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authorTom Zanussi <tom.zanussi@linux.intel.com>2014-08-04 12:36:49 -0500
committerRichard Purdie <richard.purdie@linuxfoundation.org>2014-08-11 10:52:16 +0100
commitd3a490d5421405bf9e002c6c65ffb831ea6b767e (patch)
tree1985f233a07870f0c39cc78713e7e432e2da002f
parentb6ae106b5d28180a5890e837c87f3e91e5917638 (diff)
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wic: Remove gpt_parser
wic doesn't currently use it, so remove. Signed-off-by: Tom Zanussi <tom.zanussi@linux.intel.com>
-rw-r--r--scripts/lib/mic/plugins/source/bootimg-efi.py4
-rw-r--r--scripts/lib/mic/plugins/source/bootimg-pcbios.py8
-rw-r--r--scripts/lib/mic/utils/gpt_parser.py331
-rw-r--r--scripts/lib/mic/utils/partitionedfs.py58
4 files changed, 11 insertions, 390 deletions
diff --git a/scripts/lib/mic/plugins/source/bootimg-efi.py b/scripts/lib/mic/plugins/source/bootimg-efi.py
index 95e1c059b9..d4a777198f 100644
--- a/scripts/lib/mic/plugins/source/bootimg-efi.py
+++ b/scripts/lib/mic/plugins/source/bootimg-efi.py
@@ -78,9 +78,7 @@ class BootimgEFIPlugin(SourcePlugin):
if cr._ptable_format == 'msdos':
rootstr = rootdev
else:
- if not root_part_uuid:
- raise MountError("Cannot find the root GPT partition UUID")
- rootstr = "PARTUUID=%s" % root_part_uuid
+ raise MountError("Unsupported partition table format found")
grubefi_conf += "linux %s root=%s rootwait %s\n" \
% (kernel, rootstr, options)
diff --git a/scripts/lib/mic/plugins/source/bootimg-pcbios.py b/scripts/lib/mic/plugins/source/bootimg-pcbios.py
index 9959645606..34343205ac 100644
--- a/scripts/lib/mic/plugins/source/bootimg-pcbios.py
+++ b/scripts/lib/mic/plugins/source/bootimg-pcbios.py
@@ -50,9 +50,7 @@ class BootimgPcbiosPlugin(SourcePlugin):
disk image. In this case, we install the MBR.
"""
mbrfile = "%s/syslinux/" % bootimg_dir
- if cr._ptable_format == 'gpt':
- mbrfile += "gptmbr.bin"
- else:
+ if cr._ptable_format == 'msdos':
mbrfile += "mbr.bin"
if not os.path.exists(mbrfile):
@@ -110,9 +108,7 @@ class BootimgPcbiosPlugin(SourcePlugin):
if cr._ptable_format == 'msdos':
rootstr = rootdev
else:
- if not root_part_uuid:
- raise MountError("Cannot find the root GPT partition UUID")
- rootstr = "PARTUUID=%s" % root_part_uuid
+ raise MountError("Unsupported partition table format found")
syslinux_conf += "APPEND label=boot root=%s %s\n" % (rootstr, options)
diff --git a/scripts/lib/mic/utils/gpt_parser.py b/scripts/lib/mic/utils/gpt_parser.py
deleted file mode 100644
index 5d43b70778..0000000000
--- a/scripts/lib/mic/utils/gpt_parser.py
+++ /dev/null
@@ -1,331 +0,0 @@
-#!/usr/bin/python -tt
-#
-# Copyright (c) 2013 Intel, Inc.
-#
-# This program is free software; you can redistribute it and/or modify it
-# under the terms of the GNU General Public License as published by the Free
-# Software Foundation; version 2 of the License
-#
-# 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., 59
-# Temple Place - Suite 330, Boston, MA 02111-1307, USA.
