lldb/examples/python/file_extract.py - llvm-project - Git at Google

 #!/usr/bin/env python

 import string
 import struct
 import sys


 class FileExtract:
     '''Decode binary data from a file'''

     def __init__(self, f, b='='):
         '''Initialize with an open binary file and optional byte order'''

         self.file = f
         self.byte_order = b
         self.offsets = list()

     def set_byte_order(self, b):
         '''Set the byte order, valid values are "big", "little", "swap", "native", "<", ">", "@", "="'''
         if b == 'big':
             self.byte_order = '>'
         elif b == 'little':
             self.byte_order = '<'
         elif b == 'swap':
             # swap what ever the current byte order is
             self.byte_order = swap_unpack_char()
         elif b == 'native':
             self.byte_order = '='
         elif b == '<' or b == '>' or b == '@' or b == '=':
             self.byte_order = b
         else:
             print("error: invalid byte order specified: '%s'" % b)

     def is_in_memory(self):
         return False

     def seek(self, offset, whence=0):
         if self.file:
             return self.file.seek(offset, whence)
         raise ValueError

     def tell(self):
         if self.file:
             return self.file.tell()
         raise ValueError

     def read_size(self, byte_size):
         s = self.file.read(byte_size)
         if len(s) != byte_size:
             return None
         return s

     def push_offset_and_seek(self, offset):
         '''Push the current file offset and seek to "offset"'''
         self.offsets.append(self.file.tell())
         self.file.seek(offset, 0)

     def pop_offset_and_seek(self):
         '''Pop a previously pushed file offset, or do nothing if there were no previously pushed offsets'''
         if len(self.offsets) > 0:
             self.file.seek(self.offsets.pop())

     def get_sint8(self, fail_value=0):
         '''Extract a single int8_t from the binary file at the current file position, returns a single integer'''
         s = self.read_size(1)
         if s:
             v, = struct.unpack(self.byte_order + 'b', s)
             return v
         else:
             return fail_value

     def get_uint8(self, fail_value=0):
         '''Extract a single uint8_t from the binary file at the current file position, returns a single integer'''
         s = self.read_size(1)
         if s:
             v, = struct.unpack(self.byte_order + 'B', s)
             return v
         else:
             return fail_value

     def get_sint16(self, fail_value=0):
         '''Extract a single int16_t from the binary file at the current file position, returns a single integer'''
         s = self.read_size(2)
         if s:
             v, = struct.unpack(self.byte_order + 'h', s)
             return v
         else:
             return fail_value

     def get_uint16(self, fail_value=0):
         '''Extract a single uint16_t from the binary file at the current file position, returns a single integer'''
         s = self.read_size(2)
         if s:
             v, = struct.unpack(self.byte_order + 'H', s)
             return v
         else:
             return fail_value

     def get_sint32(self, fail_value=0):
         '''Extract a single int32_t from the binary file at the current file position, returns a single integer'''
         s = self.read_size(4)
         if s:
             v, = struct.unpack(self.byte_order + 'i', s)
             return v
         else:
             return fail_value

     def get_uint32(self, fail_value=0):
         '''Extract a single uint32_t from the binary file at the current file position, returns a single integer'''
         s = self.read_size(4)
         if s:
             v, = struct.unpack(self.byte_order + 'I', s)
             return v
         else:
             return fail_value

     def get_sint64(self, fail_value=0):
         '''Extract a single int64_t from the binary file at the current file position, returns a single integer'''
         s = self.read_size(8)
         if s:
             v, = struct.unpack(self.byte_order + 'q', s)
             return v
         else:
             return fail_value

     def get_uint64(self, fail_value=0):
         '''Extract a single uint64_t from the binary file at the current file position, returns a single integer'''
         s = self.read_size(8)
         if s:
             v, = struct.unpack(self.byte_order + 'Q', s)
             return v
         else:
             return fail_value

     def get_fixed_length_c_string(
             self,
             n,
             fail_value='',
             isprint_only_with_space_padding=False):
         '''Extract a single fixed length C string from the binary file at the current file position, returns a single C string'''
         s = self.read_size(n)
         if s:
             cstr, = struct.unpack(self.byte_order + ("%i" % n) + 's', s)
             # Strip trialing NULLs
             cstr = string.strip(cstr, "\0")
             if isprint_only_with_space_padding:
                 for c in cstr:
                     if c in string.printable or ord(c) == 0:
                         continue
                     return fail_value
             return cstr
         else:
             return fail_value

     def get_c_string(self):
         '''Extract a single NULL terminated C string from the binary file at the current file position, returns a single C string'''
         cstr = ''
         byte = self.get_uint8()
         while byte != 0:
             cstr += "%c" % byte
             byte = self.get_uint8()
         return cstr

