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-rw-r--r--scripts/lib/wic/plugins/imager/direct.py561
-rw-r--r--scripts/lib/wic/plugins/imager/direct_plugin.py103
-rw-r--r--scripts/lib/wic/plugins/source/bootimg-efi.py113
-rw-r--r--scripts/lib/wic/plugins/source/bootimg-partition.py61
-rw-r--r--scripts/lib/wic/plugins/source/bootimg-pcbios.py98
-rw-r--r--scripts/lib/wic/plugins/source/fsimage.py73
-rw-r--r--scripts/lib/wic/plugins/source/isoimage-isohybrid.py188
-rw-r--r--scripts/lib/wic/plugins/source/rawcopy.py48
-rw-r--r--scripts/lib/wic/plugins/source/rootfs.py68
-rw-r--r--scripts/lib/wic/plugins/source/rootfs_pcbios_ext.py177
10 files changed, 839 insertions, 651 deletions
diff --git a/scripts/lib/wic/plugins/imager/direct.py b/scripts/lib/wic/plugins/imager/direct.py
new file mode 100644
index 0000000000..f2e6127331
--- /dev/null
+++ b/scripts/lib/wic/plugins/imager/direct.py
@@ -0,0 +1,561 @@
+# 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 implements the 'direct' imager plugin class for 'wic'
+#
+# AUTHORS
+# Tom Zanussi <tom.zanussi (at] linux.intel.com>
+#
+
+import logging
+import os
+import shutil
+import tempfile
+import uuid
+
+from time import strftime
+
+from wic import WicError
+from wic.filemap import sparse_copy
+from wic.ksparser import KickStart, KickStartError
+from wic.pluginbase import PluginMgr, ImagerPlugin
+from wic.utils.misc import get_bitbake_var, exec_cmd, exec_native_cmd
+
+logger = logging.getLogger('wic')
+
+class DirectPlugin(ImagerPlugin):
+ """
+ Install a system into a file containing a partitioned disk image.
+
+ An image file is formatted with a partition table, each partition
+ created from a rootfs or other OpenEmbedded build artifact and dd'ed
+ into the virtual disk. The disk image can subsequently be dd'ed onto
+ media and used on actual hardware.
+ """
+ name = 'direct'
+
+ def __init__(self, wks_file, rootfs_dir, bootimg_dir, kernel_dir,
+ native_sysroot, oe_builddir, options):
+ try:
+ self.ks = KickStart(wks_file)
+ except KickStartError as err:
+ raise WicError(str(err))
+
+ # parse possible 'rootfs=name' items
+ self.rootfs_dir = dict(rdir.split('=') for rdir in rootfs_dir.split(' '))
+ self.bootimg_dir = bootimg_dir
+ self.kernel_dir = kernel_dir
+ self.native_sysroot = native_sysroot
+ self.oe_builddir = oe_builddir
+
+ self.outdir = options.outdir
+ self.compressor = options.compressor
+ self.bmap = options.bmap
+
+ self.name = "%s-%s" % (os.path.splitext(os.path.basename(wks_file))[0],
+ strftime("%Y%m%d%H%M"))
+ self.workdir = tempfile.mkdtemp(dir=self.outdir, prefix='tmp.wic.')
+ self._image = None
+ self.ptable_format = self.ks.bootloader.ptable
+ self.parts = self.ks.partitions
+
+ # as a convenience, set source to the boot partition source
+ # instead of forcing it to be set via bootloader --source
+ for part in self.parts:
+ if not self.ks.bootloader.source and part.mountpoint == "/boot":
+ self.ks.bootloader.source = part.source
+ break
+
+ image_path = self._full_path(self.workdir, self.parts[0].disk, "direct")
+ self._image = PartitionedImage(image_path, self.ptable_format,
+ self.parts, self.native_sysroot)
+
+ def do_create(self):
+ """
+ Plugin entry point.
