# 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 . import pytest from trezorlib import ethereum, exceptions, messages, models from trezorlib.debuglink import TrezorClientDebugLink as Client from trezorlib.debuglink import message_filters from trezorlib.exceptions import TrezorFailure from trezorlib.tools import parse_path, unharden from ...common import parametrize_using_common_fixtures from ...input_flows import ( InputFlowEthereumSignTxDataGoBack, InputFlowEthereumSignTxDataScrollDown, InputFlowEthereumSignTxDataSkip, InputFlowEthereumSignTxGoBackFromSummary, InputFlowEthereumSignTxShowFeeInfo, InputFlowEthereumSignTxStaking, ) from .common import encode_network TO_ADDR = "0x1d1c328764a41bda0492b66baa30c4a339ff85ef" pytestmark = [pytest.mark.altcoin, pytest.mark.ethereum] def make_defs(parameters: dict) -> messages.EthereumDefinitions: # With removal of most built-in defs from firmware, we have test vectors # that no longer run. Because this is not the place to test the definitions, # we generate fake entries so that we can check the signing results. address_n = parse_path(parameters["path"]) slip44 = unharden(address_n[1]) network = encode_network(chain_id=parameters["chain_id"], slip44=slip44) return messages.EthereumDefinitions(encoded_network=network) @parametrize_using_common_fixtures( "ethereum/sign_tx.json", "ethereum/sign_tx_eip155.json", ) @pytest.mark.parametrize("chunkify", (True, False)) def test_signtx(client: Client, chunkify: bool, parameters: dict, result: dict): _do_test_signtx(client, parameters, result, chunkify=chunkify) def _do_test_signtx( client: Client, parameters: dict, result: dict, input_flow=None, chunkify: bool = False, ): with client: if input_flow: client.watch_layout() client.set_input_flow(input_flow) sig_v, sig_r, sig_s = ethereum.sign_tx( client, n=parse_path(parameters["path"]), nonce=int(parameters["nonce"], 16), gas_price=int(parameters["gas_price"], 16), gas_limit=int(parameters["gas_limit"], 16), to=parameters["to_address"], chain_id=parameters["chain_id"], value=int(parameters["value"], 16), tx_type=parameters["tx_type"], data=bytes.fromhex(parameters["data"]), definitions=make_defs(parameters), chunkify=chunkify, ) expected_v = 2 * parameters["chain_id"] + 35 assert sig_v in (expected_v, expected_v + 1) assert sig_r.hex() == result["sig_r"] assert sig_s.hex() == result["sig_s"] assert sig_v == result["sig_v"] # Data taken from sign_tx_eip1559.json["tests"][0] example_input_data = { "parameters": { "chain_id": 1, "path": "m/44'/60'/0'/0/0", "nonce": "0x0", "gas_price": "0x4a817c800", "gas_limit": "0x5208", "value": "0x2540be400", "to_address": "0x8eA7a3fccC211ED48b763b4164884DDbcF3b0A98", "tx_type": None, "data": "", }, "result": { "sig_v": 38, "sig_r": "6a6349bddb5749bb8b96ce2566a035ef87a09dbf89b5c7e3dfdf9ed725912f24", "sig_s": "4ae58ccd3bacee07cdc4a3e8540544fd009c4311af7048122da60f2054c07ee4", }, } @pytest.mark.skip_t1("T1 does not support input flows") def test_signtx_fee_info(client: Client): input_flow = InputFlowEthereumSignTxShowFeeInfo(client).get() _do_test_signtx( client, example_input_data["parameters"], example_input_data["result"], input_flow, ) @pytest.mark.skip_t1("T1 does not support input flows") def test_signtx_go_back_from_summary(client: Client): input_flow = InputFlowEthereumSignTxGoBackFromSummary(client).get() _do_test_signtx( client, example_input_data["parameters"], example_input_data["result"], input_flow, ) @parametrize_using_common_fixtures("ethereum/sign_tx_eip1559.json") @pytest.mark.parametrize("chunkify", (True, False)) def test_signtx_eip1559(client: Client, chunkify: bool, parameters: dict, result: dict): with client: sig_v, sig_r, sig_s = ethereum.sign_tx_eip1559( client, n=parse_path(parameters["path"]), nonce=int(parameters["nonce"], 16), gas_limit=int(parameters["gas_limit"], 16), max_gas_fee=int(parameters["max_gas_fee"], 16), max_priority_fee=int(parameters["max_priority_fee"], 16), to=parameters["to_address"], chain_id=parameters["chain_id"], value=int(parameters["value"], 16), data=bytes.fromhex(parameters["data"]), definitions=make_defs(parameters), chunkify=chunkify, ) assert sig_r.hex() == result["sig_r"] assert sig_s.hex() == result["sig_s"] assert sig_v == result["sig_v"] def test_sanity_checks(client: Client): """Is not vectorized because these are internal-only