use IO::Handle;
+# NOTE long long are layed out in ia32 memory as follows:
+# u = 0xaaaabbbbccccdddd has ccccdddd at &u and aaaabbbb 4 bytes on
+# this may be different on other architectures
+
+# we use 32-bit integers for all 64-bit quantities in this program
+# #define OBD_INLINESZ 64
+# #define OBD_OBDMDSZ 64
+# /* Note: 64-bit types are 64-bit aligned in structure */
+# struct obdo {
+# obd_id o_id;
+# obd_gr o_gr;
+# obd_time o_atime;
+# obd_time o_mtime;
+# obd_time o_ctime;
+# obd_size o_size;
+# obd_blocks o_blocks;
+# obd_blksize o_blksize;
+# obd_mode o_mode;
+# obd_uid o_uid;
+# obd_gid o_gid;
+# obd_flag o_flags;
+# obd_flag o_obdflags;
+# obd_count o_nlink;
+# obd_flag o_valid; /* hot fields in this obdo */
+# char o_inline[OBD_INLINESZ];
+# char o_obdmd[OBD_OBDMDSZ];
+# struct list_head o_list;
+# struct obd_ops *o_op;
+# };
+
+sub obdo_pack {
+ my $obdo = shift;
+ pack "LL LL LL LL LL LL LL L L L L L L L L a60 a64 L L L",
+ $obdo->{id}, 0,
+ $obdo->{gr}, 0,
+ $obdo->{atime}, 0,
+ $obdo->{mtime}, 0 ,
+ $obdo->{ctime}, 0,
+ $obdo->{size}, 0,
+ $obdo->{blocks}, 0,
+ $obdo->{blksize},
+ $obdo->{mode},
+ $obdo->{uid},
+ $obdo->{gid},
+ $obdo->{flags},
+ $obdo->{obdflags},
+ $obdo->{nlink},
+ $obdo->{valid},
+ $obdo->{inline},
+ $obdo->{obdmd},
+ 0, 0, # struct list_head
+ 0; # struct obd_ops
+}
+
+sub obdo_unpack {
+ my $buf = shift;
+ my $offset = shift;
+ my $obdo;
+ ($obdo->{id},
+ $obdo->{gr},
+ $obdo->{atime},
+ $obdo->{mtime},
+ $obdo->{ctime},
+ $obdo->{size},
+ $obdo->{blocks},
+ $obdo->{blksize},
+ $obdo->{mode},
+ $obdo->{uid},
+ $obdo->{gid},
+ $obdo->{flags},
+ $obdo->{obdflags},
+ $obdo->{nlink},
+ $obdo->{valid},
+ $obdo->{inline},
+ $obdo->{obdmd}) = unpack "x${offset}Lx4 Lx4 Lx4 Lx4 Lx4 Lx4 Lx4 L L L L L L L L a60 a64", $buf;
+ $obdo;
+}
+
+sub obdo_print {
+
+ my $obdo = shift;
+
+ printf "id: %d\ngrp: %d\natime: %s\nmtime: %s\nctime: %s\nsize: %d\nblocks: %d\nblksize: %d\nmode: %x\nuid: %d\ngid: %d\nflags: %x\nobdflags: %x\nnlink: %d\nvalid: %x\ninline: %s\nobdmd: %s\n",
+ $obdo->{id},
+ $obdo->{gr},
+ $obdo->{atime},
+ $obdo->{mtime},
+ $obdo->{ctime},
+ $obdo->{size},
+ $obdo->{blocks},
+ $obdo->{blksize},
+ $obdo->{mode},
+ $obdo->{uid},
+ $obdo->{gid},
+ $obdo->{flags},
+ $obdo->{obdflags},
+ $obdo->{nlink},
+ $obdo->{valid},
+ $obdo->{inline},
+ $obdo->{obdmd};
+}
+
+
my ($file);
-GetOptions("f!" => \$file, "device=s" => \$::device, "fs=s" => $::filesystem) || die "Getoptions";
+GetOptions("f!" => \$file, "device=s" => \$::device, ) || die "Getoptions";
# get a console for the app
my %commands =
('device' => {func => "Device", doc => "device <dev>: open another OBD device"},
- 'filesystem' => {func => "Filesystem", doc => "filesystem <dev>: partition for direct OBD device"},
'create' => {func => "Create", doc => "create: creates a new inode"},
- 'attach' => {func => "Attach", doc => "attach type [adapter bus tid lun]"},
+ 'attach' => {func => "Attach", doc => "attach { ext2_obd | snap_obd snapdev snapidx tableno | scsi_obd adapter bus tid lun }" },
'detach' => {func => "Detach", doc => "detach this device"},
- 'testext2iterator' => {func => "TestExt2Iterator", doc => ""},
- 'snapattach' => {func => "SnapAttach", doc => "snapattach snapdev snapidx tableno"},
- 'snapset' => {func => "SnapSetTable", doc => "snapset tableno file" },
- 'snapprint' => {func => "SnapPrint", doc => "snapprint tableno"},
- 'snapdelete' => {func => "SnapDelete", doc => "snapdelete: delete connected snap obd"},
- 'snaprestore' => {func => "SnapRestore", doc => "snaprestore: restore connected old snap to current"},
+ 'testext2iterator' => {func => "TestExt2Iterator", doc => "test ext2 iterator function"},
