class Mobile(): """ """ def __init__(self, android_serial = None): # logger.info("Importing Android library") # print "Importing Android library" # clm.message("Importing Android library") self.adb = ADB(android_serial) self.device = Device(android_serial) self.test_helper = TestHelper(android_serial) def set_serial(self, android_serial): """ Set device serial """ self.adb = ADB(android_serial) self.device = Device(android_serial) self.test_helper = TestHelper(android_serial) def get_info(self): """ Retrieve the device info """ return self.device.info #Key Event Actions of the device """ Turn on/off screen """ def turn_on_screen(self): """ Turn on screen """ self.device.screen.on() def turn_off_screen(self): """ Turn off screen """ self.device.screen.off() def wakeup_the_device(self): """ wakeup the device """ self.device.wakeup() """ Press hard/soft key """ def press_key(self, *key): """ press *key* keycode """ self.device.press(*key) def press_home(self): """ press home key """ self.device.press.home() def press_back(self): """ press back key """ self.device.press.back() def press_left(self): """ press left key """ self.device.pres.left() def press_right(self): """ press right key """ self.device.press.right() def press_up(self): """ press up key """ self.device.press.up() def press_down(self): """ press down key """ self.device.press.down() def press_center(self): """ press center key """ self.device.press.center() def press_menu(self): """ press menu key """ self.device.press.menu() def press_search(self): """ press search key """ self.device.press.search() def press_enter(self): """ press enter key """ self.device.press.enter() def press_delete(self): """ press delete key """ self.device.press.delete() def press_recent(self): """ press recent key """ self.device.press.recent() def press_volume_up(self): """ press volume up key """ self.device.press.volume_up() def press_volume_down(self): """ press volume down key """ self.device.press.volume_down() def press_camera(self): """ press camera key """ self.device.press.camera() def press_power(self): """ press power key """ self.device.press.power() #Gesture interaction of the device def click(self, x, y): """ click (x, y) on screen """ self.device.click(x, y) def swipe(self, sx, sy, ex, ey, steps=10): """ swipe from (sx, sy) to (ex, ey) with steps """ self.device.swipe(sx, sy, ex, ey, steps) # Swipe from the center of the ui object to its edge def swipe_left(self, obj, steps=10): """ swipe the *obj* from center to left """ obj.swipe.left(steps=steps) def swipe_right(self, obj, steps=10): """ swipe the *obj* from center to right """ obj.swipe.right(steps=steps) def swipe_top(self, obj, steps=10): """ swipe the *obj* from center to top """ obj.swipe.top(steps=steps) def swipe_bottom(self, obj, steps=10): """ swipe the *obj* from center to bottom """ obj.swipe.bottom(steps=steps) def drag(self,sx, sy, ex, ey, steps=10): """ drag from (sx, sy) to (ex, ey) with steps """ self.device.drag(sx, sy, ex, ey, steps) #Wait until the specific ui object appears or gone # wait until the ui object appears def wait_for_exists(self, timeout=0, *args, **attribute): """ true means the object which has *attribute* exist false means the object does not exist in the given timeout """ return self.device(**attribute).wait.exists(timeout=timeout) # wait until the ui object gone def wait_until_gone(self, timeout=0, *args, **attribute): """ true means the object which has *attribute* disappear false means the object exist in the given timeout """ return self.device(**attribute).wait.gone(timeout=timeout) def wait_for_object_exists(self, obj, timeout=0): """ true means the object exist false means the object does not exist in the given timeout """ return obj.wait.exists(timeout=timeout) # wait until the ui object gone def wait_until_object_gone(self, obj, timeout=0): """ true means the object disappear false means the object exist in the given timeout """ return obj.wait.gone(timeout=timeout) # Perform fling on the specific ui object(scrollable) def