pw_tokenizer/py/pw_tokenizer/elf_reader.py - pigweed/pigweed - Git at Google

 #!/usr/bin/env python3
 # Copyright 2020 The Pigweed Authors
 #
 # 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
 #
 #     https://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.
 """Reads data from ELF sections.

 This module provides tools for dumping the contents of an ELF section. It can
 also be used to read values at a particular address. A command line interface
 for both of these features is provided.

 This module supports any ELF-format file, including .o and .so files. This
 module also has basic support for archive (.a) files. All ELF files in an
 archive are read as one unit.
 """

 import argparse
 from pathlib import Path
 import re
 import struct
 import sys
 from typing import BinaryIO, Dict, Iterable, NamedTuple, Optional
 from typing import Pattern, Tuple, Union

 ARCHIVE_MAGIC = b'!<arch>\n'
 ELF_MAGIC = b'\x7fELF'


 def _check_next_bytes(fd: BinaryIO, expected: bytes, what: str) -> None:
     actual = fd.read(len(expected))
     if expected != actual:
         raise FileDecodeError(
             f'Invalid {what}: expected {expected!r}, found {actual!r} in file '
             f'{getattr(fd, "name", "(unknown")}')


 def files_in_archive(fd: BinaryIO) -> Iterable[int]:
     """Seeks to each file in an archive and yields its size."""

     _check_next_bytes(fd, ARCHIVE_MAGIC, 'archive magic number')

     while True:
         # In some archives, the first file ends with an additional \n. If that
         # is present, skip it.
         if fd.read(1) != b'\n':
             fd.seek(-1, 1)

         # Each file in an archive is prefixed with an ASCII header:
         #
         #   16 B - file identifier (text)
         #   12 B - file modification timestamp (decimal)
         #    6 B - owner ID (decimal)
         #    6 B - group ID (decimal)
         #    8 B - file mode (octal)
         #   10 B - file size in bytes (decimal)
         #    2 B - ending characters (`\n)
         #
         # Skip the unused portions of the file header, then read the size.
         fd.seek(16 + 12 + 6 + 6 + 8, 1)
         size_str = fd.read(10)
         if not size_str:
             return

         try:
             size = int(size_str, 10)
         except ValueError as exc:
             raise FileDecodeError(
                 'Archive file sizes must be decimal integers') from exc

         _check_next_bytes(fd, b'`\n', 'archive file header ending')
         offset = fd.tell()  # Store offset in case the caller reads the file.

         yield size

         fd.seek(offset + size)


 def _elf_files_in_archive(fd: BinaryIO):
     if _bytes_match(fd, ELF_MAGIC):
         yield  # The value isn't used, so just yield None.
     else:
         for _ in files_in_archive(fd):
             if _bytes_match(fd, ELF_MAGIC):
                 yield


 class Field(NamedTuple):
     """A field in an ELF file.

     Fields refer to a particular piece of data in an ELF file or section header.
     """

     name: str
     offset_32: int
     offset_64: int
     size_32: int
     size_64: int


 class _FileHeader(NamedTuple):
     """Fields in the ELF file header."""

     section_header_offset: Field = Field('e_shoff', 0x20, 0x28, 4, 8)
     section_count: Field = Field('e_shnum', 0x30, 0x3C, 2, 2)
     section_names_index: Field = Field('e_shstrndx', 0x32, 0x3E, 2, 2)


 FILE_HEADER = _FileHeader()


 class _SectionHeader(NamedTuple):
     """Fields in an ELF section header."""

     section_name_offset: Field = Field('sh_name', 0x00, 0x00, 4, 4)
     section_address: Field = Field('sh_addr', 0x0C, 0x10, 4, 8)
     section_offset: Field = Field('sh_offset', 0x10, 0x18, 4, 8)
     section_size: Field = Field('sh_size', 0x14, 0x20, 4, 8)

     # section_header_end records the size of the header.
     section_header_end: Field = Field('section end', 0x28, 0x40, 0, 0)


