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# Copyright 2013 Google Inc. All Rights Reserved.
#
# 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.
"""Module to create raw disk images.
Stores a copy of directories/files in a file mounted as a partitioned blocked
device.
"""
import hashlib
import logging
import os
import re
import tempfile
from gcimagebundlelib import exclude_spec
from gcimagebundlelib import fs_copy
from gcimagebundlelib import utils
class RawDiskError(Exception):
"""Error occured during raw disk creation."""
class InvalidRawDiskError(Exception):
"""Error when verification fails before copying."""
class FsRawDisk(fs_copy.FsCopy):
"""Creates a raw disk copy of OS image and bundles it into gzipped tar."""
def __init__(self, fs_size, fs_type):
"""Constructor for FsRawDisk class.
Args:
fs_size: Size of the raw disk.
"""
super(FsRawDisk, self).__init__()
self._fs_size = fs_size
self._fs_type = fs_type
def _ResizeFile(self, file_path, file_size):
logging.debug('Resizing %s to %s', file_path, file_size)
with open(file_path, 'a') as disk_file:
disk_file.truncate(file_size)
def _InitializeDiskFileFromDevice(self, file_path):
"""Initializes disk file from the device specified in self._disk.
It preserves whatever may be there on the device prior to the start of the
first partition.
At the moment this method supports devices with a single partition only.
Args:
file_path: The path where the disk file should be created.
Returns:
A tuple with partition_start, uuid. partition_start is the location
where the first partition on the disk starts and uuid is the filesystem
UUID to use for the first partition.
Raises:
RawDiskError: If there are more than one partition on the disk device.
"""
# Find the disk size
disk_size = utils.GetDiskSize(self._disk)
logging.debug('Size of disk is %s', disk_size)
# Make the disk file big enough to hold the disk
self._ResizeFile(file_path, disk_size)
# Find the location where the first partition starts
partition_start = utils.GetPartitionStart(self._disk, 1)
logging.debug('First partition starts at %s', partition_start)
# Copy all the bytes as is from the start of the disk to the start of
# first partition
utils.CopyBytes(self._disk, file_path, partition_start)
# Verify there is only 1 partition on the disk
with utils.LoadDiskImage(file_path) as devices:
# For now we only support disks with a single partition.
if len(devices) == 0:
raise RawDiskError(
'Device %s should be a disk not a partition.' % self._disk)
elif len(devices) != 1:
raise RawDiskError(
'Device %s has more than 1 partition. Only devices '
'with a single partition are supported.' % self._disk)
# Remove the first partition from the file we are creating. We will
# recreate a partition that will fit inside _fs_size later.
utils.RemovePartition(file_path, 1)
# Resize the disk.raw file down to self._fs_size
# We do this after removing the first partition to ensure that an
# existing partition doesn't fall outside the boundary of the disk device.
self._ResizeFile(file_path, self._fs_size)
# Get UUID of the first partition on the disk
# TODO(user): This is very hacky and relies on the disk path being
# similar to /dev/sda etc which is bad. Need to fix it.
uuid = utils.GetUUID(self._disk + '1')
return partition_start, uuid
def Bundleup(self):
"""Creates a raw disk copy of OS image and bundles it into gzipped tar.
Returns:
A size of a generated raw disk and the SHA1 digest of the the tar archive.
Raises:
RawDiskError: If number of partitions in a created image doesn't match
expected count.
"""
# Create sparse file with specified size
disk_file_path = os.path.join(self._scratch_dir, 'disk.raw')
with open(disk_file_path, 'wb') as _:
pass
self._excludes.append(exclude_spec.ExcludeSpec(disk_file_path))
logging.info('Initializing disk file')
partition_start = None
uuid = None
if self._disk:
# If a disk device has been provided then preserve whatever is there on
# the disk before the first partition in case there is an MBR present.
partition_start, uuid = self._InitializeDiskFileFromDevice(disk_file_path)
else:
# User didn't specify a disk device. Initialize a device with a simple
# partition table.
self._ResizeFile(disk_file_path, self._fs_size)
# User didn't specify a disk to copy. Create a new partition table
utils.MakePartitionTable(disk_file_path)
# Pass 1MB as start to avoid 'Warning: The resulting partition is not
# properly aligned for best performance.' from parted.
partition_start = 1024 * 1024
# Create a new partition starting at partition_start of size
# self._fs_size - partition_start
utils.MakePartition(disk_file_path, 'primary', 'ext2', partition_start,
self._fs_size - partition_start)
with utils.LoadDiskImage(disk_file_path) as devices:
