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trezor-firmware/tests/device_tests/bitcoin/test_multisig.py

331 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 pytest
from trezorlib import btc, messages
from trezorlib.debuglink import TrezorClientDebugLink as Client
from trezorlib.exceptions import TrezorFailure
from trezorlib.tools import parse_path
from ...common import MNEMONIC12
from ...tx_cache import TxCache
from .signtx import (
assert_tx_matches,
request_finished,
request_input,
request_meta,
request_output,
)
B = messages.ButtonRequestType
TX_API = TxCache("Bitcoin")
TX_API_TESTNET = TxCache("Testnet")
TXHASH_c6091a = bytes.fromhex(
"c6091adf4c0c23982a35899a6e58ae11e703eacd7954f588ed4b9cdefc4dba52"
)
TXHASH_509e08 = bytes.fromhex(
"509e08424b047403b34dc83e9899e09185ea36791716e42c00a74e1f12bcb6ef"
)
TXHASH_6b07c1 = bytes.fromhex(
"6b07c1321b52d9c85743f9695e13eb431b41708cdf4e1585258d51208e5b93fc"
)
TXHASH_0d5b56 = bytes.fromhex(
"0d5b5648d47b5650edea1af3d47bbe5624213abb577cf1b1c96f98321f75cdbc"
)
pytestmark = pytest.mark.multisig
@pytest.mark.multisig
def test_2_of_3(client: Client):
# input tx: 6b07c1321b52d9c85743f9695e13eb431b41708cdf4e1585258d51208e5b93fc
nodes = [
btc.get_public_node(
client, parse_path(f"m/48h/1h/{index}h/0h"), coin_name="Testnet"
).node
for index in range(1, 4)
]
multisig = messages.MultisigRedeemScriptType(
nodes=nodes, address_n=[0, 0], signatures=[b"", b"", b""], m=2
)
# Let's go to sign with key 1
inp1 = messages.TxInputType(
address_n=parse_path("m/48h/1h/1h/0h/0/0"),
amount=1_496_278,
prev_hash=TXHASH_6b07c1,
prev_index=0,
script_type=messages.InputScriptType.SPENDMULTISIG,
multisig=multisig,
)
out1 = messages.TxOutputType(
address="mnY26FLTzfC94mDoUcyDJh1GVE3LuAUMbs", # "44h/1h/0h/0/6"
amount=1_496_278 - 10_000,
script_type=messages.OutputScriptType.PAYTOADDRESS,
)
# Expected responses are the same for both two signings
tt = client.features.model == "T"
expected_responses = [
request_input(0),
request_output(0),
messages.ButtonRequest(code=B.ConfirmOutput),
(tt, messages.ButtonRequest(code=B.ConfirmOutput)),
messages.ButtonRequest(code=B.SignTx),
(tt, messages.ButtonRequest(code=B.SignTx)),
request_input(0),
request_meta(TXHASH_6b07c1),
request_input(0, TXHASH_6b07c1),
request_output(0, TXHASH_6b07c1),
request_input(0),
request_output(0),
request_output(0),
request_finished(),
]
with client:
client.set_expected_responses(expected_responses)
# Now we have first signature
signatures1, _ = btc.sign_tx(
client, "Testnet", [inp1], [out1], prev_txes=TX_API_TESTNET
)
assert (
signatures1[0].hex()
== "304402206c99b48a12f340599076b93efdc2578b0cdeaedf9092aed628788f4ffc579a50022031b16212dd1f0f62f01bb5862b6d128276c7a5430746aa27a04ae0c8acbcb3b1"
)
# ---------------------------------------
# Let's do second signature using 3rd key
multisig = messages.MultisigRedeemScriptType(
nodes=nodes,
address_n=[0, 0],
signatures=[
signatures1[0],
b"",
b"",
], # Fill signature from previous signing process
m=2,
)
# Let's do a second signature with key 3
inp3 = messages.TxInputType(
address_n=parse_path("m/48h/1h/3h/0h/0/0"),
amount=1_496_278,
prev_hash=TXHASH_6b07c1,
prev_index=0,
script_type=messages.InputScriptType.SPENDMULTISIG,
multisig=multisig,
)
with client:
client.set_expected_responses(expected_responses)
signatures2, serialized_tx = btc.sign_tx(
client, "Testnet", [inp3], [out1], prev_txes=TX_API_TESTNET
)
assert (
signatures2[0].hex()
== "304502210089153ad97c0d69656cd9bd9eb2056552acaec91365dd7ab31250f3f707123baa02200f884de63041d73bd20fbe8804c6036968d8149b7f46963a82b561cd8211ab08"
)
assert_tx_matches(
serialized_tx,
hash_link="https://tbtc1.trezor.io/api/tx/4123415574c16899b4bb5b691f9b65643dbe566a9b68e4e2e7a8b29c79c83f2b",
tx_hex="0100000001fc935b8e20518d2585154edf8c70411b43eb135e69f94357c8d9521b32c1076b00000000fdfd000047304402206c99b48a12f340599076b93efdc2578b0cdeaedf9092aed628788f4ffc579a50022031b16212dd1f0f62f01bb5862b6d128276c7a5430746aa27a04ae0c8acbcb3b10148304502210089153ad97c0d69656cd9bd9eb2056552acaec91365dd7ab31250f3f707123baa02200f884de63041d73bd20fbe8804c6036968d8149b7f46963a82b561cd8211ab08014c69522103725d6c5253f2040a9a73af24bcc196bf302d6cc94374dd7197b138e10912670121038924e94fff15302a3fb45ad4fc0ed17178800f0f1c2bdacb1017f4db951aa9f12102aae8affd0eb8e1181d665daef4de1828f23053c548ec9bafc3a787f558aa014153aeffffffff01c6ad1600000000001976a9144cfc772f24b600762f905a1ee799ce0e9c26831f88ac00000000",
