1
0
mirror of https://github.com/trezor/trezor-firmware.git synced 2024-11-25 17:09:44 +00:00
trezor-firmware/tests/device_tests/test_msg_cardano_get_address.py
2020-07-27 13:11:23 +02:00

286 lines
9.2 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 tools
from trezorlib.cardano import (
NETWORK_IDS,
PROTOCOL_MAGICS,
create_address_parameters,
get_address,
)
from trezorlib.messages import CardanoAddressType
@pytest.mark.altcoin
@pytest.mark.cardano
@pytest.mark.skip_t1 # T1 support is not planned
@pytest.mark.parametrize(
"path,protocol_magic,expected_address",
[
# mainnet
(
"m/44'/1815'/0'/0/0",
PROTOCOL_MAGICS["mainnet"],
"Ae2tdPwUPEZ5YUb8sM3eS8JqKgrRLzhiu71crfuH2MFtqaYr5ACNRdsswsZ",
),
(
"m/44'/1815'/0'/0/1",
PROTOCOL_MAGICS["mainnet"],
"Ae2tdPwUPEZJb8r1VZxweSwHDTYtqeYqF39rZmVbrNK62JHd4Wd7Ytsc8eG",
),
(
"m/44'/1815'/0'/0/2",
PROTOCOL_MAGICS["mainnet"],
"Ae2tdPwUPEZFm6Y7aPZGKMyMAK16yA5pWWKU9g73ncUQNZsAjzjhszenCsq",
),
# testnet
# data generated by code under test
(
"m/44'/1815'/0'/0/0",
PROTOCOL_MAGICS["testnet"],
"2657WMsDfac5F3zbgs9BwNWx3dhGAJERkAL93gPa68NJ2i8mbCHm2pLUHWSj8Mfea",
),
(
"m/44'/1815'/0'/0/1",
PROTOCOL_MAGICS["testnet"],
"2657WMsDfac6ezKWszxLFqJjSUgpg9NgxKc1koqi24sVpRaPhiwMaExk4useKn5HA",
),
(
"m/44'/1815'/0'/0/2",
PROTOCOL_MAGICS["testnet"],
"2657WMsDfac7hr1ioJGr6g7r6JRx4r1My8Rj91tcPTeVjJDpfBYKURrPG2zVLx2Sq",
),
],
)
def test_cardano_get_address(client, path, protocol_magic, expected_address):
address = get_address(
client,
address_parameters=create_address_parameters(
address_type=CardanoAddressType.BYRON, address_n=tools.parse_path(path),
),
protocol_magic=protocol_magic,
network_id=NETWORK_IDS["mainnet"],
)
assert address == expected_address
@pytest.mark.altcoin
@pytest.mark.cardano
@pytest.mark.skip_t1 # T1 support is not planned
@pytest.mark.parametrize(
"path, staking_path, network_id, expected_address",
[
# data generated with code under test
(
"m/1852'/1815'/4'/0/0",
"m/1852'/1815'/4'/2/0",
NETWORK_IDS["mainnet"],
"addr1q8v42wjda8r6mpfj40d36znlgfdcqp7jtj03ah8skh6u8wnrqua2vw243tmjfjt0h5wsru6appuz8c0pfd75ur7myyeqsx9990",
),
(
"m/1852'/1815'/4'/0/0",
"m/1852'/1815'/4'/2/0",
NETWORK_IDS["testnet"],
"addr_test1qrv42wjda8r6mpfj40d36znlgfdcqp7jtj03ah8skh6u8wnrqua2vw243tmjfjt0h5wsru6appuz8c0pfd75ur7myyeqnsc9fs",
),
],
)
def test_cardano_get_base_address(
client, path, staking_path, network_id, expected_address
):
address = get_address(
client,
address_parameters=create_address_parameters(
address_type=CardanoAddressType.BASE,
address_n=tools.parse_path(path),
address_n_staking=tools.parse_path(staking_path),
),
protocol_magic=PROTOCOL_MAGICS["mainnet"],
network_id=network_id,
)
assert address == expected_address
@pytest.mark.altcoin
@pytest.mark.cardano
@pytest.mark.skip_t1 # T1 support is not planned
@pytest.mark.parametrize(
"path, staking_key_hash, network_id, expected_address",
[
# data generated with code under test
(
"m/1852'/1815'/4'/0/0",
"1bc428e4720702ebd5dab4fb175324c192dc9bb76cc5da956e3c8dff",
NETWORK_IDS["mainnet"],
"addr1q8v42wjda8r6mpfj40d36znlgfdcqp7jtj03ah8skh6u8wsmcs5wgus8qt4atk45lvt4xfxpjtwfhdmvchdf2m3u3hlsydc62k",
),
(
"m/1852'/1815'/4'/0/0",
"1bc428e4720702ebd5dab4fb175324c192dc9bb76cc5da956e3c8dff",
NETWORK_IDS["testnet"],
"addr_test1qrv42wjda8r6mpfj40d36znlgfdcqp7jtj03ah8skh6u8wsmcs5wgus8qt4atk45lvt4xfxpjtwfhdmvchdf2m3u3hls8m96xf",
),
# staking key hash not owned - derived with "all all..." mnenomnic, data generated with code under test
(
"m/1852'/1815'/4'/0/0",
"122a946b9ad3d2ddf029d3a828f0468aece76895f15c9efbd69b4277",
NETWORK_IDS["mainnet"],
