use warnings;
use Sys::Guestfs;
+use File::Temp qw/tempdir/;
+use Locale::TextDomain 'libguestfs';
# Optional:
eval "use Sys::Virt;";
=head1 SYNOPSIS
- use Sys::Guestfs::Lib qw(#any symbols you want to use);
+ use Sys::Guestfs::Lib qw(open_guest inspect_all_partitions ...);
$g = open_guest ($name);
+ %fses = inspect_all_partitions ($g, \@partitions);
+
+(and many more calls - see the rest of this manpage)
+
=head1 DESCRIPTION
C<Sys::Guestfs::Lib> is an extra library of useful functions for using
instead to L<Sys::Guestfs(3)> and L<guestfs(3)>. The libvirt API is
also not covered. For that, see L<Sys::Virt(3)>.
-=head1 FUNCTIONS
+=head1 BASIC FUNCTIONS
=cut
use vars qw(@EXPORT_OK @ISA);
@ISA = qw(Exporter);
-@EXPORT_OK = qw(open_guest);
+@EXPORT_OK = qw(open_guest feature_available
+ get_partitions resolve_windows_path
+ inspect_all_partitions inspect_partition
+ inspect_operating_systems mount_operating_system inspect_in_detail
+ inspect_linux_kernel);
=head2 open_guest
$g = open_guest ([$img1, $img2, ...], address => $uri, ...);
- ($g, $conn, $dom) = open_guest ($name);
+ ($g, $conn, $dom, @images) = open_guest ($name);
This function opens a libguestfs handle for either the libvirt domain
called C<$name>, or the disk image called C<$name>. Any disk images
domains.
The handle is still in the config state when it is returned, so you
-have to call C<$g-E<gt>launch ()> and C<$g-E<gt>wait_ready>.
+have to call C<$g-E<gt>launch ()>.
The optional C<address> parameter can be added to specify the libvirt
-URI. In addition, L<Sys::Virt(3)> lists other parameters which are
-passed through to C<Sys::Virt-E<gt>new> unchanged.
+URI.
The implicit libvirt handle is closed after this function, I<unless>
you call the function in C<wantarray> context, in which case the
function returns a tuple of: the open libguestfs handle, the open
-libvirt handle, and the open libvirt domain handle. (This is useful
-if you want to do other things like pulling the XML description of the
-guest). Note that if this is a straight disk image, then C<$conn> and
-C<$dom> will be C<undef>.
+libvirt handle, and the open libvirt domain handle, and a list of
+images. (This is useful if you want to do other things like pulling
+the XML description of the guest). Note that if this is a straight
+disk image, then C<$conn> and C<$dom> will be C<undef>.
If the C<Sys::Virt> module is not available, then libvirt is bypassed,
and this function can only open disk images.
+The optional C<interface> parameter can be used to open devices with
+C<add_drive{,_ro}_with_if>. See
+L<Sys::Guestfs/guestfs_add_drive_with_if> for more details.
+
=cut
sub open_guest
{
+ local $_;
my $first = shift;
my %params = @_;
- my $readwrite = $params{rw};
+ my $rw = $params{rw};
+ my $address = $params{address};
+ my $interface = $params{interface};
my @images = ();
if (ref ($first) eq "ARRAY") {
- @images = @$first;
+ @images = @$first;
} elsif (ref ($first) eq "SCALAR") {
- @images = ($first);
+ @images = ($first);
} else {
- die "open_guest: first parameter must be a string or an arrayref"
+ die __"open_guest: first parameter must be a string or an arrayref"
}
my ($conn, $dom);
if (-e $images[0]) {
- foreach (@images) {
- die "guest image $_ does not exist or is not readable"
- unless -r $_;
- }
+ foreach (@images) {
+ die __x("guest image {imagename} does not exist or is not readable",
+ imagename => $_)
+ unless -r $_;
+ }
} else {
- die "open_guest: no libvirt support (install Sys::Virt, XML::XPath and XML::XPath::XMLParser)"
- unless exists $INC{"Sys/Virt.pm"} &&
- exists $INC{"XML/XPath.pm"} &&
- exists $INC{"XML/XPath/XMLParser.pm"};
-
- die "open_guest: too many domains listed on command line"
- if @images > 1;
-
- $conn = Sys::Virt->new (readonly => 1, @_);
- die "open_guest: cannot connect to libvirt" unless $conn;
-
- my @doms = $conn->list_defined_domains ();
- my $isitinactive = "an inactive libvirt domain";
- unless ($readwrite) {
- # In the case where we want read-only access to a domain,
- # allow the user to specify an active domain too.
- push @doms, $conn->list_domains ();
- $isitinactive = "a libvirt domain";
- }
- foreach (@doms) {
- if ($_->get_name () eq $images[0]) {
- $dom = $_;
- last;
- }
- }
- die "$images[0] is not the name of $isitinactive\n" unless $dom;
-
- # Get the names of the image(s).
- my $xml = $dom->get_xml_description ();
-
- my $p = XML::XPath->new (xml => $xml);
- my @disks = $p->findnodes ('//devices/disk/source/@dev');
- @images = map { $_->getData } @disks;
+ die __"open_guest: no libvirt support (install Sys::Virt, XML::XPath and XML::XPath::XMLParser)"
+ unless exists $INC{"Sys/Virt.pm"} &&
+ exists $INC{"XML/XPath.pm"} &&
+ exists $INC{"XML/XPath/XMLParser.pm"};
+
+ die __"open_guest: too many domains listed on command line"
+ if @images > 1;
+
+ my @libvirt_args = ();
+ push @libvirt_args, address => $address if defined $address;
+
+ $conn = Sys::Virt->new (readonly => 1, @libvirt_args);
+ die __"open_guest: cannot connect to libvirt" unless $conn;
+
+ my @doms = $conn->list_defined_domains ();
+ my $isitinactive = 1;
+ unless ($rw) {
+ # In the case where we want read-only access to a domain,
+ # allow the user to specify an active domain too.
+ push @doms, $conn->list_domains ();
+ $isitinactive = 0;
+ }
+ foreach (@doms) {
+ if ($_->get_name () eq $images[0]) {
+ $dom = $_;
+ last;
+ }
+ }
+
+ unless ($dom) {
+ if ($isitinactive) {
+ die __x("{imagename} is not the name of an inactive libvirt domain\n",
+ imagename => $images[0]);
+ } else {
+ die __x("{imagename} is not the name of a libvirt domain\n",
+ imagename => $images[0]);
+ }
+ }
+
+ # Get the names of the image(s).
