def download(self): (cache_pth, exists_there) = self._check_cache() if exists_there: return cache_pth print("Downloading from: %s" % (util.quote(self.where_from))) util.ensure_dirs([os.path.dirname(cache_pth)]) print("To: %s" % (util.quote(cache_pth))) util.download_url(self.where_from, cache_pth) try: meta_js = { 'cached_on': util.time_rfc2822(), 'from': self.where_from, 'root_file': self.root_file, } util.write_file("%s.json" % (cache_pth), "%s\n" % (json.dumps(meta_js, indent=4))) return self._adjust_real_root(cache_pth) except: util.del_file(cache_pth) raise
def ec2_convert(raw_fn, out_fn, out_fmt, strip_partition, compress): # Extract the ramdisk/kernel devname = create_loopback(raw_fn, PART_OFFSET) with util.tempdir() as tdir: img_dir = os.path.join(tdir, 'img') root_dir = os.path.join(tdir, 'mnt') util.ensure_dirs([img_dir, root_dir]) with cmd_undo(['losetup', '-d', devname]): print("Copying off the ramdisk and kernel files.") # Mount it util.subp(['mount', devname, root_dir]) with cmd_undo(['umount', root_dir]): # Find the right files fns = {} for fn in os.listdir(util.abs_join(root_dir, 'boot')): if fn.endswith('.img') and fn.startswith('initramfs-'): fns['ramdisk'] = fn if fn.startswith('vmlinuz-'): fns['kernel'] = fn if fn.startswith('initrd-') and fn.endswith('.img'): fns['base'] = fn rd_fn = fns.get('ramdisk') k_fn = fns.get('kernel') if (not rd_fn and not k_fn) and 'base' in fns: kid = fns['base'] kid = kid[0:-len('.img')] kid = kid[len('initrd-'):] cmd = ['chroot', root_dir, '/sbin/mkinitrd', '-f', os.path.join('/boot', fns['base']), kid] util.subp(cmd, capture=False) if os.path.isfile(util.abs_join(root_dir, "boot", "initramfs-%s.img" % (kid))): rd_fn = "initramfs-%s.img" % (kid) if os.path.isfile(util.abs_join(root_dir, "boot", "vmlinuz-%s" % (kid))): k_fn = "vmlinuz-%s" % (kid) if not rd_fn: raise RuntimeError("No initramfs-*.img file found") if not k_fn: raise RuntimeError("No vmlinuz-* file found") shutil.move(util.abs_join(root_dir, 'boot', rd_fn), util.abs_join(img_dir, rd_fn)) shutil.move(util.abs_join(root_dir, 'boot', k_fn), util.abs_join(img_dir, k_fn)) # Copy off the data (minus the partition info) if strip_partition: print("Stripping off the partition table.") print("Please wait...") part_stripped_fn = dd_off(devname, tdir) # Replace the orginal 'raw' file if strip_partition: shutil.move(part_stripped_fn, raw_fn) # Apply some tune ups cmd = [ 'tune2fs', # Set the volume label of the filesystem '-L', 'root', raw_fn ] util.subp(cmd, capture=False) # Convert it to the final format and compress it out_base_fn = os.path.basename(out_fn) img_fn = out_base_fn if img_fn.endswith('.tar.gz'): img_fn = img_fn[0:-len('.tar.gz')] img_fn += "." + out_fmt img_fn = util.abs_join(img_dir, img_fn) straight_convert(raw_fn, img_fn, out_fmt) # Make a nice helper libvirt.xml file util.write_file(util.abs_join(img_dir, 'libvirt.xml'), make_virt_xml(util.abs_join(img_dir, k_fn), util.abs_join(img_dir, rd_fn), util.abs_join(img_dir, img_fn))) # Give every file written a hash/checksum file for fn in os.listdir(img_dir): src_fn = util.abs_join(img_dir, fn) hash_fn = src_fn + "." + HASH_ROUTINE hash_file(src_fn, hash_fn, HASH_ROUTINE) # Compress it or just move the folder around if compress: with closing(tarfile.open(out_fn, 'w:gz')) as tar_fh: for fn in os.listdir(img_dir): src_fn = util.abs_join(img_dir, fn) transfer_into_tarball(src_fn, fn, tar_fh) else: shutil.move(img_dir, out_fn)