+ self.g = guestfs.GuestFS()
+ self.g.add_drive_opts(self.real_device, readonly=0)
+
+ # Before version 1.17.14 the recovery process, which is a fork of the
+ # original process that called libguestfs, did not close its inherited
+ # file descriptors. This can cause problems especially if the parent
+ # process has opened pipes. Since the recovery process is an optional
+ # feature of libguestfs, it's better to disable it.
+ self.g.set_recovery_proc(0)
+ version = self.g.version()
+ if version['major'] > 1 or (version['major'] == 1 and
+ (version['minor'] >= 18 or \
+ (version['minor'] == 17 and version['release'] >= 14))):
+ self.g.set_recovery_proc(1)
+ self.out.output("Enabling recovery proc")
+
+ #self.g.set_trace(1)
+ #self.g.set_verbose(1)
+
+ self.guestfs_enabled = False
+
+ def enable(self):
+ """Enable a newly created DiskDevice"""
+ self.progressbar = self.out.Progress(100, "Launching helper VM",
+ "percent")
+ eh = self.g.set_event_callback(self.progress_callback,
+ guestfs.EVENT_PROGRESS)
+ self.g.launch()
+ self.guestfs_enabled = True
+ self.g.delete_event_callback(eh)
+ self.progressbar.success('done')
+ self.progressbar = None
+
+ self.out.output('Inspecting Operating System...', False)
+ roots = self.g.inspect_os()
+ if len(roots) == 0:
+ raise FatalError("No operating system found")
+ if len(roots) > 1:
+ raise FatalError("Multiple operating systems found."
+ "We only support images with one filesystem.")
+ self.root = roots[0]
+ self.guestfs_device = self.g.part_to_dev(self.root)
+ self.meta['SIZE'] = self.g.blockdev_getsize64(self.guestfs_device)
+ self.meta['PARTITION_TABLE'] = \
+ self.g.part_get_parttype(self.guestfs_device)
+
+ self.ostype = self.g.inspect_get_type(self.root)
+ self.distro = self.g.inspect_get_distro(self.root)
+ self.out.success('found a(n) %s system' % self.distro)
+
+ def destroy(self):
+ """Destroy this DiskDevice instance."""
+
+ if self.guestfs_enabled:
+ self.g.umount_all()
+ self.g.sync()
+
+ # Close the guestfs handler if open
+ self.g.close()
+
+ def progress_callback(self, ev, eh, buf, array):
+ position = array[2]
+ total = array[3]
+
+ self.progressbar.goto((position * 100) // total)
+
+ def mount(self, readonly=False):
+ """Mount all disk partitions in a correct order."""
+
+ mount = self.g.mount_ro if readonly else self.g.mount
+ self.out.output("Mounting image...", False)
+ mps = self.g.inspect_get_mountpoints(self.root)
+
+ # Sort the keys to mount the fs in a correct order.
+ # / should be mounted befor /boot, etc
+ def compare(a, b):
+ if len(a[0]) > len(b[0]):
+ return 1
+ elif len(a[0]) == len(b[0]):
+ return 0
+ else:
+ return -1
+ mps.sort(compare)
+ for mp, dev in mps:
+ try:
+ mount(dev, mp)
+ except RuntimeError as msg:
+ self.out.warn("%s (ignored)" % msg)
+ self.out.success("done")
+
+ def umount(self):
+ """Umount all mounted filesystems."""
+ self.g.umount_all()
+
+ def _last_partition(self):
+ if self.meta['PARTITION_TABLE'] not in 'msdos' 'gpt':
+ msg = "Unsupported partition table: %s. Only msdos and gpt " \
+ "partition tables are supported" % self.meta['PARTITION_TABLE']
+ raise FatalError(msg)
+
+ is_extended = lambda p: self.g.part_get_mbr_id(
+ self.guestfs_device, p['part_num']) == 5
+ is_logical = lambda p: self.meta['PARTITION_TABLE'] != 'msdos' and \
+ p['part_num'] > 4
+
+ partitions = self.g.part_list(self.guestfs_device)
+ last_partition = partitions[-1]
+
+ if is_logical(last_partition):
+ # The disk contains extended and logical partitions....
+ extended = [p for p in partitions if is_extended(p)][0]
+ last_primary = [p for p in partitions if p['part_num'] <= 4][-1]
+
+ # check if extended is the last primary partition
+ if last_primary['part_num'] > extended['part_num']:
+ last_partition = last_primary
+
+ return last_partition
+
+ def shrink(self):
+ """Shrink the disk.
+
+ This is accomplished by shrinking the last filesystem in the
+ disk and then updating the partition table. The new disk size
+ (in bytes) is returned.
