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trezor-firmware/python/src/trezorlib/firmware.py

511 lines
15 KiB
Python

# This file is part of the Trezor project.
#
# Copyright (C) 2012-2019 SatoshiLabs and contributors
#
# This library is free software: you can redistribute it and/or modify
# it under the terms of the GNU Lesser General Public License version 3
# as published by the Free Software Foundation.
#
# This library is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU Lesser General Public License for more details.
#
# You should have received a copy of the License along with this library.
# If not, see <https://www.gnu.org/licenses/lgpl-3.0.html>.
import hashlib
from enum import Enum
from typing import Callable, List, Tuple
import construct as c
import ecdsa
from . import cosi, messages, tools
try:
from hashlib import blake2s
except ImportError:
from pyblake2 import blake2s
V1_SIGNATURE_SLOTS = 3
V1_BOOTLOADER_KEYS = [
bytes.fromhex(key)
for key in (
"04d571b7f148c5e4232c3814f777d8faeaf1a84216c78d569b71041ffc768a5b2d810fc3bb134dd026b57e65005275aedef43e155f48fc11a32ec790a93312bd58",
"0463279c0c0866e50c05c799d32bd6bab0188b6de06536d1109d2ed9ce76cb335c490e55aee10cc901215132e853097d5432eda06b792073bd7740c94ce4516cb1",
"0443aedbb6f7e71c563f8ed2ef64ec9981482519e7ef4f4aa98b27854e8c49126d4956d300ab45fdc34cd26bc8710de0a31dbdf6de7435fd0b492be70ac75fde58",
"04877c39fd7c62237e038235e9c075dab261630f78eeb8edb92487159fffedfdf6046c6f8b881fa407c4a4ce6c28de0b19c1f4e29f1fcbc5a58ffd1432a3e0938a",
"047384c51ae81add0a523adbb186c91b906ffb64c2c765802bf26dbd13bdf12c319e80c2213a136c8ee03d7874fd22b70d68e7dee469decfbbb510ee9a460cda45",
)
]
V2_BOARDLOADER_KEYS = [
bytes.fromhex(key)
for key in (
"0eb9856be9ba7e972c7f34eac1ed9b6fd0efd172ec00faf0c589759da4ddfba0",
"ac8ab40b32c98655798fd5da5e192be27a22306ea05c6d277cdff4a3f4125cd8",
"ce0fcd12543ef5936cf2804982136707863d17295faced72af171d6e6513ff06",
)
]
V2_BOARDLOADER_DEV_KEYS = [
bytes.fromhex(key)
for key in (
"db995fe25169d141cab9bbba92baa01f9f2e1ece7df4cb2ac05190f37fcc1f9d",
"2152f8d19b791d24453242e15f2eab6cb7cffa7b6a5ed30097960e069881db12",
"22fc297792f0b6ffc0bfcfdb7edb0c0aa14e025a365ec0e342e86e3829cb74b6",
)
]
V2_BOOTLOADER_KEYS = [
bytes.fromhex(key)
for key in (
"c2c87a49c5a3460977fbb2ec9dfe60f06bd694db8244bd4981fe3b7a26307f3f",
"80d036b08739b846f4cb77593078deb25dc9487aedcf52e30b4fb7cd7024178a",
"b8307a71f552c60a4cbb317ff48b82cdbf6b6bb5f04c920fec7badf017883751",
)
]
V2_SIGS_REQUIRED = 2
ONEV2_CHUNK_SIZE = 1024 * 64
V2_CHUNK_SIZE = 1024 * 128
def _transform_vendor_trust(data: bytes) -> bytes:
"""Byte-swap and bit-invert the VendorTrust field.
Vendor trust is interpreted as a bitmask in a 16-bit little-endian integer,
with the added twist that 0 means set and 1 means unset.
We feed it to a `BitStruct` that expects a big-endian sequence where bits have
the traditional meaning. We must therefore do a bitwise negation of each byte,
and return them in reverse order. This is the same transformation both ways,
fortunately, so we don't need two separate functions.
