# # Copyright (c) 2013-2016 Intel Corporation. # # SPDX-License-Identifier: GPL-2.0-only # # DESCRIPTION # This module provides the OpenEmbedded partition object definitions. # # AUTHORS # Tom Zanussi # Ed Bartosh (at] linux.intel.com> import logging import os import uuid from wic import WicError from wic.misc import exec_cmd, exec_native_cmd, get_bitbake_var from wic.pluginbase import PluginMgr logger = logging.getLogger('wic') class Partition(): def __init__(self, args, lineno): self.args = args self.active = args.active self.align = args.align self.disk = args.disk self.device = None self.extra_space = args.extra_space self.exclude_path = args.exclude_path self.include_path = args.include_path self.change_directory = args.change_directory self.fsopts = args.fsopts self.fspassno = args.fspassno self.fstype = args.fstype self.label = args.label self.use_label = args.use_label self.mkfs_extraopts = args.mkfs_extraopts self.mountpoint = args.mountpoint self.no_table = args.no_table self.num = None self.offset = args.offset self.overhead_factor = args.overhead_factor self.part_name = args.part_name self.part_type = args.part_type self.rootfs_dir = args.rootfs_dir self.size = args.size self.fixed_size = args.fixed_size self.source = args.source self.sourceparams = args.sourceparams self.system_id = args.system_id self.use_uuid = args.use_uuid self.uuid = args.uuid self.fsuuid = args.fsuuid self.type = args.type self.no_fstab_update = args.no_fstab_update self.updated_fstab_path = None self.has_fstab = False self.update_fstab_in_rootfs = False self.hidden = args.hidden self.mbr = args.mbr self.lineno = lineno self.source_file = "" def get_extra_block_count(self, current_blocks): """ The --size param is reflected in self.size (in kB), and we already have current_blocks (1k) blocks, calculate and return the number of (1k) blocks we need to add to get to --size, 0 if we're already there or beyond. """ logger.debug("Requested partition size for %s: %d", self.mountpoint, self.size) if not self.size: return 0 requested_blocks = self.size logger.debug("Requested blocks %d, current_blocks %d", requested_blocks, current_blocks) if requested_blocks > current_blocks: return requested_blocks - current_blocks else: return 0 def get_rootfs_size(self, actual_rootfs_size=0): """ Calculate the required size of rootfs taking into consideration --size/--fixed-size flags as well as overhead and extra space, as specified in kickstart file. Raises an error if the `actual_rootfs_size` is larger than fixed-size rootfs. """ if self.fixed_size: rootfs_size = self.fixed_size if actual_rootfs_size > rootfs_size: raise WicError("Actual rootfs size (%d kB) is larger than " "allowed size %d kB" % (actual_rootfs_size, rootfs_size)) else: extra_blocks = self.get_extra_block_count(actual_rootfs_size) if extra_blocks < self.extra_space: extra_blocks = self.extra_space rootfs_size = actual_rootfs_size + extra_blocks rootfs_size = int(rootfs_size * self.overhead_factor) logger.debug("Added %d extra blocks to %s to get to %d total blocks", extra_blocks, self.mountpoint, rootfs_size) return rootfs_size @property def disk_size(self): """ Obtain on-disk size of partition taking into consideration --size/--fixed-size options. """ return self.fixed_size if self.fixed_size else self.size def prepare(self, creator, cr_workdir, oe_builddir, rootfs_dir, bootimg_dir, kernel_dir, native_sysroot, updated_fstab_path): """ Prepare content for individual partitions, depending on partition command parameters. """ self.updated_fstab_path = updated_fstab_path if self.updated_fstab_path and not (self.fstype.startswith("ext") or self.fstype == "msdos"): self.update_fstab_in_rootfs = True if not self.source: if self.fstype == "none" or self.no_table: return if not self.size and not self.fixed_size: raise WicError("The %s partition has a size of zero. Please " "specify a non-zero --size/--fixed-size for that " "partition." % self.mountpoint) if self.fstype == "swap": self.prepare_swap_partition(cr_workdir, oe_builddir, native_sysroot) self.source_file = "%s/fs.%s" % (cr_workdir, self.fstype) else: if self.fstype in ('squashfs', 'erofs'): raise WicError("It's not possible to create empty %s " "partition '%s'" % (self.fstype, self.mountpoint)) rootfs = "%s/fs_%s.%s.%s" % (cr_workdir, self.label, self.lineno, self.fstype) if os.path.isfile(rootfs): os.remove(rootfs) prefix = "ext" if self.fstype.startswith("ext") else self.fstype method = getattr(self, "prepare_empty_partition_" + prefix) method(rootfs, oe_builddir, native_sysroot) self.source_file = rootfs return plugins = PluginMgr.get_plugins('source') if self.source not in plugins: raise WicError("The '%s' --source specified for %s doesn't exist.\n\t" "See 'wic list source-plugins' for a list of available" " --sources.\n\tSee 'wic help source-plugins' for " "details on adding a new source plugin." % (self.source, self.mountpoint)) srcparams_dict = {} if self.sourceparams: # Split sourceparams string of the form key1=val1[,key2=val2,...] # into a dict. Also accepts valueless keys i.e. without = splitted = self.sourceparams.split(',') srcparams_dict = dict((par.split('=', 1) + [None])[:2] for par in splitted if par) plugin = PluginMgr.get_plugins('source')[self.source] plugin.do_configure_partition(self, srcparams_dict, creator, cr_workdir, oe_builddir, bootimg_dir, kernel_dir, native_sysroot) plugin.do_stage_partition(self, srcparams_dict, creator, cr_workdir, oe_builddir, bootimg_dir, kernel_dir, native_sysroot) plugin.do_prepare_partition(self, srcparams_dict, creator, cr_workdir, oe_builddir, bootimg_dir, kernel_dir, rootfs_dir, native_sysroot) plugin.do_post_partition(self, srcparams_dict, creator, cr_workdir, oe_builddir, bootimg_dir, kernel_dir, rootfs_dir, native_sysroot) # further processing required Partition.size to be an integer, make # sure that it is one if not isinstance(self.size, int): raise WicError("Partition %s internal size is not an integer. " "This a bug in source plugin %s and needs to be fixed." % (self.mountpoint, self.source)) if self.fixed_size and self.size > self.fixed_size: raise WicError("File system image of partition %s is " "larger (%d kB) than its allowed size %d kB" % (self.mountpoint, self.size, self.fixed_size)) def prepare_rootfs(self, cr_workdir, oe_builddir, rootfs_dir, native_sysroot, real_rootfs = True, pseudo_dir = None): """ Prepare content for a rootfs partition i.e. create a partition and fill it from a /rootfs dir. Currently handles ext2/3/4, btrfs, vfat and squashfs. """ rootfs = "%s/rootfs_%s.%s.