 SECTION_HEADER = _SectionHeader()


 def read_c_string(fd: BinaryIO) -> bytes:
     """Reads a null-terminated string from the provided file descriptor."""
     string = bytearray()
     while True:
         byte = fd.read(1)
         if not byte or byte == b'\0':
             return bytes(string)
         string += byte


 def _bytes_match(fd: BinaryIO, expected: bytes) -> bool:
     """Peeks at the next bytes to see if they match the expected."""
     try:
         offset = fd.tell()
         data = fd.read(len(expected))
         fd.seek(offset)
         return data == expected
     except IOError:
         return False


 def compatible_file(file: Union[BinaryIO, str, Path]) -> bool:
     """True if the file type is supported (ELF or archive)."""
     try:
         fd = open(file, 'rb') if isinstance(file, (str, Path)) else file

         offset = fd.tell()
         fd.seek(0)
         result = _bytes_match(fd, ELF_MAGIC) or _bytes_match(fd, ARCHIVE_MAGIC)
         fd.seek(offset)
     finally:
         if isinstance(file, (str, Path)):
             fd.close()

     return result


 class FileDecodeError(Exception):
     """Invalid data was read from an ELF file."""


 class FieldReader:
     """Reads ELF fields defined with a Field tuple from an ELF file."""
     def __init__(self, elf: BinaryIO):
         self._elf = elf
         self.file_offset = self._elf.tell()

         _check_next_bytes(self._elf, ELF_MAGIC, 'ELF file header')
         size_field = self._elf.read(1)  # e_ident[EI_CLASS] (address size)

         int_unpacker = self._determine_integer_format()

         if size_field == b'\x01':
             self.offset = lambda field: field.offset_32
             self._size = lambda field: field.size_32
             self._decode = lambda f, d: int_unpacker[f.size_32].unpack(d)[0]
         elif size_field == b'\x02':
             self.offset = lambda field: field.offset_64
             self._size = lambda field: field.size_64
             self._decode = lambda f, d: int_unpacker[f.size_64].unpack(d)[0]
         else:
             raise FileDecodeError('Unknown size {!r}'.format(size_field))

     def _determine_integer_format(self) -> Dict[int, struct.Struct]:
         """Returns a dict of structs used for converting bytes to integers."""
         endianness_byte = self._elf.read(1)  # e_ident[EI_DATA] (endianness)
         if endianness_byte == b'\x01':
             endianness = '<'
         elif endianness_byte == b'\x02':
             endianness = '>'
         else:
             raise FileDecodeError(
                 'Unknown endianness {!r}'.format(endianness_byte))

         return {
             1: struct.Struct(endianness + 'B'),
             2: struct.Struct(endianness + 'H'),
             4: struct.Struct(endianness + 'I'),
             8: struct.Struct(endianness + 'Q'),
         }

     def read(self, field: Field, base: int = 0) -> int:
         self._elf.seek(self.file_offset + base + self.offset(field))
         data = self._elf.read(self._size(field))
         return self._decode(field, data)

     def read_string(self, offset: int) -> str:
         self._elf.seek(self.file_offset + offset)
         return read_c_string(self._elf).decode()


 class Elf:
     """Represents an ELF file and the sections in it."""
     class Section(NamedTuple):
         """Info about a section in an ELF file."""
         name: str
         address: int
         offset: int
         size: int

         file_offset: int  # Starting place in the file; 0 unless in an archive.

         def range(self) -> range:
             return range(self.address, self.address + self.size)

         def __lt__(self, other) -> bool:
             return self.address < other.address

     def __init__(self, elf: BinaryIO):
         self._elf = elf
         self.sections: Tuple[Elf.Section, ...] = tuple(self._list_sections())

     def _list_sections(self) -> Iterable['Elf.Section']:
         """Reads the section headers to enumerate all ELF sections."""
         for _ in _elf_files_in_archive(self._elf):
             reader = FieldReader(self._elf)
             base = reader.read(FILE_HEADER.section_header_offset)
             section_header_size = reader.offset(
                 SECTION_HEADER.section_header_end)