+ """
+ try:
+ self.create()
+ self.assemble()
+ self.finalize()
+ self.print_info()
+ finally:
+ self.cleanup()
+
+ def _write_fstab(self, image_rootfs):
+ """overriden to generate fstab (temporarily) in rootfs. This is called
+ from _create, make sure it doesn't get called from
+ BaseImage.create()
+ """
+ if not image_rootfs:
+ return
+
+ fstab_path = image_rootfs + "/etc/fstab"
+ if not os.path.isfile(fstab_path):
+ return
+
+ with open(fstab_path) as fstab:
+ fstab_lines = fstab.readlines()
+
+ if self._update_fstab(fstab_lines, self.parts):
+ shutil.copyfile(fstab_path, fstab_path + ".orig")
+
+ with open(fstab_path, "w") as fstab:
+ fstab.writelines(fstab_lines)
+
+ return fstab_path
+
+ def _update_fstab(self, fstab_lines, parts):
+ """Assume partition order same as in wks"""
+ updated = False
+ for part in parts:
+ if not part.realnum or not part.mountpoint \
+ or part.mountpoint in ("/", "/boot"):
+ continue
+
+ # mmc device partitions are named mmcblk0p1, mmcblk0p2..
+ prefix = 'p' if part.disk.startswith('mmcblk') else ''
+ device_name = "/dev/%s%s%d" % (part.disk, prefix, part.realnum)
+
+ opts = part.fsopts if part.fsopts else "defaults"
+ line = "\t".join([device_name, part.mountpoint, part.fstype,
+ opts, "0", "0"]) + "\n"
+
+ fstab_lines.append(line)
+ updated = True
+
+ return updated
+
+ def _full_path(self, path, name, extention):
+ """ Construct full file path to a file we generate. """
+ return os.path.join(path, "%s-%s.%s" % (self.name, name, extention))
+
+ #
+ # Actual implemention
+ #
+ def create(self):
+ """
+ For 'wic', we already have our build artifacts - we just create
+ filesystems from the artifacts directly and combine them into
+ a partitioned image.
+ """
+ fstab_path = self._write_fstab(self.rootfs_dir.get("ROOTFS_DIR"))
+
+ for part in self.parts:
+ # get rootfs size from bitbake variable if it's not set in .ks file
+ if not part.size:
+ # and if rootfs name is specified for the partition
+ image_name = self.rootfs_dir.get(part.rootfs_dir)
+ if image_name and os.path.sep not in image_name:
+ # 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
+ rsize_bb = get_bitbake_var('ROOTFS_SIZE', image_name)
+ if rsize_bb:
+ part.size = int(round(float(rsize_bb)))
+
+ self._image.prepare(self)
+
+ if fstab_path:
+ shutil.move(fstab_path + ".orig", fstab_path)
+
+ self._image.layout_partitions()
+ self._image.create()
+
+ def assemble(self):
+ """
+ Assemble partitions into disk image
+ """
+ self._image.assemble()
+
+ def finalize(self):
+ """
+ Finalize the disk image.
+
+ For example, prepare the image to be bootable by e.g.
+ creating and installing a bootloader configuration.
+ """
+ source_plugin = self.ks.bootloader.source
+ disk_name = self.parts[0].disk
+ if source_plugin:
+ plugin = PluginMgr.get_plugins('source')[source_plugin]
+ plugin.do_install_disk(self._image, disk_name, self, self.workdir,
+ self.oe_builddir, self.bootimg_dir,
+ self.kernel_dir, self.native_sysroot)
+
+ full_path = self._image.path
+ # Generate .bmap
+ if self.bmap:
+ logger.debug("Generating bmap file for %s", disk_name)
+ exec_native_cmd("bmaptool create %s -o %s.bmap" % (full_path, full_path),
+ self.native_sysroot)
+ # Compress the image
+ if self.compressor:
+ logger.debug("Compressing disk %s with %s", disk_name, self.compressor)
+ exec_cmd("%s %s" % (self.compressor, full_path))
+
+ def print_info(self):
+ """
+ Print the image(s) and artifacts used, for the user.
