# This file is part of the Trezor project. # # Copyright (C) 2012-2022 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 json import logging import re import textwrap import time from contextlib import contextmanager from copy import deepcopy from datetime import datetime from enum import IntEnum from itertools import zip_longest from pathlib import Path from typing import ( TYPE_CHECKING, Any, Callable, Dict, Generator, Iterable, Iterator, List, Optional, Sequence, Tuple, Type, Union, ) from mnemonic import Mnemonic from . import mapping, messages, models, protobuf from .client import TrezorClient from .exceptions import TrezorFailure from .log import DUMP_BYTES from .messages import DebugWaitType from .tools import expect if TYPE_CHECKING: from typing_extensions import Protocol from .messages import PinMatrixRequestType from .transport import Transport ExpectedMessage = Union[ protobuf.MessageType, Type[protobuf.MessageType], "MessageFilter" ] AnyDict = Dict[str, Any] class InputFunc(Protocol): def __call__( self, hold_ms: Optional[int] = None, wait: Optional[bool] = None, ) -> "LayoutContent": ... EXPECTED_RESPONSES_CONTEXT_LINES = 3 LOG = logging.getLogger(__name__) class UnstructuredJSONReader: """Contains data-parsing helpers for JSON data that have unknown structure.""" def __init__(self, json_str: str) -> None: self.json_str = json_str # We may not receive valid JSON, e.g. from an old model in upgrade tests try: self.dict: "AnyDict" = json.loads(json_str) except json.JSONDecodeError: self.dict = {} def top_level_value(self, key: str) -> Any: return self.dict.get(key) def find_objects_with_key_and_value(self, key: str, value: Any) -> List["AnyDict"]: def recursively_find(data: Any) -> Iterator[Any]: if isinstance(data, dict): if data.get(key) == value: yield data for val in data.values(): yield from recursively_find(val) elif isinstance(data, list): for item in data: yield from recursively_find(item) return list(recursively_find(self.dict)) def find_unique_object_with_key_and_value( self, key: str, value: Any ) -> Optional["AnyDict"]: objects = self.find_objects_with_key_and_value(key, value) if not objects: return None assert len(objects) == 1 return objects[0] def find_values_by_key( self, key: str, only_type: Optional[type] = None ) -> List[Any]: def recursively_find(data: Any) -> Iterator[Any]: if isinstance(data, dict): if key in data: yield data[key] for val in data.values(): yield from recursively_find(val) elif isinstance(data, list): for item in data: yield from recursively_find(item) values = list(recursively_find(self.dict)) if only_type is not None: values = [v for v in values if isinstance(v, only_type)] return values def find_unique_value_by_key( self, key: str, default: Any, only_type: Optional[type] = None ) -> Any: values = self.find_values_by_key(key, only_type=only_type) if not values: return default assert len(values) == 1 return values[0] class LayoutContent(UnstructuredJSONReader): """Contains helper functions to extract specific parts of the layout.""" def __init__(self, json_tokens: Sequence[str]) -> None: json_str = "".join(json_tokens) super().__init__(json_str) def main_component(self) -> str: """Getting the main component of the layout.""" return self.top_level_value("component") or "no main component" def all_components(self) -> List[str]: """Getting all components of the layout.""" return self.find_values_by_key("component", only_type=str) def visible_screen(self) -> str: """String representation of a current screen content. Example: SIGN TRANSACTION -------------------- You are about to sign 3 actions. ******************** ICON_CANCEL, -, CONFIRM """ title_separator = f"\n{20*'-'}\n" btn_separator = f"\n{20*'*'}\n" visible = "" if self.title(): visible += self.title() visible += title_separator visible += self.screen_content() visible_buttons = self.button_contents() if visible_buttons: visible += btn_separator visible += ", ".join(visible_buttons) return visible def title(self) -> str: """Getting text that is displayed as a title.""" # There could be possibly subtitle as well title_parts: List[str] = [] def _get_str_or_dict_text(key: str) -> str: value = self.find_unique_value_by_key(key, "") if isinstance(value, dict): return value["text"] return value title = _get_str_or_dict_text("title") if title: title_parts.append(title) subtitle = _get_str_or_dict_text("subtitle") if subtitle: title_parts.append(subtitle) return "\n".join(title_parts) def text_content(self) -> str: """What is on the screen, in one long string, so content can be asserted regardless of newlines. Also getting rid of possible ellipsis. """ content = self.screen_content().replace("\n", " ") if content.endswith("..."): content = content[:-3] if content.startswith("..."): content = content[3:] return content def screen_content(self) -> str: """Getting text that is displayed in the main part of the screen. Preserving the line breaks. """ # Look for paragraphs first (will match most of the time for TT) paragraphs = self.raw_content_paragraphs() if paragraphs: main_text_blocks: List[str] = [] for par in paragraphs: par_content = "" for line_or_newline in par: par_content += line_or_newline par_content.replace("\n", " ") main_text_blocks.append(par_content) return "\n".join(main_text_blocks) # Formatted text formatted_text = self.find_unique_object_with_key_and_value( "component", "FormattedText" ) if formatted_text: text_lines = formatted_text["text"] return "".join(text_lines) # Check the choice_page - mainly for TR choice_page = self.find_unique_object_with_key_and_value( "component", "ChoicePage" ) if choice_page: left = choice_page.get("prev_choice", {}).get("content", "") middle = choice_page.get("current_choice", {}).get("content", "") right = choice_page.get("next_choice", {}).get("content", "") return " ".join(choice for choice in (left, middle, right) if choice) # Screen content - in TR share words screen_content = self.find_unique_value_by_key( "screen_content", default="", only_type=str ) if screen_content: return screen_content # Flow page - for TR flow_page = self.find_unique_value_by_key( "flow_page", default={}, only_type=dict ) if flow_page: text_lines = flow_page["text"] return "".join(text_lines) # Looking for any "text": "something" values text_values = self.find_values_by_key("text", only_type=str) if text_values: return "\n".join(text_values) # Default when not finding anything return self.main_component() def raw_content_paragraphs(self) -> Optional[List[List[str]]]: """Getting raw paragraphs as sent from Rust.""" return self.find_unique_value_by_key("paragraphs", default=None, only_type=list) def tt_check_seed_button_contents(self) -> List[str]: """Getting list of button contents.""" buttons: List[str] = [] button_objects = self.find_objects_with_key_and_value("component", "Button") for button in button_objects: if button.get("icon"): buttons.append("ICON") elif "text" in button: buttons.append(button["text"]) return buttons def button_contents(self) -> List[str]: """Getting list of button contents.""" buttons = self.find_unique_value_by_key("buttons", default={}, only_type=dict) def get_button_content(btn_key: str) -> str: button_obj = buttons.get(btn_key, {}) if button_obj.get("component") == "Button": if "icon" in button_obj: return button_obj["icon"] elif "text" in button_obj: return button_obj["text"] elif button_obj.get("component") == "HoldToConfirm": text = button_obj.get("loader", {}).get("text", "") duration = button_obj.get("loader", {}).get("duration", "") return f"{text} ({duration}ms)" # default value return "-" button_keys = ("left_btn", "middle_btn", "right_btn") return [get_button_content(btn_key) for btn_key in button_keys] def seed_words(self) -> List[str]: """Get all the seed words on the screen in order. Example content: "1. ladybug\n2. acid\n3. academic\n4. afraid" -> ["ladybug", "acid", "academic", "afraid"] """ words: List[str] = [] for line in self.screen_content().split("\n"): # Dot after index is optional (present on TT, not on TR) match = re.match(r"^\s*\d+\.? (\w+)$", line) if match: words.append(match.group(1)) return words def pin(self) -> str: """Get PIN from the layout.""" assert "PinKeyboard" in self.all_components() return self.find_unique_value_by_key("pin", default="", only_type=str) def passphrase(self) -> str: """Get passphrase from the layout.""" assert "PassphraseKeyboard" in self.all_components() return self.find_unique_value_by_key("passphrase", default="", only_type=str) def page_count(self) -> int: """Get number of pages for the layout.""" return ( self.find_unique_value_by_key( "scrollbar_page_count", default=0, only_type=int ) or self.find_unique_value_by_key("page_count", default=0, only_type=int) or 1 ) def active_page(self) -> int: """Get current page index of the layout.""" return self.find_unique_value_by_key("active_page", default=0, only_type=int) def tt_pin_digits_order(self) -> str: """In what order the PIN buttons are shown on the screen. Only for TT.""" return self.top_level_value("digits_order") or "no digits order" def get_middle_choice(self) -> str: """What is the choice being selected right now.""" return self.choice_items()[1] def choice_items(self) -> Tuple[str, str, str]: """Getting actions for all three possible buttons.""" choice_obj = self.find_unique_value_by_key( "choice_page", default={}, only_type=dict ) if not choice_obj: raise RuntimeError("No choice_page object in trace") choice_keys = ("prev_choice", "current_choice", "next_choice") return tuple( choice_obj.get(choice, {}).get("content", "") for choice in choice_keys ) def multipage_content(layouts: List[LayoutContent]) -> str: """Get overall content from multiple-page layout.""" return "".join(layout.text_content() for layout in layouts) def _make_input_func( button: Optional[messages.DebugButton] = None, physical_button: Optional[messages.DebugPhysicalButton] = None, swipe: Optional[messages.DebugSwipeDirection] = None, ) -> "InputFunc": decision = messages.DebugLinkDecision( button=button, physical_button=physical_button, swipe=swipe, ) def