# For now we only support disks with a single partition.
if len(devices) != 1:
raise RawDiskError(devices)
# List contents of /dev/mapper to help with debugging. Contents will
# be listed in debug log only
utils.RunCommand(['ls', '/dev/mapper'])
logging.info('Making filesystem')
uuid = utils.MakeFileSystem(devices[0], self._fs_type, uuid)
with utils.LoadDiskImage(disk_file_path) as devices:
if uuid is None:
raise Exception('Could not get uuid from MakeFileSystem')
mount_point = tempfile.mkdtemp(dir=self._scratch_dir)
with utils.MountFileSystem(devices[0], mount_point, self._fs_type):
logging.info('Copying contents')
self._CopySourceFiles(mount_point)
self._CopyPlatformSpecialFiles(mount_point)
self._ProcessOverwriteList(mount_point)
self._CleanupNetwork(mount_point)
self._UpdateFstab(mount_point, uuid)
tar_entries = []
manifest_file_path = os.path.join(self._scratch_dir, 'manifest.json')
manifest_created = self._manifest.CreateIfNeeded(manifest_file_path)
if manifest_created:
tar_entries.append(manifest_file_path)
tar_entries.append(disk_file_path)
logging.info('Creating tar.gz archive')
utils.TarAndGzipFile(tar_entries,
self._output_tarfile)
for tar_entry in tar_entries:
os.remove(tar_entry)
# TODO(user): It would be better to compute tar.gz file hash during
# archiving.
h = hashlib.sha1()
with open(self._output_tarfile, 'rb') as tar_file:
for chunk in iter(lambda: tar_file.read(8192), ''):
h.update(chunk)
return (self._fs_size, h.hexdigest())
def _CopySourceFiles(self, mount_point):
"""Copies all source files/directories to a mounted raw disk.
There are several cases which must be handled separately:
1. src=dir1 and dest is empty. In this case we simply copy the content of
dir1 to mount_point.
2. src=dir1 and dest=dir2. In this case dir1 is copied to mount_point
under a new name dir2, so its content would be copied under
mount_point/dir2.
3. src=file1/dir1 and dest=file2/dir2 and is_recursive=False. file1/dir1
is copied to mount_point/file2 or mount_point/dir2.
Args:
mount_point: A path to a mounted raw disk.
"""
for (src, dest, is_recursive) in self._srcs:
# Generate a list of files/directories excluded from copying to raw disk.
# rsync expects them to be relative to src directory so we need to
# regenerate this list for every src separately.
with tempfile.NamedTemporaryFile(dir=self._scratch_dir) as rsync_file:
for spec in self._excludes:
rsync_file.write(spec.GetRsyncSpec(src))
# make sure that rsync utility sees all the content of rsync_file which
# otherwise can be buffered.
rsync_file.flush()
if is_recursive:
# if a directory ends with / rsync copies the content of a
# directory, otherwise it also copies the directory itself.
src = src.rstrip('/')
if not dest:
src += '/'
utils.Rsync(src, mount_point, rsync_file.name,
self._ignore_hard_links, recursive=True, xattrs=True)
if dest:
os.rename(os.path.join(mount_point, os.path.basename(src)),
os.path.join(mount_point, dest))
else:
utils.Rsync(src, os.path.join(mount_point, dest), rsync_file.name,
self._ignore_hard_links, recursive=False, xattrs=True)
def _CopyPlatformSpecialFiles(self, mount_point):
"""Copies platform special files to a mounted raw disk.
Args:
mount_point: A path to a mounted raw disk.
"""
if self._platform:
special_files = self._platform.GetPlatformSpecialFiles(self._scratch_dir)
for (src, dest) in special_files:
# Ensure we don't use extended attributes here, so that copying /selinux
# on Linux doesn't try and fail to preserve the SELinux context. That
# doesn't work and causes rsync to return a nonzero status code.
utils.Rsync(src, os.path.join(mount_point, dest), None,
self._ignore_hard_links, recursive=False, xattrs=False)
def _ProcessOverwriteList(self, mount_point):
"""Overwrites a set of files/directories requested by platform.
Args:
mount_point: A path to a mounted raw disk.
"""
for file_name in self._overwrite_list:
file_path = os.path.join(mount_point, file_name)
if os.path.exists(file_path):
if os.path.isdir(file_path):
# TODO(user): platform.Overwrite is expected to overwrite the
# directory in place from what I can tell. In case of a file it will
# create a new file which must be copied to mounted raw disk. So there
# some inconsistency which would need to be addresses if and when we
# encounter a platform which would want to overwrite a directory.
self._platform.Overwrite(file_path, file_name, self._scratch_dir)
logging.info('rawdisk: modifying directory %s', file_path)
else:
new_file = self._platform.Overwrite(file_path, file_name,
self._scratch_dir)
logging.info('rawdisk: modifying %s from %s', file_path, new_file)
utils.Rsync(new_file, file_path, None, self._ignore_hard_links,
recursive=False, xattrs=True)
def _CleanupNetwork(self, mount_point):
"""Remove any record of our current MAC address."""
