partitions resolve_windows_path
- inspect_all_partitions inspect_partition
- inspect_operating_systems mount_operating_system);
+use Sys::Guestfs::Lib qw(open_guest);
use Pod::Usage;
use Getopt::Long;
+use File::Basename;
use Locale::TextDomain 'libguestfs';
=encoding utf8
virt-tar [--options] disk.img [disk.img ...] -u tarball directory
+=head1 NOTE
+
+This tool is obsolete. Use L<virt-copy-in(1)>, L<virt-copy-out(1)>,
+L<virt-tar-in(1)>, L<virt-tar-out(1)> as replacements.
+
=head1 EXAMPLES
Download C</home> from the VM into a local tarball:
=head1 WARNING
-You must I<not> use C<virt-tar> with the C<-u> option (upload) on live
+You must I<not> use C<virt-tar> with the I<-u> option (upload) on live
virtual machines. If you do this, you risk disk corruption in the VM.
C<virt-tar> tries to stop you from doing this, but doesn't catch all
cases.
-You can use C<-x> (extract) on live virtual machines, but you might
+You can use I<-x> (extract) on live virtual machines, but you might
get inconsistent results or errors if there is filesystem activity
inside the VM. If the live VM is synched and quiescent, then
C<virt-tar> will usually work, but the only way to guarantee
just want to edit a single file, use L<virt-edit(1)>. For more
complex cases you should look at the L<guestfish(1)> tool.
-There are two modes of operation: C<-x> (eXtract) downloads a
+There are two modes of operation: I<-x> (eXtract) downloads a
directory and its contents (recursively) from the virtual machine into
-a local tarball. C<-u> uploads from a local tarball, unpacking it
+a local tarball. I<-u> uploads from a local tarball, unpacking it
into a directory inside the virtual machine. You cannot use these two
options together.
-In addition, you may need to use the C<-z> (gZip) option to enable
-compression. When uploading, you have to specify C<-z> if the upload
+In addition, you may need to use the I<-z> (gZip) option to enable
+compression. When uploading, you have to specify I<-z> if the upload
file is compressed because virt-tar won't detect this on its own.
C<virt-tar> can only handle tar (optionally gzipped) format tarballs.
my $uri;
-=item B<--connect URI> | B<-c URI>
+=item B<-c URI>
+
+=item B<--connect URI>
If using libvirt, connect to the given I<URI>. If omitted, then we
connect to the default libvirt hypervisor.
=cut
+my $format;
+
+=item B<--format> raw
+
+Specify the format of disk images given on the command line. If this
+is omitted then the format is autodetected from the content of the
+disk image.
+
+If disk images are requested from libvirt, then this program asks
+libvirt for this information. In this case, the value of the format
+parameter is ignored.
+
+If working with untrusted raw-format guest disk images, you should
+ensure the format is always specified.
+
+=cut
+
my $mode;
-=item B<-x> | B<--extract> | B<--download>
+=item B<-x>
+
+=item B<--extract>
-=item B<-u> | B<--upload>
+=item B<--download>
-Use C<-x> to extract (download) a directory from a virtual machine
+=item B<-u>
+
+=item B<--upload>
+
+Use I<-x> to extract (download) a directory from a virtual machine
to a local tarball.
-Use C<-u> to upload and unpack from a local tarball into a virtual
+Use I<-u> to upload and unpack from a local tarball into a virtual
machine. Please read the L</WARNING> section above before using this
option.
my $gzip;
-=item B<-z> | B<--gzip>
+=item B<-z>
+
+=item B<--gzip>
Specify that the input or output tarball is gzip-compressed.
GetOptions ("help|?" => \$help,
"version" => \$version,
"connect|c=s" => \$uri,
+ "format=s" => \$format,
"extract|download|x" => \&set_mode_x,
"upload|u" => \&set_mode_u,
"gzip|z" => \$gzip,
my @args = (\@ARGV);
push @args, address => $uri if $uri;
push @args, rw => 1 if $mode eq "u";
+push @args, format => $format if defined $format;
my $g = open_guest (@args);
$g->launch ();
-# List of possible filesystems.
-my @partitions = get_partitions ($g);
-
-# Now query each one to build up a picture of what's in it.
-my %fses =
- inspect_all_partitions ($g, \@partitions,
- use_windows_registry => 0);
-
-my $oses = inspect_operating_systems ($g, \%fses);
-
-my @roots = keys %$oses;
-die __"multiboot operating systems are not supported by virt-tar\n" if @roots > 1;
-my $root_dev = $roots[0];
-
-my $os = $oses->{$root_dev};
-mount_operating_system ($g, $os, $mode eq "u" ? 0 : 1);
+my @roots = $g->inspect_os ();
+if (@roots == 0) {
+ die __x("{prog}: No operating system could be detected inside this disk image.\n\nThis may be because the file is not a disk image, or is not a virtual machine\nimage, or because the OS type is not understood by libguestfs.\n\nIf you feel this is an error, please file a bug report including as much\ninformation about the disk image as possible.\n",
+ prog => basename ($0));
+}
+if (@roots > 1) {
+ die __x("{prog}: multiboot operating systems are not supported.\n",
+ prog => basename ($0))
+}
+my %fses = $g->inspect_get_mountpoints ($roots[0]);
+my @fses = sort { length $a <=> length $b } keys %fses;
+my $mountopts = $mode eq "u" ? "" : "ro";
+foreach (@fses) {
+ $g->mount_options ($mountopts, $fses{$_}, $_);
+}
# Do the tar command.
if ($mode eq "x") {
L<guestfish(1)>,
L<virt-cat(1)>,
L<virt-edit(1)>,
+L<virt-copy-in(1)>,
+L<virt-copy-out(1)>,
+L<virt-tar-in(1)>,
+L<virt-tar-out(1)>,
L<Sys::Guestfs(3)>,
L<Sys::Guestfs::Lib(3)>,
L<Sys::Virt(3)>,