+ my $xml = $dom->get_xml_description ();
+
+ my $p = XML::XPath->new (xml => $xml);
+ my @disks = $p->findnodes ('//devices/disk/source/@dev');
+ push (@disks, $p->findnodes ('//devices/disk/source/@file'));
+
+ die __x("{imagename} seems to have no disk devices\n",
+ imagename => $images[0])
+ unless @disks;
+
+ @images = map { $_->getData } @disks;
}
# We've now got the list of @images, so feed them to libguestfs.
my $g = Sys::Guestfs->new ();
foreach (@images) {
- if ($readwrite) {
- $g->add_drive ($_);
- } else {
- $g->add_drive_ro ($_);
- }
+ if ($rw) {
+ if ($interface) {
+ $g->add_drive_with_if ($_, $interface);
+ } else {
+ $g->add_drive ($_);
+ }
+ } else {
+ if ($interface) {
+ $g->add_drive_ro_with_if ($_, $interface);
+ } else {
+ $g->add_drive_ro ($_);
+ }
+ }
+ }
+
+ return wantarray ? ($g, $conn, $dom, @images) : $g
+}
+
+=head2 feature_available
+
+ $bool = feature_available ($g, $feature [, $feature ...]);
+
+This function is a useful wrapper around the basic
+C<$g-E<gt>available> call.
+
+C<$g-E<gt>available> tests for availability of a list of features and
+dies with an error if any is not available.
+
+This call tests for the list of features and returns true if all are
+available, or false otherwise.
+
+For a list of features you can test for, see L<guestfs(3)/AVAILABILITY>.
+
+=cut
+
+sub feature_available {
+ my $g = shift;
+
+ eval { $g->available (\@_); };
+ return $@ ? 0 : 1;
+}
+
+=head2 get_partitions
+
+ @partitions = get_partitions ($g);
+
+This function takes an open libguestfs handle C<$g> and returns all
+partitions and logical volumes found on it.
+
+What is returned is everything that could contain a filesystem (or
+swap). Physical volumes are excluded from the list, and so are any
+devices which are partitioned (eg. C</dev/sda> would not be returned
+if C</dev/sda1> exists).
+
+=cut
+
+sub get_partitions
+{
+ my $g = shift;
+
+ my @partitions = $g->list_partitions ();
+ my @pvs = $g->pvs ();
+ @partitions = grep { ! _is_pv ($_, @pvs) } @partitions;
+
+ my @lvs;
+ @lvs = $g->lvs () if feature_available ($g, "lvm2");
+
+ return sort (@lvs, @partitions);
+}
+
+sub _is_pv {
+ local $_;
+ my $t = shift;
+
+ foreach (@_) {
+ return 1 if $_ eq $t;
+ }
+ 0;
+}
+
+=head2 resolve_windows_path
+
+ $path = resolve_windows_path ($g, $path);
+
+ $path = resolve_windows_path ($g, "/windows/system");
+ ==> "/WINDOWS/System"
+ or undef if no path exists
+
+This function, which is specific to FAT/NTFS filesystems (ie. Windows
+guests), lets you look up a case insensitive C<$path> in the
+filesystem and returns the true, case sensitive path as required by
+the underlying kernel or NTFS-3g driver.
+
+If C<$path> does not exist then this function returns C<undef>.
+
+The C<$path> parameter must begin with C</> character and be separated
+by C</> characters. Do not use C<\>, drive names, etc.
+
+=cut
+
+sub resolve_windows_path
+{
+ my $g = shift;
+ my $path = shift;
+
+ my $r;
+ eval { $r = $g->case_sensitive_path ($path); };
+ return $r;
+}
+
+=head2 file_architecture
+
+ $arch = file_architecture ($g, $path)
+
+The C<file_architecture> function lets you get the architecture for a
+particular binary or library in the guest. By "architecture" we mean
+what processor it is compiled for (eg. C<i586> or C<x86_64>).
+
+The function works on at least the following types of files:
+
+=over 4
+
+=item *
+
+many types of Un*x binary
+
+=item *
+
+many types of Un*x shared library
+
+=item *
+
+Windows Win32 and Win64 binaries
+
+=item *
+
+Windows Win32 and Win64 DLLs
+
+Win32 binaries and DLLs return C<i386>.
+
+Win64 binaries and DLLs return C<x86_64>.
+
+=item *
+
+Linux kernel modules
+
+=item *
+
+Linux new-style initrd images
+
+=item *
+
+some non-x86 Linux vmlinuz kernels
+
+=back
+
+What it can't do currently:
+
+=over 4
+
+=item *
+
+static libraries (libfoo.a)
+
+=item *
+
+Linux old-style initrd as compressed ext2 filesystem (RHEL 3)
+
+=item *
+
+x86 Linux vmlinuz kernels
+
+x86 vmlinuz images (bzImage format) consist of a mix of 16-, 32- and
+compressed code, and are horribly hard to unpack. If you want to find
+the architecture of a kernel, use the architecture of the associated
+initrd or kernel module(s) instead.
+
+=back
+
+=cut
+
+sub _elf_arch_to_canonical
+{
+ local $_ = shift;
+
+ if ($_ eq "Intel 80386") {
+ return "i386";
+ } elsif ($_ eq "Intel 80486") {
+ return "i486"; # probably not in the wild
+ } elsif ($_ eq "x86-64") {
+ return "x86_64";
+ } elsif ($_ eq "AMD x86-64") {
+ return "x86_64";
+ } elsif (/SPARC32/) {
+ return "sparc";
+ } elsif (/SPARC V9/) {
+ return "sparc64";
+ } elsif ($_ eq "IA-64") {
+ return "ia64";
+ } elsif (/64.*PowerPC/) {
+ return "ppc64";
+ } elsif (/PowerPC/) {
+ return "ppc";
+ } else {
+ warn __x("returning non-canonical architecture type '{arch}'",
+ arch => $_);
+ return $_;
+ }
+}
+
+my @_initrd_binaries = ("nash", "modprobe", "sh", "bash");
+
+sub file_architecture
+{
+ local $_;
+ my $g = shift;
+ my $path = shift;
+
+ # Our basic tool is 'file' ...
+ my $file = $g->file ($path);
+
+ if ($file =~ /ELF.*(?:executable|shared object|relocatable), (.+?),/) {
+ # ELF executable or shared object. We need to convert
+ # what file(1) prints into the canonical form.
+ return _elf_arch_to_canonical ($1);
+ } elsif ($file =~ /PE32 executable/) {
+ return "i386"; # Win32 executable or DLL
+ } elsif ($file =~ /PE32\+ executable/) {
+ return "x86_64"; # Win64 executable or DLL
+ }
+
+ elsif ($file =~ /cpio archive/) {
+ # Probably an initrd.
+ my $zcat = "cat";
+ if ($file =~ /gzip/) {
+ $zcat = "zcat";
+ } elsif ($file =~ /bzip2/) {
+ $zcat = "bzcat";
+ }
+
+ # Download and unpack it to find a binary file.