             # Find the section with the section names in it.
             names_section_header_base = (
                 base + section_header_size *
                 reader.read(FILE_HEADER.section_names_index))
             names_table_base = reader.read(SECTION_HEADER.section_offset,
                                            names_section_header_base)

             base = reader.read(FILE_HEADER.section_header_offset)
             for _ in range(reader.read(FILE_HEADER.section_count)):
                 name_offset = reader.read(SECTION_HEADER.section_name_offset,
                                           base)

                 yield self.Section(
                     reader.read_string(names_table_base + name_offset),
                     reader.read(SECTION_HEADER.section_address, base),
                     reader.read(SECTION_HEADER.section_offset, base),
                     reader.read(SECTION_HEADER.section_size, base),
                     reader.file_offset)

                 base += section_header_size

     def section_by_address(self, address: int) -> Optional['Elf.Section']:
         """Returns the section that contains the provided address, if any."""
         # Iterate in reverse to give priority to sections with nonzero addresses
         for section in sorted(self.sections, reverse=True):
             if address in section.range():
                 return section

         return None

     def sections_with_name(self, name: str) -> Iterable['Elf.Section']:
         for section in self.sections:
             if section.name == name:
                 yield section

     def read_value(self,
                    address: int,
                    size: Optional[int] = None) -> Union[None, bytes, int]:
         """Reads specified bytes or null-terminated string at address."""
         section = self.section_by_address(address)
         if not section:
             return None

         assert section.address <= address
         self._elf.seek(section.file_offset + section.offset + address -
                        section.address)

         if size is None:
             return read_c_string(self._elf)

         return self._elf.read(size)

     def dump_sections(self, name: Union[str,
                                         Pattern[str]]) -> Dict[str, bytes]:
         """Dumps a binary string containing the sections matching the regex."""
         name_regex = re.compile(name)

         sections: Dict[str, bytes] = {}
         for section in self.sections:
             if name_regex.match(section.name):
                 self._elf.seek(section.file_offset + section.offset)
                 sections[section.name] = self._elf.read(section.size)

         return sections

     def dump_section_contents(
             self, name: Union[str, Pattern[str]]) -> Optional[bytes]:
         sections = self.dump_sections(name)
         return b''.join(sections.values()) if sections else None

     def summary(self) -> str:
         return '\n'.join(
             '[{0:2}] {1.address:08x} {1.offset:08x} {1.size:08x} {1.name}'.
             format(i, section) for i, section in enumerate(self.sections))

     def __str__(self) -> str:
         return 'Elf({}\n)'.format(''.join('\n  {},'.format(s)
                                           for s in self.sections))


 def _read_addresses(elf, size: int, output, address: Iterable[int]) -> None:
     for addr in address:
         value = elf.read_value(addr, size)

         if value is None:
             raise ValueError('Invalid address 0x{:08x}'.format(addr))

         output(value)


 def _dump_sections(elf: Elf, output, sections: Iterable[Pattern[str]]) -> None:
     if not sections:
         output(elf.summary().encode())
         return

     for section_pattern in sections:
         output(elf.dump_section_contents(section_pattern))


 def _parse_args() -> argparse.Namespace:
     """Parses and returns command line arguments."""
     parser = argparse.ArgumentParser(description=__doc__)

     def hex_int(arg):
         return int(arg, 16)

     parser.add_argument('-e',
                         '--elf',
                         type=argparse.FileType('rb'),
                         help='the ELF file to examine',
                         required=True)

     parser.add_argument(
         '-d',
         '--delimiter',
         default=ord('\n'),
         type=int,
         help=r'delimiter to write after each value; \n by default')

     parser.set_defaults(handler=lambda **_: parser.print_help())

     subparsers = parser.add_subparsers(
         help='select whether to work with addresses or whole sections')

     section_parser = subparsers.add_parser('section')
     section_parser.set_defaults(handler=_dump_sections)
     section_parser.add_argument(
         'sections',
         metavar='section_regex',
         nargs='*',
         type=re.compile,  # type: ignore
         help='section name regular expression')

     address_parser = subparsers.add_parser('address')
     address_parser.set_defaults(handler=_read_addresses)
     address_parser.add_argument(
         '--size',
         type=int,
         help='the size to read; reads until a null terminator by default')
     address_parser.add_argument('address',
                                 nargs='+',
                                 type=hex_int,
                                 help='hexadecimal addresses to read')

     return parser.parse_args()


 def _main(args):
     """Calls the appropriate handler for the command line options."""
     handler = args.handler
     del args.handler

     delim = args.delimiter
     del args.delimiter

     def output(value):
         if value is not None:
             sys.stdout.buffer.write(value)
             sys.stdout.buffer.write(bytearray([delim]))
             sys.stdout.flush()

     args.output = output
     args.elf = Elf(args.elf)

     handler(**vars(args))


 if __name__ == '__main__':
     _main(_parse_args())
	#!/usr/bin/env python3
	# Copyright 2020 The Pigweed Authors
	#
	# 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
	#
	# https://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.
	"""Reads data from ELF sections.

