import asyncio import json import socket import time from functools import wraps from typing import List import websockets from adbutils.errors import AdbError from uiautomator2 import _Service from module.base.decorator import Config, cached_property, del_cached_property from module.base.timer import Timer from module.base.utils import * from module.device.connection import Connection from module.device.method.utils import RETRY_TRIES, retry_sleep, handle_adb_error from module.exception import RequestHumanTakeover, ScriptError from module.logger import logger def random_normal_distribution(a, b, n=5): output = np.mean(np.random.uniform(a, b, size=n)) return output def random_theta(): theta = np.random.uniform(0, 2 * np.pi) return np.array([np.sin(theta), np.cos(theta)]) def random_rho(dis): return random_normal_distribution(-dis, dis) def insert_swipe(p0, p3, speed=15, min_distance=10): """ Insert way point from start to end. First generate a cubic bézier curve Args: p0: Start point. p3: End point. speed: Average move speed, pixels per 10ms. min_distance: Returns: list[list[int]]: List of points. Examples: > insert_swipe((400, 400), (600, 600), speed=20) [[400, 400], [406, 406], [416, 415], [429, 428], [444, 442], [462, 459], [481, 478], [504, 500], [527, 522], [545, 540], [560, 557], [573, 570], [584, 582], [592, 590], [597, 596], [600, 600]] """ p0 = np.array(p0) p3 = np.array(p3) # Random control points in Bézier curve distance = np.linalg.norm(p3 - p0) p1 = 2 / 3 * p0 + 1 / 3 * p3 + random_theta() * random_rho(distance * 0.1) p2 = 1 / 3 * p0 + 2 / 3 * p3 + random_theta() * random_rho(distance * 0.1) # Random `t` on Bézier curve, sparse in the middle, dense at start and end segments = max(int(distance / speed) + 1, 5) lower = random_normal_distribution(-85, -60) upper = random_normal_distribution(80, 90) theta = np.arange(lower + 0., upper + 0.0001, (upper - lower) / segments) ts = np.sin(theta / 180 * np.pi) ts = np.sign(ts) * abs(ts) ** 0.9 ts = (ts - min(ts)) / (max(ts) - min(ts)) # Generate cubic Bézier curve points = [] prev = (-100, -100) for t in ts: point = p0 * (1 - t) ** 3 + 3 * p1 * t * (1 - t) ** 2 + 3 * p2 * t ** 2 * (1 - t) + p3 * t ** 3 point = point.astype(np.int).tolist() if np.linalg.norm(np.subtract(point, prev)) < min_distance: continue points.append(point) prev = point # Delete nearing points if len(points[1:]): distance = np.linalg.norm(np.subtract(points[1:], points[0]), axis=1) mask = np.append(True, distance > min_distance) points = np.array(points)[mask].tolist() else: points = [p0, p3] return points class Command: def __init__( self, operation: str, contact: int = 0, x: int = 0, y: int = 0, ms: int = 10, pressure: int = 100 ): """ See https://github.com/openstf/minitouch#writable-to-the-socket Args: operation: c, r, d, m, u, w contact: x: y: ms: pressure: """ self.operation = operation self.contact = contact self.x = x self.y = y self.ms = ms self.pressure = pressure def to_minitouch(self) -> str: """ String that write into minitouch socket """ if self.operation == 'c': return f'{self.operation}\n' elif self.operation == 'r': return f'{self.operation}\n' elif self.operation == 'd': return f'{self.operation} {self.contact} {self.x} {self.y} {self.pressure}\n' elif self.operation == 'm': return f'{self.operation} {self.contact} {self.x} {self.y} {self.pressure}\n' elif self.operation == 'u': return f'{self.operation} {self.contact}\n' elif self.operation == 'w': return f'{self.operation} {self.ms}\n' else: return '' def to_atx_agent(self, max_x=1280, max_y=720) -> str: """ Dict that send to atx-agent, $DEVICE_URL/minitouch See https://github.com/openatx/atx-agent#minitouch%E6%93%8D%E4%BD%9C%E6%96%B9%E6%B3%95 """ x, y = self.x / max_x, self.y / max_y if self.operation == 'c': out = dict(operation=self.operation) elif self.operation == 'r': out = dict(operation=self.operation) elif self.operation == 'd': out = dict(operation=self.operation, index=self.contact, pressure=self.pressure, xP=x, yP=y) elif self.operation == 'm': out = dict(operation=self.operation, index=self.contact, pressure=self.pressure, xP=x, yP=y) elif self.operation == 'u': out = dict(operation=self.operation, index=self.contact) elif self.operation == 'w': out = dict(operation=self.operation, milliseconds=self.ms) else: out = dict() return json.dumps(out) class CommandBuilder: """Build command str for minitouch. You can use this, to custom actions as you wish:: with safe_connection(_DEVICE_ID) as connection: builder = CommandBuilder() builder.down(0, 400, 400, 50) builder.commit() builder.move(0, 