host/lib/update_payload/common.py - mirrors/cros/chromiumos/platform/dev-util - Git at Google

 # Copyright (c) 2013 The Chromium OS Authors. All rights reserved.
 # Use of this source code is governed by a BSD-style license that can be
 # found in the LICENSE file.

 """Utilities for update payload processing."""

 from __future__ import print_function

 from error import PayloadError
 import update_metadata_pb2


 #
 # Constants.
 #
 PSEUDO_EXTENT_MARKER = (1L << 64) - 1  # UINT64_MAX

 SIG_ASN1_HEADER = (
     '\x30\x31\x30\x0d\x06\x09\x60\x86'
     '\x48\x01\x65\x03\x04\x02\x01\x05'
     '\x00\x04\x20'
 )

 CHROMEOS_MAJOR_PAYLOAD_VERSION = 1
 BRILLO_MAJOR_PAYLOAD_VERSION = 2

 INPLACE_MINOR_PAYLOAD_VERSION = 1
 SOURCE_MINOR_PAYLOAD_VERSION = 2
 OPSRCHASH_MINOR_PAYLOAD_VERSION = 3

 #
 # Payload operation types.
 #
 class OpType(object):
   """Container for operation type constants."""
   _CLASS = update_metadata_pb2.InstallOperation
   # pylint: disable=E1101
   REPLACE = _CLASS.REPLACE
   REPLACE_BZ = _CLASS.REPLACE_BZ
   MOVE = _CLASS.MOVE
   BSDIFF = _CLASS.BSDIFF
   SOURCE_COPY = _CLASS.SOURCE_COPY
   SOURCE_BSDIFF = _CLASS.SOURCE_BSDIFF
   ZERO = _CLASS.ZERO
   DISCARD = _CLASS.DISCARD
   REPLACE_XZ = _CLASS.REPLACE_XZ
   ALL = (REPLACE, REPLACE_BZ, MOVE, BSDIFF, SOURCE_COPY, SOURCE_BSDIFF, ZERO,
          DISCARD, REPLACE_XZ)
   NAMES = {
       REPLACE: 'REPLACE',
       REPLACE_BZ: 'REPLACE_BZ',
       MOVE: 'MOVE',
       BSDIFF: 'BSDIFF',
       SOURCE_COPY: 'SOURCE_COPY',
       SOURCE_BSDIFF: 'SOURCE_BSDIFF',
       ZERO: 'ZERO',
       DISCARD: 'DISCARD',
       REPLACE_XZ: 'REPLACE_XZ'
   }

   def __init__(self):
     pass


 #
 # Checked and hashed reading of data.
 #
 def IntPackingFmtStr(size, is_unsigned):
   """Returns an integer format string for use by the struct module.

   Args:
     size: the integer size in bytes (2, 4 or 8)
     is_unsigned: whether it is signed or not

   Returns:
     A format string for packing/unpacking integer values; assumes network byte
     order (big-endian).

   Raises:
     PayloadError if something is wrong with the arguments.
   """
   # Determine the base conversion format.
   if size == 2:
     fmt = 'h'
   elif size == 4:
     fmt = 'i'
   elif size == 8:
     fmt = 'q'
   else:
     raise PayloadError('unsupport numeric field size (%s)' % size)

   # Signed or unsigned?
   if is_unsigned:
     fmt = fmt.upper()

   # Make it network byte order (big-endian).
   fmt = '!' + fmt

   return fmt


 def Read(file_obj, length, offset=None, hasher=None):
   """Reads binary data from a file.

   Args:
     file_obj: an open file object
     length: the length of the data to read
     offset: an offset to seek to prior to reading; this is an absolute offset
             from either the beginning (non-negative) or end (negative) of the
             file.  (optional)
     hasher: a hashing object to pass the read data through (optional)

   Returns:
     A string containing the read data.

