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trezor-firmware/python/src/trezorlib/ethereum.py
2023-03-24 13:24:46 +01:00

417 lines
13 KiB
Python

# This file is part of the Trezor project.
#
# Copyright (C) 2012-2022 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 re
from typing import TYPE_CHECKING, Any, AnyStr, Dict, List, Optional, Tuple
from . import definitions, exceptions, messages
from .tools import expect, prepare_message_bytes, session, unharden
if TYPE_CHECKING:
from .client import TrezorClient
from .tools import Address
from .protobuf import MessageType
def int_to_big_endian(value: int) -> bytes:
return value.to_bytes((value.bit_length() + 7) // 8, "big")
def decode_hex(value: str) -> bytes:
if value.startswith(("0x", "0X")):
return bytes.fromhex(value[2:])
else:
return bytes.fromhex(value)
def sanitize_typed_data(data: dict) -> dict:
"""Remove properties from a message object that are not defined per EIP-712."""
REQUIRED_KEYS = ("types", "primaryType", "domain", "message")
sanitized_data = {key: data[key] for key in REQUIRED_KEYS}
sanitized_data["types"].setdefault("EIP712Domain", [])
return sanitized_data
def is_array(type_name: str) -> bool:
return type_name[-1] == "]"
def typeof_array(type_name: str) -> str:
return type_name[: type_name.rindex("[")]
def parse_type_n(type_name: str) -> int:
"""Parse N from type<N>. Example: "uint256" -> 256."""
match = re.search(r"\d+$", type_name)
if match:
return int(match.group(0))
else:
raise ValueError(f"Could not parse type<N> from {type_name}.")
def parse_array_n(type_name: str) -> Optional[int]:
"""Parse N in type[<N>] where "type" can itself be an array type."""
# sign that it is a dynamic array - we do not know <N>
if type_name.endswith("[]"):
return None
start_idx = type_name.rindex("[") + 1
return int(type_name[start_idx:-1])
def get_byte_size_for_int_type(int_type: str) -> int:
return parse_type_n(int_type) // 8
def get_field_type(type_name: str, types: dict) -> messages.EthereumFieldType:
data_type = None
size = None
entry_type = None
struct_name = None
if is_array(type_name):
data_type = messages.EthereumDataType.ARRAY
size = parse_array_n(type_name)
member_typename = typeof_array(type_name)
entry_type = get_field_type(member_typename, types)
# Not supporting nested arrays currently
if entry_type.data_type == messages.EthereumDataType.ARRAY:
raise NotImplementedError("Nested arrays are not supported")
elif type_name.startswith("uint"):
data_type = messages.EthereumDataType.UINT
size = get_byte_size_for_int_type(type_name)
elif type_name.startswith("int"):
data_type = messages.EthereumDataType.INT
size = get_byte_size_for_int_type(type_name)
elif type_name.startswith("bytes"):
data_type = messages.EthereumDataType.BYTES
size = None if type_name == "bytes" else parse_type_n(type_name)
elif type_name == "string":
data_type = messages.EthereumDataType.STRING
elif type_name == "bool":
data_type = messages.EthereumDataType.BOOL
elif type_name == "address":
data_type = messages.EthereumDataType.ADDRESS
elif type_name in types:
data_type = messages.EthereumDataType.STRUCT
size = len(types[type_name])
struct_name = type_name
else:
raise ValueError(f"Unsupported type name: {type_name}")
return messages.EthereumFieldType(
data_type=data_type,
size=size,
entry_type=entry_type,
struct_name=struct_name,
)
def encode_data(value: Any, type_name: str) -> bytes:
if type_name.startswith("bytes"):
return decode_hex(value)
elif type_name == "string":
return value.encode()
elif type_name.startswith(("int", "uint")):
byte_length = get_byte_size_for_int_type(type_name)
return int(value).to_bytes(
byte_length, "big", signed=type_name.startswith("int")
)
elif type_name == "bool":
if not isinstance(value, bool):
raise ValueError(f"Invalid bool value - {value}")
return int(value).to_bytes(1, "big")
elif type_name == "address":
return decode_hex(value)
# We should be receiving only atomic, non-array types
raise ValueError(f"Unsupported data type for direct field encoding: {type_name}")
def network_from_address_n(
address_n: "Address",
source: definitions.Source,
) -> Optional[bytes]:
"""Get network definition bytes based on address_n.