+ 'snapset' => {func => "SnapSetTable", doc => "snapset <tableno> <file>: set the table (created with snaptable) as table #tableno" },
+ 'snapprint' => {func => "SnapPrint", doc => "snapprint <tableno>: output the contents of table #tableno to the syslog"},
+ 'snapdelete' => {func => "SnapDelete", doc => "snapdelete: delete connected snap obd objects from disk"},
+ 'snaprestore' => {func => "SnapRestore", doc => "snaprestore : restore connected old snap objects to be current"},
'snaptable' => {func => "SnapShotTable", doc => "snaptable: build a snapshot table (interactive)"},
- 'copy' => {func => "Copy", doc => "copy srcid tgtid"},
- 'migrate' => {func => "Migrate", doc => "migrate srcid tgtid"},
+ 'copy' => {func => "Copy", doc => "copy <srcid> <tgtid>: copy objects"},
+ 'migrate' => {func => "Migrate", doc => "migrate <srcid> <tgtid>: migrate data from one object to another"},
'format' => {func => "Format", doc => "format type adapter bus tid lun size"},
'partition' => {func => "Partition", doc => "partition type adapter bus tid lun partition size"},
- 'setup' => {func => "Setup", doc => "setup [type]: link this OBD device to the underlying device (default type ext2_obd, filesystem /dev/loop0)"},
+ 'setup' => {func => "Setup", doc => "setup [type]: link this OBD device to the underlying device (default type ext2_obd)"},
'connect' => {func => "Connect", doc => "connect: allocates client ID for this session"},
'disconnect' => {func => "Disconnect", doc => "disconnect [id]: frees client resources"},
'sync' => {func => "Sync", doc => "sync: flushes buffers to disk"},
# Get going....
Device($::device);
-Filesystem($::filesystem);
sub readl {
if ( $file ) {
my $str = <STDIN>;
chop($str);
return $str;
- } else {
- return $term->readline(@_);
- }
+ } else {
+ return $term->readline(@_);
+ }
}
if ( $file ) {
- while ( <STDIN> ) {
- print $_;
- execute_line($_);
- }
- exit 0;
+ while ( <STDIN> ) {
+ print $_;
+ execute_line($_);
+ }
+ exit 0;
} else {
$term = new Term::ReadLine 'obdcontrol ';
$attribs = $term->Attribs;
return (&{$commands{$cmd}->{func}}(@arg));
}
-# set the object store in the ext2 formatted block device
-sub Filesystem {
- my $filesystem = shift;
- $filesystem = "/dev/loop0" unless $filesystem;
-
- $::filesystem = $filesystem;
- if (!defined($::st = stat($filesystem))) {
- die "Unable to stat $filesystem.\n";
- }
- print "Filesystem now $filesystem\n";
-}
# select the OBD device we talk to
sub Device {
my $data;
my $datalen = 0;
- if ($type eq "obdscsi" ) {
+ if ( ! $type ) {
+ print "error: missing type\n";
+usage:
+ print "usage: attach {ext2_obd | snap_obd | scsi_obd}\n";
+ return;
+ }
+
+ if ($type eq "scsi_obd" ) {
my $adapter = shift;
my $bus = shift;
my $tid = shift;
my $lun = shift;
- $data = pack("iiiii", $adapter, $bus, $tid, $lun, $size);
+
+ $data = pack("iiii", $adapter, $bus, $tid, $lun);
$datalen = 4 * 4;
+ } elsif ($type eq "snap_obd" ) {
+ my $snapdev = shift;
+ my $snapidx = shift;
+ my $tableno = shift;
+
+ $data = pack("iii", $snapdev, $snapidx, $tableno);
+ $datalen = 3 * 4;
+ } elsif ($type eq "ext2_obd") {
+ 1;
+ } else {
+ print "error: unknown attach type $type\n";
+ goto usage;
}
+ my $len = length($type);
+ my $cl = length($data);
+
+ print "type $type (len $len), datalen $datalen ($cl)\n";
my $packed = pack("Lipip", $::client_id, length($type), $type, $datalen, $data);
my $rc = ioctl(DEV_OBD, &OBD_IOC_ATTACH, $packed);
print "type $type (len $len), datalen $datalen ($cl)\n";
my $packed = pack("Lipip", $::client_id, length($type), $type, $datalen, $data);
+ # XXX We need to fix this up so that after the objects in this snapshot
+ # are deleted, the snapshot itself is also removed from the table.