+ my $dir = tempdir (CLEANUP => 1);
+ $g->download ($path, "$dir/initrd");
+
+ my $bins = join " ", map { "bin/$_" } @_initrd_binaries;
+ my $cmd = "cd $dir && $zcat initrd | cpio --quiet -id $bins";
+ my $r = system ($cmd);
+ die __x("cpio command failed: {error}", error => $?)
+ unless $r == 0;
+
+ foreach my $bin (@_initrd_binaries) {
+ if (-f "$dir/bin/$bin") {
+ $_ = `file $dir/bin/$bin`;
+ if (/ELF.*executable, (.+?),/) {
+ return _elf_arch_to_canonical ($1);
+ }
+ }
+ }
+
+ die __x("file_architecture: no known binaries found in initrd image: {path}",
+ path => $path);
}
- return wantarray ? ($g, $conn, $dom) : $g
+ die __x("file_architecture: unknown architecture: {path}",
+ path => $path);
+}
+
+=head1 OPERATING SYSTEM INSPECTION FUNCTIONS
+
+The functions in this section can be used to inspect the operating
+system(s) available inside a virtual machine image. For example, you
+can find out if the VM is Linux or Windows, how the partitions are
+meant to be mounted, and what applications are installed.
+
+If you just want a simple command-line interface to this
+functionality, use the L<virt-inspector(1)> tool. The documentation
+below covers the case where you want to access this functionality from
+a Perl program.
+
+Once you have the list of partitions (from C<get_partitions>) there
+are several steps involved:
+
+=over 4
+
+=item 1.
+
+Look at each partition separately and find out what is on it.
+
+The information you get back includes whether the partition contains a
+filesystem or swapspace, what sort of filesystem (eg. ext3, ntfs), and
+a first pass guess at the content of the filesystem (eg. Linux boot,
+Windows root).
+
+The result of this step is a C<%fs> hash of information, one hash for
+each partition.
+
+See: C<inspect_partition>, C<inspect_all_partitions>
+
+=item 2.
+
+Work out the relationship between partitions.
+
+In this step we work out how partitions are related to each other. In
+the case of a single-boot VM, we work out how the partitions are
+mounted in respect of each other (eg. C</dev/sda1> is mounted as
+C</boot>). In the case of a multi-boot VM where there are several
+roots, we may identify several operating system roots, and mountpoints
+can even be shared.
+
+The result of this step is a single hash called C<%oses> which is
+described in more detail below, but at the top level looks like:
+
+ %oses = {
+ '/dev/VG/Root1' => \%os1,
+ '/dev/VG/Root2' => \%os2,
+ }
+
+ %os1 = {
+ os => 'linux',
+ mounts => {
+ '/' => '/dev/VG/Root1',
+ '/boot' => '/dev/sda1',
+ },
+ ...
+ }
+
+(example shows a multi-boot VM containing two root partitions).
+
+See: C<inspect_operating_systems>
+
+=item 3.
+
+Mount up the disks.
+
+Previous to this point we've essentially been looking at each
+partition in isolation. Now we construct a true guest filesystem by
+mounting up all of the disks. Only once everything is mounted up can
+we run commands in the OS context to do more detailed inspection.
+
+See: C<mount_operating_system>
+
+=item 4.
+
+Check for kernels and applications.
+
+This step now does more detailed inspection, where we can look for
+kernels, applications and more installed in the guest.
+
+The result of this is an enhanced C<%os> hash.
+
+See: C<inspect_in_detail>
+
+=item 5.
+
+Generate output.
+
+This library does not contain functions for generating output based on
+the analysis steps above. Use a command line tool such as
+L<virt-inspector(1)> to get useful output.
+
+=back
+
+=head2 inspect_all_partitions
+
+ %fses = inspect_all_partitions ($g, \@partitions);
+
+ %fses = inspect_all_partitions ($g, \@partitions, use_windows_registry => 1);
+
+This calls C<inspect_partition> for each partition in the list
+C<@partitions>.
+
+The result is a hash which maps partition name to C<\%fs> hashref.
+
+The contents of the C<%fs> hash and the meaning of the
+C<use_windows_registry> flag are explained below.
+
+=cut
+
+# Turn /dev/vd* and /dev/hd* into canonical device names
+# (see BLOCK DEVICE NAMING in guestfs(3)).
+
+sub _canonical_dev ($)
+{
+ my ($dev) = @_;
+ return "/dev/sd$1" if $dev =~ m{^/dev/[vh]d(\w+)};
+ return $dev;
+}
+
+sub inspect_all_partitions
+{
+ local $_;
+ my $g = shift;
+ my $parts = shift;
+ my @parts = @$parts;
+ return map { _canonical_dev ($_) => inspect_partition ($g, $_, @_) } @parts;
+}
+
+=head2 inspect_partition
+
+ \%fs = inspect_partition ($g, $partition);
+
+ \%fs = inspect_partition ($g, $partition, use_windows_registry => 1);
+
+This function inspects the device named C<$partition> in isolation and
+tries to determine what it is. It returns information such as whether
+the partition is formatted, and with what, whether it is mountable,
+and what it appears to contain (eg. a Windows root, or a Linux /usr).
+
+If C<use_windows_registry> is set to 1, then we will try to download
+and parse the content of the Windows registry (for Windows root
+devices). However since this is an expensive and error-prone
+operation, we don't do this by default. It also requires the external
+program C<reged>, patched to remove numerous crashing bugs in the
+upstream version.
+
+The returned value is a hashref C<\%fs> which may contain the
+following top-level keys (any key can be missing):
+
+=over 4
+
+=item fstype
+
+Filesystem type, eg. "ext2" or "ntfs"
+
+=item fsos
+
+Apparent filesystem OS, eg. "linux" or "windows"
+
+=item is_swap
+
+If set, the partition is a swap partition.
+
+=item uuid
+
+Filesystem UUID.
+
+=item label
+
+Filesystem label.
+
+=item is_mountable
+
+If set, the partition could be mounted by libguestfs.
+
+=item content
+
+Filesystem content, if we could determine it. One of: "linux-grub",
+"linux-root", "linux-usrlocal", "linux-usr", "windows-root".
+
+=item osdistro
+
+(For Linux root partitions only).
+Operating system distribution. One of: "fedora", "rhel", "centos",
+"scientific", "debian".
+
+=item package_format
+
+(For Linux root partitions only)
+The package format used by the guest distribution. One of: "rpm", "deb".
+
+=item package_management
+
+(For Linux root partitions only)
+The package management tool used by the guest distribution. One of: "rhn",
+"yum", "apt".
+
+=item os_major_version
+
+(For root partitions only).
+Operating system major version number.
+
+=item os_minor_version
+
+(For root partitions only).
+Operating system minor version number.
+
+=item fstab
+
+(For Linux root partitions only).
+The contents of the C</etc/fstab> file.
+
+=item boot_ini
+
+(For Windows root partitions only).
+The contents of the C</boot.ini> (NTLDR) file.