	This module provides tools for dumping the contents of an ELF section. It can
	also be used to read values at a particular address. A command line interface
	for both of these features is provided.

	This module supports any ELF-format file, including .o and .so files. This
	module also has basic support for archive (.a) files. All ELF files in an
	archive are read as one unit.
	"""

	import argparse
	from pathlib import Path
	import re
	import struct
	import sys
	from typing import BinaryIO, Dict, Iterable, NamedTuple, Optional
	from typing import Pattern, Tuple, Union

	ARCHIVE_MAGIC = b'!<arch>\n'
	ELF_MAGIC = b'\x7fELF'


	def _check_next_bytes(fd: BinaryIO, expected: bytes, what: str) -> None:
	actual = fd.read(len(expected))
	if expected != actual:
	raise FileDecodeError(
	f'Invalid {what}: expected {expected!r}, found {actual!r} in file '
	f'{getattr(fd, "name", "(unknown")}')


	def files_in_archive(fd: BinaryIO) -> Iterable[int]:
	"""Seeks to each file in an archive and yields its size."""

	_check_next_bytes(fd, ARCHIVE_MAGIC, 'archive magic number')

	while True:
	# In some archives, the first file ends with an additional \n. If that
	# is present, skip it.
	if fd.read(1) != b'\n':
	fd.seek(-1, 1)

	# Each file in an archive is prefixed with an ASCII header:
	#
	# 16 B - file identifier (text)
	# 12 B - file modification timestamp (decimal)
	# 6 B - owner ID (decimal)
	# 6 B - group ID (decimal)
	# 8 B - file mode (octal)
	# 10 B - file size in bytes (decimal)
	# 2 B - ending characters (`\n)
	#
	# Skip the unused portions of the file header, then read the size.
	fd.seek(16 + 12 + 6 + 6 + 8, 1)
	size_str = fd.read(10)
	if not size_str:
	return

	try:
	size = int(size_str, 10)
	except ValueError as exc:
	raise FileDecodeError(
	'Archive file sizes must be decimal integers') from exc

	_check_next_bytes(fd, b'`\n', 'archive file header ending')
	offset = fd.tell() # Store offset in case the caller reads the file.

	yield size

	fd.seek(offset + size)


	def _elf_files_in_archive(fd: BinaryIO):
	if _bytes_match(fd, ELF_MAGIC):
	yield # The value isn't used, so just yield None.
	else:
	for _ in files_in_archive(fd):
	if _bytes_match(fd, ELF_MAGIC):
	yield


	class Field(NamedTuple):
	"""A field in an ELF file.

	Fields refer to a particular piece of data in an ELF file or section header.
	"""

	name: str
	offset_32: int
	offset_64: int
	size_32: int
	size_64: int


	class _FileHeader(NamedTuple):
	"""Fields in the ELF file header."""

	section_header_offset: Field = Field('e_shoff', 0x20, 0x28, 4, 8)
	section_count: Field = Field('e_shnum', 0x30, 0x3C, 2, 2)
	section_names_index: Field = Field('e_shstrndx', 0x32, 0x3E, 2, 2)


	FILE_HEADER = _FileHeader()


	class _SectionHeader(NamedTuple):
	"""Fields in an ELF section header."""

	section_name_offset: Field = Field('sh_name', 0x00, 0x00, 4, 4)
	section_address: Field = Field('sh_addr', 0x0C, 0x10, 4, 8)
	section_offset: Field = Field('sh_offset', 0x10, 0x18, 4, 8)
	section_size: Field = Field('sh_size', 0x14, 0x20, 4, 8)