+ """
+ msg = "The new image(s) can be found here:\n"
+
+ extension = "direct" + {"gzip": ".gz",
+ "bzip2": ".bz2",
+ "xz": ".xz",
+ None: ""}.get(self.compressor)
+ full_path = self._full_path(self.outdir, self.parts[0].disk, extension)
+ msg += ' %s\n\n' % full_path
+
+ msg += 'The following build artifacts were used to create the image(s):\n'
+ for part in self.parts:
+ if part.rootfs_dir is None:
+ continue
+ if part.mountpoint == '/':
+ suffix = ':'
+ else:
+ suffix = '["%s"]:' % (part.mountpoint or part.label)
+ msg += ' ROOTFS_DIR%s%s\n' % (suffix.ljust(20), part.rootfs_dir)
+
+ msg += ' BOOTIMG_DIR: %s\n' % self.bootimg_dir
+ msg += ' KERNEL_DIR: %s\n' % self.kernel_dir
+ msg += ' NATIVE_SYSROOT: %s\n' % self.native_sysroot
+
+ logger.info(msg)
+
+ @property
+ def rootdev(self):
+ """
+ Get root device name to use as a 'root' parameter
+ in kernel command line.
+
+ Assume partition order same as in wks
+ """
+ for part in self.parts:
+ if part.mountpoint == "/":
+ if part.uuid:
+ return "PARTUUID=%s" % part.uuid
+ else:
+ suffix = 'p' if part.disk.startswith('mmcblk') else ''
+ return "/dev/%s%s%-d" % (part.disk, suffix, part.realnum)
+
+ def cleanup(self):
+ if self._image:
+ self._image.cleanup()
+
+ # Move results to the output dir
+ if not os.path.exists(self.outdir):
+ os.makedirs(self.outdir)
+
+ for fname in os.listdir(self.workdir):
+ path = os.path.join(self.workdir, fname)
+ if os.path.isfile(path):
+ shutil.move(path, os.path.join(self.outdir, fname))
+
+ # remove work directory
+ shutil.rmtree(self.workdir, ignore_errors=True)
+
+# Overhead of the MBR partitioning scheme (just one sector)
+MBR_OVERHEAD = 1
+
+# Overhead of the GPT partitioning scheme
+GPT_OVERHEAD = 34
+
+# Size of a sector in bytes
+SECTOR_SIZE = 512
+
+class PartitionedImage():
+ """
+ Partitioned image in a file.
+ """
+
+ def __init__(self, path, ptable_format, partitions, native_sysroot=None):
+ self.path = path # Path to the image file
+ self.numpart = 0 # Number of allocated partitions
+ self.realpart = 0 # Number of partitions in the partition table
+ self.offset = 0 # Offset of next partition (in sectors)
+ self.min_size = 0 # Minimum required disk size to fit
+ # all partitions (in bytes)
+ self.ptable_format = ptable_format # Partition table format
+ # Disk system identifier
+ self.identifier = int.from_bytes(os.urandom(4), 'little')
+
+ self.partitions = partitions
+ self.partimages = []
+ # Size of a sector used in calculations
+ self.sector_size = SECTOR_SIZE
+ self.native_sysroot = native_sysroot
+
+ # calculate the real partition number, accounting for partitions not
+ # in the partition table and logical partitions
+ realnum = 0
+ for part in self.partitions:
+ if part.no_table:
+ part.realnum = 0
+ else:
+ realnum += 1
+ if self.ptable_format == 'msdos' and realnum > 3:
+ part.realnum = realnum + 1
+ continue
+ part.realnum = realnum
+
+ # generate parition UUIDs
+ for part in self.partitions:
+ if not part.uuid and part.use_uuid:
+ if self.ptable_format == 'gpt':
+ part.uuid = str(uuid.uuid4())
+ else: # msdos partition table
+ part.uuid = '%08x-%02d' % (self.identifier, part.realnum)
+
+ def prepare(self, imager):
+ """Prepare an image. Call prepare method of all image partitions."""
+ for part in self.partitions:
+ # need to create the filesystems in order to get their
+ # sizes before we can add them and do the layout.