+
+=item registry
+
+The value is an arrayref, which is a list of Windows registry
+file contents, in Windows C<.REG> format.
+
+=back
+
+=cut
+
+sub inspect_partition
+{
+ local $_;
+ my $g = shift;
+ my $dev = shift; # LV or partition name.
+ my %params = @_;
+
+ my $use_windows_registry = $params{use_windows_registry};
+
+ my %r; # Result hash.
+
+ # First try 'file(1)' on it.
+ my $file = $g->file ($dev);
+ if ($file =~ /ext2 filesystem data/) {
+ $r{fstype} = "ext2";
+ $r{fsos} = "linux";
+ } elsif ($file =~ /ext3 filesystem data/) {
+ $r{fstype} = "ext3";
+ $r{fsos} = "linux";
+ } elsif ($file =~ /ext4 filesystem data/) {
+ $r{fstype} = "ext4";
+ $r{fsos} = "linux";
+ } elsif ($file =~ m{Linux/i386 swap file}) {
+ $r{fstype} = "swap";
+ $r{fsos} = "linux";
+ $r{is_swap} = 1;
+ }
+
+ # If it's ext2/3/4, then we want the UUID and label.
+ if (exists $r{fstype} && $r{fstype} =~ /^ext/) {
+ $r{uuid} = $g->get_e2uuid ($dev);
+ $r{label} = $g->get_e2label ($dev);
+ }
+
+ # Try mounting it, fnarrr.
+ if (!$r{is_swap}) {
+ $r{is_mountable} = 1;
+ eval { $g->mount_ro ($dev, "/") };
+ if ($@) {
+ # It's not mountable, probably empty or some format
+ # we don't understand.
+ $r{is_mountable} = 0;
+ goto OUT;
+ }
+
+ # Grub /boot?
+ if ($g->is_file ("/grub/menu.lst") ||
+ $g->is_file ("/grub/grub.conf")) {
+ $r{content} = "linux-grub";
+ _check_grub ($g, \%r);
+ goto OUT;
+ }
+
+ # Linux root?
+ if ($g->is_dir ("/etc") && $g->is_dir ("/bin") &&
+ $g->is_file ("/etc/fstab")) {
+ $r{content} = "linux-root";
+ $r{is_root} = 1;
+ _check_linux_root ($g, \%r);
+ goto OUT;
+ }
+
+ # Linux /usr/local.
+ if ($g->is_dir ("/etc") && $g->is_dir ("/bin") &&
+ $g->is_dir ("/share") && !$g->exists ("/local") &&
+ !$g->is_file ("/etc/fstab")) {
+ $r{content} = "linux-usrlocal";
+ goto OUT;
+ }
+
+ # Linux /usr.
+ if ($g->is_dir ("/etc") && $g->is_dir ("/bin") &&
+ $g->is_dir ("/share") && $g->exists ("/local") &&
+ !$g->is_file ("/etc/fstab")) {
+ $r{content} = "linux-usr";
+ goto OUT;
+ }
+
+ # Windows root?
+ if ($g->is_file ("/AUTOEXEC.BAT") ||
+ $g->is_file ("/autoexec.bat") ||
+ $g->is_dir ("/Program Files") ||
+ $g->is_dir ("/WINDOWS") ||
+ $g->is_file ("/boot.ini") ||
+ $g->is_file ("/ntldr")) {
+ $r{fstype} = "ntfs"; # XXX this is a guess
+ $r{fsos} = "windows";
+ $r{content} = "windows-root";
+ $r{is_root} = 1;
+ _check_windows_root ($g, \%r, $use_windows_registry);
+ goto OUT;
+ }
+ }
+
+ OUT:
+ $g->umount_all ();
+ return \%r;
+}
+
+sub _check_linux_root
+{
+ local $_;
+ my $g = shift;
+ my $r = shift;
+
+ # Look into /etc to see if we recognise the operating system.
+ # N.B. don't use $g->is_file here, because it might be a symlink
+ if ($g->exists ("/etc/redhat-release")) {
+ $r->{package_format} = "rpm";
+
+ $_ = $g->cat ("/etc/redhat-release");
+ if (/Fedora release (\d+)(?:\.(\d+))?/) {
+ chomp; $r->{product_name} = $_;
+ $r->{osdistro} = "fedora";
+ $r->{os_major_version} = "$1";
+ $r->{os_minor_version} = "$2" if(defined($2));
+ $r->{package_management} = "yum";
+ }
+
+ elsif (/(Red Hat Enterprise Linux|CentOS|Scientific Linux)/) {
+ chomp; $r->{product_name} = $_;
+
+ my $distro = $1;
+
+ if($distro eq "Red Hat Enterprise Linux") {
+ $r->{osdistro} = "rhel";
+ }
+
+ elsif($distro eq "CentOS") {
+ $r->{osdistro} = "centos";
+ $r->{package_management} = "yum";
+ }
+
+ elsif($distro eq "Scientific Linux") {
+ $r->{osdistro} = "scientific";
+ $r->{package_management} = "yum";
+ }
+
+ # Shouldn't be possible
+ else { die };
+
+ if (/$distro.*release (\d+).*Update (\d+)/) {
+ $r->{os_major_version} = "$1";
+ $r->{os_minor_version} = "$2";
+ }
+
+ elsif (/$distro.*release (\d+)(?:\.(\d+))?/) {
+ $r->{os_major_version} = "$1";
+
+ if(defined($2)) {
+ $r->{os_minor_version} = "$2";
+ } else {
+ $r->{os_minor_version} = "0";
+ }
+ }
+
+ # Package management in RHEL changed in version 5
+ if ($r->{osdistro} eq "rhel") {
+ if ($r->{os_major_version} >= 5) {
+ $r->{package_management} = "yum";
+ } else {
+ $r->{package_management} = "rhn";
+ }
+ }
+ }
+
+ else {
+ $r->{osdistro} = "redhat-based";
+ }
+ } elsif ($g->is_file ("/etc/debian_version")) {
+ $r->{package_format} = "deb";
+ $r->{package_management} = "apt";
+
+ $_ = $g->cat ("/etc/debian_version");
+ if (/(\d+)\.(\d+)/) {
+ chomp; $r->{product_name} = $_;
+ $r->{osdistro} = "debian";
+ $r->{os_major_version} = "$1";
+ $r->{os_minor_version} = "$2";
+ } else {
+ $r->{osdistro} = "debian";
+ }
+ }
+
+ # Parse the contents of /etc/fstab. This is pretty vital so
+ # we can determine where filesystems are supposed to be mounted.