"addr1q8v42wjda8r6mpfj40d36znlgfdcqp7jtj03ah8skh6u8wsj922xhxkn6twlq2wn4q50q352annk3903tj00h45mgfms06skxl",
),
(
"m/1852'/1815'/0'/0/0",
"122a946b9ad3d2ddf029d3a828f0468aece76895f15c9efbd69b4277",
NETWORK_IDS["testnet"],
"addr_test1qzq0nckg3ekgzuqg7w5p9mvgnd9ym28qh5grlph8xd2z92sj922xhxkn6twlq2wn4q50q352annk3903tj00h45mgfmsu8d9w5",
),
(
"m/1852'/1815'/4'/0/0",
"122a946b9ad3d2ddf029d3a828f0468aece76895f15c9efbd69b4277",
NETWORK_IDS["testnet"],
"addr_test1qrv42wjda8r6mpfj40d36znlgfdcqp7jtj03ah8skh6u8wsj922xhxkn6twlq2wn4q50q352annk3903tj00h45mgfmsvvdk2q",
),
],
)
def test_cardano_get_base_address_with_staking_key_hash(
client, path, staking_key_hash, network_id, expected_address
):
# data form shelley test vectors
address = get_address(
client,
address_parameters=create_address_parameters(
address_type=CardanoAddressType.BASE,
address_n=tools.parse_path(path),
staking_key_hash=bytes.fromhex(staking_key_hash),
),
protocol_magic=PROTOCOL_MAGICS["mainnet"],
network_id=network_id,
)
assert address == expected_address
@pytest.mark.altcoin
@pytest.mark.cardano
@pytest.mark.skip_t1 # T1 support is not planned
@pytest.mark.parametrize(
"path, network_id, expected_address",
[
# data generated with code under test
(
"m/1852'/1815'/0'/0/0",
NETWORK_IDS["mainnet"],
"addr1vxq0nckg3ekgzuqg7w5p9mvgnd9ym28qh5grlph8xd2z92su77c6m",
),
(
"m/1852'/1815'/0'/0/0",
NETWORK_IDS["testnet"],
"addr_test1vzq0nckg3ekgzuqg7w5p9mvgnd9ym28qh5grlph8xd2z92s8k2y47",
),
],
)
def test_cardano_get_enterprise_address(client, path, network_id, expected_address):
address = get_address(
client,
address_parameters=create_address_parameters(
address_type=CardanoAddressType.ENTERPRISE,
address_n=tools.parse_path(path),
),
protocol_magic=PROTOCOL_MAGICS["mainnet"],
network_id=network_id,
)
assert address == expected_address
@pytest.mark.altcoin
@pytest.mark.cardano
@pytest.mark.skip_t1 # T1 support is not planned
@pytest.mark.parametrize(
"path, block_index, tx_index, certificate_index, network_id, expected_address",
[
# data generated with code under test
(
"m/1852'/1815'/0'/0/0",
1,
2,
3,
NETWORK_IDS["mainnet"],
"addr1gxq0nckg3ekgzuqg7w5p9mvgnd9ym28qh5grlph8xd2z92spqgpsl97q83",
),
(
"m/1852'/1815'/0'/0/0",
24157,
177,
42,
NETWORK_IDS["testnet"],
"addr_test1gzq0nckg3ekgzuqg7w5p9mvgnd9ym28qh5grlph8xd2z925ph3wczvf2ag2x9t",
),
],
)
def test_cardano_get_pointer_address(
client,
path,
block_index,
tx_index,
certificate_index,
network_id,
expected_address,
):
address = get_address(
client,
address_parameters=create_address_parameters(
address_type=CardanoAddressType.POINTER,
address_n=tools.parse_path(path),
block_index=block_index,
tx_index=tx_index,
certificate_index=certificate_index,
),
protocol_magic=PROTOCOL_MAGICS["mainnet"],
network_id=network_id,
)
assert address == expected_address
@pytest.mark.altcoin
@pytest.mark.cardano
@pytest.mark.skip_t1 # T1 support is not planned
@pytest.mark.parametrize(
"path, network_id, expected_address",
[
# data generated with code under test
(
"m/1852'/1815'/0'/2/0",
NETWORK_IDS["mainnet"],
"stake1uyfz49rtntfa9h0s98f6s28sg69weemgjhc4e8hm66d5yacalmqha",
),
(
"m/1852'/1815'/0'/2/0",
NETWORK_IDS["testnet"],
"stake_test1uqfz49rtntfa9h0s98f6s28sg69weemgjhc4e8hm66d5yac643znq",
),
],
)
def test_cardano_get_reward_address(client, path, network_id, expected_address):
address = get_address(
client,
address_parameters=create_address_parameters(
address_type=CardanoAddressType.REWARD, address_n=tools.parse_path(path),
),
protocol_magic=PROTOCOL_MAGICS["mainnet"],
network_id=network_id,
)
assert address == expected_address