net_rules_path = os.path.join(
mount_point,
'lib/udev/rules.d/75-persistent-net-generator.rules')
if os.path.exists(net_rules_path):
os.remove(net_rules_path)
def _UpdateFstab(self, mount_point, uuid):
"""Update /etc/fstab with the new root fs UUID."""
fstab_path = os.path.join(mount_point, 'etc/fstab')
if not os.path.exists(fstab_path):
logging.warning('etc/fstab does not exist. Not updating fstab uuid')
return
f = open(fstab_path, 'r')
lines = f.readlines()
f.close()
def UpdateUUID(line):
"""Replace the UUID on the entry for /."""
g = re.match(r'UUID=\S+\s+/\s+(.*)', line)
if not g:
return line
return 'UUID=%s / %s\n' % (uuid, g.group(1))
logging.debug('Original /etc/fstab contents:\n%s', lines)
updated_lines = map(UpdateUUID, lines)
if lines == updated_lines:
logging.debug('No changes required to /etc/fstab')
return
logging.debug('Updated /etc/fstab contents:\n%s', updated_lines)
f = open(fstab_path, 'w')
f.write(''.join(updated_lines))
f.close()
class RootFsRaw(FsRawDisk):
"""Block disk copy of the root file system.
Takes care of additional checks for a root file system.
"""
def __init__(
self, fs_size, fs_type, skip_disk_space_check, statvfs = os.statvfs):
# statvfs parameter is for unit test to mock out os.statvfs call.
super(RootFsRaw, self).__init__(fs_size, fs_type)
self._skip_disk_space_check = skip_disk_space_check
self._statvfs = statvfs
def _Verify(self):
super(RootFsRaw, self)._Verify()
# exactly one file system to bundle up
if len(self._srcs) != 1:
raise InvalidRawDiskError('Root filesystems must have exactly one src.')
# check that destination field is empty.
if self._srcs[0][1]:
raise InvalidRawDiskError('Root filesystems must be copied as /')
if (not self._skip_disk_space_check and
self._srcs[0][0] == '/'):
self._VerifyDiskSpace()
def _VerifyDiskSpace(self):
"""Verify that there is enough free disk space to generate the image file"""
# We use a very quick and simplistic check,
# DiskSpaceNeeded = disk.raw + image.tar.gz + LogFile
# disk.raw = PartitionTable + AllFilesCopied
# AllFilesCopied = RootDiskSize - RootDiskFreeSize - ExcludedFiles
# We ignore LogFile, PartitionTable, and ExcludedFiles.
# Some empirical experience showed that the compression ratio of the
# tar.gz file is about 1/3. To be conservative, we assume image.tar.gz is
# about 40% of disk.raw file.
# As a result, DiskSpaceNeeded=1.4*(RootDiskSize - RootDiskFreeSize)
# TODO(user): Make this check more accurate because ignoring ExcludedFiles
# can result in significant overestimation of disk
# space needed if the user has large disk space used in /tmp, for example.
root_fs = self._statvfs(self._srcs[0][0])
disk_space_needed = long(1.4 * root_fs.f_bsize * (root_fs.f_blocks -
root_fs.f_bfree))
logging.info(("Root disk on %s: f_bsize=%d f_blocks=%d f_bfree=%d. "
"Estimated space needed is %d (may be overestimated)."),
self._srcs[0][0],
root_fs.f_bsize,
root_fs.f_blocks,
root_fs.f_bfree,
disk_space_needed)
# self._scratch_dir is where we will put the disk.raw and *.tar.gz file.
scratch_fs = self._statvfs(self._scratch_dir)
free_space = scratch_fs.f_bsize * scratch_fs.f_bfree
logging.info("Free disk space for %s is %d bytes.",
self._scratch_dir,
free_space)
if disk_space_needed > free_space:
errorMessage = ("The operation may require up to %d bytes of disk space. "
"However, the free disk space for %s is %d bytes. Please consider "
"freeing more disk space. Note that the disk space required may "
"be overestimated because it does not exclude temporary files that "
"will not be copied. You may use --skip_disk_space_check to disable "
"this check.") % (disk_space_needed, self._scratch_dir, free_space)
raise InvalidRawDiskError(errorMessage)
if disk_space_needed > self._fs_size:
errorMessage = ("The root disk files to be copied may require up to %d "
"bytes. However, the limit on the image disk file is %d bytes. "
"Please consider deleting unused files from root disk, "
"or increasing the image disk file limit with --fssize option. "
"Note that the disk space required may "
"be overestimated because it does not exclude temporary files that "
"will not be copied. You may use --skip_disk_space_check to disable "
"this check.") % (disk_space_needed, self._fs_size)
raise InvalidRawDiskError(errorMessage)
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