+ eval "\$_ = \$g->cat ('/etc/fstab');";
+ if (!$@ && $_) {
+ my @lines = split /\n/;
+ my @fstab;
+ foreach (@lines) {
+ my @fields = split /[ \t]+/;
+ if (@fields >= 2) {
+ my $spec = $fields[0]; # first column (dev/label/uuid)
+ my $file = $fields[1]; # second column (mountpoint)
+ if ($spec =~ m{^/} ||
+ $spec =~ m{^LABEL=} ||
+ $spec =~ m{^UUID=} ||
+ $file eq "swap") {
+ push @fstab, [$spec, $file]
+ }
+ }
+ }
+ $r->{fstab} = \@fstab if @fstab;
+ }
+
+ # Determine the architecture of this root.
+ my $arch;
+ foreach ("/bin/bash", "/bin/ls", "/bin/echo", "/bin/rm", "/bin/sh") {
+ if ($g->is_file ($_)) {
+ $arch = file_architecture ($g, $_);
+ last;
+ }
+ }
+
+ $r->{arch} = $arch if defined $arch;
+}
+
+# We only support NT. The control file /boot.ini contains a list of
+# Windows installations and their %systemroot%s in a simple text
+# format.
+#
+# XXX We could parse this better. This won't work if /boot.ini is on
+# a different drive from the %systemroot%, and in other unusual cases.
+
+sub _check_windows_root
+{
+ local $_;
+ my $g = shift;
+ my $r = shift;
+ my $use_windows_registry = shift;
+
+ my $boot_ini = resolve_windows_path ($g, "/boot.ini");
+ $r->{boot_ini} = $boot_ini;
+
+ if (defined $r->{boot_ini}) {
+ $_ = $g->cat ($boot_ini);
+ my @lines = split /\n/;
+ my $section;
+ my $systemroot;
+ foreach (@lines) {
+ if (m/\[.*\]/) {
+ $section = $1;
+ } elsif (m/^default=.*?\\(\w+)$/i) {
+ $systemroot = $1;
+ last;
+ } elsif (m/\\(\w+)=/) {
+ $systemroot = $1;
+ last;
+ }
+ }
+
+ if (defined $systemroot) {
+ $r->{systemroot} = resolve_windows_path ($g, "/$systemroot");
+ if (defined $r->{systemroot}) {
+ _check_windows_arch ($g, $r, $r->{systemroot});
+ if ($use_windows_registry) {
+ _check_windows_registry ($g, $r, $r->{systemroot});
+ }
+ }
+ }
+ }
+}
+
+# Find Windows userspace arch.
+
+sub _check_windows_arch
+{
+ local $_;
+ my $g = shift;
+ my $r = shift;
+ my $systemroot = shift;
+
+ my $cmd_exe =
+ resolve_windows_path ($g, $r->{systemroot} . "/system32/cmd.exe");
+ $r->{arch} = file_architecture ($g, $cmd_exe) if $cmd_exe;
+}
+
+sub _check_windows_registry
+{
+ local $_;
+ my $g = shift;
+ my $r = shift;
+ my $systemroot = shift;
+
+ # Download the system registry files. Only download the
+ # interesting ones, and we don't bother with user profiles at all.
+
+ my $configdir = resolve_windows_path ($g, "$systemroot/system32/config");
+ if (defined $configdir) {
+ my $softwaredir = resolve_windows_path ($g, "$configdir/software");
+ if (defined $softwaredir) {
+ _load_windows_registry ($g, $r, $softwaredir,
+ "HKEY_LOCAL_MACHINE\\SOFTWARE");
+ }
+ my $systemdir = resolve_windows_path ($g, "$configdir/system");
+ if (defined $systemdir) {
+ _load_windows_registry ($g, $r, $systemdir,
+ "HKEY_LOCAL_MACHINE\\System");
+ }
+ }
+}
+
+sub _load_windows_registry
+{
+ local $_;
+ my $g = shift;
+ my $r = shift;
+ my $regfile = shift;
+ my $prefix = shift;
+
+ my $dir = tempdir (CLEANUP => 1);
+
+ $g->download ($regfile, "$dir/reg");
+
+ # 'reged' command is particularly noisy. Redirect stdout and
+ # stderr to /dev/null temporarily.
+ open SAVEOUT, ">&STDOUT";
+ open SAVEERR, ">&STDERR";
+ open STDOUT, ">/dev/null";
+ open STDERR, ">/dev/null";
+
+ my @cmd = ("reged", "-x", "$dir/reg", "$prefix", "\\", "$dir/out");
+ my $res = system (@cmd);
+
+ close STDOUT;
+ close STDERR;
+ open STDOUT, ">&SAVEOUT";
+ open STDERR, ">&SAVEERR";
+ close SAVEOUT;
+ close SAVEERR;
+
+ unless ($res == 0) {
+ warn __x("reged command failed: {errormsg}", errormsg => $?);
+ return;
+ }
+
+ # Some versions of reged segfault on inputs. If that happens we
+ # may get no / partial output file. Anyway, if it exists, load
+ # it.
+ my $content;
+ unless (open F, "$dir/out") {
+ warn __x("no output from reged command: {errormsg}", errormsg => $!);
+ return;
+ }
+ { local $/ = undef; $content = <F>; }
+ close F;
+
+ my @registry = ();
+ @registry = @{$r->{registry}} if exists $r->{registry};
+ push @registry, $content;
+ $r->{registry} = \@registry;
+}
+
+sub _check_grub
+{
+ local $_;
+ my $g = shift;
+ my $r = shift;
+
+ # Grub version, if we care.
+}
+
+=head2 inspect_operating_systems
+
+ \%oses = inspect_operating_systems ($g, \%fses);
+
+This function works out how partitions are related to each other. In
+the case of a single-boot VM, we work out how the partitions are
+mounted in respect of each other (eg. C</dev/sda1> is mounted as
+C</boot>). In the case of a multi-boot VM where there are several
+roots, we may identify several operating system roots, and mountpoints
+can even be shared.
+
+This function returns a hashref C<\%oses> which at the top level looks
+like:
+
+ %oses = {
+ '/dev/VG/Root' => \%os,
+ }
+
+(There can be multiple roots for a multi-boot VM).
+
+The C<\%os> hash contains the following keys (any can be omitted):
+
+=over 4
+
+=item os
+
+Operating system type, eg. "linux", "windows".
+
+=item arch
+
+Operating system userspace architecture, eg. "i386", "x86_64".
+
+=item distro
+
+Operating system distribution, eg. "debian".
+
+=item product_name
+
+Free text product name.
+
+=item major_version
+
+Operating system major version, eg. "4".
+
+=item minor_version
+
+Operating system minor version, eg "3".
+
+=item root
+
+The value is a reference to the root partition C<%fs> hash.
+
+=item root_device
+
+The value is the name of the root partition (as a string).
+
+=item mounts
+
+Mountpoints.
+The value is a hashref like this:
+
+ mounts => {
+ '/' => '/dev/VG/Root',
+ '/boot' => '/dev/sda1',
+ }
+
+=item filesystems
+
+Filesystems (including swap devices and unmounted partitions).