)
@pytest.mark.multisig
def test_15_of_15(client: Client):
# input tx: 0d5b5648d47b5650edea1af3d47bbe5624213abb577cf1b1c96f98321f75cdbc
node = btc.get_public_node(
client, parse_path("m/48h/1h/1h/0h"), coin_name="Testnet"
).node
pubs = [messages.HDNodePathType(node=node, address_n=[0, x]) for x in range(15)]
signatures = [b""] * 15
out1 = messages.TxOutputType(
address="mnY26FLTzfC94mDoUcyDJh1GVE3LuAUMbs", # "44h/1h/0h/0/6"
amount=1_476_278 - 10_000,
script_type=messages.OutputScriptType.PAYTOADDRESS,
)
for x in range(15):
multisig = messages.MultisigRedeemScriptType(
pubkeys=pubs, signatures=signatures, m=15
)
inp1 = messages.TxInputType(
address_n=parse_path(f"m/48h/1h/1h/0h/0/{x}"),
amount=1_476_278,
prev_hash=TXHASH_0d5b56,
prev_index=0,
script_type=messages.InputScriptType.SPENDMULTISIG,
multisig=multisig,
)
with client:
sig, serialized_tx = btc.sign_tx(
client, "Testnet", [inp1], [out1], prev_txes=TX_API_TESTNET
)
signatures[x] = sig[0]
assert_tx_matches(
serialized_tx,
hash_link="https://tbtc1.trezor.io/api/tx/b41284067577e1266ad3632f7caffead5d58277cc35f42642455bfd2a3fa0325",
)
@pytest.mark.multisig
@pytest.mark.setup_client(mnemonic=MNEMONIC12)
def test_missing_pubkey(client: Client):
node = btc.get_public_node(
client, parse_path("m/48h/0h/1h/0h/0"), coin_name="Bitcoin"
).node
multisig = messages.MultisigRedeemScriptType(
pubkeys=[
messages.HDNodePathType(node=node, address_n=[1]),
messages.HDNodePathType(node=node, address_n=[2]),
messages.HDNodePathType(node=node, address_n=[3]),
],
signatures=[b"", b"", b""],
m=2,
)
# Let's go to sign with key 10, which is NOT in pubkeys
inp1 = messages.TxInputType(
address_n=parse_path("m/48h/0h/1h/0h/0/10"),
amount=100_000,
prev_hash=TXHASH_c6091a,
prev_index=1,
script_type=messages.InputScriptType.SPENDMULTISIG,
multisig=multisig,
)
out1 = messages.TxOutputType(
address="12iyMbUb4R2K3gre4dHSrbu5azG5KaqVss",
amount=100_000,
script_type=messages.OutputScriptType.PAYTOADDRESS,
)
with pytest.raises(TrezorFailure) as exc:
btc.sign_tx(client, "Bitcoin", [inp1], [out1], prev_txes=TX_API)
if client.features.model == "1":
assert exc.value.message.endswith("Failed to derive scriptPubKey")
else:
assert exc.value.message.endswith("Pubkey not found in multisig script")
@pytest.mark.multisig
def test_attack_change_input(client: Client):
"""
In Phases 1 and 2 the attacker replaces a non-multisig input
`input_real` with a multisig input `input_fake`, which allows the
attacker to provide a 1-of-2 multisig change address. When `input_real`
is provided in the signing phase, an error must occur.
"""
address_n = parse_path("m/48h/1h/0h/1h/0/0") # 2NErUdruXmM8o8bQySrzB3WdBRcmc5br4E8
attacker_multisig_public_key = bytes.fromhex(
"03653a148b68584acb97947344a7d4fd6a6f8b8485cad12987ff8edac874268088"
)
input_real = messages.TxInputType(
address_n=address_n,
prev_hash=TXHASH_509e08,
prev_index=0,
script_type=messages.InputScriptType.SPENDP2SHWITNESS,
amount=61_093,
)
multisig_fake = messages.MultisigRedeemScriptType(
m=1,
nodes=[
btc.get_public_node(client, address_n, coin_name="Testnet").node,
messages.HDNodeType(
depth=0,
fingerprint=0,
child_num=0,
chain_code=bytes(32),
public_key=attacker_multisig_public_key,
),
],
address_n=[],
)
input_fake = messages.TxInputType(
address_n=address_n,
prev_hash=input_real.prev_hash,
prev_index=input_real.prev_index,
script_type=input_real.script_type,
multisig=multisig_fake,
amount=input_real.amount,
)
output_payee = messages.TxOutputType(
address="n2eMqTT929pb1RDNuqEnxdaLau1rxy3efi",
amount=10_000,
script_type=messages.OutputScriptType.PAYTOADDRESS,
)
output_change = messages.TxOutputType(
address_n=address_n,
amount=input_real.amount - output_payee.amount - 1_000,
script_type=messages.OutputScriptType.PAYTOP2SHWITNESS,
multisig=multisig_fake,
)
# Transaction can be signed without the attack processor
with client:
btc.sign_tx(
client,
"Testnet",
[input_real],
[output_payee, output_change],
prev_txes=TX_API_TESTNET,
)
attack_count = 3
def attack_processor(msg):
nonlocal attack_count
# replace the first input_real with input_fake
if attack_count > 0 and msg.tx.inputs and msg.tx.inputs[0] == input_real:
msg.tx.inputs[0] = input_fake
attack_count -= 1
return msg
with client:
client.set_filter(messages.TxAck, attack_processor)
with pytest.raises(TrezorFailure):
btc.sign_tx(
client,
"Testnet",
[input_real],
[output_payee, output_change],
prev_txes=TX_API_TESTNET,
)