+ part.prepare(imager, imager.workdir, imager.oe_builddir,
+ imager.rootfs_dir, imager.bootimg_dir,
+ imager.kernel_dir, imager.native_sysroot)
+
+ # Converting kB to sectors for parted
+ part.size_sec = part.disk_size * 1024 // self.sector_size
+
+ def layout_partitions(self):
+ """ Layout the partitions, meaning calculate the position of every
+ partition on the disk. The 'ptable_format' parameter defines the
+ partition table format and may be "msdos". """
+
+ logger.debug("Assigning %s partitions to disks", self.ptable_format)
+
+ # The number of primary and logical partitions. Extended partition and
+ # partitions not listed in the table are not included.
+ num_real_partitions = len([p for p in self.partitions if not p.no_table])
+
+ # Go through partitions in the order they are added in .ks file
+ for num in range(len(self.partitions)):
+ part = self.partitions[num]
+
+ if self.ptable_format == 'msdos' and part.part_type:
+ # The --part-type can also be implemented for MBR partitions,
+ # in which case it would map to the 1-byte "partition type"
+ # filed at offset 3 of the partition entry.
+ raise WicError("setting custom partition type is not " \
+ "implemented for msdos partitions")
+
+ # Get the disk where the partition is located
+ self.numpart += 1
+ if not part.no_table:
+ self.realpart += 1
+
+ if self.numpart == 1:
+ if self.ptable_format == "msdos":
+ overhead = MBR_OVERHEAD
+ elif self.ptable_format == "gpt":
+ overhead = GPT_OVERHEAD
+
+ # Skip one sector required for the partitioning scheme overhead
+ self.offset += overhead
+
+ if self.realpart > 3 and num_real_partitions > 4:
+ # Reserve a sector for EBR for every logical partition
+ # before alignment is performed.
+ if self.ptable_format == "msdos":
+ self.offset += 1
+
+ if part.align:
+ # If not first partition and we do have alignment set we need
+ # to align the partition.
+ # FIXME: This leaves a empty spaces to the disk. To fill the
+ # gaps we could enlargea the previous partition?
+
+ # Calc how much the alignment is off.
+ align_sectors = self.offset % (part.align * 1024 // self.sector_size)
+
+ if align_sectors:
+ # If partition is not aligned as required, we need
+ # to move forward to the next alignment point
+ align_sectors = (part.align * 1024 // self.sector_size) - align_sectors
+
+ logger.debug("Realignment for %s%s with %s sectors, original"
+ " offset %s, target alignment is %sK.",
+ part.disk, self.numpart, align_sectors,
+ self.offset, part.align)
+
+ # increase the offset so we actually start the partition on right alignment
+ self.offset += align_sectors
+
+ part.start = self.offset
+ self.offset += part.size_sec
+
+ part.type = 'primary'
+ if not part.no_table:
+ part.num = self.realpart
+ else:
+ part.num = 0
+
+ if self.ptable_format == "msdos":
+ # only count the partitions that are in partition table
+ if num_real_partitions > 4:
+ if self.realpart > 3:
+ part.type = 'logical'
+ part.num = self.realpart + 1
+
+ logger.debug("Assigned %s to %s%d, sectors range %d-%d size %d "
+ "sectors (%d bytes).", part.mountpoint, part.disk,
+ part.num, part.start, self.offset - 1, part.size_sec,
+ part.size_sec * self.sector_size)
+
+ # Once all the partitions have been layed out, we can calculate the
+ # minumim disk size
+ self.min_size = self.offset
+ if self.ptable_format == "gpt":
+ self.min_size += GPT_OVERHEAD
+
+ self.min_size *= self.sector_size
+
+ def _create_partition(self, device, parttype, fstype, start, size):
+ """ Create a partition on an image described by the 'device' object. """
+
+ # Start is included to the size so we need to substract one from the end.