input_func( self: "DebugLink", hold_ms: Optional[int] = None, wait: Optional[bool] = None, ) -> LayoutContent: __tracebackhide__ = True # for pytest # pylint: disable=W0612 decision.hold_ms = hold_ms return self._decision(decision, wait=wait) return input_func # type: ignore [Parameter name mismatch] class DebugLink: def __init__(self, transport: "Transport", auto_interact: bool = True) -> None: self.transport = transport self.allow_interactions = auto_interact self.mapping = mapping.DEFAULT_MAPPING # To be set by TrezorClientDebugLink (is not known during creation time) self.model: Optional[models.TrezorModel] = None self.version: Tuple[int, int, int] = (0, 0, 0) # Where screenshots are being saved self.screenshot_recording_dir: Optional[str] = None # For T1 screenshotting functionality in DebugUI self.t1_screenshot_directory: Optional[Path] = None self.t1_screenshot_counter = 0 # Optional file for saving text representation of the screen self.screen_text_file: Optional[Path] = None self.last_screen_content = "" self.waiting_for_layout_change = False self.layout_dirty = True self.input_wait_type = DebugWaitType.IMMEDIATE @property def legacy_ui(self) -> bool: """Differences between UI1 and UI2.""" return self.version < (2, 6, 0) @property def legacy_debug(self) -> bool: """Differences in handling debug events and LayoutContent.""" return self.version < (2, 6, 1) def set_screen_text_file(self, file_path: Optional[Path]) -> None: if file_path is not None: file_path.write_bytes(b"") self.screen_text_file = file_path def open(self) -> None: self.transport.begin_session() def close(self) -> None: self.transport.end_session() def _write(self, msg: protobuf.MessageType) -> None: if self.waiting_for_layout_change: raise RuntimeError( "Debuglink is unavailable while waiting for layout change." ) LOG.debug( f"sending message: {msg.__class__.__name__}", extra={"protobuf": msg}, ) msg_type, msg_bytes = self.mapping.encode(msg) LOG.log( DUMP_BYTES, f"encoded as type {msg_type} ({len(msg_bytes)} bytes): {msg_bytes.hex()}", ) self.transport.write(msg_type, msg_bytes) def _read(self) -> protobuf.MessageType: ret_type, ret_bytes = self.transport.read() LOG.log( DUMP_BYTES, f"received type {ret_type} ({len(ret_bytes)} bytes): {ret_bytes.hex()}", ) msg = self.mapping.decode(ret_type, ret_bytes) LOG.debug( f"received message: {msg.__class__.__name__}", extra={"protobuf": msg}, ) return msg def _call(self, msg: protobuf.MessageType) -> Any: self._write(msg) return self._read() def state( self, wait_type: DebugWaitType = DebugWaitType.CURRENT_LAYOUT ) -> messages.DebugLinkState: result = self._call(messages.DebugLinkGetState(wait_layout=wait_type)) if isinstance(result, messages.Failure): raise TrezorFailure(result) return result def read_layout(self) -> LayoutContent: return LayoutContent(self.state().tokens) def wait_layout(self, wait_for_external_change: bool = False) -> LayoutContent: # Next layout change will be caused by external event # (e.g. device being auto-locked or as a result of device_handler.run(xxx)) # and not by our debug actions/decisions. # Resetting the debug state so we wait for the next layout change # (and do not return the current state). if wait_for_external_change: self.reset_debug_events() obj = self._call( messages.DebugLinkGetState(wait_layout=DebugWaitType.NEXT_LAYOUT) ) self.layout_dirty = True if isinstance(obj, messages.Failure): raise TrezorFailure(obj) return LayoutContent(obj.tokens) @contextmanager def wait_for_layout_change(self) -> Iterator[LayoutContent]: # set up a dummy layout content object to be yielded layout_content = LayoutContent( ["DUMMY CONTENT, WAIT UNTIL THE END OF THE BLOCK :("] ) # send GetState without waiting for reply self._write(messages.DebugLinkGetState(wait_layout=DebugWaitType.NEXT_LAYOUT)) # allow the block to proceed self.waiting_for_layout_change = True try: yield layout_content finally: self.waiting_for_layout_change = False # wait for the reply resp = self._read() assert isinstance(resp, messages.DebugLinkState) # replace contents of the yielded object with the new thing layout_content.__init__(resp.tokens) def reset_debug_events(self) -> None: # Only supported on TT and above certain version if (self.model is not models.T1B1) and not self.legacy_debug: return self._call(messages.DebugLinkResetDebugEvents()) return None def synchronize_at(self, layout_text: str, timeout: float = 5) -> LayoutContent: now = time.monotonic() while True: layout = self.read_layout() if layout_text in layout.json_str: return layout if time.monotonic() - now > timeout: raise RuntimeError("Timeout waiting for layout") time.sleep(0.1) def watch_layout(self, watch: bool) -> None: """Enable or disable watching layouts. If disabled, wait_layout will not work. The message is missing on T1. Use `TrezorClientDebugLink.watch_layout` for cross-version compatibility. """ self._call(messages.DebugLinkWatchLayout(watch=watch)) def encode_pin(self, pin: str, matrix: Optional[str] = None) -> str: """Transform correct PIN according to the displayed matrix.""" if matrix is None: matrix = self.state().matrix if matrix is None: # we are on trezor-core return pin return "".join([str(matrix.index(p) + 1) for p in pin]) def read_recovery_word(self) -> Tuple[Optional[str], Optional[int]]: state = self.state() return (state.recovery_fake_word, state.recovery_word_pos) def read_reset_word(self) -> str: state = self._call(messages.DebugLinkGetState(wait_word_list=True)) return state.reset_word def _decision( self, decision: messages.DebugLinkDecision, wait: Optional[bool] = None ) -> LayoutContent: """Send a debuglink decision and returns the resulting layout. If hold_ms is set, an additional 200ms is added to account for processing delays. (This is needed for hold-to-confirm to trigger reliably.) If `wait` is unset, the current wait mode is used: - when in normal tests, IMMEDIATE, which never deadlocks the device, but may return an empty layout in case the next one didn't come up immediately. (E.g., in SignTx flow, the device is waiting for more TxRequest/TxAck exchanges before showing the next UI layout.) - when in tests running through a `DeviceHandler`, CURRENT_LAYOUT, which waits for the next layout to come up. The assumption is that wirelink is communicating on another thread and won't be blocked by waiting on debuglink. Force waiting for the layout by setting `wait=True`. Force not waiting by setting `wait=False` -- useful when, e.g., you are causing the next layout to be deliberately delayed. """ if not self.allow_interactions: return self.wait_layout() if decision.hold_ms is not None: decision.hold_ms += 200 self._write(decision) self.layout_dirty = True if wait is True: wait_type = DebugWaitType.CURRENT_LAYOUT elif wait is False: wait_type = DebugWaitType.IMMEDIATE else: wait_type = self.input_wait_type return self._snapshot_core(wait_type) press_yes = _make_input_func(button=messages.DebugButton.YES) """Confirm current layout. See `_decision` for more details.""" press_no = _make_input_func(button=messages.DebugButton.NO) """Reject current layout. See `_decision` for more details.""" press_info = _make_input_func(button=messages.DebugButton.INFO) """Trigger the Info action. See `_decision` for more details.""" swipe_up = _make_input_func(swipe=messages.DebugSwipeDirection.UP) """Swipe up. See `_decision` for more details.""" swipe_down = _make_input_func(swipe=messages.DebugSwipeDirection.DOWN) """Swipe down. See `_decision` for more details.""" swipe_right = _make_input_func(swipe=messages.DebugSwipeDirection.RIGHT) """Swipe right. See `_decision` for more details.""" swipe_left = _make_input_func(swipe=messages.DebugSwipeDirection.LEFT) """Swipe left. See `_decision` for more details.""" press_left = _make_input_func(physical_button=messages.DebugPhysicalButton.LEFT_BTN) """Press left button. See `_decision` for more details.""" press_middle = _make_input_func( physical_button=messages.DebugPhysicalButton.MIDDLE_BTN ) """Press middle button. See `_decision` for more details.""" press_right = _make_input_func( physical_button=messages.DebugPhysicalButton.RIGHT_BTN ) """Press right button. See `_decision` for more details.""" def input(self, word: str, wait: Optional[bool] = None) -> LayoutContent: """Send text input to the device. See `_decision` for more details.""" return self._decision(messages.DebugLinkDecision(input=word), wait) def click( self, click: Tuple[int, int], hold_ms: Optional[int] = None, wait: Optional[bool] = None, ) -> LayoutContent: """Send a click to the device. See `_decision` for more details.""" x, y = click return self._decision( messages.DebugLinkDecision(x=x, y=y, hold_ms=hold_ms), wait ) def _snapshot_core( self, wait_type: DebugWaitType = DebugWaitType.IMMEDIATE ) -> LayoutContent: """Save text and image content of the screen to relevant directories.""" # skip the snapshot if we are on T1 if self.model is models.T1B1: return LayoutContent([]) # take the snapshot state = self.state(wait_type) layout = LayoutContent(state.tokens) if state.tokens and self.layout_dirty: # save it, unless we already did or unless it's empty self.save_debug_screen(layout.visible_screen()) self.layout_dirty = False # return the layout return layout def save_debug_screen(self, screen_content: str) -> None: if self.screen_text_file is None: return if not self.screen_text_file.exists(): self.screen_text_file.write_bytes(b"") # Not writing the same screen twice if screen_content == self.last_screen_content: return self.last_screen_content = screen_content with open(self.screen_text_file, "a") as f: f.write(screen_content) f.write("\n" + 80 * "/" + "\n") def stop(self) -> None: self._write(messages.DebugLinkStop()) def reseed(self, value: int) -> protobuf.MessageType: return self._call(messages.DebugLinkReseedRandom(value=value)) def start_recording( self, directory: str, refresh_index: Optional[int] = None ) -> None: self.screenshot_recording_dir = directory # Different recording logic between core and legacy if self.model