"""
return bytes(~b & 0xFF for b in data)[::-1]
class FirmwareIntegrityError(Exception):
pass
class InvalidSignatureError(FirmwareIntegrityError):
pass
class Unsigned(FirmwareIntegrityError):
pass
class ToifMode(Enum):
full_color = b"f"
grayscale = b"g"
class HeaderType(Enum):
FIRMWARE = b"TRZF"
BOOTLOADER = b"TRZB"
class EnumAdapter(c.Adapter):
def __init__(self, subcon, enum):
self.enum = enum
super().__init__(subcon)
def _encode(self, obj, ctx, path):
return obj.value
def _decode(self, obj, ctx, path):
try:
return self.enum(obj)
except ValueError:
return obj
# fmt: off
Toif = c.Struct(
"magic" / c.Const(b"TOI"),
"format" / EnumAdapter(c.Bytes(1), ToifMode),
"width" / c.Int16ul,
"height" / c.Int16ul,
"data" / c.Prefixed(c.Int32ul, c.GreedyBytes),
)
VendorTrust = c.Transformed(c.BitStruct(
"_reserved" / c.Default(c.BitsInteger(9), 0),
"show_vendor_string" / c.Flag,
"require_user_click" / c.Flag,
"red_background" / c.Flag,
"delay" / c.BitsInteger(4),
), _transform_vendor_trust, 2, _transform_vendor_trust, 2)
VendorHeader = c.Struct(
"_start_offset" / c.Tell,
"magic" / c.Const(b"TRZV"),
"header_len" / c.Int32ul,
"expiry" / c.Int32ul,
"version" / c.Struct(
"major" / c.Int8ul,
"minor" / c.Int8ul,
),
"sig_m" / c.Int8ul,
"sig_n" / c.Rebuild(c.Int8ul, c.len_(c.this.pubkeys)),
"trust" / VendorTrust,
"_reserved" / c.Padding(14),
"pubkeys" / c.Bytes(32)[c.this.sig_n],
"text" / c.Aligned(4, c.PascalString(c.Int8ul, "utf-8")),
"image" / Toif,
"_end_offset" / c.Tell,
"_min_header_len" / c.Check(c.this.header_len > (c.this._end_offset - c.this._start_offset) + 65),
"_header_len_aligned" / c.Check(c.this.header_len % 512 == 0),
c.Padding(c.this.header_len - c.this._end_offset + c.this._start_offset - 65),
"sigmask" / c.Byte,
"signature" / c.Bytes(64),
)
VersionLong = c.Struct(
"major" / c.Int8ul,
"minor" / c.Int8ul,
"patch" / c.Int8ul,
"build" / c.Int8ul,
)
FirmwareHeader = c.Struct(
"_start_offset" / c.Tell,
"magic" / EnumAdapter(c.Bytes(4), HeaderType),
"header_len" / c.Int32ul,
"expiry" / c.Int32ul,
"code_length" / c.Rebuild(
c.Int32ul,
lambda this:
len(this._.code) if "code" in this._
else (this.code_length or 0)
),
"version" / VersionLong,
"fix_version" / VersionLong,
"_reserved" / c.Padding(8),
"hashes" / c.Bytes(32)[16],
"v1_signatures" / c.Bytes(64)[V1_SIGNATURE_SLOTS],
"v1_key_indexes" / c.Int8ul[V1_SIGNATURE_SLOTS], # pylint: disable=E1136
"_reserved" / c.Padding(220),
"sigmask" / c.Byte,
"signature" / c.Bytes(64),
"_end_offset" / c.Tell,
"_rebuild_header_len" / c.If(
c.this.version.major > 1,
c.Pointer(
c.this._start_offset + 4,
c.Rebuild(c.Int32ul, c.this._end_offset - c.this._start_offset)
),
),
)
"""Raw firmware image.
Consists of firmware header and code block.
This is the expected format of firmware binaries for Trezor One, or bootloader images
for Trezor T."""
FirmwareImage = c.Struct(
"header" / FirmwareHeader,
"_code_offset" / c.Tell,
"code" / c.Bytes(c.this.header.code_length),
c.Terminated,
)
"""Firmware image prefixed by a vendor header.
This is the expected format of firmware binaries for Trezor T."""
VendorFirmware = c.Struct(
"vendor_header" / VendorHeader,
"image" / FirmwareImage,
c.Terminated,
)
"""Legacy firmware image.
Consists of a custom header and code block.
This is the expected format of firmware binaries for Trezor One pre-1.8.0.
The code block can optionally be interpreted as a new-style firmware image. That is the
expected format of firmware binary for Trezor One version 1.8.0, which can be installed
by both the older and the newer bootloader."""