my $rc = ioctl(DEV_OBD, &OBD_SNAP_DELETE, $packed);
if (!defined $rc) {
}
-# FIXME the parameter to snaprestore SHOULD be the snapshot number of the
-# snapshot to be restored, and this routine should handle all of the
-# removal of intervening snapshots and changing the snaptable to have
-# the "restored" snapshot as current and move the previous current.
+# this routine does the whole job
sub SnapRestore {
+ my $restoreto = shift;
+ my $snaptable = shift;
+ my $tableno = shift;
+ my $restoretime;
+
+ # don't do anything until connected
if (!defined($::client_id)) {
print "You must first ``connect''.\n";
return;
}
+ if ( ! $snaptable || ! defined $restoreto ) {
+ print "Usage: snaprestore \"restore to slot\" \"snaptable\" \"tableno\"\n";
+ return;
+ }
+
+ if ( ! -f $snaptable ) {
+ print "Table $snaptable doesn't exist\n";
+ return;
+ }
+
+ my $table = ReadSnapShotTable($snaptable);
+ $restoretime = FindSnapInTable($table, $restoreto);
+ if ( ! defined $table->{0} || ! defined $restoretime ) {
+ PrintSnapShotTable($table);
+ print "No current or $restoreto slot in this table\n";
+ return;
+ }
+
+ my $currentindex = $table->{0};
+ if ( $table->{$restoretime} == $currentindex ) {
+ print "You should not restore to the current snapshot\n";
+ return;
+ }
+
+ # swap the entries for 0 and $restoreto
+ my $tmp = $table->{$restoretime};
+ $table->{$restoretime} = $table->{0};
+ $table->{0} = $tmp;
+ # PrintSnapShotTable($table);
+
+ # write it back
+ WriteSnapShotTable($snaptable, $table);
+
+ # set it in the kernel
+ SnapSetTable($tableno, $snaptable);
+
+ # ready for the ioctl
my $err = 0;
my $type = "snap_obd";
- my $prevcurrent = shift;
-
- $data = pack("i", $prevcurrent); # where the previous current snapshot now lives
+ $data = pack("i", $currentindex); # slot of previous current snapshot
$datalen = 4;
my $len = length($type);
my $cl = length($data);
- my $add = pack("p", $data);
- print "type $type (len $len), datalen $datalen ($cl)\n";
my $packed = pack("Lipip", $::client_id, length($type), $type, $datalen, $data);
my $rc = ioctl(DEV_OBD, &OBD_SNAP_RESTORE, $packed);
if (!defined $rc) {
print STDERR "ioctl failed: $!\n";
} elsif ($rc eq "0 but true") {
- print "Finished (success)\n";
+ print "Snaprestore finished (success)\n";
+ delete $table->{$restoretime} if defined $restoretime;
+ # write it back
+ WriteSnapShotTable($snaptable, $table);
+
+ # set it in the kernel
+ SnapSetTable($tableno, $snaptable);
+ # PrintSnapShotTable($table);
+
} else {
print "ioctl returned error code $rc.\n";
}
}
+sub FindSnapInTable {
+ my $table = shift;
+ my $snapno =shift;
+ foreach my $restoretime ( keys %{$table} ) {
+ if ( $table->{$restoretime} == $snapno) {
+ print "Found key $restoretime for snapno $snapno\n";
+ return $restoretime;
+ }
+ }
+ undef;
+}
+
sub SnapPrint {
my $err = 0;
}
-sub SnapAttach {
- my $err = 0;
- my $type = "snap_obd";
- my $snapdev = shift;
- my $snapidx = shift;
- my $tableno = shift;
- my $snapcount;
- my $data;
- my $datalen = 0;
-
- $data = pack("iii", $snapdev, $snapidx, $tableno);
- $datalen = 3 * 4;
-
- my $len = length($type);
- my $cl = length($data);
- my $add = pack("p", $data);
- print "type $type (len $len), datalen $datalen ($cl)\n";
- my $packed = pack("Lipip", $::client_id, length($type), $type, $datalen, $data);
-
- my $rc = ioctl(DEV_OBD, &OBD_IOC_ATTACH, $packed);
-
- if (!defined $rc) {
- print STDERR "ioctl failed: $!\n";
- } elsif ($rc eq "0 but true") {
- print "Finished (success)\n";
- } else {
- print "ioctl returned error code $rc.\n";
- }
-}
-
-
sub SnapShotTable {
my $file = &readl("enter file name: ");
done:
my $ok = &readl("OK with new table? [Yn]: ");
- unless ( $ok eq "no" ) {
- WriteSnapShotTable($file, $table);
- }
+ unless ( $ok eq "n" ) {
+ WriteSnapShotTable($file, $table);
+ }
}
sub SnapFindTimeFromIdx {
sub Copy {
my $err = 0;
my $srcid = shift;
- my $tgtid = shift;
- my $data = pack("III", $::client_id, $srcid, $tgtid);
+ my $dstid = shift;
+
+ # Note: _copy IOCTL takes parameters as dst, src.