%s" % (cr_workdir, self.label, self.lineno, self.fstype) if os.path.isfile(rootfs): os.remove(rootfs) p_prefix = os.environ.get("PSEUDO_PREFIX", "%s/usr" % native_sysroot) if (pseudo_dir): # Canonicalize the ignore paths. This corresponds to # calling oe.path.canonicalize(), which is used in bitbake.conf. ignore_paths = [rootfs] + (get_bitbake_var("PSEUDO_IGNORE_PATHS") or "").split(",") canonical_paths = [] for path in ignore_paths: if "$" not in path: trailing_slash = path.endswith("/") and "/" or "" canonical_paths.append(os.path.realpath(path) + trailing_slash) ignore_paths = ",".join(canonical_paths) pseudo = "export PSEUDO_PREFIX=%s;" % p_prefix pseudo += "export PSEUDO_LOCALSTATEDIR=%s;" % pseudo_dir pseudo += "export PSEUDO_PASSWD=%s;" % rootfs_dir pseudo += "export PSEUDO_NOSYMLINKEXP=1;" pseudo += "export PSEUDO_IGNORE_PATHS=%s;" % ignore_paths pseudo += "%s " % get_bitbake_var("FAKEROOTCMD") else: pseudo = None if not self.size and real_rootfs: # The rootfs size is not set in .ks file so try to get it # from bitbake variable rsize_bb = get_bitbake_var('ROOTFS_SIZE') rdir = get_bitbake_var('IMAGE_ROOTFS') if rsize_bb and rdir == rootfs_dir: # Bitbake variable ROOTFS_SIZE is calculated in # Image._get_rootfs_size method from meta/lib/oe/image.py # using IMAGE_ROOTFS_SIZE, IMAGE_ROOTFS_ALIGNMENT, # IMAGE_OVERHEAD_FACTOR and IMAGE_ROOTFS_EXTRA_SPACE self.size = int(round(float(rsize_bb))) else: # Bitbake variable ROOTFS_SIZE is not defined so compute it # from the rootfs_dir size using the same logic found in # get_rootfs_size() from meta/classes/image.bbclass du_cmd = "du -ks %s" % rootfs_dir out = exec_cmd(du_cmd) self.size = int(out.split()[0]) prefix = "ext" if self.fstype.startswith("ext") else self.fstype method = getattr(self, "prepare_rootfs_" + prefix) method(rootfs, cr_workdir, oe_builddir, rootfs_dir, native_sysroot, pseudo) self.source_file = rootfs # get the rootfs size in the right units for kickstart (kB) du_cmd = "du -Lbks %s" % rootfs out = exec_cmd(du_cmd) self.size = int(out.split()[0]) def prepare_rootfs_ext(self, rootfs, cr_workdir, oe_builddir, rootfs_dir, native_sysroot, pseudo): """ Prepare content for an ext2/3/4 rootfs partition. """ du_cmd = "du -ks %s" % rootfs_dir out = exec_cmd(du_cmd) actual_rootfs_size = int(out.split()[0]) rootfs_size = self.get_rootfs_size(actual_rootfs_size) with open(rootfs, 'w') as sparse: os.ftruncate(sparse.fileno(), rootfs_size * 1024) extraopts = self.mkfs_extraopts or "-F -i 8192" if os.getenv('SOURCE_DATE_EPOCH'): sde_time = int(os.getenv('SOURCE_DATE_EPOCH')) if pseudo: pseudo = "export E2FSPROGS_FAKE_TIME=%s;%s " % (sde_time, pseudo) else: pseudo = "export E2FSPROGS_FAKE_TIME=%s; " % sde_time # Set hash_seed to generate deterministic directory indexes namespace = uuid.UUID("e7429877-e7b3-4a68-a5c9-2f2fdf33d460") if self.fsuuid: namespace = uuid.UUID(self.fsuuid) hash_seed = str(uuid.uuid5(namespace, str(sde_time))) extraopts += " -E hash_seed=%s" % hash_seed label_str = "" if self.label: label_str = "-L %s" % self.label mkfs_cmd = "mkfs.%s %s %s %s -U %s -d %s" % \ (self.fstype, extraopts, rootfs, label_str, self.fsuuid, rootfs_dir) exec_native_cmd(mkfs_cmd, native_sysroot, pseudo=pseudo) if self.updated_fstab_path and self.has_fstab and not self.no_fstab_update: debugfs_script_path = os.path.join(cr_workdir, "debugfs_script") with open(debugfs_script_path, "w") as f: f.write("cd etc\n") f.write("rm fstab\n") f.write("write %s fstab\n" % (self.updated_fstab_path)) debugfs_cmd = "debugfs -w -f %s %s" % (debugfs_script_path, rootfs) exec_native_cmd(debugfs_cmd, native_sysroot) mkfs_cmd = "fsck.