+The value is a hashref like this:
+
+ filesystems => {
+ '/dev/sda1' => \%fs,
+ '/dev/VG/Root' => \%fs,
+ '/dev/VG/Swap' => \%fs,
+ }
+
+=back
+
+=cut
+
+sub inspect_operating_systems
+{
+ local $_;
+ my $g = shift;
+ my $fses = shift;
+
+ my %oses = ();
+
+ foreach (sort keys %$fses) {
+ if ($fses->{$_}->{is_root}) {
+ my %r = (
+ root => $fses->{$_},
+ root_device => $_
+ );
+ _get_os_version ($g, \%r);
+ _assign_mount_points ($g, $fses, \%r);
+ $oses{$_} = \%r;
+ }
+ }
+
+ return \%oses;
+}
+
+sub _get_os_version
+{
+ local $_;
+ my $g = shift;
+ my $r = shift;
+
+ $r->{os} = $r->{root}->{fsos} if exists $r->{root}->{fsos};
+ $r->{product_name} = $r->{root}->{product_name}
+ if exists $r->{root}->{product_name};
+ $r->{distro} = $r->{root}->{osdistro} if exists $r->{root}->{osdistro};
+ $r->{major_version} = $r->{root}->{os_major_version}
+ if exists $r->{root}->{os_major_version};
+ $r->{minor_version} = $r->{root}->{os_minor_version}
+ if exists $r->{root}->{os_minor_version};
+ $r->{package_format} = $r->{root}->{package_format}
+ if exists $r->{root}->{package_format};
+ $r->{package_management} = $r->{root}->{package_management}
+ if exists $r->{root}->{package_management};
+ $r->{arch} = $r->{root}->{arch} if exists $r->{root}->{arch};
+}
+
+sub _assign_mount_points
+{
+ local $_;
+ my $g = shift;
+ my $fses = shift;
+ my $r = shift;
+
+ $r->{mounts} = { "/" => $r->{root_device} };
+ $r->{filesystems} = { $r->{root_device} => $r->{root} };
+
+ # Use /etc/fstab if we have it to mount the rest.
+ if (exists $r->{root}->{fstab}) {
+ my @fstab = @{$r->{root}->{fstab}};
+ foreach (@fstab) {
+ my ($spec, $file) = @$_;
+
+ my ($dev, $fs) = _find_filesystem ($g, $fses, $spec);
+ if ($dev) {
+ $r->{mounts}->{$file} = $dev;
+ $r->{filesystems}->{$dev} = $fs;
+ if (exists $fs->{used}) {
+ $fs->{used}++
+ } else {
+ $fs->{used} = 1
+ }
+ $fs->{spec} = $spec;
+ }
+ }
+ }
+}
+
+# Find filesystem by device name, LABEL=.. or UUID=..
+sub _find_filesystem
+{
+ my $g = shift;
+ my $fses = shift;
+ local $_ = shift;
+
+ if (/^LABEL=(.*)/) {
+ my $label = $1;
+ foreach (sort keys %$fses) {
+ if (exists $fses->{$_}->{label} &&
+ $fses->{$_}->{label} eq $label) {
+ return ($_, $fses->{$_});
+ }
+ }
+ warn __x("unknown filesystem label {label}\n", label => $label);
+ return ();
+ } elsif (/^UUID=(.*)/) {
+ my $uuid = $1;
+ foreach (sort keys %$fses) {
+ if (exists $fses->{$_}->{uuid} &&
+ $fses->{$_}->{uuid} eq $uuid) {
+ return ($_, $fses->{$_});
+ }
+ }
+ warn __x("unknown filesystem UUID {uuid}\n", uuid => $uuid);
+ return ();
+ } else {
+ return ($_, $fses->{$_}) if exists $fses->{$_};
+
+ # The following is to handle the case where an fstab entry specifies a
+ # specific device rather than its label or uuid, and the libguestfs
+ # appliance has named the device differently due to the use of a
+ # different driver.
+ # This will work as long as the underlying drivers recognise devices in
+ # the same order.
+ if (m{^/dev/hd(.*)} && exists $fses->{"/dev/sd$1"}) {
+ return ("/dev/sd$1", $fses->{"/dev/sd$1"});
+ }
+ if (m{^/dev/xvd(.*)} && exists $fses->{"/dev/sd$1"}) {
+ return ("/dev/sd$1", $fses->{"/dev/sd$1"});
+ }
+ if (m{^/dev/mapper/(.*)-(.*)$} && exists $fses->{"/dev/$1/$2"}) {
+ return ("/dev/$1/$2", $fses->{"/dev/$1/$2"});
+ }
+
+ return () if m{/dev/cdrom};
+
+ warn __x("unknown filesystem {fs}\n", fs => $_);
+ return ();
+ }
+}
+
+=head2 mount_operating_system
+
+ mount_operating_system ($g, \%os, [$ro]);
+
+This function mounts the operating system described in the
+C<%os> hash according to the C<mounts> table in that hash (see
+C<inspect_operating_systems>).
+
+The partitions are mounted read-only unless the third parameter
+is specified as zero explicitly.
+
+To reverse the effect of this call, use the standard
+libguestfs API call C<$g-E<gt>umount_all ()>.
+
+=cut
+
+sub mount_operating_system
+{
+ local $_;
+ my $g = shift;
+ my $os = shift;
+ my $ro = shift; # Read-only?
+
+ $ro = 1 unless defined $ro; # ro defaults to 1 if unspecified
+
+ my $mounts = $os->{mounts};
+
+ # Have to mount / first. Luckily '/' is early in the ASCII
+ # character set, so this should be OK.
+ foreach (sort keys %$mounts) {
+ if($_ ne "swap" && $_ ne "none" && ($_ eq '/' || $g->is_dir ($_))) {
+ if($ro) {
+ $g->mount_ro ($mounts->{$_}, $_)
+ } else {
+ $g->mount_options ("", $mounts->{$_}, $_)
+ }
+ }
+ }
+}
+
+=head2 inspect_in_detail
+
+ mount_operating_system ($g, \%os);
+ inspect_in_detail ($g, \%os);
+ $g->umount_all ();
+
+The C<inspect_in_detail> function inspects the mounted operating
+system for installed applications, installed kernels, kernel modules,
+system architecture, and more.
+
+It adds extra keys to the existing C<%os> hash reflecting what it
+finds. These extra keys are:
+
+=over 4
+
+=item apps
+
+List of applications.
+
+=item boot
+
+Boot configurations. A hash containing:
+
+=over 4
+
+=item configs
+
+An array of boot configurations. Each array entry is a hash containing:
+
+=over 4
+
+=item initrd
+
+A reference to the expanded initrd structure (see below) for the initrd used by
+this boot configuration.
+
+=item kernel
+
+A reference to the expanded kernel structure (see below) for the kernel used by
+this boot configuration.
+
+=item title
+
+The human readable name of the configuration.
+
+=item cmdline
+
+The kernel command line.