+ end = start + size - 1
+ logger.debug("Added '%s' partition, sectors %d-%d, size %d sectors",
+ parttype, start, end, size)
+
+ cmd = "parted -s %s unit s mkpart %s" % (device, parttype)
+ if fstype:
+ cmd += " %s" % fstype
+ cmd += " %d %d" % (start, end)
+
+ return exec_native_cmd(cmd, self.native_sysroot)
+
+ def create(self):
+ logger.debug("Creating sparse file %s", self.path)
+ with open(self.path, 'w') as sparse:
+ os.ftruncate(sparse.fileno(), self.min_size)
+
+ logger.debug("Initializing partition table for %s", self.path)
+ exec_native_cmd("parted -s %s mklabel %s" %
+ (self.path, self.ptable_format), self.native_sysroot)
+
+ logger.debug("Set disk identifier %x", self.identifier)
+ with open(self.path, 'r+b') as img:
+ img.seek(0x1B8)
+ img.write(self.identifier.to_bytes(4, 'little'))
+
+ logger.debug("Creating partitions")
+
+ for part in self.partitions:
+ if part.num == 0:
+ continue
+
+ if self.ptable_format == "msdos" and part.num == 5:
+ # Create an extended partition (note: extended
+ # partition is described in MBR and contains all
+ # logical partitions). The logical partitions save a
+ # sector for an EBR just before the start of a
+ # partition. The extended partition must start one
+ # sector before the start of the first logical
+ # partition. This way the first EBR is inside of the
+ # extended partition. Since the extended partitions
+ # starts a sector before the first logical partition,
+ # add a sector at the back, so that there is enough
+ # room for all logical partitions.
+ self._create_partition(self.path, "extended",
+ None, part.start - 1,
+ self.offset - part.start + 1)
+
+ if part.fstype == "swap":
+ parted_fs_type = "linux-swap"
+ elif part.fstype == "vfat":
+ parted_fs_type = "fat32"
+ elif part.fstype == "msdos":
+ parted_fs_type = "fat16"
+ if not part.system_id:
+ part.system_id = '0x6' # FAT16
+ else:
+ # Type for ext2/ext3/ext4/btrfs
+ parted_fs_type = "ext2"
+
+ # Boot ROM of OMAP boards require vfat boot partition to have an
+ # even number of sectors.
+ if part.mountpoint == "/boot" and part.fstype in ["vfat", "msdos"] \
+ and part.size_sec % 2:
+ logger.debug("Subtracting one sector from '%s' partition to "
+ "get even number of sectors for the partition",
+ part.mountpoint)
+ part.size_sec -= 1
+
+ self._create_partition(self.path, part.type,
+ parted_fs_type, part.start, part.size_sec)
+
+ if part.part_type:
+ logger.debug("partition %d: set type UID to %s",
+ part.num, part.part_type)
+ exec_native_cmd("sgdisk --typecode=%d:%s %s" % \
+ (part.num, part.part_type,
+ self.path), self.native_sysroot)
+
+ if part.uuid and self.ptable_format == "gpt":
+ logger.debug("partition %d: set UUID to %s",
+ part.num, part.uuid)
+ exec_native_cmd("sgdisk --partition-guid=%d:%s %s" % \
+ (part.num, part.uuid, self.path),
+ self.native_sysroot)
+
+ if part.label and self.ptable_format == "gpt":
+ logger.debug("partition %d: set name to %s",
+ part.num, part.label)
+ exec_native_cmd("parted -s %s name %d %s" % \
+ (self.path, part.num, part.label),
+ self.native_sysroot)
+
+ if part.active:
+ flag_name = "legacy_boot" if self.ptable_format == 'gpt' else "boot"
+ logger.debug("Set '%s' flag for partition '%s' on disk '%s'",
+ flag_name, part.num, self.path)
+ exec_native_cmd("parted -s %s set %d %s on" % \
+ (self.path, part.num, flag_name),
+ self.native_sysroot)
+ if part.system_id:
+ exec_native_cmd("sfdisk --part-type %s %s %s" % \
+ (self.path, part.num, part.system_id),
+ self.native_sysroot)
+
+ def cleanup(self):
+ # remove partition images
+ for image in set(self.partimages):
+ os.remove(image)
+
+ def assemble(self):
+ logger.debug("Installing partitions")
+
+ for part in self.partitions:
+ source = part.source_file
+ if source:
+ # install source_file contents into a partition
+ sparse_copy(source, self.path, part.start * self.sector_size)
+
+ logger.debug("Installed %s in partition %d, sectors %d-%d, "
+ "size %d sectors", source, part.num, part.start,
+ part.start + part.size_sec - 1, part.size_sec)
+
+ partimage = self.path + '.p%d' % part.num
+ os.rename(source, partimage)
+ self.partimages.append(partimage)
diff --git a/scripts/lib/wic/plugins/imager/direct_plugin.py b/scripts/lib/wic/plugins/imager/direct_plugin.py
deleted file mode 100644
index 8fe3930804..0000000000
--- a/scripts/lib/wic/plugins/imager/direct_plugin.py
+++ /dev/null
@@ -1,103 +0,0 @@
-# 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 implements the 'direct' imager plugin class for 'wic'
-#
-# AUTHORS
-# Tom Zanussi <tom.zanussi (at] linux.intel.com>
-#
-
-from wic.utils import errors
-from wic.conf import configmgr
-
-import wic.imager.direct as direct
-from wic.pluginbase import ImagerPlugin
-
-class DirectPlugin(ImagerPlugin):
- """
- Install a system into a file containing a partitioned disk image.