fling_forward_horizontally(self, obj): """ return whether the object can be fling or not """ return obj.fling.horiz.forward() def fling_backward_horizontally(self, obj): """ return whether the object can be fling or not """ return obj.fling.horiz.backward() def fling_forward_vertically(self, obj): """ return whether the object can be fling or not """ return obj.fling.vert.forward() def fling_backward_vertically(self, obj): """ return whether the object can be fling or not """ return obj.fling.vert.backward() # Perform scroll on the specific ui object(scrollable) def scroll_to_beginning_vertically(self, obj, steps=10): """ """ return obj.scroll.vert.toBeginning(steps=steps) def scroll_forward_horizontally(self, obj, steps=10): """ return whether the object can be fling or not """ return obj.scroll.horiz.forward(steps=steps) def scroll_backward_horizontally(self, obj, steps=10): """ return whether the object can be fling or not """ return obj.scroll.horiz.backward(steps=steps) def scroll_to_horizontally(self, obj, *args,**attribute): """ return whether the object can be fling or not """ return obj.scroll.horiz.to(**attribute) def scroll_forward_vertically(self, obj, steps=10): """ return whether the object can be fling or not """ return obj.scroll.vert.forward(steps=steps) def scroll_backward_vertically(self, obj, steps=10): """ return whether the object can be fling or not """ return obj.scroll.vert.backward(steps=steps) def scroll_to_vertically(self, obj, *args, **attribute): """ return whether the object can be fling or not """ msg = '' for key, value in attribute.iteritems(): msg += ' %s=%s ' % (key, value) print msg # print 'args:' + args[0] return obj.scroll.vert.to(**attribute) #Screen Actions of the device def screenshot(self, scale=None, quality=None): """ Take a screenshot of device and log in the report with timestamp """ output_dir = BuiltIn().get_variable_value('${OUTPUTDIR}') ts = time.time() st = datetime.datetime.fromtimestamp(ts).strftime('%Y%m%d%H%M%S') screenshot_path = '%s%s%s.png' % (output_dir, os.sep, st) self.device.screenshot(screenshot_path, scale, quality) logger.info('\n<a href="%s">%s</a><br><img src="%s">' % (screenshot_path, st, screenshot_path), html=True) #Watcher # def register_click_watcher(self, watcher_name, attributes, *condition_list): # """ # The watcher click on the object which has the attributes when conditions match # """ # print type(attributes) # watcher = self.device.watcher(watcher_name) # for condition in condition_list: # watcher.when(**condition) # watcher.click(**attributes) # self.device.watchers.run() # print 'register watcher:%s' % watcher_name # return def __unicode_to_dict(self, a_unicode): a_dict = dict() dict_item_count = a_unicode.count('=') for count in range(dict_item_count): equal_sign_position = a_unicode.find('=') comma_position = a_unicode.find(',') a_key = a_unicode[0:equal_sign_position] if comma_position == -1: a_value = a_unicode[equal_sign_position + 1:] else: a_value = a_unicode[equal_sign_position + 1:comma_position] a_unicode = a_unicode[comma_position + 1:] a_dict[a_key] = a_value return a_dict def register_click_watcher(self, watcher_name, attributes, *condition_list): """ The watcher click on the object which has the *attributes* when conditions match """ watcher = self.device.watcher(watcher_name) for condition in condition_list: watcher.when(**self.__unicode_to_dict(condition)) watcher.click(**self.__unicode_to_dict(attributes)) self.device.watchers.run() def register_press_watcher(self, watcher_name, press_keys, *condition_list): """ The watcher perform *press_keys* action sequentially when conditions match """ def unicode_to_list(a_unicode): a_list = list() comma_count = a_unicode.count(',') for count in range(comma_count + 1): comma_position = a_unicode.find(',') if comma_position == -1: a_list.append(str(a_unicode)) else: a_list.append(a_unicode[0:comma_position]) a_unicode = a_unicode[comma_position + 1:] return a_list watcher = self.device.watcher(watcher_name) for condition in condition_list: watcher.when(**self.