is not models.T1B1: self._call( messages.DebugLinkRecordScreen( target_directory=directory, refresh_index=refresh_index ) ) else: self.t1_screenshot_directory = Path(directory) self.t1_screenshot_counter = 0 self.t1_take_screenshots = True def stop_recording(self) -> None: self.screenshot_recording_dir = None # Different recording logic between TT and T1 if self.model is not models.T1B1: self._call(messages.DebugLinkRecordScreen(target_directory=None)) else: self.t1_take_screenshots = False @expect(messages.DebugLinkMemory, field="memory", ret_type=bytes) def memory_read(self, address: int, length: int) -> protobuf.MessageType: return self._call(messages.DebugLinkMemoryRead(address=address, length=length)) def memory_write(self, address: int, memory: bytes, flash: bool = False) -> None: self._write( messages.DebugLinkMemoryWrite(address=address, memory=memory, flash=flash) ) def flash_erase(self, sector: int) -> None: self._write(messages.DebugLinkFlashErase(sector=sector)) @expect(messages.Success) def erase_sd_card(self, format: bool = True) -> messages.Success: return self._call(messages.DebugLinkEraseSdCard(format=format)) def snapshot_legacy(self) -> None: """Snapshot the current state of the device.""" if self.model is not models.T1B1: return state = self.state() if state.layout is not None: self._save_screenshot_t1(state.layout) def _save_screenshot_t1(self, data: bytes) -> None: if self.t1_screenshot_directory is None: return from PIL import Image assert len(data) == 128 * 64 // 8 pixels: List[int] = [] for byteline in range(64 // 8): offset = byteline * 128 row = data[offset : offset + 128] for bit in range(8): pixels.extend(bool(px & (1 << bit)) for px in row) im = Image.new("1", (128, 64)) im.putdata(pixels[::-1]) img_location = ( self.t1_screenshot_directory / f"{self.t1_screenshot_counter:04d}.png" ) im.save(img_location) self.t1_screenshot_counter += 1 del _make_input_func class NullDebugLink(DebugLink): def __init__(self) -> None: # Ignoring type error as self.transport will not be touched while using NullDebugLink super().__init__(None) # type: ignore [Argument of type "None" cannot be assigned to parameter "transport"] def open(self) -> None: pass def close(self) -> None: pass def _call( self, msg: protobuf.MessageType, nowait: bool = False ) -> Optional[messages.DebugLinkState]: if not nowait: if isinstance(msg, messages.DebugLinkGetState): return messages.DebugLinkState() else: raise RuntimeError("unexpected call to a fake debuglink") return None class DebugUI: INPUT_FLOW_DONE = object() def __init__(self, debuglink: DebugLink) -> None: self.debuglink = debuglink self.clear() def clear(self) -> None: self.pins: Optional[Iterator[str]] = None self.passphrase = "" self.input_flow: Union[ Generator[None, messages.ButtonRequest, None], object, None ] = None def button_request(self, br: messages.ButtonRequest) -> None: self.debuglink.snapshot_legacy() if self.input_flow is None: if br.code == messages.ButtonRequestType.PinEntry: self.debuglink.input(self.get_pin()) else: # Paginating (going as further as possible) and pressing Yes if br.pages is not None: for _ in range(br.pages - 1): self.debuglink.swipe_up(wait=True) self.debuglink.press_yes() elif self.input_flow is self.INPUT_FLOW_DONE: raise AssertionError("input flow ended prematurely") else: try: assert isinstance(self.input_flow, Generator) self.input_flow.send(br) except StopIteration: self.input_flow = self.INPUT_FLOW_DONE def get_pin(self, code: Optional["PinMatrixRequestType"] = None) -> str: self.debuglink.snapshot_legacy() if self.pins is None: raise RuntimeError("PIN requested but no sequence was configured") try: return self.debuglink.encode_pin(next(self.pins)) except StopIteration: raise AssertionError("PIN sequence ended prematurely") def get_passphrase(self, available_on_device: bool) -> str: self.debuglink.snapshot_legacy() return self.passphrase class MessageFilter: def __init__(self, message_type: Type[protobuf.MessageType], **fields: Any) -> None: self.message_type = message_type self.fields: Dict[str, Any] = {} self.update_fields(**fields) def update_fields(self, **fields: Any) -> "MessageFilter": for name, value in fields.items(): try: self.fields[name] = self.from_message_or_type(value) except TypeError: self.fields[name] = value return self @classmethod def from_message_or_type( cls, message_or_type: "ExpectedMessage" ) -> "MessageFilter": if isinstance(message_or_type, cls): return message_or_type if isinstance(message_or_type, protobuf.MessageType): return cls.from_message(message_or_type) if isinstance(message_or_type, type) and issubclass( message_or_type, protobuf.MessageType ): return cls(message_or_type) raise TypeError("Invalid kind of expected response") @classmethod def from_message(cls, message: protobuf.MessageType) -> "MessageFilter": fields = {} for field in message.FIELDS.values(): value = getattr(message, field.name) if value in (None, [], protobuf.REQUIRED_FIELD_PLACEHOLDER): continue fields[field.name] = value return