-
- An image file is formatted with a partition table, each partition
- created from a rootfs or other OpenEmbedded build artifact and dd'ed
- into the virtual disk. The disk image can subsequently be dd'ed onto
- media and used on actual hardware.
- """
-
- name = 'direct'
-
- @classmethod
- def __rootfs_dir_to_dict(cls, rootfs_dirs):
- """
- Gets a string that contain 'connection=dir' splitted by
- space and return a dict
- """
- krootfs_dir = {}
- for rootfs_dir in rootfs_dirs.split(' '):
- key, val = rootfs_dir.split('=')
- krootfs_dir[key] = val
-
- return krootfs_dir
-
- @classmethod
- def do_create(cls, opts, *args):
- """
- Create direct image, called from creator as 'direct' cmd
- """
- if len(args) != 8:
- raise errors.Usage("Extra arguments given")
-
- native_sysroot = args[0]
- kernel_dir = args[1]
- bootimg_dir = args[2]
- rootfs_dir = args[3]
-
- creatoropts = configmgr.create
- ksconf = args[4]
-
- image_output_dir = args[5]
- oe_builddir = args[6]
- compressor = args[7]
-
- krootfs_dir = cls.__rootfs_dir_to_dict(rootfs_dir)
-
- configmgr._ksconf = ksconf
-
- creator = direct.DirectImageCreator(oe_builddir,
- image_output_dir,
- krootfs_dir,
- bootimg_dir,
- kernel_dir,
- native_sysroot,
- compressor,
- creatoropts,
- opts.bmap)
-
- try:
- creator.create()
- creator.assemble()
- creator.finalize()
- creator.print_outimage_info()
-
- except errors.CreatorError:
- raise
- finally:
- creator.cleanup()
-
- return 0
diff --git a/scripts/lib/wic/plugins/source/bootimg-efi.py b/scripts/lib/wic/plugins/source/bootimg-efi.py
index 8bc362254d..9879cb9fce 100644
--- a/scripts/lib/wic/plugins/source/bootimg-efi.py
+++ b/scripts/lib/wic/plugins/source/bootimg-efi.py
@@ -24,25 +24,28 @@
# Tom Zanussi <tom.zanussi (at] linux.intel.com>
#
+import logging
import os
import shutil
-from wic import msger
+from wic import WicError
+from wic.engine import get_custom_config
from wic.pluginbase import SourcePlugin
-from wic.utils.misc import get_custom_config
-from wic.utils.oe.misc import exec_cmd, exec_native_cmd, get_bitbake_var, \
- BOOTDD_EXTRA_SPACE
+from wic.utils.misc import (exec_cmd, exec_native_cmd, get_bitbake_var,
+ BOOTDD_EXTRA_SPACE)
+
+logger = logging.getLogger('wic')
class BootimgEFIPlugin(SourcePlugin):
"""
Create EFI boot partition.