__unicode_to_dict(condition)) watcher.press(*unicode_to_list(press_keys)) self.device.watchers.run() def remove_watchers(self, watcher_name = None): """ remove watcher with *watcher_name* or remove all watchers """ if watcher_name == None: self.device.watchers.remove() else: self.device.watchers.remove(watcher_name) def list_all_watchers(self): """ return the watcher list """ return self.device.watchers #Selector def get_object(self, *args, **attribute): """ get the ui object with attribute *attribute* """ msg = '' for key, value in attribute.iteritems(): msg += ' %s=%s ' % (key, value) print msg return self.device(*args, **attribute) def get_info_of_object(self, obj): """ return info dictionary of the *obj* The info example: { u'contentDescription': u'', u'checked': False, u'scrollable': True, u'text': u'', u'packageName': u'com.android.launcher', u'selected': False, u'enabled': True, u'bounds': { u'top': 231, u'left': 0, u'right': 1080, u'bottom': 1776 }, u'className': u'android.view.View', u'focusable': False, u'focused': False, u'clickable': False, u'checkable': False, u'chileCount': 1, u'longClickable': False, u'visibleBounds': { u'top': 231, u'left': 0, u'right': 1080, u'bottom': 1776 } } """ return obj.info def click_on(self, *args, **attribute): """ click on the object with *attribute* """ self.device(**attribute).click() def long_click_on(self, *args, **attribute): """ click on the object with *attribute* """ self.device(**attribute).long_click() def call(self, obj, method, *args, **attribute): func = getattr(obj, method) return func(**attribute) def set_text(self, text, *args, **attribute): """ set *text* to the Component which has the *attribute* """ self.device(**attribute).set_text(text) def clear_text(self, *args, **attributes): """ Clear text of the component with *attributes* """ while True: target = self.device(**attributes) text = target.info['text'] target.clear_text() remain_text = target.info['text'] if text == '' or remain_text == text: break # Other feature def sleep(self, time): """ sleep(no action) for *time* (in millisecond) """ target = 'wait for %s' % str(time) self.device(text=target).wait.exists(timeout=time) def install(self, apk_path): self.adb.cmd('install "%s"' % apk_path) def uninstall(self, package_name): self.adb.cmd('uninstall %s' % package_name) def type(self, text): """ Type *text* at current focused component """ self.test_helper.send_set_text_cmd(text) def foo(self): pass # logger.info('\nGot arg %s %s' % (output_dir, st), also_console=True) # clm = CommandLineWriter() # output some messages on console # clm.message(' ') # clm.message(u'中文') # clm.message(u'2----------2') def test(self): pass
class Test: def __init__(self, deviceid): self.device = Device(deviceid) self.deviceid = deviceid def click(self, x, y): self.device.click(x, y) def startActivity(self, activity): os.system('adb -s %s shell am start %s' % (self.deviceid, activity)) # 平均hash算法计算 def classify_aHash(self, image1, image2): image1 = cv2.resize(image1, (8, 8)) image2 = cv2.resize(image2, (8, 8)) gray1 = cv2.cvtColor(image1, cv2.COLOR_BGR2GRAY) gray2 = cv2.cvtColor(image2, cv2.COLOR_BGR2GRAY) hash1 = self.getHash(gray1) hash2 = self.getHash(gray2) return self.Hamming_distance(hash1, hash2) # 输入灰度值,返回hash def getHash(self, image): avreage = np.mean(image) hash = [] for i in range(image.shape[0]): for j in range(image.shape[1]): if image[i, j] > avreage: hash.append(1) else: hash.append(0) return hash # 计算汉明距离 def Hamming_distance(self, hash1, hash2): num = 0 for index in range(len(hash1)): if hash1[index] != hash2[index]: num += 1 return num # 使用adb命令截取手机页面图片 def screenshot(self): time.sleep(8) # os.system("adb shell /system/bin/screencap -p /sdcard/p2.png") #(保存到SDCard) # os.system("adb pull /sdcard/p2.png E:\Study\uiautomator\picture") #(保存到电脑) self.device.screenshot("E:\\Study\\uiautomator\\picture\\p2.png")
