# ex:ts=4:sw=4:sts=4:et # -*- tab-width: 4; c-basic-offset: 4; indent-tabs-mode: nil -*- # # Copyright (c) 2013, Intel Corporation. # All rights reserved. # # This program is free software; you can redistribute it and/or modify # it under the terms of the GNU General Public License version 2 as # published by the Free Software Foundation. # # This program is distributed in the hope that it will be useful, # but WITHOUT ANY WARRANTY; without even the implied warranty of # MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the # GNU General Public License for more details. # # You should have received a copy of the GNU General Public License along # with this program; if not, write to the Free Software Foundation, Inc., # 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. # # DESCRIPTION # This module implements the image creation engine used by 'wic' to # create images. The engine parses through the OpenEmbedded kickstart # (wks) file specified and generates images that can then be directly # written onto media. # # AUTHORS # Tom Zanussi # import logging import os import tempfile import json import subprocess from collections import namedtuple, OrderedDict from distutils.spawn import find_executable from wic import WicError from wic.filemap import sparse_copy from wic.pluginbase import PluginMgr from wic.misc import get_bitbake_var, exec_cmd logger = logging.getLogger('wic') def verify_build_env(): """ Verify that the build environment is sane. Returns True if it is, false otherwise """ if not os.environ.get("BUILDDIR"): raise WicError("BUILDDIR not found, exiting. (Did you forget to source oe-init-build-env?)") return True CANNED_IMAGE_DIR = "lib/wic/canned-wks" # relative to scripts SCRIPTS_CANNED_IMAGE_DIR = "scripts/" + CANNED_IMAGE_DIR WIC_DIR = "wic" def build_canned_image_list(path): layers_path = get_bitbake_var("BBLAYERS") canned_wks_layer_dirs = [] if layers_path is not None: for layer_path in layers_path.split(): for wks_path in (WIC_DIR, SCRIPTS_CANNED_IMAGE_DIR): cpath = os.path.join(layer_path, wks_path) if os.path.isdir(cpath): canned_wks_layer_dirs.append(cpath) cpath = os.path.join(path, CANNED_IMAGE_DIR) canned_wks_layer_dirs.append(cpath) return canned_wks_layer_dirs def find_canned_image(scripts_path, wks_file): """ Find a .wks file with the given name in the canned files dir. Return False if not found """ layers_canned_wks_dir = build_canned_image_list(scripts_path) for canned_wks_dir in layers_canned_wks_dir: for root, dirs, files in os.walk(canned_wks_dir): for fname in files: if fname.endswith("~") or fname.endswith("#"): continue if fname.endswith(".wks") and wks_file + ".wks" == fname: fullpath = os.path.join(canned_wks_dir, fname) return fullpath return None def list_canned_images(scripts_path): """ List the .wks files in the canned image dir, minus the extension. """ layers_canned_wks_dir = build_canned_image_list(scripts_path) for canned_wks_dir in layers_canned_wks_dir: for root, dirs, files in os.walk(canned_wks_dir): for fname in files: if fname.endswith("~") or fname.endswith("#"): continue if fname.endswith(".wks"): fullpath = os.path.join(canned_wks_dir, fname) with open(fullpath) as wks: for line in wks: desc = "" idx = line.find("short-description:") if idx != -1: desc = line[idx + len("short-description:"):].strip() break basename = os.path.splitext(fname)[0] print(" %s\t\t%s" % (basename.ljust(30), desc)) def list_canned_image_help(scripts_path, fullpath): """ List the help and params in the specified canned image. """ found = False with open(fullpath) as wks: for line in wks: if not found: idx = line.find("long-description:") if idx != -1: print() print(line[idx + len("long-description:"):].strip()) found = True continue if not line.strip(): break idx = line.find("#") if idx != -1: print(line[idx + len("#:"):].rstrip()) else: break def list_source_plugins(): """ List the available source plugins i.e. plugins available for --source. """ plugins = PluginMgr.get_plugins('source') for plugin in plugins: print(" %s" % plugin) def wic_create(wks_file, rootfs_dir, bootimg_dir, kernel_dir, native_sysroot, options): """ Create image wks_file - user-defined OE kickstart file rootfs_dir - absolute path to the build's /rootfs dir bootimg_dir - absolute path to the build's boot artifacts directory kernel_dir - absolute path to the build's kernel directory native_sysroot - absolute path to the build's native sysroots dir image_output_dir - dirname to create for image options - wic command line options (debug, bmap, etc) Normally, the values for the build artifacts values are determined by 'wic -e' from the output of the 'bitbake -e' command given an image name e.g. 