- This plugin supports GRUB 2 and gummiboot bootloaders.
+ This plugin supports GRUB 2 and systemd-boot bootloaders.
"""
name = 'bootimg-efi'
@classmethod
- def do_configure_grubefi(cls, hdddir, creator, cr_workdir):
+ def do_configure_grubefi(cls, creator, cr_workdir):
"""
Create loader-specific (grub-efi) config
"""
@@ -53,11 +56,11 @@ class BootimgEFIPlugin(SourcePlugin):
if custom_cfg:
# Use a custom configuration for grub
grubefi_conf = custom_cfg
- msger.debug("Using custom configuration file "
- "%s for grub.cfg" % configfile)
+ logger.debug("Using custom configuration file "
+ "%s for grub.cfg", configfile)
else:
- msger.error("configfile is specified but failed to "
- "get it from %s." % configfile)
+ raise WicError("configfile is specified but failed to "
+ "get it from %s." % configfile)
if not custom_cfg:
# Create grub configuration using parameters from wks file
@@ -75,14 +78,14 @@ class BootimgEFIPlugin(SourcePlugin):
% (kernel, creator.rootdev, bootloader.append)
grubefi_conf += "}\n"
- msger.debug("Writing grubefi config %s/hdd/boot/EFI/BOOT/grub.cfg" \
- % cr_workdir)
+ logger.debug("Writing grubefi config %s/hdd/boot/EFI/BOOT/grub.cfg",
+ cr_workdir)
cfg = open("%s/hdd/boot/EFI/BOOT/grub.cfg" % cr_workdir, "w")
cfg.write(grubefi_conf)
cfg.close()
@classmethod
- def do_configure_gummiboot(cls, hdddir, creator, cr_workdir):
+ def do_configure_systemdboot(cls, hdddir, creator, cr_workdir, source_params):
"""
Create loader-specific systemd-boot/gummiboot config
"""
@@ -98,8 +101,21 @@ class BootimgEFIPlugin(SourcePlugin):
loader_conf += "default boot\n"
loader_conf += "timeout %d\n" % bootloader.timeout
- msger.debug("Writing gummiboot config %s/hdd/boot/loader/loader.conf" \
- % cr_workdir)
+ initrd = source_params.get('initrd')
+
+ if initrd:
+ # obviously we need to have a common common deploy var
+ bootimg_dir = get_bitbake_var("DEPLOY_DIR_IMAGE")
+ if not bootimg_dir:
+ raise WicError("Couldn't find DEPLOY_DIR_IMAGE, exiting")
+
+ cp_cmd = "cp %s/%s %s" % (bootimg_dir, initrd, hdddir)
+ exec_cmd(cp_cmd, True)
+ else:
+ logger.debug("Ignoring missing initrd")
+
+ logger.debug("Writing systemd-boot config "
+ "%s/hdd/boot/loader/loader.conf", cr_workdir)
cfg = open("%s/hdd/boot/loader/loader.conf" % cr_workdir, "w")
cfg.write(loader_conf)
cfg.close()
@@ -109,16 +125,16 @@ class BootimgEFIPlugin(SourcePlugin):
if configfile:
custom_cfg = get_custom_config(configfile)
if custom_cfg:
- # Use a custom configuration for gummiboot
+ # Use a custom configuration for systemd-boot
boot_conf = custom_cfg
- msger.debug("Using custom configuration file "
- "%s for gummiboots's boot.conf" % configfile)
+ logger.debug("Using custom configuration file "
+ "%s for systemd-boots's boot.conf", configfile)
else:
- msger.error("configfile is specified but failed to "
- "get it from %s." % configfile)
+ raise WicError("configfile is specified but failed to "
+ "get it from %s.", configfile)
if not custom_cfg:
- # Create gummiboot configuration using parameters from wks file
+ # Create systemd-boot configuration using parameters from wks file