+ # Copy function takes parameters as src, dst.
+ my $data = pack("III", $::client_id, $dstid, $srcid);
my $datalen = 12;
my $packed = pack("ip", $datalen, $data);
sub Migrate {
my $err = 0;
my $srcid = shift;
- my $tgtid = shift;
- my $data = pack("III", $::client_id, $srcid, $tgtid);
+ my $dstid = shift;
+
+ # Note: _migr IOCTL takes parameters as dst, src.
+ # Migrate function takes parameters as src, dst.
+ my $data = pack("III", $::client_id, $dstid, $srcid);
my $datalen = 12;
my $packed = pack("ip", $datalen, $data);
sub Setup {
my $err = 0;
- my $type = shift;
+ my $arg = shift;
my $data;
my $datalen = 0;
-
- $type = "ext2_obd" unless $type;
- if ( $type eq "ext2_obd" ) {
- my $dev = shift;
+ # XXX we need a getinfo ioctl to validate parameters
+ # by type here
+
+ if ($arg && !defined($::st = stat($arg))) {
+ print "$arg is not a valid device\n";
+ return;
+ }
+
+ if ( $arg ) {
$dev = $::st->rdev() unless $dev;
$data = pack("i", $dev);
$datalen = 4;
my $rc;
my $prealloc = 0;
- if (defined($quiet) && !($quiet eq "quiet")) {
+ if (defined($quiet) && $quiet ne "quiet") {
print "syntax: create [number of objects [quiet]]\n";
return;
}
for ($i = 0; $i < scalar($arg); $i++) {
$rc = ioctl(DEV_OBD, &OBD_IOC_CREATE, $packed);
my $ino = unpack("L", $packed);
- if (!($rc eq "0 but true")) {
+ if ($rc ne "0 but true") {
last;
$packed = pack("IL", $::client_id, $prealloc);
} elsif (!defined($quiet)) {
}
# see Setattr
- my $packed = pack("ILsx2lLLLI", $::client_id, $inode, 0, 0, 0, 0, 0, 0, 0,
- 0);
+ my $obdo;
+ $obdo->{id} = $inode;
+ my $packed = pack("L", $::client_id) . obdo_pack($obdo);
my $rc = ioctl(DEV_OBD, &OBD_IOC_GETATTR, $packed);
+
if (!defined $rc) {
print STDERR "ioctl failed: $!\n";
} elsif ($rc eq "0 but true") {
- my ($valid, $mode, $uid, $gid, $size, $atime, $mtime, $ctime, $flags);
- ($valid, $mode, $uid, $gid, $size, $atime, $mtime, $ctime, $flags) =
- unpack("ISssx2lLLLI", $packed);
-
- printf("Inode: %d Mode: %o\n", $inode, $mode);
- printf("User: %6d Group: %6d Size: %d\n", $uid, $gid, $size);
- printf("ctime: %08lx -- %s\n", $ctime, scalar(gmtime($ctime)));
- printf("atime: %08lx -- %s\n", $atime, scalar(gmtime($atime)));
- printf("mtime: %08lx -- %s\n", $mtime, scalar(gmtime($mtime)));
- printf("flags: %08x\n", $flags);
- print "Finished (success)\n";
+ $obdo = obdo_unpack($packed, 4);
+ obdo_print($obdo);
} else {
print "ioctl returned error code $rc.\n";
}