   Raises:
     PayloadError if a read error occurred or not enough data was read.
   """
   if offset is not None:
     if offset >= 0:
       file_obj.seek(offset)
     else:
       file_obj.seek(offset, 2)

   try:
     data = file_obj.read(length)
   except IOError, e:
     raise PayloadError('error reading from file (%s): %s' % (file_obj.name, e))

   if len(data) != length:
     raise PayloadError(
         'reading from file (%s) too short (%d instead of %d bytes)' %
         (file_obj.name, len(data), length))

   if hasher:
     hasher.update(data)

   return data


 #
 # Formatting functions.
 #
 def FormatExtent(ex, block_size=0):
   end_block = ex.start_block + ex.num_blocks
   if block_size:
     return '%d->%d * %d' % (ex.start_block, end_block, block_size)
   else:
     return '%d->%d' % (ex.start_block, end_block)


 def FormatSha256(digest):
   """Returns a canonical string representation of a SHA256 digest."""
   return digest.encode('base64').strip()


 #
 # Useful iterators.
 #
 def _ObjNameIter(items, base_name, reverse=False, name_format_func=None):
   """A generic (item, name) tuple iterators.

   Args:
     items: the sequence of objects to iterate on
     base_name: the base name for all objects
     reverse: whether iteration should be in reverse order
     name_format_func: a function to apply to the name string

   Yields:
     An iterator whose i-th invocation returns (items[i], name), where name ==
     base_name + '[i]' (with a formatting function optionally applied to it).
   """
   idx, inc = (len(items), -1) if reverse else (1, 1)
   if reverse:
     items = reversed(items)
   for item in items:
     item_name = '%s[%d]' % (base_name, idx)
     if name_format_func:
       item_name = name_format_func(item, item_name)
     yield (item, item_name)
     idx += inc


 def _OperationNameFormatter(op, op_name):
   return '%s(%s)' % (op_name, OpType.NAMES.get(op.type, '?'))


 def OperationIter(operations, base_name, reverse=False):
   """An (item, name) iterator for update operations."""
   return _ObjNameIter(operations, base_name, reverse=reverse,
                       name_format_func=_OperationNameFormatter)


 def ExtentIter(extents, base_name, reverse=False):
   """An (item, name) iterator for operation extents."""
   return _ObjNameIter(extents, base_name, reverse=reverse)


 def SignatureIter(sigs, base_name, reverse=False):
   """An (item, name) iterator for signatures."""
   return _ObjNameIter(sigs, base_name, reverse=reverse)
	# Copyright (c) 2013 The Chromium OS Authors. All rights reserved.
	# Use of this source code is governed by a BSD-style license that can be
	# found in the LICENSE file.

	"""Utilities for update payload processing."""

	from __future__ import print_function

	from error import PayloadError
	import update_metadata_pb2


	#
	# Constants.
	#
	PSEUDO_EXTENT_MARKER = (1L << 64) - 1 # UINT64_MAX

	SIG_ASN1_HEADER = (
	'\x30\x31\x30\x0d\x06\x09\x60\x86'
	'\x48\x01\x65\x03\x04\x02\x01\x05'
	'\x00\x04\x20'
	)

	CHROMEOS_MAJOR_PAYLOAD_VERSION = 1
	BRILLO_MAJOR_PAYLOAD_VERSION = 2

	INPLACE_MINOR_PAYLOAD_VERSION = 1
	SOURCE_MINOR_PAYLOAD_VERSION = 2
	OPSRCHASH_MINOR_PAYLOAD_VERSION = 3

	#
	# Payload operation types.
	#
	class OpType(object):
	"""Container for operation type constants."""
	_CLASS = update_metadata_pb2.InstallOperation
	# pylint: disable=E1101
	REPLACE = _CLASS.REPLACE
	REPLACE_BZ = _CLASS.REPLACE_BZ
	MOVE = _CLASS.MOVE
	BSDIFF = _CLASS.BSDIFF
	SOURCE_COPY = _CLASS.SOURCE_COPY
	SOURCE_BSDIFF = _CLASS.SOURCE_BSDIFF
	ZERO = _CLASS.ZERO
	DISCARD = _CLASS.DISCARD
	REPLACE_XZ = _CLASS.REPLACE_XZ
	ALL = (REPLACE, REPLACE_BZ, MOVE, BSDIFF, SOURCE_COPY, SOURCE_BSDIFF, ZERO,
	DISCARD, REPLACE_XZ)
	NAMES = {
	REPLACE: 'REPLACE',
	REPLACE_BZ: 'REPLACE_BZ',
	MOVE: 'MOVE',
	BSDIFF: 'BSDIFF',
	SOURCE_COPY: 'SOURCE_COPY',
	SOURCE_BSDIFF: 'SOURCE_BSDIFF',
	ZERO: 'ZERO',
	DISCARD: 'DISCARD',
	REPLACE_XZ: 'REPLACE_XZ'
	}

	def __init__(self):
	pass


	#
	# Checked and hashed reading of data.
	#
	def IntPackingFmtStr(size, is_unsigned):
	"""Returns an integer format string for use by the struct module.

