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

354 lines
11 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 warnings
from copy import copy
from decimal import Decimal
from typing import TYPE_CHECKING, Any, Dict, Sequence, Tuple
from . import exceptions, messages
from .tools import expect, normalize_nfc, session
if TYPE_CHECKING:
from .client import TrezorClient
def from_json(json_dict):
def make_input(vin):
if "coinbase" in vin:
return messages.TxInputType(
prev_hash=b"\0" * 32,
prev_index=0xFFFFFFFF, # signed int -1
script_sig=bytes.fromhex(vin["coinbase"]),
sequence=vin["sequence"],
)
else:
return messages.TxInputType(
prev_hash=bytes.fromhex(vin["txid"]),
prev_index=vin["vout"],
script_sig=bytes.fromhex(vin["scriptSig"]["hex"]),
sequence=vin["sequence"],
)
def make_bin_output(vout):
return messages.TxOutputBinType(
amount=int(Decimal(vout["value"]) * (10 ** 8)),
script_pubkey=bytes.fromhex(vout["scriptPubKey"]["hex"]),
)
return messages.TransactionType(
version=json_dict["version"],
lock_time=json_dict.get("locktime", 0),
inputs=[make_input(vin) for vin in json_dict["vin"]],
bin_outputs=[make_bin_output(vout) for vout in json_dict["vout"]],
)
@expect(messages.PublicKey)
def get_public_node(
client,
n,
ecdsa_curve_name=None,
show_display=False,
coin_name=None,
script_type=messages.InputScriptType.SPENDADDRESS,
ignore_xpub_magic=False,
):
return client.call(
messages.GetPublicKey(
address_n=n,
ecdsa_curve_name=ecdsa_curve_name,
show_display=show_display,
coin_name=coin_name,
script_type=script_type,
ignore_xpub_magic=ignore_xpub_magic,
)
)
@expect(messages.Address, field="address")
def get_address(
client,
coin_name,
n,
show_display=False,
multisig=None,
script_type=messages.InputScriptType.SPENDADDRESS,
ignore_xpub_magic=False,
):
return client.call(
messages.GetAddress(
address_n=n,
coin_name=coin_name,
show_display=show_display,
multisig=multisig,
script_type=script_type,
ignore_xpub_magic=ignore_xpub_magic,
)
)
@expect(messages.OwnershipId, field="ownership_id")
def get_ownership_id(
client,
coin_name,
n,
multisig=None,
script_type=messages.InputScriptType.SPENDADDRESS,
):
return client.call(
messages.GetOwnershipId(
address_n=n,
coin_name=coin_name,
multisig=multisig,
script_type=script_type,
)
)
def get_ownership_proof(
client,
coin_name,
n,
multisig=None,
script_type=messages.InputScriptType.SPENDADDRESS,
user_confirmation=False,
ownership_ids=None,
commitment_data=None,
preauthorized=False,
):
if preauthorized:
res = client.call(messages.DoPreauthorized())
if not isinstance(res, messages.PreauthorizedRequest):
raise exceptions.TrezorException("Unexpected message")
res = client.call(
messages.GetOwnershipProof(
address_n=n,
coin_name=coin_name,
script_type=script_type,
multisig=multisig,
user_confirmation=user_confirmation,
ownership_ids=ownership_ids,
commitment_data=commitment_data,
)
)
if not isinstance(res, messages.OwnershipProof):
raise exceptions.TrezorException("Unexpected message")
return res.ownership_proof, res.signature
@expect(messages.MessageSignature)
def sign_message(
client,
coin_name,
n,
message,
script_type=messages.InputScriptType.SPENDADDRESS,
no_script_type=False,
):
message = normalize_nfc(message)
return client.call(
messages.SignMessage(
coin_name=coin_name,
address_n=n,
message=message,
script_type=script_type,
no_script_type=no_script_type,
)
)
def verify_message(client, coin_name, address, signature, message):
message = normalize_nfc(message)
try:
resp = client.call(
messages.VerifyMessage(
address=address,
signature=signature,
message=message,
coin_name=coin_name,
)
)
except exceptions.TrezorFailure:
return False
return isinstance(resp, messages.Success)
@session
def sign_tx(
client: "TrezorClient",
coin_name: str,
inputs: Sequence[messages.TxInputType],
outputs: Sequence[messages.TxOutputType],
details: messages.SignTx = None,
prev_txes: Dict[bytes, messages.TransactionType] = None,
preauthorized: bool = False,
**kwargs: Any,
) -> Tuple[Sequence[bytes], bytes]:
"""Sign a Bitcoin-like transaction.