	# section_header_end records the size of the header.
	section_header_end: Field = Field('section end', 0x28, 0x40, 0, 0)


	SECTION_HEADER = _SectionHeader()


	def read_c_string(fd: BinaryIO) -> bytes:
	"""Reads a null-terminated string from the provided file descriptor."""
	string = bytearray()
	while True:
	byte = fd.read(1)
	if not byte or byte == b'\0':
	return bytes(string)
	string += byte


	def _bytes_match(fd: BinaryIO, expected: bytes) -> bool:
	"""Peeks at the next bytes to see if they match the expected."""
	try:
	offset = fd.tell()
	data = fd.read(len(expected))
	fd.seek(offset)
	return data == expected
	except IOError:
	return False


	def compatible_file(file: Union[BinaryIO, str, Path]) -> bool:
	"""True if the file type is supported (ELF or archive)."""
	try:
	fd = open(file, 'rb') if isinstance(file, (str, Path)) else file

	offset = fd.tell()
	fd.seek(0)
	result = _bytes_match(fd, ELF_MAGIC) or _bytes_match(fd, ARCHIVE_MAGIC)
	fd.seek(offset)
	finally:
	if isinstance(file, (str, Path)):
	fd.close()

	return result


	class FileDecodeError(Exception):
	"""Invalid data was read from an ELF file."""


	class FieldReader:
	"""Reads ELF fields defined with a Field tuple from an ELF file."""
	def __init__(self, elf: BinaryIO):
	self._elf = elf
	self.file_offset = self._elf.tell()

	_check_next_bytes(self._elf, ELF_MAGIC, 'ELF file header')
	size_field = self._elf.read(1) # e_ident[EI_CLASS] (address size)

	int_unpacker = self._determine_integer_format()

	if size_field == b'\x01':
	self.offset = lambda field: field.offset_32
	self._size = lambda field: field.size_32
	self._decode = lambda f, d: int_unpacker[f.size_32].unpack(d)[0]
	elif size_field == b'\x02':
	self.offset = lambda field: field.offset_64
	self._size = lambda field: field.size_64
	self._decode = lambda f, d: int_unpacker[f.size_64].unpack(d)[0]
	else:
	raise FileDecodeError('Unknown size {!r}'.format(size_field))

	def _determine_integer_format(self) -> Dict[int, struct.Struct]:
	"""Returns a dict of structs used for converting bytes to integers."""
	endianness_byte = self._elf.read(1) # e_ident[EI_DATA] (endianness)
	if endianness_byte == b'\x01':
	endianness = '<'
	elif endianness_byte == b'\x02':
	endianness = '>'
	else:
	raise FileDecodeError(
	'Unknown endianness {!r}'.format(endianness_byte))

	return {
	1: struct.Struct(endianness + 'B'),
	2: struct.Struct(endianness + 'H'),
	4: struct.Struct(endianness + 'I'),
	8: struct.Struct(endianness + 'Q'),
	}

	def read(self, field: Field, base: int = 0) -> int:
	self._elf.seek(self.file_offset + base + self.offset(field))
	data = self._elf.read(self._size(field))
	return self._decode(field, data)

	def read_string(self, offset: int) -> str:
	self._elf.seek(self.file_offset + offset)
	return read_c_string(self._elf).decode()


	class Elf:
	"""Represents an ELF file and the sections in it."""
	class Section(NamedTuple):
	"""Info about a section in an ELF file."""
	name: str
	address: int
	offset: int
	size: int

	file_offset: int # Starting place in the file; 0 unless in an archive.

	def range(self) -> range:
	return range(self.address, self.address + self.size)

	def __lt__(self, other) -> bool:
	return self.address < other.address

	def __init__(self, elf: BinaryIO):
	self._elf = elf
	self.sections: Tuple[Elf.Section, ...] = tuple(self._list_sections())

	def _list_sections(self) -> Iterable['Elf.Section']:
	"""Reads the section headers to enumerate all ELF sections."""
	for _ in _elf_files_in_archive(self._elf):
	reader = FieldReader(self._elf)
	base = reader.read(FILE_HEADER.section_header_offset)
	section_header_size = reader.offset(
	SECTION_HEADER.section_header_end)

