import itertools import pytest from trezorlib import btc, device, messages from trezorlib.messages import ButtonRequestType as B, ResetDeviceBackupType from trezorlib.tools import parse_path from .common import click_through, read_and_confirm_mnemonic, recovery_enter_shares @pytest.mark.skip_t1 @pytest.mark.setup_client(uninitialized=True) def test_reset_recovery(client): mnemonics = reset(client) address_before = btc.get_address(client, "Bitcoin", parse_path("44'/0'/0'/0/0")) for share_subset in itertools.combinations(mnemonics, 3): device.wipe(client) selected_mnemonics = share_subset recover(client, selected_mnemonics) address_after = btc.get_address(client, "Bitcoin", parse_path("44'/0'/0'/0/0")) assert address_before == address_after def reset(client, strength=128): all_mnemonics = [] # per SLIP-39: strength in bits, rounded up to nearest multiple of 10, plus 70 bits # of metadata, split into 10-bit words word_count = ((strength + 9) // 10) + 7 def input_flow(): # 1. Confirm Reset # 2. Backup your seed # 3. Confirm warning # 4. shares info # 5. Set & Confirm number of shares # 6. threshold info # 7. Set & confirm threshold value # 8. Confirm show seeds yield from click_through(client.debug, screens=8, code=B.ResetDevice) # show & confirm shares for h in range(5): # mnemonic phrases btn_code = yield assert btn_code == B.Other mnemonic = read_and_confirm_mnemonic(client.debug, words=word_count) all_mnemonics.append(mnemonic) # Confirm continue to next share btn_code = yield assert btn_code == B.Success client.debug.press_yes() # safety warning btn_code = yield assert btn_code == B.Success client.debug.press_yes() with client: client.set_expected_responses( [ messages.ButtonRequest(code=B.ResetDevice), messages.EntropyRequest(), messages.ButtonRequest(code=B.ResetDevice), messages.ButtonRequest(code=B.ResetDevice), messages.ButtonRequest(code=B.ResetDevice), messages.ButtonRequest(code=B.ResetDevice), messages.ButtonRequest(code=B.ResetDevice), messages.ButtonRequest(code=B.ResetDevice), messages.ButtonRequest(code=B.ResetDevice), messages.ButtonRequest(code=B.Other), messages.ButtonRequest(code=B.Success), messages.ButtonRequest(code=B.Other), messages.ButtonRequest(code=B.Success), messages.ButtonRequest(code=B.Other), messages.ButtonRequest(code=B.Success), messages.ButtonRequest(code=B.Other), messages.ButtonRequest(code=B.Success), messages.ButtonRequest(code=B.Other), messages.ButtonRequest(code=B.Success), messages.ButtonRequest(code=B.Success), messages.Success(), messages.Features(), ] ) client.set_input_flow(input_flow) # No PIN, no passphrase, don't display random device.reset( client, display_random=False, strength=strength, passphrase_protection=False, pin_protection=False, label="test", language="english", backup_type=ResetDeviceBackupType.Slip39_Single_Group, ) client.set_input_flow(None) # Check if device is properly initialized assert client.features.initialized is True assert client.features.needs_backup is False assert client.features.pin_protection is False assert client.features.passphrase_protection is False return all_mnemonics def recover(client, shares): debug = client.debug def input_flow(): yield # Confirm Recovery debug.press_yes() # run recovery flow yield from recovery_enter_shares(debug, shares) with client: client.set_input_flow(input_flow) ret = device.recover(client, pin_protection=False, label="label") client.set_input_flow(None) # Workflow successfully ended assert ret == messages.Success(message="Device recovered") assert client.features.pin_protection is False assert client.features.passphrase_protection is False