Tries to extract the slip44 identifier and lookup the network definition.
Returns None on failure.
"""
if len(address_n) < 2:
return None
# unharden the slip44 part if needed
slip44 = unharden(address_n[1])
return source.get_network_by_slip44(slip44)
# ====== Client functions ====== #
@expect(messages.EthereumAddress, field="address", ret_type=str)
def get_address(
client: "TrezorClient",
n: "Address",
show_display: bool = False,
encoded_network: Optional[bytes] = None,
) -> "MessageType":
return client.call(
messages.EthereumGetAddress(
address_n=n,
show_display=show_display,
encoded_network=encoded_network,
)
)
@expect(messages.EthereumPublicKey)
def get_public_node(
client: "TrezorClient", n: "Address", show_display: bool = False
) -> "MessageType":
return client.call(
messages.EthereumGetPublicKey(address_n=n, show_display=show_display)
)
@session
def sign_tx(
client: "TrezorClient",
n: "Address",
nonce: int,
gas_price: int,
gas_limit: int,
to: str,
value: int,
data: Optional[bytes] = None,
chain_id: Optional[int] = None,
tx_type: Optional[int] = None,
definitions: Optional[messages.EthereumDefinitions] = None,
) -> Tuple[int, bytes, bytes]:
if chain_id is None:
raise exceptions.TrezorException("Chain ID cannot be undefined")
msg = messages.EthereumSignTx(
address_n=n,
nonce=int_to_big_endian(nonce),
gas_price=int_to_big_endian(gas_price),
gas_limit=int_to_big_endian(gas_limit),
value=int_to_big_endian(value),
to=to,
chain_id=chain_id,
tx_type=tx_type,
definitions=definitions,
)
if data is None:
data = b""
msg.data_length = len(data)
data, chunk = data[1024:], data[:1024]
msg.data_initial_chunk = chunk
response = client.call(msg)
assert isinstance(response, messages.EthereumTxRequest)
while response.data_length is not None:
data_length = response.data_length
data, chunk = data[data_length:], data[:data_length]
response = client.call(messages.EthereumTxAck(data_chunk=chunk))
assert isinstance(response, messages.EthereumTxRequest)
assert response.signature_v is not None
assert response.signature_r is not None
assert response.signature_s is not None
# https://github.com/trezor/trezor-core/pull/311
# only signature bit returned. recalculate signature_v
if response.signature_v <= 1:
response.signature_v += 2 * chain_id + 35
return response.signature_v, response.signature_r, response.signature_s
@session
def sign_tx_eip1559(
client: "TrezorClient",
n: "Address",
*,
nonce: int,
gas_limit: int,
to: str,
value: int,
data: bytes = b"",
chain_id: int,
max_gas_fee: int,
max_priority_fee: int,
access_list: Optional[List[messages.EthereumAccessList]] = None,
definitions: Optional[messages.EthereumDefinitions] = None,
) -> Tuple[int, bytes, bytes]:
length = len(data)
data, chunk = data[1024:], data[:1024]
msg = messages.EthereumSignTxEIP1559(
address_n=n,
nonce=int_to_big_endian(nonce),
gas_limit=int_to_big_endian(gas_limit),
value=int_to_big_endian(value),
to=to,
chain_id=chain_id,
max_gas_fee=int_to_big_endian(max_gas_fee),
max_priority_fee=int_to_big_endian(max_priority_fee),
access_list=access_list,
data_length=length,
data_initial_chunk=chunk,
definitions=definitions,
)
response = client.call(msg)
assert isinstance(response, messages.EthereumTxRequest)
while response.data_length is not None:
data_length = response.data_length
data, chunk = data[data_length:], data[:data_length]
response = client.call(messages.EthereumTxAck(data_chunk=chunk))
assert isinstance(response, messages.EthereumTxRequest)
assert response.signature_v is not None