LegacyFirmware = c.Struct(
"magic" / c.Const(b"TRZR"),
"code_length" / c.Rebuild(c.Int32ul, c.len_(c.this.code)),
"key_indexes" / c.Int8ul[V1_SIGNATURE_SLOTS], # pylint: disable=E1136
"flags" / c.BitStruct(
c.Padding(7),
"restore_storage" / c.Flag,
),
"_reserved" / c.Padding(52),
"signatures" / c.Bytes(64)[V1_SIGNATURE_SLOTS],
"code" / c.Bytes(c.this.code_length),
c.Terminated,
"embedded_onev2" / c.RestreamData(c.this.code, c.Optional(FirmwareImage)),
)
# fmt: on
class FirmwareFormat(Enum):
TREZOR_ONE = 1
TREZOR_T = 2
TREZOR_ONE_V2 = 3
ParsedFirmware = Tuple[FirmwareFormat, c.Container]
def parse(data: bytes) -> ParsedFirmware:
if data[:4] == b"TRZR":
version = FirmwareFormat.TREZOR_ONE
cls = LegacyFirmware
elif data[:4] == b"TRZV":
version = FirmwareFormat.TREZOR_T
cls = VendorFirmware
elif data[:4] == b"TRZF":
version = FirmwareFormat.TREZOR_ONE_V2
cls = FirmwareImage
else:
raise ValueError("Unrecognized firmware image type")
try:
fw = cls.parse(data)
except Exception as e:
raise FirmwareIntegrityError("Invalid firmware image") from e
return version, fw
def digest_onev1(fw: c.Container) -> bytes:
return hashlib.sha256(fw.code).digest()
def check_sig_v1(
digest: bytes, key_indexes: List[int], signatures: List[bytes]
) -> None:
distinct_key_indexes = set(i for i in key_indexes if i != 0)
if not distinct_key_indexes:
raise Unsigned
if len(distinct_key_indexes) < len(key_indexes):
raise InvalidSignatureError(
"Not enough distinct signatures (found {}, need {})".format(
len(distinct_key_indexes), len(key_indexes)
)
)
for i in range(len(key_indexes)):
key_idx = key_indexes[i] - 1
signature = signatures[i]
if key_idx >= len(V1_BOOTLOADER_KEYS):
# unknown pubkey
raise InvalidSignatureError("Unknown key in slot {}".format(i))
pubkey = V1_BOOTLOADER_KEYS[key_idx][1:]
verify = ecdsa.VerifyingKey.from_string(pubkey, curve=ecdsa.curves.SECP256k1)
try:
verify.verify_digest(signature, digest)
except ecdsa.BadSignatureError as e:
raise InvalidSignatureError("Invalid signature in slot {}".format(i)) from e
def header_digest(header: c.Container, hash_function: Callable = blake2s) -> bytes:
stripped_header = header.copy()
stripped_header.sigmask = 0
stripped_header.signature = b"\0" * 64
stripped_header.v1_key_indexes = [0, 0, 0]
stripped_header.v1_signatures = [b"\0" * 64] * 3
if header.magic == b"TRZV":
header_type = VendorHeader
else:
header_type = FirmwareHeader
header_bytes = header_type.build(stripped_header)
return hash_function(header_bytes).digest()
def digest_v2(fw: c.Container) -> bytes:
return header_digest(fw.image.header, blake2s)
def digest_onev2(fw: c.Container) -> bytes:
return header_digest(fw.header, hashlib.sha256)
def calculate_code_hashes(
code: bytes,
code_offset: int,
hash_function: Callable = blake2s,
chunk_size: int = V2_CHUNK_SIZE,
padding_byte: bytes = None,
) -> None:
hashes = []