# d.server.adb.cmd( "shell", "ime set com.zunyun.qk/.ZImeService" ).wait( ) # args = {"repo_number_id": "190", 'repo_save_exist_id': '189', "run_lock": "500", "check_count": "10", # "repo_save_not_exist_id": "183"} # cate_id是仓库号,length是数量 # o.action( d, z, args ) # str = d.info # 获取屏幕大小等信息 # height = str["displayHeight"] # width = str["displayWidth"] numbers = Repo().GetAccount("318", 5, 1) if len(numbers) == 0: print "号仓库没有数据" QQNumber = numbers[0]['number'] # 即将登陆的QQ号 QQPassword = numbers[0]['password'] print d d.click(641, 1234) #我的 d.click(413, 217) z.sleep(2) if d(index=1, resourceId="com.tencent.mobileqq:id/password").exists: z.input(QQNumber) d(index=1, resourceId="com.tencent.mobileqq:id/password").click() z.input(QQPassword) else: pass d.click(87, 212) #帐号管理 d.click(367, 817) #登陆方式 if d(text="登 录").exists: d(text="登 录").click() #
class ModelInfo(): ''' classdocs ''' def __init__(self, deviceserial): ''' Constructor ''' #sndLog = CLS("test", "test") self.osType = sys.platform self.mstrInfo = {} #self.devSerials = self.instAdb.device_serial() self.mstrDevice = Device(deviceserial) self.mstrInfo = self.mstrDevice.info ''' DEVICE Infoamtions { u'displayRotation': 0, u'displaySizeDpY': 640, u'displaySizeDpX': 360, u'currentPackageName': u'com.android.launcher', u'productName': u'takju', u'displayWidth': 720, u'sdkInt': 18, u'displayHeight': 1184, u'naturalOrientation': True } ''' def getCurrntProductInfo(self): return self.mstrInfo def getProductNmae(self): return self.mstrInfo['productName'] def getCurrntPkg(self): return self.mstrInfo['currentPackageName'] def getSDKInt(self): return self.mstrInfo['sdkInt'] def getRotation(self): return self.mstrInfo['displayRotation'] def getNaturalOri(self): return self.mstrInfo['naturalOrientation'] def getDisplayState(self): return self.mstrDevice.screen def setReflash(self): pass #define Key activity def setDevScrnOn(self): self.mstrDevice.screen.on() def setMstDevScrnOff(self): self.mstrDevice.screen.off() def setWakeup(self): self.mstrDevice.wakeup() def setSleep(self): self.mstrDevice.sleep() #Hard key Soft key def pressHome(self): return self.mstrDevice.press.home() def pressBack(self): return self.mstrDevice.press.back() ###################################################################### def pressLeft(self): return self.mstrDevice.press.left() def pressRight(self): return self.mstrDevice.press.right() def pressUp(self): return self.mstrDevice.press.up() def pressDown(self): return self.mstrDevice.press.down() def pressCenter(self): return self.mstrDevice.press.center() ###################################################################### def pressMenu(self): return self.mstrDevice.press.menu() def pressSearch(self): return self.mstrDevice.press.search() def pressEnter(self): return self.mstrDevice.press.enter() def pressDelete(self): return self.mstrDevice.press.delete() # or del def pressRecent(self): return self.mstrDevice.press.recent() def pressVol_Up(self): return self.mstrDevice.press.volume_up() def pressVol_Down(self): return self.mstrDevice.press.volume_down() def pressVol_Mute(self): return self.mstrDevice.press.volume_mute() def pressPower(self): return self.mstrDevice.press.power() def clik(self, x, y): return self.mstrDevice.click(x, y) def longClik(self,x, y): ''' Description: param: x, y : start first point x, y return : Boolean ''' return self.mstrDevice.long_click(x, y) def swipe(self, sx, sy, ex, ey, steps=10): ''' Description: param: sx, xy : start first x, y ex, ey : move to x, y return : Boolean ''' return self.mstrDevice.swipe(sx, sy, ex, ey, steps) def drage(self,sx, sy, ex, ey, steps=10): ''' Description: param: sx, xy : start first x, y ex, ey : move to x, y return : Boolean ''' return self.mstrDevice.drag(sx, sy, ex, ey, steps) #screen action of the device def setOrientation(self,scrAct='natural', choiceDevice='mstr'): ''' Description param d.orientation = 'l' or 'left' d.orientation = 'r' or 'right' d.orientation = 'n' or 'natural' return : None ''' self.mstrDevice.orientation = scrAct def setFreezeRotation(self,condition=False,choiceDevice='mstr'): ''' param: condition : False un-freeze