import typing as t from dataclasses import dataclass from functools import wraps from json.decoder import JSONDecodeError from subprocess import list2cmdline import uiautomator2 as u2 from adbutils.errors import AdbError from lxml import etree from module.base.utils import * from module.device.connection import Connection from module.device.method.utils import (RETRY_TRIES, retry_sleep, handle_adb_error, ImageTruncated, PackageNotInstalled, possible_reasons) from module.exception import RequestHumanTakeover from module.logger import logger def retry(func): @wraps(func) def retry_wrapper(self, *args, **kwargs): """ Args: self (Uiautomator2): """ init = None for _ in range(RETRY_TRIES): try: if callable(init): retry_sleep(_) init() return func(self, *args, **kwargs) # Can't handle except RequestHumanTakeover: break # When adb server was killed except ConnectionResetError as e: logger.error(e) def init(): self.adb_reconnect() # In `device.set_new_command_timeout(604800)` # json.decoder.JSONDecodeError: Expecting value: line 1 column 2 (char 1) except JSONDecodeError as e: logger.error(e) def init(): self.install_uiautomator2() # AdbError except AdbError as e: if handle_adb_error(e): def init(): self.adb_reconnect() else: break # RuntimeError: USB device 127.0.0.1:5555 is offline except RuntimeError as e: if handle_adb_error(e): def init(): self.adb_reconnect() else: break # In `assert c.read string(4) == _OKAY` # ADB on emulator not enabled except AssertionError as e: logger.exception(e) possible_reasons( 'If you are using BlueStacks or LD player or WSA, ' 'please enable ADB in the settings of your emulator' ) break # Package not installed except PackageNotInstalled as e: logger.error(e) def init(): self.detect_package() # ImageTruncated except ImageTruncated as e: logger.error(e) def init(): pass # Unknown except Exception as e: logger.exception(e) def init(): pass logger.critical(f'Retry {func.__name__}() failed') raise RequestHumanTakeover return retry_wrapper @dataclass class ProcessInfo: pid: int ppid: int thread_count: int cmdline: str name: str @dataclass class ShellBackgroundResponse: success: bool pid: int description: str class Uiautomator2(Connection): @retry def screenshot_uiautomator2(self): image = self.u2.screenshot(format='raw') image = np.frombuffer(image, np.uint8) if image is None: raise ImageTruncated('Empty image after reading from buffer') image = cv2.imdecode(image, cv2.IMREAD_COLOR) if image is None: raise ImageTruncated('Empty image after cv2.imdecode') image = cv2.cvtColor(image, cv2.COLOR_BGR2RGB) if image is None: raise ImageTruncated('Empty image after cv2.cvtColor') return image @retry def click_uiautomator2(self, x, y): self.u2.click(x, y) @retry def long_click_uiautomator2(self, x, y, duration=(1, 1.2)): self.u2.long_click(x, y, duration=duration) @retry def swipe_uiautomator2(self, p1, p2, duration=0.1): self.u2.swipe(*p1, *p2, duration=duration) @retry def _drag_along(self, path): """Swipe following path. Args: path (list): (x, y, sleep) Examples: al.drag_along([ (403, 421, 0.2), (821, 326, 0.1), (821, 326-10, 0.1), (821, 326+10, 0.1), (821, 326, 0), ]) Equals to: al.device.touch.down(403, 421) time.sleep(0.2) al.device.touch.move(821, 326) time.sleep(0.1) al.device.touch.move(821, 326-10) time.sleep(0.1) al.device.touch.move(821, 326+10) time.sleep(0.1) al.device.touch.up(821, 326) """ length = len(path) for index, data in enumerate(path): x, y, second = data if index == 0: self.u2.touch.down(x, y) logger.info(point2str(x, y) + ' down') elif index - length == -1: self.u2.touch.up(x, y) logger.info(point2str(x, y) + ' up') else: self.u2.touch.move(x, y) logger.info(point2str(x, y) + ' move') self.sleep(second) def drag_uiautomator2(self, p1, p2, segments=1, shake=(0, 15), point_random=(-10, -10, 10, 10), shake_random=(-5, -5, 5, 5), swipe_duration=0.25, shake_duration=0.1): """Drag