# This file is part of the Trezor project. # # Copyright (C) 2012-2018 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 logging from typing import Iterable, List, Set, Type from ..exceptions import TrezorException from ..protobuf import MessageType if False: # mark Set and List as used, otherwise they only exist in comments List, Set LOG = logging.getLogger(__name__) # USB vendor/product IDs for Trezors DEV_TREZOR1 = (0x534C, 0x0001) DEV_TREZOR2 = (0x1209, 0x53C1) DEV_TREZOR2_BL = (0x1209, 0x53C0) TREZORS = {DEV_TREZOR1, DEV_TREZOR2, DEV_TREZOR2_BL} UDEV_RULES_STR = """ Do you have udev rules installed? https://github.com/trezor/trezor-common/blob/master/udev/51-trezor.rules """.strip() class TransportException(TrezorException): pass class Transport: """Raw connection to a Trezor device. Transport subclass represents a kind of communication link: Trezor Bridge, WebUSB or USB-HID connection, or UDP socket of listening emulator(s). It can also enumerate devices available over this communication link, and return them as instances. Transport instance is a thing that: - can be identified and requested by a string URI-like path - can open and close sessions, which enclose related operations - can read and write protobuf messages You need to implement a new Transport subclass if you invent a new way to connect a Trezor device to a computer. """ PATH_PREFIX = None # type: str ENABLED = False def __str__(self) -> str: return self.get_path() def get_path(self) -> str: raise NotImplementedError def begin_session(self) -> None: raise NotImplementedError def end_session(self) -> None: raise NotImplementedError def read(self) -> MessageType: raise NotImplementedError def write(self, message: MessageType) -> None: raise NotImplementedError @classmethod def enumerate(cls) -> Iterable["Transport"]: raise NotImplementedError @classmethod def find_by_path(cls, path: str, prefix_search: bool = False) -> "Transport": for device in cls.enumerate(): if ( path is None or device.get_path() == path or (prefix_search and device.get_path().startswith(path)) ): return device raise TransportException( "{} device not found: {}".format(cls.PATH_PREFIX, path) ) def all_transports() -> Iterable[Type[Transport]]: from .bridge import BridgeTransport from .hid import HidTransport from .udp import UdpTransport from .webusb import WebUsbTransport return set( cls for cls in (BridgeTransport, HidTransport, UdpTransport, WebUsbTransport) if cls.ENABLED ) def enumerate_devices() -> Iterable[Transport]: devices = [] # type: List[Transport] for transport in all_transports(): name = transport.__name__ try: found = list(transport.enumerate()) LOG.info("Enumerating {}: found {} devices".format(name, len(found))) devices.extend(found) except NotImplementedError: LOG.error("{} does not implement device enumeration".format(name)) except Exception as e: excname = e.__class__.__name__ LOG.error("Failed to enumerate {}. {}: {}".format(name, excname, e)) return devices def get_transport(path: str = None, prefix_search: bool = False) -> Transport: if path is None: try: return next(iter(enumerate_devices())) except StopIteration: raise TransportException("No TREZOR device found") from None # Find whether B is prefix of A (transport name is part of the path) # or A is prefix of B (path is a prefix, or a name, of transport). # This naively expects that no two transports have a common prefix. def match_prefix(a: str, b: str) -> bool: return a.startswith(b) or b.startswith(a) LOG.info( "looking for device by {}: {}".format( "prefix" if prefix_search else "full path", path ) ) transports = [t for t in all_transports() if match_prefix(path, t.PATH_PREFIX)] if transports: return transports[0].find_by_path(path, prefix_search=prefix_search) raise TransportException("Could not find device by path: {}".format(path))