+
+ ATTENTION: make sure unmount is called before shrink
+ """
+ get_fstype = lambda p: self.g.vfs_type("%s%d" % \
+ (self.guestfs_device, p['part_num']))
+ is_logical = lambda p: self.meta['PARTITION_TABLE'] == 'msdos' and \
+ p['part_num'] > 4
+ is_extended = lambda p: self.meta['PARTITION_TABLE'] == 'msdos' and \
+ self.g.part_get_mbr_id(self.guestfs_device, p['part_num']) == 5
+
+ part_add = lambda ptype, start, stop: \
+ self.g.part_add(self.guestfs_device, ptype, start, stop)
+ part_del = lambda p: self.g.part_del(self.guestfs_device, p)
+ part_get_id = lambda p: self.g.part_get_mbr_id(self.guestfs_device, p)
+ part_set_id = lambda p, id: self.g.part_set_mbr_id(
+ self.guestfs_device, p, id)
+ part_get_bootable = lambda p: self.g.part_get_bootable(
+ self.guestfs_device, p)
+ part_set_bootable = lambda p, bootable: self.g.part_set_bootable(
+ self.guestfs_device, p, bootable)
+
+ MB = 2 ** 20
+
+ self.out.output("Shrinking image (this may take a while)...", False)
+
+ last_part = None
+ fstype = None
+ while True:
+ last_part = self._last_partition()
+ fstype = get_fstype(last_part)
+
+ if fstype == 'swap':
+ self.meta['SWAP'] = "%d:%s" % \
+ (last_part['part_num'],
+ (last_part['part_size'] + MB - 1) // MB)
+ part_del(last_part['part_num'])
+ continue
+ elif is_extended(last_part):
+ part_del(last_part['part_num'])
+ continue
+
+ self.meta['SIZE'] = last_part['part_end'] + 1
+ break
+
+ if not re.match("ext[234]", fstype):
+ self.out.warn("Don't know how to resize %s partitions." % fstype)
+ return self.meta['SIZE']
+
+ part_dev = "%s%d" % (self.guestfs_device, last_part['part_num'])
+ self.g.e2fsck_f(part_dev)
+ self.g.resize2fs_M(part_dev)
+
+ out = self.g.tune2fs_l(part_dev)
+ block_size = int(
+ filter(lambda x: x[0] == 'Block size', out)[0][1])
+ block_cnt = int(
+ filter(lambda x: x[0] == 'Block count', out)[0][1])
+
+ sector_size = self.g.blockdev_getss(self.guestfs_device)
+ start = last_part['part_start'] / sector_size
+ end = start + (block_size * block_cnt) / sector_size - 1
+
+ if is_logical(last_part):
+ partitions = self.g.part_list(self.guestfs_device)
+
+ logical = [] # logical partitions
+ for partition in partitions:
+ if partition['part_num'] < 4:
+ continue
+ logical.append({
+ 'num': partition['part_num'],
+ 'start': partition['part_start'] / sector_size,
+ 'end': partition['part_end'] / sector_size,
+ 'id': part_get_(partition['part_num']),
+ 'bootable': part_get_bootable(partition['part_num'])
+ })
+
+ logical[-1]['end'] = end # new end after resize
+
+ # Recreate the extended partition
+ extended = [p for p in partitions if self._is_extended(p)][0]
+ part_del(extended['part_num'])
+ part_add('e', extended['part_start'], end)
+
+ # Create all the logical partitions back
+ for l in logical:
+ part_add('l', l['start'], l['end'])
+ part_set_id(l['num'], l['id'])
+ part_set_bootable(l['num'], l['bootable'])
+ else:
+ # Recreate the last partition
+ if self.meta['PARTITION_TABLE'] == 'msdos':
+ last_part['id'] = part_get_id(last_part['part_num'])
+
+ last_part['bootable'] = part_get_bootable(last_part['part_num'])
+ part_del(last_part['part_num'])
+ part_add('p', start, end)
+ part_set_bootable(last_part['part_num'], last_part['bootable'])
+
+ if self.meta['PARTITION_TABLE'] == 'msdos':
+ part_set_id(last_part['part_num'], last_part['id'])
+
+ new_size = (end + 1) * sector_size
+ self.out.success("new size is %dMB" % ((new_size + MB - 1) // MB))
+
+ if self.meta['PARTITION_TABLE'] == 'gpt':
+ ptable = GPTPartitionTable(self.real_device)
+ self.meta['SIZE'] = ptable.shrink(new_size)
+ else:
+ self.meta['SIZE'] = new_size
+
+ return self.meta['SIZE']
+
+ def dump(self, outfile):
+ """Dumps the content of device into a file.
+
+ This method will only dump the actual payload, found by reading the
+ partition table. Empty space in the end of the device will be ignored.
+ """
+ MB = 2 ** 20
+ blocksize = 4 * MB # 4MB
+ size = self.meta['SIZE']
+ progr_size = (size + MB - 1) // MB # in MB
+ progressbar = self.out.Progress(progr_size, "Dumping image file", 'mb')
+
+ with open(self.real_device, 'r') as src:
+ with open(outfile, "w") as dst:
+ left = size
+ offset = 0
+ progressbar.next()
+ while left > 0:
+ length = min(left, blocksize)
+ sent = sendfile(dst.fileno(), src.fileno(), offset, length)
+ offset += sent
+ left -= sent
+ progressbar.goto((size - left) // MB)
+ progressbar.success('image file %s was successfully created' % outfile)