cls(type(message), **fields) def match(self, message: protobuf.MessageType) -> bool: if type(message) is not self.message_type: return False for field, expected_value in self.fields.items(): actual_value = getattr(message, field, None) if isinstance(expected_value, MessageFilter): if actual_value is None or not expected_value.match(actual_value): return False elif expected_value != actual_value: return False return True def to_string(self, maxwidth: int = 80) -> str: fields: List[Tuple[str, str]] = [] for field in self.message_type.FIELDS.values(): if field.name not in self.fields: continue value = self.fields[field.name] if isinstance(value, IntEnum): field_str = value.name elif isinstance(value, MessageFilter): field_str = value.to_string(maxwidth - 4) elif isinstance(value, protobuf.MessageType): field_str = protobuf.format_message(value) else: field_str = repr(value) field_str = textwrap.indent(field_str, " ").lstrip() fields.append((field.name, field_str)) pairs = [f"{k}={v}" for k, v in fields] oneline_str = ", ".join(pairs) if len(oneline_str) < maxwidth: return f"{self.message_type.__name__}({oneline_str})" else: item: List[str] = [] item.append(f"{self.message_type.__name__}(") for pair in pairs: item.append(f" {pair}") item.append(")") return "\n".join(item) class MessageFilterGenerator: def __getattr__(self, key: str) -> Callable[..., "MessageFilter"]: message_type = getattr(messages, key) return MessageFilter(message_type).update_fields message_filters = MessageFilterGenerator() class TrezorClientDebugLink(TrezorClient): # This class implements automatic responses # and other functionality for unit tests # for various callbacks, created in order # to automatically pass unit tests. # # This mixing should be used only for purposes # of unit testing, because it will fail to work # without special DebugLink interface provided # by the device. def __init__(self, transport: "Transport", auto_interact: bool = True) -> None: try: debug_transport = transport.find_debug() self.debug = DebugLink(debug_transport, auto_interact) # try to open debuglink, see if it works self.debug.open() self.debug.close() except Exception: if not auto_interact: self.debug = NullDebugLink() else: raise self.reset_debug_features() super().__init__(transport, ui=self.ui) # So that we can choose right screenshotting logic (T1 vs TT) # and know the supported debug capabilities self.debug.model = self.model self.debug.version = self.version def reset_debug_features(self) -> None: """Prepare the debugging client for a new testcase. Clears all debugging state that might have been modified by a testcase. """ self.ui: DebugUI = DebugUI(self.debug) self.in_with_statement = False self.expected_responses: Optional[List[MessageFilter]] = None self.actual_responses: Optional[List[protobuf.MessageType]] = None self.filters: Dict[ Type[protobuf.MessageType], Optional[Callable[[protobuf.MessageType], protobuf.MessageType]], ] = {} def ensure_open(self) -> None: """Only open session if there isn't already an open one.""" if self.session_counter == 0: self.open() def open(self) -> None: super().open() if self.session_counter == 1: self.debug.open() def close(self) -> None: if self.session_counter == 1: self.debug.close() super().close() def set_filter( self, message_type: Type[protobuf.MessageType], callback: Optional[Callable[[protobuf.MessageType], protobuf.MessageType]], ) -> None: """Configure a filter function for a specified message type. The `callback` must be a function that accepts a protobuf message, and returns a (possibly modified) protobuf message of the same type. Whenever a message is sent or received that matches `message_type`, `callback` is invoked on the message and its result is substituted for the original. Useful for test scenarios with an active malicious actor on the wire. """ if not self.in_with_statement: raise RuntimeError("Must be called inside 'with' statement") self.filters[message_type] = callback def _filter_message(self, msg: protobuf.MessageType) -> protobuf.MessageType: message_type = msg.__class__ callback = self.filters.get(message_type) if callable(callback): return callback(deepcopy(msg)) else: return msg def set_input_flow( self, input_flow: Generator[None, Optional[messages.ButtonRequest], None] ) -> None: """Configure a sequence of input events for the current with-block. The `input_flow` must be a generator function. A `yield` statement in the input flow function waits for a ButtonRequest from the device, and returns its code. Example usage: >>> def input_flow(): >>> # wait for first button prompt >>> code = yield >>> assert code == ButtonRequestType.Other >>> # press No >>> client.debug.press_no() >>> >>> # wait for second button prompt >>> yield >>> # press Yes >>> client.debug.press_yes() >>> >>> with client: >>> client.set_input_flow(input_flow) >>> some_call(client) """ if not self.in_with_statement: raise RuntimeError("Must be called inside 'with' statement") if callable(input_flow): input_flow = input_flow() if not