500, 500, 50) builder.commit() builder.move(0, 800, 400, 50) builder.commit() builder.up(0) builder.commit() builder.publish(connection) """ DEFAULT_DELAY = 0.05 max_x = 1280 max_y = 720 def __init__(self, device): """ Args: device: """ self.device = device self.commands = [] self.delay = 0 def convert(self, x, y): max_x, max_y = self.device.max_x, self.device.max_y orientation = self.device.orientation if orientation == 0: pass elif orientation == 1: x, y = 720 - y, x max_x, max_y = max_y, max_x elif orientation == 2: x, y = 1280 - x, 720 - y elif orientation == 3: x, y = y, 1280 - x max_x, max_y = max_y, max_x else: raise ScriptError(f'Invalid device orientation: {orientation}') self.max_x, self.max_y = max_x, max_y if not self.device.config.DEVICE_OVER_HTTP: # Maximum X and Y coordinates may, but usually do not, match the display size. x, y = int(x / 1280 * max_x), int(y / 720 * max_y) else: # When over http, max_x and max_y are default to 1280 and 720, skip matching display size x, y = int(x), int(y) return x, y def commit(self): """ add minitouch command: 'c\n' """ self.commands.append(Command('c')) return self def reset(self): """ add minitouch command: 'r\n' """ self.commands.append(Command('r')) return self def wait(self, ms=10): """ add minitouch command: 'w \n' """ self.commands.append(Command('w', ms=ms)) self.delay += ms return self def up(self, contact=0): """ add minitouch command: 'u \n' """ self.commands.append(Command('u', contact=contact)) return self def down(self, x, y, contact=0, pressure=100): """ add minitouch command: 'd \n' """ x, y = self.convert(x, y) self.commands.append(Command('d', x=x, y=y, contact=contact, pressure=pressure)) return self def move(self, x, y, contact=0, pressure=100): """ add minitouch command: 'm \n' """ x, y = self.convert(x, y) self.commands.append(Command('m', x=x, y=y, contact=contact, pressure=pressure)) return self def clear(self): """ clear current commands """ self.commands = [] self.delay = 0 def to_minitouch(self) -> str: return ''.join([command.to_minitouch() for command in self.commands]) def to_atx_agent(self) -> List[str]: return [command.to_atx_agent(self.max_x, self.max_y) for command in self.commands] class MinitouchNotInstalledError(Exception): pass class MinitouchOccupiedError(Exception): pass class U2Service(_Service): def __init__(self, name, u2obj): self.name = name self.u2obj = u2obj self.service_url = self.u2obj.path2url("/services/" + name) def retry(func): @wraps(func) def retry_wrapper(self, *args, **kwargs): """ Args: self (Minitouch): """ 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() # Emulator closed except ConnectionAbortedError as e: logger.error(e) def init(): self.adb_reconnect() # MinitouchNotInstalledError: Received empty data from minitouch except MinitouchNotInstalledError as e: logger.error(e) def init(): self.install_uiautomator2() if self._minitouch_port: self.adb_forward_remove(f'tcp:{self._minitouch_port}') del_cached_property(self, 'minitouch_builder') # MinitouchOccupiedError: Timeout when connecting to minitouch except MinitouchOccupiedError as e: logger.error(e) def init(): self.restart_atx() if self._minitouch_port: self.adb_forward_remove(f'tcp:{self._minitouch_port}') del_cached_property(self, 'minitouch_builder') # AdbError except AdbError as e: if handle_adb_error(e): def init(): self.adb_reconnect() else: break except BrokenPipeError as e: logger.error(e) def init(): del_cached_property(self, 'minitouch_builder') # Unknown, probably a trucked image except Exception as e: logger.exception(e) def init(): pass logger.critical(f'Retry {func.__name__}() failed') raise RequestHumanTakeover return retry_wrapper class Minitouch(Connection): _minitouch_port: int = 0 _minitouch_client: socket.socket _minitouch_pid: int _minitouch_ws: websockets.WebSocketClientProtocol max_x: int max_y: int @cached_property def minitouch_builder(self): self.minitouch_init() return CommandBuilder(self) @Config.when(DEVICE_OVER_HTTP=False) def minitouch_init(self): logger.hr('MiniTouch init') max_x, max_y = 1280, 720 max_contacts = 2 max_pressure = 50 self.get_orientation() self._minitouch_port = self.adb_forward("localabstract:minitouch") # No need, minitouch already started by uiautomator2 # self.adb_shell([self.config.MINITOUCH_FILEPATH_REMOTE]) retry_timeout = Timer(2).start() while 1: client = socket.socket(socket.AF_INET, socket.SOCK_STREAM) client.settimeout(1) client.connect(('127.0.0.1', self._minitouch_port)) self._minitouch_client = client # get minitouch server info socket_out = client.makefile() # v # protocol version, usually it is 1. needn't use this try: out = socket_out.readline().replace("\n", "").replace("\r", "") except socket.timeout: client.close() raise MinitouchOccupiedError( 'Timeout when connecting to minitouch, ' 'probably because another connection has been established' ) logger.info(out) # ^ out = socket_out.readline().replace("\n", "").replace("\r", "") logger.info(out) try: _, max_contacts, max_x, max_y, max_pressure, *_ = out.split(" ") break except ValueError: client.close() if retry_timeout.reached(): raise MinitouchNotInstalledError( 'Received empty data from minitouch, ' 'probably because minitouch is not installed' ) else: # Minitouch may not start that fast self.sleep(1) continue # self.max_contacts = max_contacts self.max_x = int(max_x) self.max_y = int(max_y) # self.max_pressure = max_pressure # $ out = socket_out.readline().replace("\n", "").replace("\r", "") logger.info(out) _, pid = out.split(" ") self._minitouch_pid = pid logger.info( "minitouch running on port: {}, pid: {}".format(self._minitouch_port, self._minitouch_pid) ) logger.info( "max_contact: {}; max_x: {}; max_y: {}; max_pressure: {}".format( max_contacts, max_x, max_y, max_pressure ) ) @Config.when(DEVICE_OVER_HTTP=False) def minitouch_send(self): content = self.minitouch_builder.to_minitouch() # logger.info("send operation: {}".format(content.replace("\n", "\\n"))) byte_content = content.encode('utf-8') self._minitouch_client.sendall(byte_content) self._minitouch_client.recv(0) time.sleep(self.minitouch_builder.delay / 1000 + self.minitouch_builder.DEFAULT_DELAY) self.minitouch_builder.clear() @cached_property def _minitouch_loop(self): return asyncio.new_event_loop() def _minitouch_loop_run(self, event): """ Args: event: Async function Raises: MinitouchOccupiedError """ try: return self._minitouch_loop.run_until_complete(event) except websockets.ConnectionClosedError as e: # ConnectionClosedError: no close frame received or sent # ConnectionClosedError: sent 1011 (unexpected error) keepalive ping timeout; no close frame received logger.error(e) raise MinitouchOccupiedError( 'ConnectionClosedError, ' 'probably because another connection has been established' ) @Config.when(DEVICE_OVER_HTTP=True) def minitouch_init(self): logger.hr('MiniTouch init') self.max_x, self.max_y = 1280, 720 self.get_orientation() logger.info('Stop minitouch service') s = U2Service('minitouch', self.u2) s.stop() while 1: if not s.running(): break self.sleep(0.05) logger.info('Start minitouch service') s.start() while 1: if s.running(): break self.sleep(0.05) # 'ws://127.0.0.1:7912/minitouch' url = re.sub(r"^https?://", 'ws://', self.serial) + '/minitouch' logger.attr('Minitouch', url) async def connect(): ws = await websockets.connect(url) # start @minitouch service logger.info(await ws.recv()) # dial unix:@minitouch logger.info(await ws.recv()) return ws self._minitouch_ws = self._minitouch_loop_run(connect()) @Config.when(DEVICE_OVER_HTTP=True) def minitouch_send(self): content = self.minitouch_builder.to_atx_agent() async def send(): for row in content: # logger.info("send operation: {}".format(row.replace("\n", "\\n"))) await self._minitouch_ws.send(row) self._minitouch_loop_run(send()) time.sleep(self.minitouch_builder.delay / 1000 + self.minitouch_builder.DEFAULT_DELAY) self.minitouch_builder.clear() @retry def click_minitouch(self, x, y): builder = self.minitouch_builder builder.down(x, y).commit() builder.up().commit() self.minitouch_send() @retry def long_click_minitouch(self, x, y, duration=1.0): duration = int(duration * 1000) builder = self.minitouch_builder builder.down(x, y).commit().wait(duration) builder.up().commit() self.minitouch_send() @retry def swipe_minitouch(self, p1, p2): points = insert_swipe(p0=p1, p3=p2) builder = self.minitouch_builder builder.down(*points[0]).commit() self.minitouch_send() for point in points[1:]: builder.move(*point).commit().wait(10) self.minitouch_send() builder.up().commit() self.minitouch_send() @retry def drag_minitouch(self, p1, p2, point_random=(-10, -10, 10, 10)): p1 = np.array(p1) - random_rectangle_point(point_random) p2 = np.array(p2) - random_rectangle_point(point_random) points = insert_swipe(p0=p1, p3=p2, speed=20) builder = self.minitouch_builder builder.down(*points[0]).commit() self.minitouch_send() for point in points[1:]: builder.move(*point).commit().wait(10) self.minitouch_send() builder.move(*p2).commit().wait(140) builder.move(*p2).commit().wait(140) self.minitouch_send() builder.up().commit() self.minitouch_send()