'core-image-minimal' and a given machine set in local.conf. If that's the case, the variables get the following values from the output of 'bitbake -e': rootfs_dir: IMAGE_ROOTFS kernel_dir: DEPLOY_DIR_IMAGE native_sysroot: STAGING_DIR_NATIVE In the above case, bootimg_dir remains unset and the plugin-specific image creation code is responsible for finding the bootimg artifacts. In the case where the values are passed in explicitly i.e 'wic -e' is not used but rather the individual 'wic' options are used to explicitly specify these values. """ try: oe_builddir = os.environ["BUILDDIR"] except KeyError: raise WicError("BUILDDIR not found, exiting. (Did you forget to source oe-init-build-env?)") if not os.path.exists(options.outdir): os.makedirs(options.outdir) pname = options.imager plugin_class = PluginMgr.get_plugins('imager').get(pname) if not plugin_class: raise WicError('Unknown plugin: %s' % pname) plugin = plugin_class(wks_file, rootfs_dir, bootimg_dir, kernel_dir, native_sysroot, oe_builddir, options) plugin.do_create() logger.info("The image(s) were created using OE kickstart file:\n %s", wks_file) def wic_list(args, scripts_path): """ Print the list of images or source plugins. """ if args.list_type is None: return False if args.list_type == "images": list_canned_images(scripts_path) return True elif args.list_type == "source-plugins": list_source_plugins() return True elif len(args.help_for) == 1 and args.help_for[0] == 'help': wks_file = args.list_type fullpath = find_canned_image(scripts_path, wks_file) if not fullpath: raise WicError("No image named %s found, exiting. " "(Use 'wic list images' to list available images, " "or specify a fully-qualified OE kickstart (.wks) " "filename)" % wks_file) list_canned_image_help(scripts_path, fullpath) return True return False class Disk: def __init__(self, imagepath, native_sysroot, fstypes=('fat', 'ext')): self.imagepath = imagepath self.native_sysroot = native_sysroot self.fstypes = fstypes self._partitions = None self._partimages = {} self._lsector_size = None self._psector_size = None self._ptable_format = None # find parted # read paths from $PATH environment variable # if it fails, use hardcoded paths pathlist = "/bin:/usr/bin:/usr/sbin:/sbin/" try: self.paths = os.environ['PATH'] + ":" + pathlist except KeyError: self.paths = pathlist if native_sysroot: for path in pathlist.split(':'): self.paths = "%s%s:%s" % (native_sysroot, path, self.paths) self.parted = find_executable("parted", self.paths) if not self.parted: raise WicError("Can't find executable parted") self.partitions = self.get_partitions() def __del__(self): for path in self._partimages.values(): os.unlink(path) def get_partitions(self): if self._partitions is None: self._partitions = OrderedDict() out = exec_cmd("%s -sm %s unit B print" % (self.parted, self.imagepath)) parttype = namedtuple("Part", "pnum start end size fstype") splitted = out.splitlines() # skip over possible errors in exec_cmd output try: idx =splitted.index("BYT;") except ValueError: raise WicError("Error getting partition information from %s" % (self.parted)) lsector_size, psector_size, self._ptable_format = splitted[idx + 1].split(":")[3:6] self._lsector_size = int(lsector_size) self._psector_size = int(psector_size) for line in splitted[idx + 2:]: pnum, start, end, size, fstype = line.split(':')[:5] partition = parttype(int(pnum), int(start[:-1]), int(end[:-1]), int(size[:-1]), fstype) self._partitions[pnum] = partition return self._partitions def __getattr__(self, name): """Get path to the executable in a lazy way.""" if name in ("mdir", "mcopy", "mdel", "mdeltree", "sfdisk", "e2fsck", "resize2fs", "mkswap", "mkdosfs", "debugfs"): aname = "_%s" % name if aname not in self.__dict__: setattr(self, aname, find_executable(name, self.paths)) if aname not in self.__dict__ or self.__dict__[aname] is None: raise WicError("Can't find executable '{}'".format(name)) return self.__dict__[aname] return self.