-
-""" This module implements a simple GPT partitions parser which can read the
-GPT header and the GPT partition table. """
-
-import struct
-import uuid
-import binascii
-from mic.utils.errors import MountError
-
-_GPT_HEADER_FORMAT = "<8s4sIIIQQQQ16sQIII"
-_GPT_HEADER_SIZE = struct.calcsize(_GPT_HEADER_FORMAT)
-_GPT_ENTRY_FORMAT = "<16s16sQQQ72s"
-_GPT_ENTRY_SIZE = struct.calcsize(_GPT_ENTRY_FORMAT)
-_SUPPORTED_GPT_REVISION = '\x00\x00\x01\x00'
-
-def _stringify_uuid(binary_uuid):
- """ A small helper function to transform a binary UUID into a string
- format. """
-
- uuid_str = str(uuid.UUID(bytes_le = binary_uuid))
-
- return uuid_str.upper()
-
-def _calc_header_crc(raw_hdr):
- """ Calculate GPT header CRC32 checksum. The 'raw_hdr' parameter has to
- be a list or a tuple containing all the elements of the GPT header in a
- "raw" form, meaning that it should simply contain "unpacked" disk data.
- """
-
- raw_hdr = list(raw_hdr)
- raw_hdr[3] = 0
- raw_hdr = struct.pack(_GPT_HEADER_FORMAT, *raw_hdr)
-
- return binascii.crc32(raw_hdr) & 0xFFFFFFFF
-
-def _validate_header(raw_hdr):
- """ Validate the GPT header. The 'raw_hdr' parameter has to be a list or a
- tuple containing all the elements of the GPT header in a "raw" form,
- meaning that it should simply contain "unpacked" disk data. """
-
- # Validate the signature
- if raw_hdr[0] != 'EFI PART':
- raise MountError("GPT partition table not found")
-
- # Validate the revision
- if raw_hdr[1] != _SUPPORTED_GPT_REVISION:
- raise MountError("Unsupported GPT revision '%s', supported revision " \
- "is '%s'" % \
- (binascii.hexlify(raw_hdr[1]),
- binascii.hexlify(_SUPPORTED_GPT_REVISION)))
-
- # Validate header size
- if raw_hdr[2] != _GPT_HEADER_SIZE:
- raise MountError("Bad GPT header size: %d bytes, expected %d" % \
- (raw_hdr[2], _GPT_HEADER_SIZE))
-
- crc = _calc_header_crc(raw_hdr)
- if raw_hdr[3] != crc:
- raise MountError("GPT header crc mismatch: %#x, should be %#x" % \
- (crc, raw_hdr[3]))
-
-class GptParser:
- """ GPT partition table parser. Allows reading the GPT header and the
- partition table, as well as modifying the partition table records. """
-
- def __init__(self, disk_path, sector_size = 512):
- """ The class constructor which accepts the following parameters:
- * disk_path - full path to the disk image or device node
- * sector_size - size of a disk sector in bytes """
-
- self.sector_size = sector_size
- self.disk_path = disk_path
-
- try:
- self._disk_obj = open(disk_path, 'r+b')
- except IOError as err:
- raise MountError("Cannot open file '%s' for reading GPT " \
- "partitions: %s" % (disk_path, err))
-
- def __del__(self):
- """ The class destructor. """
-
- self._disk_obj.close()
-
- def _read_disk(self, offset, size):
- """ A helper function which reads 'size' bytes from offset 'offset' of
- the disk and checks all the error conditions. """
-
- self._disk_obj.seek(offset)
- try:
- data = self._disk_obj.read(size)
- except IOError as err:
- raise MountError("cannot read from '%s': %s" % \
- (self.disk_path, err))
-
- if len(data) != size:
- raise MountError("cannot read %d bytes from offset '%d' of '%s', " \
- "read only %d bytes" % \
- (size, offset, self.disk_path, len(data)))
-
- return data
-
- def _write_disk(self, offset, buf):
- """ A helper function which writes buffer 'buf' to offset 'offset' of
- the disk. This function takes care of unaligned writes and checks all
- the error conditions. """
-
- # Since we may be dealing with a block device, we only can write in
- # 'self.sector_size' chunks. Find the aligned starting and ending
- # disk offsets to read.