+
+=back
+
+=item default
+
+The index of the default configuration in the configs array.
+
+=item grub_fs
+
+The path of the filesystem containing the grub partition.
+
+=back
+
+=item kernels
+
+List of kernels.
+
+This is a hash of kernel version =E<gt> a hash with the following keys:
+
+=over 4
+
+=item version
+
+Kernel version.
+
+=item arch
+
+Kernel architecture (eg. C<x86-64>).
+
+=item modules
+
+List of modules.
+
+=item path
+
+The path to the kernel's vmlinuz file.
+
+=item package
+
+If the kernel was installed in a package, the name of that package.
+
+=back
+
+=item modprobe_aliases
+
+(For Linux VMs).
+The contents of the modprobe configuration.
+
+=item initrd_modules
+
+(For Linux VMs).
+The kernel modules installed in the initrd. The value is
+a hashref of kernel version to list of modules.
+
+=back
+
+=cut
+
+sub inspect_in_detail
+{
+ local $_;
+ my $g = shift;
+ my $os = shift;
+
+ _check_for_applications ($g, $os);
+ _check_for_kernels ($g, $os);
+ if ($os->{os} eq "linux") {
+ _find_modprobe_aliases ($g, $os);
+ }
+}
+
+sub _check_for_applications
+{
+ local $_;
+ my $g = shift;
+ my $os = shift;
+
+ my @apps;
+
+ my $osn = $os->{os};
+ if ($osn eq "linux") {
+ my $package_format = $os->{package_format};
+ if (defined $package_format && $package_format eq "rpm") {
+ my @lines = $g->command_lines
+ (["rpm",
+ "-q", "-a",
+ "--qf", "%{name} %{epoch} %{version} %{release} %{arch}\n"]);
+ @lines = sort @lines;
+ foreach (@lines) {
+ if (m/^(.*) (.*) (.*) (.*) (.*)$/) {
+ my $epoch = $2;
+ undef $epoch if $epoch eq "(none)";
+ my $app = {
+ name => $1,
+ epoch => $epoch,
+ version => $3,
+ release => $4,
+ arch => $5
+ };
+ push @apps, $app
+ }
+ }
+ } elsif (defined $package_format && $package_format eq "deb") {
+ my @lines = $g->command_lines
+ (["dpkg-query",
+ "-f", '${Package} ${Version} ${Architecture} ${Status}\n',
+ "-W"]);
+ @lines = sort @lines;
+ foreach (@lines) {
+ if (m/^(.*) (.*) (.*) (.*) (.*) (.*)$/) {
+ if ( $6 eq "installed" ) {
+ my $app = {
+ name => $1,
+ version => $2,
+ arch => $3
+ };
+ push @apps, $app
+ }
+ }
+ }
+ }
+ } elsif ($osn eq "windows") {
+ # XXX
+ # I worked out a general plan for this, but haven't
+ # implemented it yet. We can iterate over /Program Files
+ # looking for *.EXE files, which we download, then use
+ # i686-pc-mingw32-windres on, to find the VERSIONINFO
+ # section, which has a lot of useful information.
+ }
+
+ $os->{apps} = \@apps;
+}
+
+# Find the path which needs to be prepended to paths in grub.conf to make them
+# absolute
+sub _find_grub_prefix
+{
+ my ($g, $os) = @_;
+
+ my $fses = $os->{filesystems};
+ die("filesystems undefined") unless(defined($fses));
+
+ # Look for the filesystem which contains grub
+ my $grubdev;
+ foreach my $dev (keys(%$fses)) {
+ my $fsinfo = $fses->{$dev};
+ if(exists($fsinfo->{content}) && $fsinfo->{content} eq "linux-grub") {
+ $grubdev = $dev;
+ last;
+ }
+ }
+
+ my $mounts = $os->{mounts};
+ die("mounts undefined") unless(defined($mounts));
+
+ # Find where the filesystem is mounted
+ if(defined($grubdev)) {
+ foreach my $mount (keys(%$mounts)) {
+ if($mounts->{$mount} eq $grubdev) {
+ return "" if($mount eq '/');
+ return $mount;
+ }
+ }
+
+ die("$grubdev defined in filesystems, but not in mounts");
+ }
+
+ # If we didn't find it, look for /boot/grub/menu.lst, then try to work out
+ # what filesystem it's on. We use menu.lst rather than grub.conf because
+ # debian only uses menu.lst, and anaconda creates a symlink for it.
+ die(__"Can't find grub on guest") unless($g->exists('/boot/grub/menu.lst'));
+
+ # Look for the most specific mount point in mounts
+ foreach my $path qw(/boot/grub /boot /) {
+ if(exists($mounts->{$path})) {
+ return "" if($path eq '/');
+ return $path;
+ }
+ }
+
+ die("Couldn't determine which filesystem holds /boot/grub/menu.lst");
+}
+
+sub _check_for_kernels
+{
+ my ($g, $os) = @_;
+
+ if ($os->{os} eq "linux" && feature_available ($g, "augeas")) {
+ # Iterate over entries in grub.conf, populating $os->{boot}
+ # For every kernel we find, inspect it and add to $os->{kernels}
+
+ my $grub = _find_grub_prefix($g, $os);
+ my $grub_conf = "/etc/grub.conf";
+
+ # Debian and other's have no /etc/grub.conf:
+ if ( ! -f "$grub_conf" ) {
+ $grub_conf = "$grub/grub/menu.lst";
+ }
+
+ my @boot_configs;
+
+ # We want
+ # $os->{boot}
+ # ->{configs}
+ # ->[0]
+ # ->{title} = "Fedora (2.6.29.6-213.fc11.i686.PAE)"
+ # ->{kernel} = \kernel
+ # ->{cmdline} = "ro root=/dev/mapper/vg_mbooth-lv_root rhgb"
+ # ->{initrd} = \initrd
+ # ->{default} = \config
+ # ->{grub_fs} = "/boot"
+ # Initialise augeas
+ $g->aug_init("/", 16);
+
+ my @configs = ();
+ # Get all configurations from grub
+ foreach my $bootable
+ ($g->aug_match("/files/$grub_conf/title"))
+ {
+ my %config = ();
+ $config{title} = $g->aug_get($bootable);
+
+ my $grub_kernel;
+ eval { $grub_kernel = $g->aug_get("$bootable/kernel"); };
+ if($@) {
+ warn __x("Grub entry {title} has no kernel",
+ title => $config{title});
+ }
+
+ # Check we've got a kernel entry
+ if(defined($grub_kernel)) {
+ my $path = "$grub$grub_kernel";
+
+ # Reconstruct the kernel command line
+ my @args = ();
+ foreach my $arg ($g->aug_match("$bootable/kernel/*")) {
+ $arg =~ m{/kernel/([^/]*)$}
+ or die("Unexpected return from aug_match: $arg");
+
+ my $name = $1;
+ my $value;
+ eval { $value = $g->aug_get($arg); };
+
+ if(defined($value)) {
+ push(@args, "$name=$value");
+ } else {
+ push(@args, $name);
+ }
+ }
+ $config{cmdline} = join(' ', @args) if(scalar(@args) > 0);
+
+ my $kernel =
+ inspect_linux_kernel($g, $path, $os->{package_format});
+
+ # Check the kernel was recognised
+ if(defined($kernel)) {
+ # Put this kernel on the top level kernel list
+ $os->{kernels} ||= [];
+ push(@{$os->{kernels}}, $kernel);
+
+ $config{kernel} = $kernel;
+
+ # Look for an initrd entry
+ my $initrd;
+ eval {
+ $initrd = $g->aug_get("$bootable/initrd");
+ };
+
+ unless($@) {
+ $config{initrd} =
+ _inspect_initrd($g, $os, "$grub$initrd",
+ $kernel->{version});
+ } else {
+ warn __x("Grub entry {title} does not specify an ".