and shake, like: /\ +-----------+ + + \/ A simple swipe or drag don't work well, because it only has two points. Add some way point to make it more like swipe. Args: p1 (tuple): Start point, (x, y). p2 (tuple): End point, (x, y). segments (int): shake (tuple): Shake after arrive end point. point_random: Add random to start point and end point. shake_random: Add random to shake array. swipe_duration: Duration between way points. shake_duration: Duration between shake points. """ p1 = np.array(p1) - random_rectangle_point(point_random) p2 = np.array(p2) - random_rectangle_point(point_random) path = [(x, y, swipe_duration) for x, y in random_line_segments(p1, p2, n=segments, random_range=point_random)] path += [ (*p2 + shake + random_rectangle_point(shake_random), shake_duration), (*p2 - shake - random_rectangle_point(shake_random), shake_duration), (*p2, shake_duration) ] path = [(int(x), int(y), d) for x, y, d in path] self._drag_along(path) @retry def app_current_uiautomator2(self): """ Returns: str: Package name. """ result = self.u2.app_current() return result['package'] @retry def app_start_uiautomator2(self, package_name=None): if not package_name: package_name = self.package try: self.u2.app_start(package_name) except u2.exceptions.BaseError as e: # BaseError: package "com.bilibili.azurlane" not found logger.error(e) raise PackageNotInstalled(package_name) @retry def app_stop_uiautomator2(self, package_name=None): if not package_name: package_name = self.package self.u2.app_stop(package_name) @retry def dump_hierarchy_uiautomator2(self) -> etree._Element: content = self.u2.dump_hierarchy(compressed=True) hierarchy = etree.fromstring(content.encode('utf-8')) return hierarchy @retry def resolution_uiautomator2(self) -> t.Tuple[int, int]: """ Faster u2.window_size(), cause that calls `dumpsys display` twice. Returns: (width, height) """ info = self.u2.http.get('/info').json() w, h = info['display']['width'], info['display']['height'] rotation = self.get_orientation() if (w > h) != (rotation % 2 == 1): w, h = h, w return w, h def resolution_check_uiautomator2(self): """ Alas does not actively check resolution but the width and height of screenshots. However, some screenshot methods do not provide device resolution, so check it here. Returns: (width, height) Raises: RequestHumanTakeover: If resolution is not 1280x720 """ width, height = self.resolution_uiautomator2() logger.attr('Screen_size', f'{width}x{height}') if width == 1280 and height == 720: return (width, height) if width == 720 and height == 1280: return (width, height) logger.critical(f'Resolution not supported: {width}x{height}') logger.critical('Please set emulator resolution to 1280x720') raise RequestHumanTakeover @retry def proc_list_uiautomator2(self) -> t.List[ProcessInfo]: """ Get info about current processes. """ resp = self.u2.http.get("/proc/list", timeout=10) resp.raise_for_status() result = [ ProcessInfo( pid=proc['pid'], ppid=proc['ppid'], thread_count=proc['threadCount'], cmdline=' '.join(proc['cmdline']) if proc['cmdline'] is not None else '', name=proc['name'], ) for proc in resp.json() ] return result @retry def u2_shell_background(self, cmdline, timeout=10) -> ShellBackgroundResponse: """ Run at background. Note that this function will always return a success response, as this is a untested and hidden method in ATX. """ if isinstance(cmdline, (list, tuple)): cmdline = list2cmdline(cmdline) elif isinstance(cmdline, str): cmdline = cmdline else: raise TypeError("cmdargs type invalid", type(cmdline)) data = dict(command=cmdline, timeout=str(timeout)) ret = self.u2.http.post("/shell/background", data=data, timeout=timeout + 10) ret.raise_for_status() resp = ret.json() resp = ShellBackgroundResponse( success=bool(resp.get('success', False)), pid=resp.get('pid', 0), description=resp.get('description', '') ) return resp