	# Find the section with the section names in it.
	names_section_header_base = (
	base + section_header_size *
	reader.read(FILE_HEADER.section_names_index))
	names_table_base = reader.read(SECTION_HEADER.section_offset,
	names_section_header_base)

	base = reader.read(FILE_HEADER.section_header_offset)
	for _ in range(reader.read(FILE_HEADER.section_count)):
	name_offset = reader.read(SECTION_HEADER.section_name_offset,
	base)

	yield self.Section(
	reader.read_string(names_table_base + name_offset),
	reader.read(SECTION_HEADER.section_address, base),
	reader.read(SECTION_HEADER.section_offset, base),
	reader.read(SECTION_HEADER.section_size, base),
	reader.file_offset)

	base += section_header_size

	def section_by_address(self, address: int) -> Optional['Elf.Section']:
	"""Returns the section that contains the provided address, if any."""
	# Iterate in reverse to give priority to sections with nonzero addresses
	for section in sorted(self.sections, reverse=True):
	if address in section.range():
	return section

	return None

	def sections_with_name(self, name: str) -> Iterable['Elf.Section']:
	for section in self.sections:
	if section.name == name:
	yield section

	def read_value(self,
	address: int,
	size: Optional[int] = None) -> Union[None, bytes, int]:
	"""Reads specified bytes or null-terminated string at address."""
	section = self.section_by_address(address)
	if not section:
	return None

	assert section.address <= address
	self._elf.seek(section.file_offset + section.offset + address -
	section.address)

	if size is None:
	return read_c_string(self._elf)

	return self._elf.read(size)

	def dump_sections(self, name: Union[str,
	Pattern[str]]) -> Dict[str, bytes]:
	"""Dumps a binary string containing the sections matching the regex."""
	name_regex = re.compile(name)

	sections: Dict[str, bytes] = {}
	for section in self.sections:
	if name_regex.match(section.name):
	self._elf.seek(section.file_offset + section.offset)
	sections[section.name] = self._elf.read(section.size)

	return sections

	def dump_section_contents(
	self, name: Union[str, Pattern[str]]) -> Optional[bytes]:
	sections = self.dump_sections(name)
	return b''.join(sections.values()) if sections else None

	def summary(self) -> str:
	return '\n'.join(
	'[{0:2}] {1.address:08x} {1.offset:08x} {1.size:08x} {1.name}'.
	format(i, section) for i, section in enumerate(self.sections))

	def __str__(self) -> str:
	return 'Elf({}\n)'.format(''.join('\n {},'.format(s)
	for s in self.sections))


	def _read_addresses(elf, size: int, output, address: Iterable[int]) -> None:
	for addr in address:
	value = elf.read_value(addr, size)

	if value is None:
	raise ValueError('Invalid address 0x{:08x}'.format(addr))

	output(value)


	def _dump_sections(elf: Elf, output, sections: Iterable[Pattern[str]]) -> None:
	if not sections:
	output(elf.summary().encode())
	return

	for section_pattern in sections:
	output(elf.dump_section_contents(section_pattern))


	def _parse_args() -> argparse.Namespace:
	"""Parses and returns command line arguments."""
	parser = argparse.ArgumentParser(description=__doc__)

	def hex_int(arg):
	return int(arg, 16)

	parser.add_argument('-e',
	'--elf',
	type=argparse.FileType('rb'),
	help='the ELF file to examine',
	required=True)

	parser.add_argument(
	'-d',
	'--delimiter',
	default=ord('\n'),
	type=int,
	help=r'delimiter to write after each value; \n by default')

	parser.set_defaults(handler=lambda **_: parser.print_help())

	subparsers = parser.add_subparsers(
	help='select whether to work with addresses or whole sections')

	section_parser = subparsers.add_parser('section')
	section_parser.set_defaults(handler=_dump_sections)
	section_parser.add_argument(
	'sections',
	metavar='section_regex',
	nargs='*',
	type=re.compile, # type: ignore
	help='section name regular expression')

	address_parser = subparsers.add_parser('address')
	address_parser.set_defaults(handler=_read_addresses)
	address_parser.add_argument(
	'--size',
	type=int,
	help='the size to read; reads until a null terminator by default')
	address_parser.add_argument('address',
	nargs='+',
	type=hex_int,
	help='hexadecimal addresses to read')

	return parser.parse_args()


	def _main(args):
	"""Calls the appropriate handler for the command line options."""
	handler = args.handler
	del args.handler

	delim = args.delimiter
	del args.delimiter

	def output(value):
	if value is not None:
	sys.stdout.buffer.write(value)
	sys.stdout.buffer.write(bytearray([delim]))
	sys.stdout.flush()

	args.output = output
	args.elf = Elf(args.elf)

	handler(**vars(args))


	if __name__ == '__main__':
	_main(_parse_args())