__dict__[name] def _get_part_image(self, pnum): if pnum not in self.partitions: raise WicError("Partition %s is not in the image") part = self.partitions[pnum] # check if fstype is supported for fstype in self.fstypes: if part.fstype.startswith(fstype): break else: raise WicError("Not supported fstype: {}".format(part.fstype)) if pnum not in self._partimages: tmpf = tempfile.NamedTemporaryFile(prefix="wic-part") dst_fname = tmpf.name tmpf.close() sparse_copy(self.imagepath, dst_fname, skip=part.start, length=part.size) self._partimages[pnum] = dst_fname return self._partimages[pnum] def _put_part_image(self, pnum): """Put partition image into partitioned image.""" sparse_copy(self._partimages[pnum], self.imagepath, seek=self.partitions[pnum].start) def dir(self, pnum, path): if self.partitions[pnum].fstype.startswith('ext'): return exec_cmd("{} {} -R 'ls -l {}'".format(self.debugfs, self._get_part_image(pnum), path), as_shell=True) else: # fat return exec_cmd("{} -i {} ::{}".format(self.mdir, self._get_part_image(pnum), path)) def copy(self, src, pnum, path): """Copy partition image into wic image.""" if self.partitions[pnum].fstype.startswith('ext'): cmd = "printf 'cd {}\nwrite {} {}' | {} -w {}".\ format(path, src, os.path.basename(src), self.debugfs, self._get_part_image(pnum)) else: # fat cmd = "{} -i {} -snop {} ::{}".format(self.mcopy, self._get_part_image(pnum), src, path) exec_cmd(cmd, as_shell=True) self._put_part_image(pnum) def remove(self, pnum, path): """Remove files/dirs from the partition.""" partimg = self._get_part_image(pnum) if self.partitions[pnum].fstype.startswith('ext'): cmd = "{} {} -wR 'rm {}'".format(self.debugfs, self._get_part_image(pnum), path) out = exec_cmd(cmd , as_shell=True) for line in out.splitlines(): if line.startswith("rm:"): if "file is a directory" in line: # Try rmdir to see if this is an empty directory. This won't delete # any non empty directory so let user know about any error that this might # generate. print(exec_cmd("{} {} -wR 'rmdir {}'".format(self.debugfs, self._get_part_image(pnum), path), as_shell=True)) else: raise WicError("Could not complete operation: wic %s" % str(line)) else: # fat cmd = "{} -i {} ::{}".format(self.mdel, partimg, path) try: exec_cmd(cmd) except WicError as err: if "not found" in str(err) or "non empty" in str(err): # mdel outputs 'File ... not found' or 'directory .. non empty" # try to use mdeltree as path could be a directory cmd = "{} -i {} ::{}".format(self.mdeltree, partimg, path) exec_cmd(cmd) else: raise err self._put_part_image(pnum) def write(self, target, expand): """Write disk image to the media or file.""" def write_sfdisk_script(outf, parts): for key, val in parts['partitiontable'].items(): if key in ("partitions", "device", "firstlba", "lastlba"): continue if key == "id": key = "label-id" outf.write("{}: {}\n".format(key, val)) outf.write("\n") for part in parts['partitiontable']['partitions']: line = '' for name in ('attrs', 'name', 'size', 'type', 'uuid'): if name == 'size' and part['type'] == 'f': # don't write size for extended partition continue val = part.get(name) if val: line += '{}={}, '.format(name, val) if line: line = line[:-2] # strip ', ' if part.get('bootable'): line += ' ,bootable' outf.write("{}\n".format(line)) outf.flush() def read_ptable(path): out = exec_cmd("{} -dJ {}".format(self.sfdisk, path)) return json.loads(out) def write_ptable(parts, target): with tempfile.NamedTemporaryFile(prefix="wic-sfdisk-", mode='w') as outf: write_sfdisk_script(outf, parts) cmd = "{} --no-reread {} < {} ".format(self.sfdisk, target, outf.name) exec_cmd(cmd, as_shell=True) if expand is None: sparse_copy(self.imagepath, target) else: # copy first sectors that may contain bootloader sparse_copy(self.imagepath, target, length=2048 * self._lsector_size) # copy source partition table to the target parts = read_ptable(self.imagepath) write_ptable(parts, target) # get size of unpartitioned space free = None for line in exec_cmd("{} -F {}".format(self.sfdisk, target)).splitlines(): if line.startswith("Unpartitioned space ") and line.endswith("sectors"): free = int(line.split()[-2]) # Align free space to a 2048 sector boundary. YOCTO #12840. free = free - (free % 2048) if free is None: raise WicError("Can't get size of unpartitioned space") # calculate expanded partitions sizes sizes = {} num_auto_resize = 0 for num, part in enumerate(parts['partitiontable']['partitions'], 1): if num in expand: if expand[num] != 0: # don't resize partition if size is set to 0 sectors = expand[num] // self._lsector_size free -= sectors - part['size'] part['size'] = sectors