rotation return : None ''' self.mstrDevice.freeze_rotation(condition) def takeScreenShot(self, choiceDevice = 'mstr'): ''' Description: take screenshot and save to local file 'home.png' can work until android 4.2 param image name ''' def dumpWindowHeirarchy(self,filename='./log/hierachy.xml'): return self.mstrDevice.dump(filename) def dumpWindowHeirarchyStream(self): return self.mstrDevice.dump() def notification(self): ''' Open notification, can not work until android 4.3 return : Boolean ''' return self.mstrDevice.open.Notification() def quickSettings(self): ''' open quick settins, can not work until android 4.3 return : Boolean ''' return self.mstrDevice.open.quick_settings() def waitidle(self): ''' wait for current window to idle return : None ''' self.mstrDevice.wait.idle() def waitWindowUpdate(self): ''' wait until window upate event occurs return : Boolean ''' self.mstrDevice.wait.update() def getCurrentActivityInfo(self, text): ''' INFOMATION: { u'contentDescription': u'', u'checked': False, u'scrollable': False, u'text': u'Settings', u'packageName': u'com.android.launcher', u'selected': False, u'enabled': True, u'bounds': {u'top': 385, u'right': 360, u'bottom': 585, u'left': 200}, u'className': u'android.widget.TextView', u'focused': False, u'focusable': True, u'clickable': True, u'chileCount': 0, u'longClickable': True, u'visibleBounds': {u'top': 385, u'right': 360, u'bottom': 585, u'left': 200}, u'checkable': False } ''' return self.mstrDevice(text).info def uiObjExist(self,text): ''' ture if exists, else False ''' return self.mstrDevice.exists(text) def watcher(self): pass def handler(self): pass def selector(self): pass def __del__(self): pass
class Mobile(): def __init__(self): self.set_serial(None) def set_serial(self, android_serial): """ Specify given *android_serial* device to perform test. You do not have to specify the device when there is only one device connects to the computer. When you need to use multiple devices, do not use this keyword to switch between devices in test execution. Using different library name when importing this library according to http://robotframework.googlecode.com/hg/doc/userguide/RobotFrameworkUserGuide.html?r=2.8.5. | Setting | Value | Value | Value | | Library | Mobile | WITH NAME | Mobile1 | | Library | Mobile | WITH NAME | Mobile2 | And set the serial to each library. | Test Case | Action | Argument | | Multiple Devices | Mobile1.Set Serial | device_1's serial | | | Mobile2.Set Serial | device_2's serial | """ self.adb = ADB(android_serial) self.device = Device(android_serial) self.test_helper = TestHelper(self.adb) def get_device_info(self): """ Retrieve the device info. The keyword will return a dictionary. You can log the information by using the log dictionary keyword in build in Collections library(http://robotframework.googlecode.com/hg/doc/libraries/Collections.html?r=2.8.4). Example: | ${device_info} | Get Device Info | | Log Dictionary | ${device_info} | => Dictionary size is 9 and it contains following items:\n currentPackageName: com.android.keyguard\n displayHeight: 1776\n displayRotation: 0\n displaySizeDpX: 360\n displaySizeDpY: 640\n displayWidth: 1080\n naturalOrientation: True\n productName: hammerhead\n sdkInt: 19\n Or get specific information of the device by giving the key. | ${device_info} | Get Device Info | | | | ${product_name} | Get From Dictionary | ${device_info} | productName | => ${product_name} = hammerhead """ return self.device.info #Key Event Actions of the device """ Turn on/off screen """ def turn_on_screen(self): """ Turn on the screen. """ self.device.screen.on() def turn_off_screen(self): """ Turn off the screen. """ self.device.screen.off() """ Press hard/soft key """ def press_key(self, *keys): """ Press *key* keycode. You can find all keycode in http://developer.android.com/reference/android/view/KeyEvent.html """ #not tested self.device.press(*keys) def press_home(self): """ Press home key. """ self.device.press.home() def press_back(self): """ Press back key. """ self.device.press.back() def press_left(self): """ Press left key. """ self.device.pres.left() def press_right(self): """ Press right key. """ self.device.press.right() def press_up(self): """ Press up key. """ self.device.press.up() def press_down(self): """ Press down key. """ self.device.press.down() def press_center(self): """ Press center key. """ self.device.press.center() def press_menu(self): """ Press menu key. """ self.device.press.menu() def press_search(self): """ Press search key. """ self.device.press.search() def press_enter(self): """ Press enter key. """ self.device.press.enter() def press_delete(self): """ Press delete key. """ self.device.press.delete() def press_recent(self): """ Press recent key. """ self.device.press.recent() def press_volume_up(self): """ Press volume up key. """ self.device.press.volume_up() def press_volume_down(self): """ Press volume down key. """ self.device.press.volume_down() def press_camera(self): """ Press camera key. """ self.device.press.camera() def press_power(self): """ Press power key. """ self.device.press.power() #Gesture interaction of the device def click_at_coordinates(self, x, y): """ Click at (x,y) coordinates. """ self.device.click(int(x), int(y)) def swipe_by_coordinates(self, sx, sy, ex, ey, steps=10): """ Swipe from (sx, sy) to (ex, ey) with *steps* . Example: | Swipe By Coordinates | 540 | 1340 | 940 | 1340 | | # Swipe from (540, 1340) to (940, 100) with default steps 10 | | Swipe By Coordinates | 540 | 1340 | 940 | 1340 | 100 | # Swipe from (540, 1340) to (940, 100) with steps 100 | """ self.device.swipe(sx, sy, ex, ey, steps) # Swipe from the center of the ui object to its edge def swipe_left(self, steps=10, *args, **selectors): """ Swipe the UI object with *selectors* from center to left. Example: | Swipe Left | description=Home screen 3 | | # swipe the UI object left | | Swipe Left | 5 | description=Home screen 3 | # swipe the UI object left with steps=5 | See `introduction` for details about Identified UI object. """ self.device(**selectors).swipe.left(steps=steps) def swipe_right(self, steps=10, *args, **selectors): """ Swipe the UI object with *selectors* from center to right See `Swipe Left` for more details. """ self.device(**selectors).swipe.right(steps=steps) def swipe_top(self, steps=10, *args, **selectors): """ Swipe the UI object with *selectors* from center to top See `Swipe Left` for more details. """ self.device(**selectors).swipe.up(steps=steps) def swipe_bottom(self, steps=10, *args, **selectors): """ Swipe the UI object with *selectors* from center to bottom See `Swipe Left` for more details. """ self.device(**selectors).swipe.down(steps=steps) def object_swipe_left(self, obj, steps=10): """ Swipe the *obj* from center to left Example: | ${object} | Get Object | description=Home screen 3 | # Get the UI object | | Object Swipe Left | ${object} | | # Swipe the UI object left | | Object Swipe Left | ${object} | 5 | # Swipe the UI object left with steps=5 | | Object Swipe Left | ${object} | steps=5 | # Swipe the UI object left with steps=5 | See `introduction` for details about identified UI object. """ obj.swipe.left(steps=steps) def object_swipe_right(self, obj, steps=10): """ Swipe the *obj* from center to right See `Object Swipe Left` for more details. """ obj.swipe.right(steps=steps) def object_swipe_top(self, obj, steps=10): """ Swipe the *obj* from center to top See `Object Swipe Left` for more details. """ obj.swipe.up(steps=steps) def object_swipe_bottom(self, obj, steps=10): """ Swipe the *obj* from center to bottom See `Object Swipe Left` for more details. """ obj.swipe.down(steps=steps) def drag_by_coordinates(self, sx, sy, ex, ey, steps=10): """ Drag from (sx, sy) to (ex, ey) with steps See `Swipe By Coordinates` also. """ self.device.drag(sx, sy, ex, ey, steps) #Wait until the specific ui object appears or gone # wait until the ui object appears def wait_for_exists(self, timeout=0, *args, **selectors): """ Wait for the object which has *selectors* within the given