	Args:
	size: the integer size in bytes (2, 4 or 8)
	is_unsigned: whether it is signed or not

	Returns:
	A format string for packing/unpacking integer values; assumes network byte
	order (big-endian).

	Raises:
	PayloadError if something is wrong with the arguments.
	"""
	# Determine the base conversion format.
	if size == 2:
	fmt = 'h'
	elif size == 4:
	fmt = 'i'
	elif size == 8:
	fmt = 'q'
	else:
	raise PayloadError('unsupport numeric field size (%s)' % size)

	# Signed or unsigned?
	if is_unsigned:
	fmt = fmt.upper()

	# Make it network byte order (big-endian).
	fmt = '!' + fmt

	return fmt


	def Read(file_obj, length, offset=None, hasher=None):
	"""Reads binary data from a file.

	Args:
	file_obj: an open file object
	length: the length of the data to read
	offset: an offset to seek to prior to reading; this is an absolute offset
	from either the beginning (non-negative) or end (negative) of the
	file. (optional)
	hasher: a hashing object to pass the read data through (optional)

	Returns:
	A string containing the read data.

	Raises:
	PayloadError if a read error occurred or not enough data was read.
	"""
	if offset is not None:
	if offset >= 0:
	file_obj.seek(offset)
	else:
	file_obj.seek(offset, 2)

	try:
	data = file_obj.read(length)
	except IOError, e:
	raise PayloadError('error reading from file (%s): %s' % (file_obj.name, e))

	if len(data) != length:
	raise PayloadError(
	'reading from file (%s) too short (%d instead of %d bytes)' %
	(file_obj.name, len(data), length))

	if hasher:
	hasher.update(data)

	return data


	#
	# Formatting functions.
	#
	def FormatExtent(ex, block_size=0):
	end_block = ex.start_block + ex.num_blocks
	if block_size:
	return '%d->%d * %d' % (ex.start_block, end_block, block_size)
	else:
	return '%d->%d' % (ex.start_block, end_block)


	def FormatSha256(digest):
	"""Returns a canonical string representation of a SHA256 digest."""
	return digest.encode('base64').strip()


	#
	# Useful iterators.
	#
	def _ObjNameIter(items, base_name, reverse=False, name_format_func=None):
	"""A generic (item, name) tuple iterators.

	Args:
	items: the sequence of objects to iterate on
	base_name: the base name for all objects
	reverse: whether iteration should be in reverse order
	name_format_func: a function to apply to the name string

	Yields:
	An iterator whose i-th invocation returns (items[i], name), where name ==
	base_name + '[i]' (with a formatting function optionally applied to it).
	"""
	idx, inc = (len(items), -1) if reverse else (1, 1)
	if reverse:
	items = reversed(items)
	for item in items:
	item_name = '%s[%d]' % (base_name, idx)
	if name_format_func:
	item_name = name_format_func(item, item_name)
	yield (item, item_name)
	idx += inc


	def _OperationNameFormatter(op, op_name):
	return '%s(%s)' % (op_name, OpType.NAMES.get(op.type, '?'))


	def OperationIter(operations, base_name, reverse=False):
	"""An (item, name) iterator for update operations."""
	return _ObjNameIter(operations, base_name, reverse=reverse,
	name_format_func=_OperationNameFormatter)


	def ExtentIter(extents, base_name, reverse=False):
	"""An (item, name) iterator for operation extents."""
	return _ObjNameIter(extents, base_name, reverse=reverse)


	def SignatureIter(sigs, base_name, reverse=False):
	"""An (item, name) iterator for signatures."""
	return _ObjNameIter(sigs, base_name, reverse=reverse)