tests that do not need to be exposed to the public. """ # contract creation without data should fail. with pytest.raises(TrezorFailure, match=r"DataError"): ethereum.sign_tx( client, n=parse_path("m/44h/60h/0h/0/0"), nonce=123_456, gas_price=20_000, gas_limit=20_000, to="", value=12_345_678_901_234_567_890, chain_id=1, ) # gas overflow with pytest.raises(TrezorFailure, match=r"DataError"): ethereum.sign_tx( client, n=parse_path("m/44h/60h/0h/0/0"), nonce=123_456, gas_price=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, gas_limit=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, to=TO_ADDR, value=12_345_678_901_234_567_890, chain_id=1, ) # bad chain ID with pytest.raises(TrezorFailure, match=r"Chain ID out of bounds"): ethereum.sign_tx( client, n=parse_path("m/44h/60h/0h/0/0"), nonce=123_456, gas_price=20_000, gas_limit=20_000, to=TO_ADDR, value=12_345_678_901_234_567_890, chain_id=0, ) def test_data_streaming(client: Client): """Only verifying the expected responses, the signatures are checked in vectorized function above. """ with client: is_t1 = client.model is models.T1B1 client.set_expected_responses( [ messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), (is_t1, messages.ButtonRequest(code=messages.ButtonRequestType.SignTx)), ( not is_t1, messages.ButtonRequest(code=messages.ButtonRequestType.Other), ), messages.ButtonRequest(code=messages.ButtonRequestType.SignTx), message_filters.EthereumTxRequest( data_length=1_024, signature_r=None, signature_s=None, signature_v=None, ), message_filters.EthereumTxRequest( data_length=1_024, signature_r=None, signature_s=None, signature_v=None, ), message_filters.EthereumTxRequest( data_length=1_024, signature_r=None, signature_s=None, signature_v=None, ), message_filters.EthereumTxRequest( data_length=3, signature_r=None, signature_s=None, signature_v=None, ), message_filters.EthereumTxRequest(data_length=None), ] ) ethereum.sign_tx( client, n=parse_path("m/44h/60h/0h/0/0"), nonce=0, gas_price=20_000, gas_limit=20_000, to=TO_ADDR, value=0, data=b"ABCDEFGHIJKLMNOP" * 256 + b"!!!", chain_id=1, ) def test_signtx_eip1559_access_list(client: Client): with client: sig_v, sig_r, sig_s = ethereum.sign_tx_eip1559( client, n=parse_path("m/44h/60h/0h/0/100"), nonce=0, gas_limit=20, to="0x1d1c328764a41bda0492b66baa30c4a339ff85ef", chain_id=1, value=10, max_gas_fee=20, max_priority_fee=1, access_list=[ messages.EthereumAccessList( address="0xde0b295669a9fd93d5f28d9ec85e40f4cb697bae", storage_keys=[ bytes.fromhex( "0000000000000000000000000000000000000000000000000000000000000003" ), bytes.fromhex( "0000000000000000000000000000000000000000000000000000000000000007" ), ], ) ], ) assert sig_v == 1 assert ( sig_r.hex() == "9f8763f3ff8d4d409f6b96bc3f1d84dd504e2c667b162778508478645401f121" ) assert ( sig_s.hex() == "51e30b68b9091cf8138c07380c4378c2711779b68b2e5264d141479f13a12f57" ) def test_signtx_eip1559_access_list_larger(client: Client): with client: sig_v, sig_r, sig_s = ethereum.sign_tx_eip1559( client, n=parse_path("m/44h/60h/0h/0/100"), nonce=0, gas_limit=20, to="0x1d1c328764a41bda0492b66baa30c4a339ff85ef", chain_id=1, value=10, max_gas_fee=20, max_priority_fee=1, access_list=[ messages.EthereumAccessList( address="0xde0b295669a9fd93d5f28d9ec85e40f4cb697bae", storage_keys=[ bytes.fromhex( "0000000000000000000000000000000000000000000000000000000000000003" ), bytes.fromhex( "0000000000000000000000000000000000000000000000000000000000000007" ), ], ), messages.EthereumAccessList( address="0xbb9bc244d798123fde783fcc1c72d3bb8c189413", storage_keys=[ bytes.fromhex( "0000000000000000000000000000000000000000000000000000000000000006" ), bytes.fromhex( "0000000000000000000000000000000000000000000000000000000000000007" ), bytes.fromhex( "0000000000000000000000000000000000000000000000000000000000000009" ), ], ), ], ) assert sig_v == 1 assert ( sig_r.hex() == "718a3a30827c979975c846d2f60495310c4959ee3adce2d89e0211785725465c" ) assert ( sig_s.hex() == "7d0ea2a28ef5702ca763c1f340427c0020292ffcbb4553dd1c8ea8e2b9126dbc" ) def test_sanity_checks_eip1559(client: Client): """Is not vectorized because these are internal-only tests that do not need to be exposed to the public. """ # contract creation without data should fail. with