+ "initrd", title => $config{title});
+ }
+ }
+ }
+
+ push(@configs, \%config);
+ }
+
+
+ # Create the top level boot entry
+ my %boot;
+ $boot{configs} = \@configs;
+ $boot{grub_fs} = $grub;
+
+ # Add the default configuration
+ eval {
+ $boot{default} = $g->aug_get("/files/$grub_conf/default");
+ };
+ if($@) {
+ warn __"No grub default specified";
+ }
+
+ $os->{boot} = \%boot;
+ }
+
+ elsif ($os->{os} eq "windows") {
+ # XXX
+ }
+}
+
+=head2 inspect_linux_kernel
+
+ my $kernel_hash = inspect_linux_kernel($g, $vmlinuz_path, $package_format);
+
+inspect_linux_kernel returns a hash describing the target linux kernel. For the
+contents of the hash, see the I<kernels> structure described under
+L</inspect_in_detail>.
+
+=cut
+
+sub inspect_linux_kernel
+{
+ my ($g, $path, $package_format) = @_;
+
+ my %kernel = ();
+
+ $kernel{path} = $path;
+
+ # If this is a packaged kernel, try to work out the name of the package
+ # which installed it. This lets us know what to install to replace it with,
+ # e.g. kernel, kernel-smp, kernel-hugemem, kernel-PAE
+ if($package_format eq "rpm") {
+ my $package;
+ eval { $package = $g->command(['rpm', '-qf', '--qf',
+ '%{NAME}', $path]); };
+ $kernel{package} = $package if defined($package);;
+ }
+
+ # Try to get the kernel version by running file against it
+ my $version;
+ my $filedesc = $g->file($path);
+ if($filedesc =~ /^$path: Linux kernel .*\bversion\s+(\S+)\b/) {
+ $version = $1;
+ }
+
+ # Sometimes file can't work out the kernel version, for example because it's
+ # a Xen PV kernel. In this case try to guess the version from the filename
+ else {
+ if($path =~ m{/boot/vmlinuz-(.*)}) {
+ $version = $1;
+
+ # Check /lib/modules/$version exists
+ if(!$g->is_dir("/lib/modules/$version")) {
+ warn __x("Didn't find modules directory {modules} for kernel ".
+ "{path}", modules => "/lib/modules/$version",
+ path => $path);
+
+ # Give up
+ return undef;
+ }
+ } else {
+ warn __x("Couldn't guess kernel version number from path for ".
+ "kernel {path}", path => $path);
+
+ # Give up
+ return undef;
+ }
+ }
+
+ $kernel{version} = $version;
+
+ # List modules.
+ my @modules;
+ my $any_module;
+ my $prefix = "/lib/modules/$version";
+ foreach my $module ($g->find ($prefix)) {
+ if ($module =~ m{/([^/]+)\.(?:ko|o)$}) {
+ $any_module = "$prefix$module" unless defined $any_module;
+ push @modules, $1;
+ }
+ }
+
+ $kernel{modules} = \@modules;
+
+ # Determine kernel architecture by looking at the arch
+ # of any kernel module.
+ $kernel{arch} = file_architecture ($g, $any_module);
+
+ return \%kernel;
+}
+
+# Find all modprobe aliases. Specifically, this looks in the following
+# locations:
+# * /etc/conf.modules
+# * /etc/modules.conf
+# * /etc/modprobe.conf
+# * /etc/modprobe.d/*
+
+sub _find_modprobe_aliases
+{
+ local $_;
+ my $g = shift;
+ my $os = shift;
+
+ # Initialise augeas
+ $g->aug_init("/", 16);
+
+ # Register additional paths to the Modprobe lens
+ $g->aug_set("/augeas/load/Modprobe/incl[last()+1]", "/etc/modules.conf");
+ $g->aug_set("/augeas/load/Modprobe/incl[last()+1]", "/etc/conf.modules");
+
+ # Make augeas reload
+ $g->aug_load();
+
+ my %modprobe_aliases;
+
+ for my $pattern qw(/files/etc/conf.modules/alias
+ /files/etc/modules.conf/alias
+ /files/etc/modprobe.conf/alias
+ /files/etc/modprobe.d/*/alias) {
+ for my $path ( $g->aug_match($pattern) ) {
+ $path =~ m{^/files(.*)/alias(?:\[\d*\])?$}
+ or die __x("{path} doesn't match augeas pattern",
+ path => $path);
+ my $file = $1;
+
+ my $alias;
+ $alias = $g->aug_get($path);
+
+ my $modulename;
+ $modulename = $g->aug_get($path.'/modulename');
+
+ my %aliasinfo;
+ $aliasinfo{modulename} = $modulename;
+ $aliasinfo{augeas} = $path;
+ $aliasinfo{file} = $file;
+
+ $modprobe_aliases{$alias} = \%aliasinfo;
+ }
+ }
+
+ $os->{modprobe_aliases} = \%modprobe_aliases;
+}
+
+# Get a listing of device drivers from an initrd
+sub _inspect_initrd
+{
+ my ($g, $os, $path, $version) = @_;
+
+ my @modules;
+
+ # Disregard old-style compressed ext2 files and only work with real
+ # compressed cpio files, since cpio takes ages to (fail to) process anything
+ # else.
+ if ($g->file ($path) =~ /cpio/) {
+ eval {
+ @modules = $g->initrd_list ($path);
+ };
+ unless ($@) {
+ @modules = grep { m{([^/]+)\.(?:ko|o)$} } @modules;
+ } else {
+ warn __x("{filename}: could not read initrd format",
+ filename => "$path");
+ }
+ }
+
+ # Add to the top level initrd_modules entry
+ $os->{initrd_modules} ||= {};
+ $os->{initrd_modules}->{$version} = \@modules;
+
+ return \@modules;
}
1;
git.annexia.org / libguestfs.git / blobdiff