hasattr(input_flow, "send"): raise RuntimeError("input_flow should be a generator function") self.ui.input_flow = input_flow input_flow.send(None) # start the generator def watch_layout(self, watch: bool = True) -> None: """Enable or disable watching layout changes. Since trezor-core v2.3.2, it is necessary to call `watch_layout()` before using `debug.wait_layout()`, otherwise layout changes are not reported. """ if self.version >= (2, 3, 2): # version check is necessary because otherwise we cannot reliably detect # whether and where to wait for reply: # - T1 reports unknown debuglink messages on the wirelink # - TT < 2.3.0 does not reply to unknown debuglink messages due to a bug self.debug.watch_layout(watch) def __enter__(self) -> "TrezorClientDebugLink": # For usage in with/expected_responses if self.in_with_statement: raise RuntimeError("Do not nest!") self.in_with_statement = True return self def __exit__(self, exc_type: Any, value: Any, traceback: Any) -> None: __tracebackhide__ = True # for pytest # pylint: disable=W0612 # copy expected/actual responses before clearing them expected_responses = self.expected_responses actual_responses = self.actual_responses # grab a copy of the inputflow generator to raise an exception through it if isinstance(self.ui, DebugUI): input_flow = self.ui.input_flow else: input_flow = None self.reset_debug_features() if exc_type is None: # If no other exception was raised, evaluate missed responses # (raises AssertionError on mismatch) self._verify_responses(expected_responses, actual_responses) if isinstance(input_flow, Generator): # Ensure that the input flow is exhausted try: input_flow.throw( AssertionError("input flow continues past end of test") ) except StopIteration: pass elif isinstance(input_flow, Generator): # Propagate the exception through the input flow, so that we see in # traceback where it is stuck. input_flow.throw(exc_type, value, traceback) def set_expected_responses( self, expected: List[Union["ExpectedMessage", Tuple[bool, "ExpectedMessage"]]] ) -> None: """Set a sequence of expected responses to client calls. Within a given with-block, the list of received responses from device must match the list of expected responses, otherwise an AssertionError is raised. If an expected response is given a field value other than None, that field value must exactly match the received field value. If a given field is None (or unspecified) in the expected response, the received field value is not checked. Each expected response can also be a tuple (bool, message). In that case, the expected response is only evaluated if the first field is True. This is useful for differentiating sequences between Trezor models: >>> trezor_one = client.features.model == "1" >>> client.set_expected_responses([ >>> messages.ButtonRequest(code=ConfirmOutput), >>> (trezor_one, messages.ButtonRequest(code=ConfirmOutput)), >>> messages.Success(), >>> ]) """ if not self.in_with_statement: raise RuntimeError("Must be called inside 'with' statement") # make sure all items are (bool, message) tuples expected_with_validity = ( e if isinstance(e, tuple) else (True, e) for e in expected ) # only apply those items that are (True, message) self.expected_responses = [ MessageFilter.from_message_or_type(expected) for valid, expected in expected_with_validity if valid ] self.actual_responses = [] def use_pin_sequence(self, pins: Iterable[str]) -> None: """Respond to PIN prompts from device with the provided PINs. The sequence must be at least as long as the expected number of PIN prompts. """ self.ui.pins = iter(pins) def use_passphrase(self, passphrase: str) -> None: """Respond to passphrase prompts from device with the provided passphrase.""" self.ui.passphrase = Mnemonic.normalize_string(passphrase) def use_mnemonic(self, mnemonic: str) -> None: """Use the provided mnemonic to respond to device. Only applies to T1, where device prompts the host for mnemonic words.""" self.mnemonic = Mnemonic.normalize_string(mnemonic).split(" ") def _raw_read(self) -> protobuf.MessageType: __tracebackhide__ = True # for pytest # pylint: disable=W0612 resp = super()._raw_read() resp = self._filter_message(resp) if self.actual_responses is not None: self.actual_responses.append(resp) return resp def _raw_write(self, msg: protobuf.MessageType) -> None: return super()._raw_write(self._filter_message(msg)) @staticmethod def _expectation_lines(expected: List[MessageFilter], current: int) -> List[str]: start_at = max(current - EXPECTED_RESPONSES_CONTEXT_LINES, 0) stop_at = min(current + EXPECTED_RESPONSES_CONTEXT_LINES + 1, len(expected)) output: List[str] = [] output.append("Expected responses:") if start_at > 0: output.append(f" (...{start_at} previous responses omitted)") for i in range(start_at, stop_at): exp = expected[i] prefix = " " if i != current else ">>> " output.append(textwrap.indent(exp.to_string(), prefix)) if stop_at < len(expected): omitted = len(expected) - stop_at output.append(f" (...