Returns a list of signatures (one for each provided input) and the
network-serialized transaction.
In addition to the required arguments, it is possible to specify additional
transaction properties (version, lock time, expiry...). Each additional argument
must correspond to a field in the `SignTx` data type. Note that some fields
(`inputs_count`, `outputs_count`, `coin_name`) will be inferred from the arguments
and cannot be overriden by kwargs.
"""
if prev_txes is None:
prev_txes = {}
if details is not None:
warnings.warn(
"'details' argument is deprecated, use kwargs instead",
DeprecationWarning,
stacklevel=2,
)
signtx = details
signtx.coin_name = coin_name
signtx.inputs_count = len(inputs)
signtx.outputs_count = len(outputs)
else:
signtx = messages.SignTx(
coin_name=coin_name,
inputs_count=len(inputs),
outputs_count=len(outputs),
)
for name, value in kwargs.items():
if hasattr(signtx, name):
setattr(signtx, name, value)
if preauthorized:
res = client.call(messages.DoPreauthorized())
if not isinstance(res, messages.PreauthorizedRequest):
raise exceptions.TrezorException("Unexpected message")
res = client.call(signtx)
# Prepare structure for signatures
signatures = [None] * len(inputs)
serialized_tx = b""
def copy_tx_meta(tx: messages.TransactionType) -> messages.TransactionType:
tx_copy = copy(tx)
# clear fields
tx_copy.inputs_cnt = len(tx.inputs)
tx_copy.inputs = []
tx_copy.outputs_cnt = len(tx.bin_outputs or tx.outputs)
tx_copy.outputs = []
tx_copy.bin_outputs = []
tx_copy.extra_data_len = len(tx.extra_data or b"")
tx_copy.extra_data = None
return tx_copy
this_tx = messages.TransactionType(
inputs=inputs,
outputs=outputs,
inputs_cnt=len(inputs),
outputs_cnt=len(outputs),
# pick either kw-provided or default value from the SignTx request
version=signtx.version,
)
R = messages.RequestType
while isinstance(res, messages.TxRequest):
# If there's some part of signed transaction, let's add it
if res.serialized:
if res.serialized.serialized_tx:
serialized_tx += res.serialized.serialized_tx
if res.serialized.signature_index is not None:
idx = res.serialized.signature_index
sig = res.serialized.signature
if signatures[idx] is not None:
raise ValueError(f"Signature for index {idx} already filled")
signatures[idx] = sig
if res.request_type == R.TXFINISHED:
break
# Device asked for one more information, let's process it.
if res.details.tx_hash is not None:
current_tx = prev_txes[res.details.tx_hash]
else:
current_tx = this_tx
if res.request_type == R.TXMETA:
msg = copy_tx_meta(current_tx)
res = client.call(messages.TxAck(tx=msg))
elif res.request_type in (R.TXINPUT, R.TXORIGINPUT):
msg = messages.TransactionType()
msg.inputs = [current_tx.inputs[res.details.request_index]]
res = client.call(messages.TxAck(tx=msg))
elif res.request_type == R.TXOUTPUT:
msg = messages.TransactionType()
if res.details.tx_hash:
msg.bin_outputs = [current_tx.bin_outputs[res.details.request_index]]
else:
msg.outputs = [current_tx.outputs[res.details.request_index]]
res = client.call(messages.TxAck(tx=msg))
elif res.request_type == R.TXORIGOUTPUT:
msg = messages.TransactionType()
msg.outputs = [current_tx.outputs[res.details.request_index]]
res = client.call(messages.TxAck(tx=msg))
elif res.request_type == R.TXEXTRADATA:
o, l = res.details.extra_data_offset, res.details.extra_data_len
msg = messages.TransactionType()
msg.extra_data = current_tx.extra_data[o : o + l]
res = client.call(messages.TxAck(tx=msg))
if not isinstance(res, messages.TxRequest):
raise exceptions.TrezorException("Unexpected message")
for i, sig in zip(inputs, signatures):
if i.script_type != messages.InputScriptType.EXTERNAL and sig is None:
raise exceptions.TrezorException("Some signatures are missing!")
return signatures, serialized_tx
@expect(messages.Success, field="message")
def authorize_coinjoin(
client,
coordinator,
max_total_fee,
n,
coin_name,
fee_per_anonymity=None,
script_type=messages.InputScriptType.SPENDADDRESS,
):
return client.call(
messages.AuthorizeCoinJoin(
coordinator=coordinator,
max_total_fee=max_total_fee,
address_n=n,
coin_name=coin_name,
fee_per_anonymity=fee_per_anonymity,
script_type=script_type,
)
)