assert response.signature_r is not None
assert response.signature_s is not None
return response.signature_v, response.signature_r, response.signature_s
@expect(messages.EthereumMessageSignature)
def sign_message(
client: "TrezorClient",
n: "Address",
message: AnyStr,
encoded_network: Optional[bytes] = None,
) -> "MessageType":
return client.call(
messages.EthereumSignMessage(
address_n=n,
message=prepare_message_bytes(message),
encoded_network=encoded_network,
)
)
@expect(messages.EthereumTypedDataSignature)
def sign_typed_data(
client: "TrezorClient",
n: "Address",
data: Dict[str, Any],
*,
metamask_v4_compat: bool = True,
definitions: Optional[messages.EthereumDefinitions] = None,
) -> "MessageType":
data = sanitize_typed_data(data)
types = data["types"]
request = messages.EthereumSignTypedData(
address_n=n,
primary_type=data["primaryType"],
metamask_v4_compat=metamask_v4_compat,
definitions=definitions,
)
response = client.call(request)
# Sending all the types
while isinstance(response, messages.EthereumTypedDataStructRequest):
struct_name = response.name
members: List["messages.EthereumStructMember"] = []
for field in types[struct_name]:
field_type = get_field_type(field["type"], types)
struct_member = messages.EthereumStructMember(
type=field_type,
name=field["name"],
)
members.append(struct_member)
request = messages.EthereumTypedDataStructAck(members=members)
response = client.call(request)
# Sending the whole message that should be signed
while isinstance(response, messages.EthereumTypedDataValueRequest):
root_index = response.member_path[0]
# Index 0 is for the domain data, 1 is for the actual message
if root_index == 0:
member_typename = "EIP712Domain"
member_data = data["domain"]
elif root_index == 1:
member_typename = data["primaryType"]
member_data = data["message"]
else:
client.cancel()
raise exceptions.TrezorException("Root index can only be 0 or 1")
# It can be asking for a nested structure (the member path being [X, Y, Z, ...])
# TODO: what to do when the value is missing (for example in recursive types)?
for index in response.member_path[1:]:
if isinstance(member_data, dict):
member_def = types[member_typename][index]
member_typename = member_def["type"]
member_data = member_data[member_def["name"]]
elif isinstance(member_data, list):
member_typename = typeof_array(member_typename)
member_data = member_data[index]
# If we were asked for a list, first sending its length and we will be receiving
# requests for individual elements later
if isinstance(member_data, list):
# Sending the length as uint16
encoded_data = len(member_data).to_bytes(2, "big")
else:
encoded_data = encode_data(member_data, member_typename)
request = messages.EthereumTypedDataValueAck(value=encoded_data)
response = client.call(request)
return response
def verify_message(
client: "TrezorClient", address: str, signature: bytes, message: AnyStr
) -> bool:
try:
resp = client.call(
messages.EthereumVerifyMessage(
address=address,
signature=signature,
message=prepare_message_bytes(message),
)
)
except exceptions.TrezorFailure:
return False
return isinstance(resp, messages.Success)
@expect(messages.EthereumTypedDataSignature)
def sign_typed_data_hash(
client: "TrezorClient",
n: "Address",
domain_hash: bytes,
message_hash: Optional[bytes],
encoded_network: Optional[bytes] = None,
) -> "MessageType":
return client.call(
messages.EthereumSignTypedHash(
address_n=n,
domain_separator_hash=domain_hash,
message_hash=message_hash,
encoded_network=encoded_network,
)
)