{omitted} following responses omitted)") output.append("") return output @classmethod def _verify_responses( cls, expected: Optional[List[MessageFilter]], actual: Optional[List[protobuf.MessageType]], ) -> None: __tracebackhide__ = True # for pytest # pylint: disable=W0612 if expected is None and actual is None: return assert expected is not None assert actual is not None for i, (exp, act) in enumerate(zip_longest(expected, actual)): if exp is None: output = cls._expectation_lines(expected, i) output.append("No more messages were expected, but we got:") for resp in actual[i:]: output.append( textwrap.indent(protobuf.format_message(resp), " ") ) raise AssertionError("\n".join(output)) if act is None: output = cls._expectation_lines(expected, i) output.append("This and the following message was not received.") raise AssertionError("\n".join(output)) if not exp.match(act): output = cls._expectation_lines(expected, i) output.append("Actually received:") output.append(textwrap.indent(protobuf.format_message(act), " ")) raise AssertionError("\n".join(output)) def sync_responses(self) -> None: """Synchronize Trezor device receiving with caller. When a failed test does not read out the response, the next caller will write a request, but read the previous response -- while the device had already sent and placed into queue the new response. This function will call `Ping` and read responses until it locates a `Success` with the expected text. This means that we are reading up-to-date responses. """ import secrets # Start by canceling whatever is on screen. This will work to cancel T1 PIN # prompt, which is in TINY mode and does not respond to `Ping`. # go to super() to avoid message filtering super()._raw_write(messages.Cancel()) message = "SYNC" + secrets.token_hex(8) super()._raw_write(messages.Ping(message=message)) resp = None while resp != messages.Success(message=message): resp = super()._raw_read() def mnemonic_callback(self, _) -> str: word, pos = self.debug.read_recovery_word() if word: return word if pos: return self.mnemonic[pos - 1] raise RuntimeError("Unexpected call") @expect(messages.Success, field="message", ret_type=str) def load_device( client: "TrezorClient", mnemonic: Union[str, Iterable[str]], pin: Optional[str], passphrase_protection: bool, label: Optional[str], skip_checksum: bool = False, needs_backup: bool = False, no_backup: bool = False, ) -> protobuf.MessageType: if isinstance(mnemonic, str): mnemonic = [mnemonic] mnemonics = [Mnemonic.normalize_string(m) for m in mnemonic] if client.features.initialized: raise RuntimeError( "Device is initialized already. Call device.wipe() and try again." ) resp = client.call( messages.LoadDevice( mnemonics=mnemonics, pin=pin, passphrase_protection=passphrase_protection, label=label, skip_checksum=skip_checksum, needs_backup=needs_backup, no_backup=no_backup, ) ) client.init_device() return resp # keep the old name for compatibility load_device_by_mnemonic = load_device @expect(messages.Success, field="message", ret_type=str) def prodtest_t1(client: "TrezorClient") -> protobuf.MessageType: if client.features.bootloader_mode is not True: raise RuntimeError("Device must be in bootloader mode") return client.call( messages.ProdTestT1( payload=b"\x00\xFF\x55\xAA\x66\x99\x33\xCCABCDEFGHIJKLMNOPQRSTUVWXYZ0123456789!\x00\xFF\x55\xAA\x66\x99\x33\xCC" ) ) def record_screen( debug_client: "TrezorClientDebugLink", directory: Union[str, None], report_func: Union[Callable[[str], None], None] = None, ) -> None: """Record screen changes into a specified directory. Passing `None` as `directory` stops the recording. Creates subdirectories inside a specified directory, one for each session (for each new call of this function). (So that older screenshots are not overwritten by new ones.) Is available only for emulators, hardware devices are not capable of that. """ def get_session_screenshot_dir(directory: Path) -> Path: """Create and return screenshot dir for the current session, according to datetime.""" session_dir = directory / datetime.now().strftime("%Y-%m-%d_%H-%M-%S") session_dir.mkdir(parents=True, exist_ok=True) return session_dir if not _is_emulator(debug_client): raise RuntimeError("Recording is only supported on emulator.") if directory is None: debug_client.debug.stop_recording() if report_func is not None: report_func("Recording stopped.") else: # Transforming the directory into an absolute path, # because emulator demands it abs_directory = Path(directory).resolve() # Creating the dir when it does not exist yet if not abs_directory.exists(): abs_directory.mkdir(parents=True, exist_ok=True) # Getting a new screenshot dir for the current session current_session_dir = get_session_screenshot_dir(abs_directory) debug_client.debug.start_recording(str(current_session_dir)) if report_func is not None: report_func(f"Recording started into {current_session_dir}.") def _is_emulator(debug_client: "TrezorClientDebugLink") -> bool: """Check if we are connected to emulator, in contrast to hardware device.""" return debug_client.features.fw_vendor == "EMULATOR"