kernel = "/bzImage"
boot_conf = ""
@@ -127,8 +143,11 @@ class BootimgEFIPlugin(SourcePlugin):
boot_conf += "options LABEL=Boot root=%s %s\n" % \
(creator.rootdev, bootloader.append)
- msger.debug("Writing gummiboot config %s/hdd/boot/loader/entries/boot.conf" \
- % cr_workdir)
+ if initrd:
+ boot_conf += "initrd /%s\n" % initrd
+
+ logger.debug("Writing systemd-boot config "
+ "%s/hdd/boot/loader/entries/boot.conf", cr_workdir)
cfg = open("%s/hdd/boot/loader/entries/boot.conf" % cr_workdir, "w")
cfg.write(boot_conf)
cfg.close()
@@ -148,14 +167,13 @@ class BootimgEFIPlugin(SourcePlugin):
try:
if source_params['loader'] == 'grub-efi':
- cls.do_configure_grubefi(hdddir, creator, cr_workdir)
- elif source_params['loader'] == 'gummiboot' \
- or source_params['loader'] == 'systemd-boot':
- cls.do_configure_gummiboot(hdddir, creator, cr_workdir)
+ cls.do_configure_grubefi(creator, cr_workdir)
+ elif source_params['loader'] == 'systemd-boot':
+ cls.do_configure_systemdboot(hdddir, creator, cr_workdir, source_params)
else:
- msger.error("unrecognized bootimg-efi loader: %s" % source_params['loader'])
+ raise WicError("unrecognized bootimg-efi loader: %s" % source_params['loader'])
except KeyError:
- msger.error("bootimg-efi requires a loader, none specified")
+ raise WicError("bootimg-efi requires a loader, none specified")
@classmethod
@@ -167,12 +185,10 @@ class BootimgEFIPlugin(SourcePlugin):
'prepares' the partition to be incorporated into the image.
In this case, prepare content for an EFI (grub) boot partition.
"""
- if not bootimg_dir:
- bootimg_dir = get_bitbake_var("HDDDIR")
- if not bootimg_dir:
- msger.error("Couldn't find HDDDIR, exiting\n")
- # just so the result notes display it
- creator.set_bootimg_dir(bootimg_dir)
+ if not kernel_dir:
+ kernel_dir = get_bitbake_var("DEPLOY_DIR_IMAGE")
+ if not kernel_dir:
+ raise WicError("Couldn't find DEPLOY_DIR_IMAGE, exiting")
staging_kernel_dir = kernel_dir
@@ -182,24 +198,27 @@ class BootimgEFIPlugin(SourcePlugin):
(staging_kernel_dir, hdddir)
exec_cmd(install_cmd)
+
try:
if source_params['loader'] == 'grub-efi':
shutil.copyfile("%s/hdd/boot/EFI/BOOT/grub.cfg" % cr_workdir,
"%s/grub.cfg" % cr_workdir)
- cp_cmd = "cp %s/EFI/BOOT/* %s/EFI/BOOT" % (bootimg_dir, hdddir)
- exec_cmd(cp_cmd, True)
+ for mod in [x for x in os.listdir(kernel_dir) if x.startswith("grub-efi-")]:
+ cp_cmd = "cp %s/%s %s/EFI/BOOT/%s" % (kernel_dir, mod, hdddir, mod[9:])
+ exec_cmd(cp_cmd, True)
shutil.move("%s/grub.cfg" % cr_workdir,
"%s/hdd/boot/EFI/BOOT/grub.cfg" % cr_workdir)
- elif source_params['loader'] == 'gummiboot' \
- or source_params['loader'] == 'systemd-boot':
- cp_cmd = "cp %s/EFI/BOOT/* %s/EFI/BOOT" % (bootimg_dir, hdddir)
- exec_cmd(cp_cmd, True)
+ elif source_params['loader'] == 'systemd-boot':
+ for mod in [x for x in os.listdir(kernel_dir) if x.startswith("systemd-")]:
+ cp_cmd = "cp %s/%s %s/EFI/BOOT/%s" % (kernel_dir, mod, hdddir, mod[8:])
+ exec_cmd(cp_cmd, True)
else:
- msger.error("unrecognized bootimg-efi loader: %s" % source_params['loader'])
+ raise WicError("unrec