diskimage-builder/diskimage_builder/block_device/level1/partition.py

92 lines
3 KiB
Python
Raw Normal View History

# Licensed under the Apache License, Version 2.0 (the "License"); you may
# not use this file except in compliance with the License. You may obtain
# a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
# WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
# License for the specific language governing permissions and limitations
# under the License.
import logging
from diskimage_builder.block_device.exception import \
BlockDeviceSetupException
from diskimage_builder.block_device.plugin import NodeBase
logger = logging.getLogger(__name__)
class PartitionNode(NodeBase):
flag_boot = 1
flag_primary = 2
def __init__(self, config, state, parent, prev_partition):
super(PartitionNode, self).__init__(config['name'], state)
self.base = config['base']
self.partitioning = parent
self.prev_partition = prev_partition
# filter out some MBR only options for clarity
if self.partitioning.label == 'gpt':
if 'flags' in config and 'primary' in config['flags']:
raise BlockDeviceSetupException(
"Primary flag not supported for GPT partitions")
self.flags = set()
if 'flags' in config:
for f in config['flags']:
if f == 'boot':
self.flags.add(self.flag_boot)
elif f == 'primary':
self.flags.add(self.flag_primary)
else:
raise BlockDeviceSetupException("Unknown flag: %s" % f)
if 'size' not in config:
raise BlockDeviceSetupException("No size in partition" % self.name)
self.size = config['size']
if self.partitioning.label == 'gpt':
self.ptype = str(config['type']) if 'type' in config else '8300'
elif self.partitioning.label == 'mbr':
self.ptype = int(config['type'], 16) if 'type' in config else 0x83
def get_flags(self):
return self.flags
def get_size(self):
return self.size
def get_type(self):
return self.ptype
def get_edges(self):
edge_from = [self.base]
edge_to = []
if self.prev_partition is not None:
edge_from.append(self.prev_partition.name)
return (edge_from, edge_to)
Pass all blockdevices to bootloader Currently we only export "image-block-device" which is the loopback device (/dev/loopX) for the underlying image. This is the device we install grub to (from inside the chroot ...) This is ok for x86, but is insufficient for some platforms like PPC which have a separate boot partition. They do not want to install to the loop device, but do things like dd special ELF files into special boot partitions. The first problem seems to be that in level1/partitioning.py we have a whole bunch of different paths that either call partprobe on the loop device, or kpartx. We have _all_part_devices_exist() that gates the kpartx for unknown reasons. We have detach_loopback() that does not seem to remove losetup created devices. I don't think this does cleanup if it uses kpartx correctly. It is extremley unclear what's going to be mapped where. This moves to us *only* using kpartx to map the partitions of the loop device. We will *not* call partprobe and create the /dev/loopXpN devices and will only have the devicemapper nodes kpartx creates. This seems to be best. Cleanup happens inside partitioning.py. practice. Deeper thinking about this, and more cleanup of the variables will be welcome. This adds "image-block-devices" (note the extra "s") which exports all the block devices with name and path. This is in a string format that can be eval'd to an array (you can't export arrays). This is then used in a follow-on (I0918e8df8797d6dbabf7af618989ab7f79ee9580) to pick the right partition on PPC. Change-Id: If8e33106b4104da2d56d7941ce96ffcb014907bc
2017-06-06 02:09:24 +00:00
# These all call back to the parent "partitioning" object to do
# the real work. Every node calls it, but only one will succeed;
# see the gating we do in the parent function.
#
# XXX: A better model here would be for the parent object to a
# real node in the config graph, so it's create() gets called.
# These can then just be stubs.
def create(self):
self.partitioning.create()
Pass all blockdevices to bootloader Currently we only export "image-block-device" which is the loopback device (/dev/loopX) for the underlying image. This is the device we install grub to (from inside the chroot ...) This is ok for x86, but is insufficient for some platforms like PPC which have a separate boot partition. They do not want to install to the loop device, but do things like dd special ELF files into special boot partitions. The first problem seems to be that in level1/partitioning.py we have a whole bunch of different paths that either call partprobe on the loop device, or kpartx. We have _all_part_devices_exist() that gates the kpartx for unknown reasons. We have detach_loopback() that does not seem to remove losetup created devices. I don't think this does cleanup if it uses kpartx correctly. It is extremley unclear what's going to be mapped where. This moves to us *only* using kpartx to map the partitions of the loop device. We will *not* call partprobe and create the /dev/loopXpN devices and will only have the devicemapper nodes kpartx creates. This seems to be best. Cleanup happens inside partitioning.py. practice. Deeper thinking about this, and more cleanup of the variables will be welcome. This adds "image-block-devices" (note the extra "s") which exports all the block devices with name and path. This is in a string format that can be eval'd to an array (you can't export arrays). This is then used in a follow-on (I0918e8df8797d6dbabf7af618989ab7f79ee9580) to pick the right partition on PPC. Change-Id: If8e33106b4104da2d56d7941ce96ffcb014907bc
2017-06-06 02:09:24 +00:00
def umount(self):
self.partitioning.umount()
Pass all blockdevices to bootloader Currently we only export "image-block-device" which is the loopback device (/dev/loopX) for the underlying image. This is the device we install grub to (from inside the chroot ...) This is ok for x86, but is insufficient for some platforms like PPC which have a separate boot partition. They do not want to install to the loop device, but do things like dd special ELF files into special boot partitions. The first problem seems to be that in level1/partitioning.py we have a whole bunch of different paths that either call partprobe on the loop device, or kpartx. We have _all_part_devices_exist() that gates the kpartx for unknown reasons. We have detach_loopback() that does not seem to remove losetup created devices. I don't think this does cleanup if it uses kpartx correctly. It is extremley unclear what's going to be mapped where. This moves to us *only* using kpartx to map the partitions of the loop device. We will *not* call partprobe and create the /dev/loopXpN devices and will only have the devicemapper nodes kpartx creates. This seems to be best. Cleanup happens inside partitioning.py. practice. Deeper thinking about this, and more cleanup of the variables will be welcome. This adds "image-block-devices" (note the extra "s") which exports all the block devices with name and path. This is in a string format that can be eval'd to an array (you can't export arrays). This is then used in a follow-on (I0918e8df8797d6dbabf7af618989ab7f79ee9580) to pick the right partition on PPC. Change-Id: If8e33106b4104da2d56d7941ce96ffcb014907bc
2017-06-06 02:09:24 +00:00
def cleanup(self):
self.partitioning.cleanup()