     def get_n_sint8(self, n, fail_value=0):
         '''Extract "n" int8_t integers from the binary file at the current file position, returns a list of integers'''
         s = self.read_size(n)
         if s:
             return struct.unpack(self.byte_order + ("%u" % n) + 'b', s)
         else:
             return (fail_value,) * n

     def get_n_uint8(self, n, fail_value=0):
         '''Extract "n" uint8_t integers from the binary file at the current file position, returns a list of integers'''
         s = self.read_size(n)
         if s:
             return struct.unpack(self.byte_order + ("%u" % n) + 'B', s)
         else:
             return (fail_value,) * n

     def get_n_sint16(self, n, fail_value=0):
         '''Extract "n" int16_t integers from the binary file at the current file position, returns a list of integers'''
         s = self.read_size(2 * n)
         if s:
             return struct.unpack(self.byte_order + ("%u" % n) + 'h', s)
         else:
             return (fail_value,) * n

     def get_n_uint16(self, n, fail_value=0):
         '''Extract "n" uint16_t integers from the binary file at the current file position, returns a list of integers'''
         s = self.read_size(2 * n)
         if s:
             return struct.unpack(self.byte_order + ("%u" % n) + 'H', s)
         else:
             return (fail_value,) * n

     def get_n_sint32(self, n, fail_value=0):
         '''Extract "n" int32_t integers from the binary file at the current file position, returns a list of integers'''
         s = self.read_size(4 * n)
         if s:
             return struct.unpack(self.byte_order + ("%u" % n) + 'i', s)
         else:
             return (fail_value,) * n

     def get_n_uint32(self, n, fail_value=0):
         '''Extract "n" uint32_t integers from the binary file at the current file position, returns a list of integers'''
         s = self.read_size(4 * n)
         if s:
             return struct.unpack(self.byte_order + ("%u" % n) + 'I', s)
         else:
             return (fail_value,) * n

     def get_n_sint64(self, n, fail_value=0):
         '''Extract "n" int64_t integers from the binary file at the current file position, returns a list of integers'''
         s = self.read_size(8 * n)
         if s:
             return struct.unpack(self.byte_order + ("%u" % n) + 'q', s)
         else:
             return (fail_value,) * n

     def get_n_uint64(self, n, fail_value=0):
         '''Extract "n" uint64_t integers from the binary file at the current file position, returns a list of integers'''
         s = self.read_size(8 * n)
         if s:
             return struct.unpack(self.byte_order + ("%u" % n) + 'Q', s)
         else:
             return (fail_value,) * n
	#!/usr/bin/env python

	import string
	import struct
	import sys


	class FileExtract:
	'''Decode binary data from a file'''

	def __init__(self, f, b='='):
	'''Initialize with an open binary file and optional byte order'''

	self.file = f
	self.byte_order = b
	self.offsets = list()

	def set_byte_order(self, b):
	'''Set the byte order, valid values are "big", "little", "swap", "native", "<", ">", "@", "="'''
	if b == 'big':
	self.byte_order = '>'
	elif b == 'little':
	self.byte_order = '<'
	elif b == 'swap':
	# swap what ever the current byte order is
	self.byte_order = swap_unpack_char()
	elif b == 'native':
	self.byte_order = '='
	elif b == '<' or b == '>' or b == '@' or b == '=':
	self.byte_order = b
	else:
	print("error: invalid byte order specified: '%s'" % b)

	def is_in_memory(self):
	return False

	def seek(self, offset, whence=0):
	if self.file:
	return self.file.seek(offset, whence)
	raise ValueError

	def tell(self):
	if self.file:
	return self.file.tell()
	raise ValueError

	def read_size(self, byte_size):
	s = self.file.read(byte_size)
	if len(s) != byte_size:
	return None
	return s

	def push_offset_and_seek(self, offset):
	'''Push the current file offset and seek to "offset"'''
	self.offsets.append(self.file.tell())
	self.file.seek(offset, 0)

	def pop_offset_and_seek(self):
	'''Pop a previously pushed file offset, or do nothing if there were no previously pushed offsets'''
	if len(self.offsets) > 0:
	self.file.seek(self.offsets.pop())

	def get_sint8(self, fail_value=0):
	'''Extract a single int8_t from the binary file at the current file position, returns a single integer'''
	s = self.read_size(1)
	if s:
	v, = struct.unpack(self.byte_order + 'b', s)
	return v
	else:
	return fail_value

	def get_uint8(self, fail_value=0):
	'''Extract a single uint8_t from the binary file at the current file position, returns a single integer'''
	s = self.read_size(1)
	if s:
	v, = struct.unpack(self.byte_order + 'B', s)
	return v
	else:
	return fail_value

	def get_sint16(self, fail_value=0):
	'''Extract a single int16_t from the binary file at the current file position, returns a single integer'''
	s = self.read_size(2)
	if s:
	v, = struct.unpack(self.byte_order + 'h', s)
	return v
	else:
	return fail_value