%s -pvfD %s" % (self.fstype, rootfs) exec_native_cmd(mkfs_cmd, native_sysroot, pseudo=pseudo) if os.getenv('SOURCE_DATE_EPOCH'): sde_time = hex(int(os.getenv('SOURCE_DATE_EPOCH'))) debugfs_script_path = os.path.join(cr_workdir, "debugfs_script") files = [] for root, dirs, others in os.walk(rootfs_dir): base = root.replace(rootfs_dir, "").rstrip(os.sep) files += [ "/" if base == "" else base ] files += [ base + "/" + n for n in dirs + others ] with open(debugfs_script_path, "w") as f: f.write("set_current_time %s\n" % (sde_time)) if self.updated_fstab_path and self.has_fstab and not self.no_fstab_update: f.write("set_inode_field /etc/fstab mtime %s\n" % (sde_time)) f.write("set_inode_field /etc/fstab mtime_extra 0\n") for file in set(files): for time in ["atime", "ctime", "crtime"]: f.write("set_inode_field \"%s\" %s %s\n" % (file, time, sde_time)) f.write("set_inode_field \"%s\" %s_extra 0\n" % (file, time)) for time in ["wtime", "mkfs_time", "lastcheck"]: f.write("set_super_value %s %s\n" % (time, sde_time)) for time in ["mtime", "first_error_time", "last_error_time"]: f.write("set_super_value %s 0\n" % (time)) debugfs_cmd = "debugfs -w -f %s %s" % (debugfs_script_path, rootfs) exec_native_cmd(debugfs_cmd, native_sysroot) self.check_for_Y2038_problem(rootfs, native_sysroot) def prepare_rootfs_btrfs(self, rootfs, cr_workdir, oe_builddir, rootfs_dir, native_sysroot, pseudo): """ Prepare content for a btrfs rootfs partition. """ du_cmd = "du -ks %s" % rootfs_dir out = exec_cmd(du_cmd) actual_rootfs_size = int(out.split()[0]) rootfs_size = self.get_rootfs_size(actual_rootfs_size) with open(rootfs, 'w') as sparse: os.ftruncate(sparse.fileno(), rootfs_size * 1024) label_str = "" if self.label: label_str = "-L %s" % self.label mkfs_cmd = "mkfs.%s -b %d -r %s %s %s -U %s %s" % \ (self.fstype, rootfs_size * 1024, rootfs_dir, label_str, self.mkfs_extraopts, self.fsuuid, rootfs) exec_native_cmd(mkfs_cmd, native_sysroot, pseudo=pseudo) def prepare_rootfs_msdos(self, rootfs, cr_workdir, oe_builddir, rootfs_dir, native_sysroot, pseudo): """ Prepare content for a msdos/vfat rootfs partition. """ du_cmd = "du -bks %s" % rootfs_dir out = exec_cmd(du_cmd) blocks = int(out.split()[0]) rootfs_size = self.get_rootfs_size(blocks) label_str = "-n boot" if self.label: label_str = "-n %s" % self.label size_str = "" extraopts = self.mkfs_extraopts or '-S 512' dosfs_cmd = "mkdosfs %s -i %s %s %s -C %s %d" % \ (label_str, self.fsuuid, size_str, extraopts, rootfs, rootfs_size) exec_native_cmd(dosfs_cmd, native_sysroot) mcopy_cmd = "mcopy -i %s -s %s/* ::/" % (rootfs, rootfs_dir) exec_native_cmd(mcopy_cmd, native_sysroot) if self.updated_fstab_path and self.has_fstab and not self.no_fstab_update: mcopy_cmd = "mcopy -m -i %s %s ::/etc/fstab" % (rootfs, self.updated_fstab_path) exec_native_cmd(mcopy_cmd, native_sysroot) chmod_cmd = "chmod 644 %s" % rootfs exec_cmd(chmod_cmd) prepare_rootfs_vfat = prepare_rootfs_msdos def prepare_rootfs_squashfs(self, rootfs, cr_workdir, oe_builddir, rootfs_dir, native_sysroot, pseudo): """ Prepare content for a squashfs rootfs partition. """ extraopts = self.mkfs_extraopts or '-noappend' squashfs_cmd = "mksquashfs %s %s %s" % \ (rootfs_dir, rootfs, extraopts) exec_native_cmd(squashfs_cmd, native_sysroot, pseudo=pseudo) def