- start = (offset / self.sector_size) * self.sector_size
- end = ((start + len(buf)) / self.sector_size + 1) * self.sector_size
-
- data = self._read_disk(start, end - start)
- off = offset - start
- data = data[:off] + buf + data[off + len(buf):]
-
- self._disk_obj.seek(start)
- try:
- self._disk_obj.write(data)
- except IOError as err:
- raise MountError("cannot write to '%s': %s" % (self.disk_path, err))
-
- def read_header(self, primary = True):
- """ Read and verify the GPT header and return a dictionary containing
- the following elements:
-
- 'signature' : header signature
- 'revision' : header revision
- 'hdr_size' : header size in bytes
- 'hdr_crc' : header CRC32
- 'hdr_lba' : LBA of this header
- 'hdr_offs' : byte disk offset of this header
- 'backup_lba' : backup header LBA
- 'backup_offs' : byte disk offset of backup header
- 'first_lba' : first usable LBA for partitions
- 'first_offs' : first usable byte disk offset for partitions
- 'last_lba' : last usable LBA for partitions
- 'last_offs' : last usable byte disk offset for partitions
- 'disk_uuid' : UUID of the disk
- 'ptable_lba' : starting LBA of array of partition entries
- 'ptable_offs' : disk byte offset of the start of the partition table
- 'ptable_size' : partition table size in bytes
- 'entries_cnt' : number of available partition table entries
- 'entry_size' : size of a single partition entry
- 'ptable_crc' : CRC32 of the partition table
- 'primary' : a boolean, if 'True', this is the primary GPT header,
- if 'False' - the secondary
- 'primary_str' : contains string "primary" if this is the primary GPT
- header, and "backup" otherwise
-
- This dictionary corresponds to the GPT header format. Please, see the
- UEFI standard for the description of these fields.
-
- If the 'primary' parameter is 'True', the primary GPT header is read,
- otherwise the backup GPT header is read instead. """
-
- # Read and validate the primary GPT header
- raw_hdr = self._read_disk(self.sector_size, _GPT_HEADER_SIZE)
- raw_hdr = struct.unpack(_GPT_HEADER_FORMAT, raw_hdr)
- _validate_header(raw_hdr)
- primary_str = "primary"
-
- if not primary:
- # Read and validate the backup GPT header
- raw_hdr = self._read_disk(raw_hdr[6] * self.sector_size, _GPT_HEADER_SIZE)
- raw_hdr = struct.unpack(_GPT_HEADER_FORMAT, raw_hdr)
- _validate_header(raw_hdr)
- primary_str = "backup"
-
- return { 'signature' : raw_hdr[0],
- 'revision' : raw_hdr[1],
- 'hdr_size' : raw_hdr[2],
- 'hdr_crc' : raw_hdr[3],
- 'hdr_lba' : raw_hdr[5],
- 'hdr_offs' : raw_hdr[5] * self.sector_size,
- 'backup_lba' : raw_hdr[6],
- 'backup_offs' : raw_hdr[6] * self.sector_size,
- 'first_lba' : raw_hdr[7],
- 'first_offs' : raw_hdr[7] * self.sector_size,
- 'last_lba' : raw_hdr[8],
- 'last_offs' : raw_hdr[8] * self.sector_size,
- 'disk_uuid' :_stringify_uuid(raw_hdr[9]),
- 'ptable_lba' : raw_hdr[10],
- 'ptable_offs' : raw_hdr[10] * self.sector_size,
- 'ptable_size' : raw_hdr[11] * raw_hdr[12],
- 'entries_cnt' : raw_hdr[11],
- 'entry_size' : raw_hdr[12],
- 'ptable_crc' : raw_hdr[13],
- 'primary' : primary,
- 'primary_str' : primary_str }
-
- def _read_raw_ptable(self, header):
- """ Read and validate primary or backup partition table. The 'header'
- argument is the GPT header. If it is the primary GPT header, then the
- primary partition table is read and validated, otherwise - the backup
- one. The 'header' argument is a dictionary which is returned by the
- 'read_header()' method. """
-
- raw_ptable = self._read_disk(header['ptable_offs'],
- header['ptable_size'])
-
- crc = binascii.crc32(raw_ptable) & 0xFFFFFFFF
- if crc != header['ptable_crc']:
- raise MountError("Partition table at LBA %d (%s) is corrupted" % \
- (header['ptable_lba'], header['primary_str']))
-
- return raw_ptable
-
- def get_partitions(self, primary = True):
- """ This is a generator which parses the GPT partition table and
- generates the following dictionary for each partition:
-
- 'index' : the index of the partition table endry
- 'offs' : byte disk offset of the partition table entry
- 'type_uuid' : partition type UUID
- 'part_uuid' : partition UUID
- 'first_lba' : the first LBA
- 'last_lba' : the last LBA
- 'flags' : attribute flags
- 'name' : partition name
- 'primary' : a boolean, if 'True', this is the primary partition
- table, if 'False' - the secondary
- 'primary_str' : contains string "primary" if this is the primary GPT
- header, and "backup" otherwise
-
- This dictionary corresponds to the GPT header format. Please, see the
- UEFI standard for the description of these fields.