sizes[num] = sectors elif part['type'] != 'f': sizes[num] = -1 num_auto_resize += 1 for num, part in enumerate(parts['partitiontable']['partitions'], 1): if sizes.get(num) == -1: part['size'] += free // num_auto_resize # write resized partition table to the target write_ptable(parts, target) # read resized partition table parts = read_ptable(target) # copy partitions content for num, part in enumerate(parts['partitiontable']['partitions'], 1): pnum = str(num) fstype = self.partitions[pnum].fstype # copy unchanged partition if part['size'] == self.partitions[pnum].size // self._lsector_size: logger.info("copying unchanged partition {}".format(pnum)) sparse_copy(self._get_part_image(pnum), target, seek=part['start'] * self._lsector_size) continue # resize or re-create partitions if fstype.startswith('ext') or fstype.startswith('fat') or \ fstype.startswith('linux-swap'): partfname = None with tempfile.NamedTemporaryFile(prefix="wic-part{}-".format(pnum)) as partf: partfname = partf.name if fstype.startswith('ext'): logger.info("resizing ext partition {}".format(pnum)) partimg = self._get_part_image(pnum) sparse_copy(partimg, partfname) exec_cmd("{} -pf {}".format(self.e2fsck, partfname)) exec_cmd("{} {} {}s".format(\ self.resize2fs, partfname, part['size'])) elif fstype.startswith('fat'): logger.info("copying content of the fat partition {}".format(pnum)) with tempfile.TemporaryDirectory(prefix='wic-fatdir-') as tmpdir: # copy content to the temporary directory cmd = "{} -snompi {} :: {}".format(self.mcopy, self._get_part_image(pnum), tmpdir) exec_cmd(cmd) # create new msdos partition label = part.get("name") label_str = "-n {}".format(label) if label else '' cmd = "{} {} -C {} {}".format(self.mkdosfs, label_str, partfname, part['size']) exec_cmd(cmd) # copy content from the temporary directory to the new partition cmd = "{} -snompi {} {}/* ::".format(self.mcopy, partfname, tmpdir) exec_cmd(cmd, as_shell=True) elif fstype.startswith('linux-swap'): logger.info("creating swap partition {}".format(pnum)) label = part.get("name") label_str = "-L {}".format(label) if label else '' uuid = part.get("uuid") uuid_str = "-U {}".format(uuid) if uuid else '' with open(partfname, 'w') as sparse: os.ftruncate(sparse.fileno(), part['size'] * self._lsector_size) exec_cmd("{} {} {} {}".format(self.mkswap, label_str, uuid_str, partfname)) sparse_copy(partfname, target, seek=part['start'] * self._lsector_size) os.unlink(partfname) elif part['type'] != 'f': logger.warning("skipping partition {}: unsupported fstype {}".format(pnum, fstype)) def wic_ls(args, native_sysroot): """List contents of partitioned image or vfat partition.""" disk = Disk(args.path.image, native_sysroot) if not args.path.part: if disk.partitions: print('Num Start End Size Fstype') for part in disk.partitions.values(): print("{:2d} {:12d} {:12d} {:12d} {}".format(\ part.pnum, part.start, part.end, part.size, part.fstype)) else: path = args.path.path or '/' print(disk.dir(args.path.part, path)) def wic_cp(args, native_sysroot): """ Copy local file or directory to the vfat partition of partitioned image. """ disk = Disk(args.dest.image, native_sysroot) disk.copy(args.src, args.dest.part, args.dest.path) def wic_rm(args, native_sysroot): """ Remove files or directories from the vfat partition of partitioned image. """ disk = Disk(args.path.image, native_sysroot) disk.remove(args.path.part, args.path.path) def wic_write(args, native_sysroot): """ Write image to a target device. """ disk = Disk(args.image, native_sysroot, ('fat', 'ext', 'swap')) disk.write(args.target, args.expand) def find_canned(scripts_path, file_name): """ Find a file either by its path or by name in the canned files dir. Return None if not found """ if os.path.exists(file_name): return file_name layers_canned_wks_dir = build_canned_image_list(scripts_path) for canned_wks_dir in layers_canned_wks_dir: for root, dirs, files in os.walk(canned_wks_dir): for fname in files: if fname == file_name: fullpath = os.path.join(canned_wks_dir, fname) return fullpath def get_custom_config(boot_file): """ Get the custom configuration to be used for the bootloader. Return None if the file can't be found. """ # Get the scripts path of poky scripts_path = os.path.abspath("%s/../.." % os.path.dirname(__file__)) cfg_file = find_canned(scripts_path, boot_file) if cfg_file: with open(cfg_file, "r") as f: config = f.read() return config