prepare_rootfs_erofs(self, rootfs, cr_workdir, oe_builddir, rootfs_dir, native_sysroot, pseudo): """ Prepare content for a erofs rootfs partition. """ extraopts = self.mkfs_extraopts or '' erofs_cmd = "mkfs.erofs %s -U %s %s %s" % \ (extraopts, self.fsuuid, rootfs, rootfs_dir) exec_native_cmd(erofs_cmd, native_sysroot, pseudo=pseudo) def prepare_empty_partition_none(self, rootfs, oe_builddir, native_sysroot): pass def prepare_empty_partition_ext(self, rootfs, oe_builddir, native_sysroot): """ Prepare an empty ext2/3/4 partition. """ size = self.disk_size with open(rootfs, 'w') as sparse: os.ftruncate(sparse.fileno(), size * 1024) extraopts = self.mkfs_extraopts or "-i 8192" label_str = "" if self.label: label_str = "-L %s" % self.label mkfs_cmd = "mkfs.%s -F %s %s -U %s %s" % \ (self.fstype, extraopts, label_str, self.fsuuid, rootfs) exec_native_cmd(mkfs_cmd, native_sysroot) self.check_for_Y2038_problem(rootfs, native_sysroot) def prepare_empty_partition_btrfs(self, rootfs, oe_builddir, native_sysroot): """ Prepare an empty btrfs partition. """ size = self.disk_size with open(rootfs, 'w') as sparse: os.ftruncate(sparse.fileno(), size * 1024) label_str = "" if self.label: label_str = "-L %s" % self.label mkfs_cmd = "mkfs.%s -b %d %s -U %s %s %s" % \ (self.fstype, self.size * 1024, label_str, self.fsuuid, self.mkfs_extraopts, rootfs) exec_native_cmd(mkfs_cmd, native_sysroot) def prepare_empty_partition_msdos(self, rootfs, oe_builddir, native_sysroot): """ Prepare an empty vfat partition. """ blocks = self.disk_size label_str = "-n boot" if self.label: label_str = "-n %s" % self.label size_str = "" extraopts = self.mkfs_extraopts or '-S 512' dosfs_cmd = "mkdosfs %s -i %s %s %s -C %s %d" % \ (label_str, self.fsuuid, extraopts, size_str, rootfs, blocks) exec_native_cmd(dosfs_cmd, native_sysroot) chmod_cmd = "chmod 644 %s" % rootfs exec_cmd(chmod_cmd) prepare_empty_partition_vfat = prepare_empty_partition_msdos def prepare_swap_partition(self, cr_workdir, oe_builddir, native_sysroot): """ Prepare a swap partition. """ path = "%s/fs.%s" % (cr_workdir, self.fstype) with open(path, 'w') as sparse: os.ftruncate(sparse.fileno(), self.size * 1024) label_str = "" if self.label: label_str = "-L %s" % self.label mkswap_cmd = "mkswap %s -U %s %s" % (label_str, self.fsuuid, path) exec_native_cmd(mkswap_cmd, native_sysroot) def check_for_Y2038_problem(self, rootfs, native_sysroot): """ Check if the filesystem is affected by the Y2038 problem (Y2038 problem = 32 bit time_t overflow in January 2038) """ def get_err_str(part): err = "The {} filesystem {} has no Y2038 support." if part.mountpoint: args = [part.fstype, "mounted at %s" % part.mountpoint] elif part.label: args = [part.fstype, "labeled '%s'" % part.label] elif part.part_name: args = [part.fstype, "in partition '%s'" % part.part_name] else: args = [part.fstype, "in partition %s" % part.num] return err.format(*args) # ext2 and ext3 are always affected by the Y2038 problem if self.fstype in ["ext2", "ext3"]: logger.warn(get_err_str(self)) return ret, out = exec_native_cmd("dumpe2fs %s" % rootfs, native_sysroot) # if ext4 is affected by the Y2038 problem depends on the inode size for line in out.splitlines(): if line.startswith("Inode size:"): size = int(line.split(":")[1].strip()) if size < 256: logger.warn("%s Inodes (of size %d) are too small." % (get_err_str(self), size)) break