pytest.raises(TrezorFailure, match=r"DataError"): ethereum.sign_tx_eip1559( client, n=parse_path("m/44h/60h/0h/0/100"), nonce=0, gas_limit=20, to="", chain_id=1, value=10, max_gas_fee=20, max_priority_fee=1, ) # max fee overflow with pytest.raises(TrezorFailure, match=r"DataError"): ethereum.sign_tx_eip1559( client, n=parse_path("m/44h/60h/0h/0/100"), nonce=0, gas_limit=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, to=TO_ADDR, chain_id=1, value=10, max_gas_fee=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, max_priority_fee=1, ) # priority fee overflow with pytest.raises(TrezorFailure, match=r"DataError"): ethereum.sign_tx_eip1559( client, n=parse_path("m/44h/60h/0h/0/100"), nonce=0, gas_limit=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, to=TO_ADDR, chain_id=1, value=10, max_gas_fee=20, max_priority_fee=0xFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF, ) # bad chain ID with pytest.raises(TrezorFailure, match=r"Chain ID out of bounds"): ethereum.sign_tx_eip1559( client, n=parse_path("m/44h/60h/0h/0/100"), nonce=0, gas_limit=20, to=TO_ADDR, chain_id=0, value=10, max_gas_fee=20, max_priority_fee=1, ) def input_flow_data_skip(client: Client, cancel: bool = False): return InputFlowEthereumSignTxDataSkip(client, cancel).get() def input_flow_data_scroll_down(client: Client, cancel: bool = False): return InputFlowEthereumSignTxDataScrollDown(client, cancel).get() def input_flow_data_go_back(client: Client, cancel: bool = False): return InputFlowEthereumSignTxDataGoBack(client, cancel).get() HEXDATA = "0123456789abcd000023456789abcd010003456789abcd020000456789abcd030000056789abcd040000006789abcd050000000789abcd060000000089abcd070000000009abcd080000000000abcd090000000001abcd0a0000000011abcd0b0000000111abcd0c0000001111abcd0d0000011111abcd0e0000111111abcd0f0000000002abcd100000000022abcd110000000222abcd120000002222abcd130000022222abcd140000222222abcd15" @pytest.mark.parametrize( "flow", (input_flow_data_skip, input_flow_data_scroll_down, input_flow_data_go_back) ) @pytest.mark.skip_t1 def test_signtx_data_pagination(client: Client, flow): def _sign_tx_call(): ethereum.sign_tx( client, n=parse_path("m/44h/60h/0h/0/0"), nonce=0x0, gas_price=0x14, gas_limit=0x14, to="0x1d1c328764a41bda0492b66baa30c4a339ff85ef", chain_id=1, value=0xA, tx_type=None, data=bytes.fromhex(HEXDATA), ) with client: client.watch_layout() client.set_input_flow(flow(client)) _sign_tx_call() with client, pytest.raises(exceptions.Cancelled): client.watch_layout() client.set_input_flow(flow(client, cancel=True)) _sign_tx_call() @pytest.mark.skip_t1("T1 does not support Everstake") @parametrize_using_common_fixtures("ethereum/sign_tx_staking.json") @pytest.mark.parametrize("chunkify", (True, False)) def test_signtx_staking(client: Client, chunkify: bool, parameters: dict, result: dict): input_flow = InputFlowEthereumSignTxStaking(client).get() _do_test_signtx( client, parameters, result, input_flow=input_flow, chunkify=chunkify ) @pytest.mark.skip_t1("T1 does not support Everstake") @parametrize_using_common_fixtures("ethereum/sign_tx_staking_data_error.json") def test_signtx_staking_bad_inputs(client: Client, parameters: dict, result: dict): # result not needed with pytest.raises(TrezorFailure, match=r"DataError"): ethereum.sign_tx( client, n=parse_path(parameters["path"]), nonce=int(parameters["nonce"], 16), gas_price=int(parameters["gas_price"], 16), gas_limit=int(parameters["gas_limit"], 16), to=parameters["to_address"], value=int(parameters["value"], 16), data=bytes.fromhex(parameters["data"]), chain_id=parameters["chain_id"], tx_type=parameters["tx_type"], definitions=None, chunkify=False, ) @pytest.mark.skip_t1("T1 does not support Everstake") @parametrize_using_common_fixtures("ethereum/sign_tx_staking_eip1559.json") def test_signtx_staking_eip1559(client: Client, parameters: dict, result: dict): with client: sig_v, sig_r, sig_s = ethereum.sign_tx_eip1559( client, n=parse_path(parameters["path"]), nonce=int(parameters["nonce"], 16), max_gas_fee=int(parameters["max_gas_fee"], 16), max_priority_fee=int(parameters["max_priority_fee"], 16), gas_limit=int(parameters["gas_limit"], 16), to=parameters["to_address"], value=int(parameters["value"], 16), data=bytes.fromhex(parameters["data"]), chain_id=parameters["chain_id"], definitions=None, chunkify=True, ) assert sig_r.hex() == result["sig_r"] assert sig_s.hex() == result["sig_s"] assert sig_v == result["sig_v"]