-
- If the 'primary' parameter is 'True', partitions from the primary GPT
- partition table are generated, otherwise partitions from the backup GPT
- partition table are generated. """
-
- if primary:
- primary_str = "primary"
- else:
- primary_str = "backup"
-
- header = self.read_header(primary)
- raw_ptable = self._read_raw_ptable(header)
-
- for index in xrange(0, header['entries_cnt']):
- start = header['entry_size'] * index
- end = start + header['entry_size']
- raw_entry = struct.unpack(_GPT_ENTRY_FORMAT, raw_ptable[start:end])
-
- if raw_entry[2] == 0 or raw_entry[3] == 0:
- continue
-
- part_name = str(raw_entry[5].decode('UTF-16').split('\0', 1)[0])
-
- yield { 'index' : index,
- 'offs' : header['ptable_offs'] + start,
- 'type_uuid' : _stringify_uuid(raw_entry[0]),
- 'part_uuid' : _stringify_uuid(raw_entry[1]),
- 'first_lba' : raw_entry[2],
- 'last_lba' : raw_entry[3],
- 'flags' : raw_entry[4],
- 'name' : part_name,
- 'primary' : primary,
- 'primary_str' : primary_str }
-
- def _change_partition(self, header, entry):
- """ A helper function for 'change_partitions()' which changes a
- a paricular instance of the partition table (primary or backup). """
-
- if entry['index'] >= header['entries_cnt']:
- raise MountError("Partition table at LBA %d has only %d " \
- "records cannot change record number %d" % \
- (header['entries_cnt'], entry['index']))
- # Read raw GPT header
- raw_hdr = self._read_disk(header['hdr_offs'], _GPT_HEADER_SIZE)
- raw_hdr = list(struct.unpack(_GPT_HEADER_FORMAT, raw_hdr))
- _validate_header(raw_hdr)
-
- # Prepare the new partition table entry
- raw_entry = struct.pack(_GPT_ENTRY_FORMAT,
- uuid.UUID(entry['type_uuid']).bytes_le,
- uuid.UUID(entry['part_uuid']).bytes_le,
- entry['first_lba'],
- entry['last_lba'],
- entry['flags'],
- entry['name'].encode('UTF-16'))
-
- # Write the updated entry to the disk
- entry_offs = header['ptable_offs'] + \
- header['entry_size'] * entry['index']
- self._write_disk(entry_offs, raw_entry)
-
- # Calculate and update partition table CRC32
- raw_ptable = self._read_disk(header['ptable_offs'],
- header['ptable_size'])
- raw_hdr[13] = binascii.crc32(raw_ptable) & 0xFFFFFFFF
-
- # Calculate and update the GPT header CRC
- raw_hdr[3] = _calc_header_crc(raw_hdr)
-
- # Write the updated header to the disk
- raw_hdr = struct.pack(_GPT_HEADER_FORMAT, *raw_hdr)
- self._write_disk(header['hdr_offs'], raw_hdr)
-
- def change_partition(self, entry):
- """ Change a GPT partition. The 'entry' argument has the same format as
- 'get_partitions()' returns. This function simply changes the partition
- table record corresponding to 'entry' in both, the primary and the
- backup GPT partition tables. The parition table CRC is re-calculated
- and the GPT headers are modified accordingly. """
-
- # Change the primary partition table
- header = self.read_header(True)
- self._change_partition(header, entry)
-
- # Change the backup partition table
- header = self.read_header(False)
- self._change_partition(header, entry)
diff --git a/scripts/lib/mic/utils/partitionedfs.py b/scripts/lib/mic/utils/partitionedfs.py
index 83ce869860..0c4c9ecfa0 100644
--- a/scripts/lib/mic/utils/partitionedfs.py
+++ b/scripts/lib/mic/utils/partitionedfs.py
@@ -24,13 +24,10 @@ from mic import msger
from mic.utils import runner
from mic.utils.errors import MountError
from mic.utils.fs_related import *
-from mic.utils.gpt_parser import GptParser
from mic.utils.oe.misc import *
# 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
@@ -148,21 +145,20 @@ class PartitionedMount(Mount):