	def get_uint16(self, fail_value=0):
	'''Extract a single uint16_t from the binary file at the current file position, returns a single integer'''
	s = self.read_size(2)
	if s:
	v, = struct.unpack(self.byte_order + 'H', s)
	return v
	else:
	return fail_value

	def get_sint32(self, fail_value=0):
	'''Extract a single int32_t from the binary file at the current file position, returns a single integer'''
	s = self.read_size(4)
	if s:
	v, = struct.unpack(self.byte_order + 'i', s)
	return v
	else:
	return fail_value

	def get_uint32(self, fail_value=0):
	'''Extract a single uint32_t from the binary file at the current file position, returns a single integer'''
	s = self.read_size(4)
	if s:
	v, = struct.unpack(self.byte_order + 'I', s)
	return v
	else:
	return fail_value

	def get_sint64(self, fail_value=0):
	'''Extract a single int64_t from the binary file at the current file position, returns a single integer'''
	s = self.read_size(8)
	if s:
	v, = struct.unpack(self.byte_order + 'q', s)
	return v
	else:
	return fail_value

	def get_uint64(self, fail_value=0):
	'''Extract a single uint64_t from the binary file at the current file position, returns a single integer'''
	s = self.read_size(8)
	if s:
	v, = struct.unpack(self.byte_order + 'Q', s)
	return v
	else:
	return fail_value

	def get_fixed_length_c_string(
	self,
	n,
	fail_value='',
	isprint_only_with_space_padding=False):
	'''Extract a single fixed length C string from the binary file at the current file position, returns a single C string'''
	s = self.read_size(n)
	if s:
	cstr, = struct.unpack(self.byte_order + ("%i" % n) + 's', s)
	# Strip trialing NULLs
	cstr = string.strip(cstr, "\0")
	if isprint_only_with_space_padding:
	for c in cstr:
	if c in string.printable or ord(c) == 0:
	continue
	return fail_value
	return cstr
	else:
	return fail_value

	def get_c_string(self):
	'''Extract a single NULL terminated C string from the binary file at the current file position, returns a single C string'''
	cstr = ''
	byte = self.get_uint8()
	while byte != 0:
	cstr += "%c" % byte
	byte = self.get_uint8()
	return cstr

	def get_n_sint8(self, n, fail_value=0):
	'''Extract "n" int8_t integers from the binary file at the current file position, returns a list of integers'''
	s = self.read_size(n)
	if s:
	return struct.unpack(self.byte_order + ("%u" % n) + 'b', s)
	else:
	return (fail_value,) * n

	def get_n_uint8(self, n, fail_value=0):
	'''Extract "n" uint8_t integers from the binary file at the current file position, returns a list of integers'''
	s = self.read_size(n)
	if s:
	return struct.unpack(self.byte_order + ("%u" % n) + 'B', s)
	else:
	return (fail_value,) * n

	def get_n_sint16(self, n, fail_value=0):
	'''Extract "n" int16_t integers from the binary file at the current file position, returns a list of integers'''
	s = self.read_size(2 * n)
	if s:
	return struct.unpack(self.byte_order + ("%u" % n) + 'h', s)
	else:
	return (fail_value,) * n

	def get_n_uint16(self, n, fail_value=0):
	'''Extract "n" uint16_t integers from the binary file at the current file position, returns a list of integers'''
	s = self.read_size(2 * n)
	if s:
	return struct.unpack(self.byte_order + ("%u" % n) + 'H', s)
	else:
	return (fail_value,) * n

	def get_n_sint32(self, n, fail_value=0):
	'''Extract "n" int32_t integers from the binary file at the current file position, returns a list of integers'''
	s = self.read_size(4 * n)
	if s:
	return struct.unpack(self.byte_order + ("%u" % n) + 'i', s)
	else:
	return (fail_value,) * n

	def get_n_uint32(self, n, fail_value=0):
	'''Extract "n" uint32_t integers from the binary file at the current file position, returns a list of integers'''
	s = self.read_size(4 * n)
	if s:
	return struct.unpack(self.byte_order + ("%u" % n) + 'I', s)
	else:
	return (fail_value,) * n

	def get_n_sint64(self, n, fail_value=0):
	'''Extract "n" int64_t integers from the binary file at the current file position, returns a list of integers'''
	s = self.read_size(8 * n)
	if s:
	return struct.unpack(self.byte_order + ("%u" % n) + 'q', s)
	else:
	return (fail_value,) * n

	def get_n_uint64(self, n, fail_value=0):
	'''Extract "n" uint64_t integers from the binary file at the current file position, returns a list of integers'''
	s = self.read_size(8 * n)
	if s:
	return struct.unpack(self.byte_order + ("%u" % n) + 'Q', s)
	else:
	return (fail_value,) * n