# End offset for each chunk. Normally this would be (i+1)*chunk_size for i-th chunk,
# but the first chunk is shorter by code_offset, so all end offsets are shifted.
ends = [(i + 1) * chunk_size - code_offset for i in range(16)]
start = 0
for end in ends:
chunk = code[start:end]
# padding for last non-empty chunk
if padding_byte is not None and start < len(code) and end > len(code):
chunk += padding_byte[0:1] * (chunk_size - len(chunk))
if not chunk:
hashes.append(b"\0" * 32)
else:
hashes.append(hash_function(chunk).digest())
start = end
return hashes
def validate_code_hashes(fw: c.Container, version: FirmwareFormat) -> None:
if version == FirmwareFormat.TREZOR_ONE_V2:
image = fw
hash_function = hashlib.sha256
chunk_size = ONEV2_CHUNK_SIZE
padding_byte = b"\xff"
else:
image = fw.image
hash_function = blake2s
chunk_size = V2_CHUNK_SIZE
padding_byte = None
expected_hashes = calculate_code_hashes(
image.code, image._code_offset, hash_function, chunk_size, padding_byte
)
if expected_hashes != image.header.hashes:
raise FirmwareIntegrityError("Invalid firmware data.")
def validate_onev2(fw: c.Container, allow_unsigned: bool = False) -> None:
try:
check_sig_v1(
digest_onev2(fw), fw.header.v1_key_indexes, fw.header.v1_signatures,
)
except Unsigned:
if not allow_unsigned:
raise
validate_code_hashes(fw, FirmwareFormat.TREZOR_ONE_V2)
def validate_onev1(fw: c.Container, allow_unsigned: bool = False) -> None:
try:
check_sig_v1(digest_onev1(fw), fw.key_indexes, fw.signatures)
except Unsigned:
if not allow_unsigned:
raise
if fw.embedded_onev2:
validate_onev2(fw.embedded_onev2, allow_unsigned)
def validate_v2(fw: c.Container, skip_vendor_header: bool = False) -> None:
vendor_fingerprint = header_digest(fw.vendor_header)
fingerprint = digest_v2(fw)
if not skip_vendor_header:
try:
# if you want to validate a custom vendor header, you can modify
# the global variables to match your keys and m-of-n scheme
cosi.verify(
fw.vendor_header.signature,
vendor_fingerprint,
V2_SIGS_REQUIRED,
V2_BOOTLOADER_KEYS,
fw.vendor_header.sigmask,
)
except Exception:
raise InvalidSignatureError("Invalid vendor header signature.")
# XXX expiry is not used now
# now = time.gmtime()
# if time.gmtime(fw.vendor_header.expiry) < now:
# raise ValueError("Vendor header expired.")
try:
cosi.verify(
fw.image.header.signature,
fingerprint,
fw.vendor_header.sig_m,
fw.vendor_header.pubkeys,
fw.image.header.sigmask,
)
except Exception:
raise InvalidSignatureError("Invalid firmware signature.")
# XXX expiry is not used now
# if time.gmtime(fw.image.header.expiry) < now:
# raise ValueError("Firmware header expired.")
validate_code_hashes(fw, FirmwareFormat.TREZOR_T)
def digest(version: FirmwareFormat, fw: c.Container) -> bytes:
if version == FirmwareFormat.TREZOR_ONE:
return digest_onev1(fw)
elif version == FirmwareFormat.TREZOR_ONE_V2:
return digest_onev2(fw)
elif version == FirmwareFormat.TREZOR_T:
return digest_v2(fw)
else:
raise ValueError("Unrecognized firmware version")
def validate(
version: FirmwareFormat, fw: c.Container, allow_unsigned: bool = False
) -> None:
if version == FirmwareFormat.TREZOR_ONE:
return validate_onev1(fw, allow_unsigned)
elif version == FirmwareFormat.TREZOR_ONE_V2:
return validate_onev2(fw, allow_unsigned)
elif version == FirmwareFormat.TREZOR_T:
return validate_v2(fw)
else:
raise ValueError("Unrecognized firmware version")
# ====== Client functions ====== #
@tools.session
def update(client, data):
if client.features.bootloader_mode is False:
raise RuntimeError("Device must be in bootloader mode")
resp = client.call(messages.FirmwareErase(length=len(data)))
# TREZORv1 method
if isinstance(resp, messages.Success):
resp = client.call(messages.FirmwareUpload(payload=data))
if isinstance(resp, messages.Success):
return
else:
raise RuntimeError("Unexpected result %s" % resp)
# TREZORv2 method
while isinstance(resp, messages.FirmwareRequest):
payload = data[resp.offset : resp.offset + resp.length]
digest = blake2s(payload).digest()
resp = client.call(messages.FirmwareUpload(payload=payload, hash=digest))
if isinstance(resp, messages.Success):
return
else:
raise RuntimeError("Unexpected message %s" % resp)