'num': None, # Partition number
'boot': boot, # Bootable flag
'align': align, # Partition alignment
- 'part_type' : part_type, # Partition type
- 'partuuid': None } # Partition UUID (GPT-only)
+ 'part_type' : part_type } # Partition type
self.__add_partition(part)
def layout_partitions(self, ptable_format = "msdos"):
""" 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 either "msdos" or "gpt". """
+ partition table format and may be "msdos". """
msger.debug("Assigning %s partitions to disks" % ptable_format)
- if ptable_format not in ('msdos', 'gpt'):
+ if ptable_format not in ('msdos'):
raise MountError("Unknown partition table format '%s', supported " \
- "formats are: 'msdos' and 'gpt'" % ptable_format)
+ "formats are: 'msdos'" % ptable_format)
if self._partitions_layed_out:
return
@@ -177,12 +173,12 @@ class PartitionedMount(Mount):
raise MountError("No disk %s for partition %s" \
% (p['disk_name'], p['mountpoint']))
- if p['part_type'] and ptable_format != 'gpt':
+ if p['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 MountError("setting custom partition type is only " \
- "imlemented for GPT partitions")
+ raise MountError("setting custom partition type is not " \
+ "implemented for msdos partitions")
# Get the disk where the partition is located
d = self.disks[p['disk_name']]
@@ -192,8 +188,6 @@ class PartitionedMount(Mount):
if d['numpart'] == 1:
if ptable_format == "msdos":
overhead = MBR_OVERHEAD
- else:
- overhead = GPT_OVERHEAD
# Skip one sector required for the partitioning scheme overhead
d['offset'] += overhead
@@ -250,9 +244,6 @@ class PartitionedMount(Mount):
# minumim disk sizes.
for disk_name, d in self.disks.items():
d['min_size'] = d['offset']
- if d['ptable_format'] == 'gpt':
- # Account for the backup partition table at the end of the disk
- d['min_size'] += GPT_OVERHEAD
d['min_size'] *= self.sector_size
@@ -339,10 +330,7 @@ class PartitionedMount(Mount):
parted_fs_type, p['start'], p['size'])
if p['boot']:
- if d['ptable_format'] == 'gpt':
- flag_name = "legacy_boot"
- else:
- flag_name = "boot"
+ flag_name = "boot"
msger.debug("Set '%s' flag for partition '%s' on disk '%s'" % \
(flag_name, p['num'], d['disk'].device))
self.__run_parted(["-s", d['disk'].device, "set",
@@ -358,36 +346,6 @@ class PartitionedMount(Mount):
self.__run_parted(["-s", d['disk'].device, "set",
"%d" % p['num'], "lba", "off"])
- # If the partition table format is "gpt", find out PARTUUIDs for all
- # the partitions. And if users specified custom parition type UUIDs,
- # set them.
- for disk_name, disk in self.disks.items():
- if disk['ptable_format'] != 'gpt':
- continue
-
- pnum = 0
- gpt_parser = GptParser(d['disk'].device, SECTOR_SIZE)
- # Iterate over all GPT partitions on this disk
- for entry in gpt_parser.get_partitions():
- pnum += 1
- # Find the matching partition in the 'self.partitions' list
- for n in d['partitions']:
- p = self.partitions[n]
- if p['num'] == pnum:
- # Found, fetch PARTUUID (partition's unique ID)
- p['partuuid'] = entry['part_uuid']
- msger.debug("PARTUUID for partition %d on disk '%s' " \
- "(mount point '%s') is '%s'" % (pnum, \
- disk_name, p['mountpoint'], p['partuuid']))
- if p['part_type']:
- entry['type_uuid'] = p['part_type']
- msger.debug("Change type of partition %d on disk " \
- "'%s' (mount point '%s') to '%s'" % \
- (pnum, disk_name, p['mountpoint'],
- p['part_type']))
- gpt_parser.change_partition(entry)
-
- del gpt_parser
def __map_partitions(self):
"""Load it if dm_snapshot isn't loaded. """