timeout. Return true if the object *appear* in the given timeout. Else return false. """ return self.device(**selectors).wait.exists(timeout=timeout) # wait until the ui object gone def wait_until_gone(self, timeout=0, *args, **selectors): """ Wait for the object which has *selectors* within the given timeout. Return true if the object *disappear* in the given timeout. Else return false. """ return self.device(**selectors).wait.gone(timeout=timeout) def wait_for_object_exists(self, obj, timeout=0): """ Wait for the object: obj within the given timeout. Return true if the object *appear* in the given timeout. Else return false. """ return obj.wait.exists(timeout=timeout) # wait until the ui object gone def wait_until_object_gone(self, obj, timeout=0): """ Wait for the object: obj within the given timeout. Return true if the object *disappear* in the given timeout. Else return false. """ return obj.wait.gone(timeout=timeout) # Perform fling on the specific ui object(scrollable) def fling_forward_horizontally(self, *args, **selectors): """ Perform fling forward (horizontally)action on the object which has *selectors* attributes. Return whether the object can be fling or not. """ return self.device(**selectors).fling.horiz.forward() def fling_backward_horizontally(self, *args, **selectors): """ Perform fling backward (horizontally)action on the object which has *selectors* attributes. Return whether the object can be fling or not. """ return self.device(**selectors).fling.horiz.backward() def fling_forward_vertically(self, *args, **selectors): """ Perform fling forward (vertically)action on the object which has *selectors* attributes. Return whether the object can be fling or not. """ return self.device(**selectors).fling.vert.forward() def fling_backward_vertically(self, *args, **selectors): """ Perform fling backward (vertically)action on the object which has *selectors* attributes. Return whether the object can be fling or not. """ return self.device(**selectors).fling.vert.backward() # Perform scroll on the specific ui object(scrollable) # horizontal def scroll_to_beginning_horizontally(self, steps=10, *args, **selectors): """ Scroll the object which has *selectors* attributes to *beginning* horizontally. See `Scroll Forward Vertically` for more details. """ return self.device(**selectors).scroll.horiz.toBeginning(steps=steps) def scroll_to_end_horizontally(self, steps=10, *args, **selectors): """ Scroll the object which has *selectors* attributes to *end* horizontally. See `Scroll Forward Vertically` for more details. """ return self.device(**selectors).scroll.horiz.toEnd(steps=steps) def scroll_forward_horizontally(self, steps=10, *args, **selectors): """ Perform scroll forward (horizontally)action on the object which has *selectors* attributes. Return whether the object can be Scroll or not. See `Scroll Forward Vertically` for more details. """ return self.device(**selectors).scroll.horiz.forward(steps=steps) def scroll_backward_horizontally(self, steps=10, *args, **selectors): """ Perform scroll backward (horizontally)action on the object which has *selectors* attributes. Return whether the object can be Scroll or not. See `Scroll Forward Vertically` for more details. """ return self.device(**selectors).scroll.horiz.backward(steps=steps) def scroll_to_horizontally(self, obj, *args, **selectors): """ Scroll(horizontally) on the object: obj to specific UI object which has *selectors* attributes appears. Return true if the UI object, else return false. See `Scroll To Vertically` for more details. """ return obj.scroll.horiz.to(**selectors) # vertical def scroll_to_beginning_vertically(self, steps=10, *args, **selectors): """ Scroll the object which has *selectors* attributes to *beginning* vertically. See `Scroll Forward Vertically` for more details. """ return self.device(**selectors).scroll.vert.toBeginning(steps=steps) def scroll_to_end_vertically(self, steps=10, *args, **selectors): """ Scroll the object which has *selectors* attributes to *end* vertically. See `Scroll Forward Vertically` for more details. """ return self.device(**selectors).scroll.vert.toEnd(steps=steps) def scroll_forward_vertically(self, steps=10, *args, **selectors): """ Perform scroll forward (vertically)action on the object which has *selectors* attributes. Return whether the object can be Scroll or not. Example: | ${can_be_scroll} | Scroll Forward Vertically | className=android.widget.ListView | | # Scroll forward the UI object with class name | | ${can_be_scroll} | Scroll Forward Vertically | 100 | className=android.widget.ListView | # Scroll with steps | """ return self.device(**selectors).scroll.vert.forward(steps=steps) def scroll_backward_vertically(self, steps=10, *args, **selectors): """ Perform scroll backward (vertically)action on the object which has *selectors* attributes. Return whether the object can be Scroll or not. See `Scroll Forward Vertically` for more details. """ return self.device(**selectors).scroll.vert.backward(steps=steps) def scroll_to_vertically(self, obj, *args, **selectors): """ Scroll(vertically) on the object: obj to specific UI object which has *selectors* attributes appears. Return true if the UI object, else return false. Example: | ${list} | Get Object | className=android.widget.ListView | | # Get the list object | | ${is_web_view} | Scroll To Vertically | ${list} | text=WebView | # Scroll to text:WebView. | """ return obj.scroll.vert.to(**selectors) #Screen Actions of the device def get_screen_orientation(self): """ Get the screen orientation. Possible result: natural, left, right, upsidedown See for more details: https://github.com/xiaocong/uiautomator#screen-actions-of-the-device """ return self.device.orientation def set_screen_orientation(self, orientation): """ Set the screen orientation. Input *orientation* : natural or n, left or l, right or r, upsidedown (support android version above 4.3) The keyword will unfreeze the screen rotation first. See for more details: https://github.com/xiaocong/uiautomator#screen-actions-of-the-device Example: | Set Screen Orientation | n | # Set orientation to natural | | Set Screen Orientation | natural | # Do the same thing | """ self.device.orientation = orientation def freeze_screen_rotation(self): """ Freeze the screen auto rotation """ self.device.freeze_rotation() def unfreeze_screen_rotation(self): """ Un-Freeze the screen auto rotation """ self.device.freeze_rotation(False) def screenshot(self, scale=None, quality=None): """ Take a screenshot of device and log in the report with timestamp, scale for screenshot size and quality for screenshot quality default scale=1.0 quality=100 """ output_dir = BuiltIn().get_variable_value('${OUTPUTDIR}') ts = time.time() st = datetime.datetime.fromtimestamp(ts).strftime('%Y%m%d%H%M%S') screenshot_path = '%s%s%s.png' % (output_dir, os.sep, st) self.device.screenshot(screenshot_path, scale, quality) logger.info('\n<a href="%s">%s</a><br><img src="%s">' % (screenshot_path, st, screenshot_path), html=True) #Watcher def __unicode_to_dict(self, a_unicode): a_dict = dict() dict_item_count = a_unicode.count('=') for count in range(dict_item_count): equal_sign_position = a_unicode.find('=') comma_position = a_unicode.find(',') a_key = a_unicode[0:equal_sign_position] if comma_position == -1: a_value = a_unicode[equal_sign_position + 1:] else: a_value = a_unicode[equal_sign_position + 1:comma_position] a_unicode = a_unicode[comma_position + 1:] a_dict[a_key] = a_value return a_dict def register_click_watcher(self, watcher_name, selectors, *condition_list): """ The watcher click on the object which has the *selectors* when conditions match. """ watcher = self.device.watcher(watcher_name) for condition in condition_list: watcher.when(**self.__unicode_to_dict(condition)) watcher.click(**self.__unicode_to_dict(selectors)) self.device.watchers.run() def register_press_watcher(self, watcher_name, press_keys, *condition_list): """ The watcher perform *press_keys* action sequentially when conditions match. """ def unicode_to_list(a_unicode): a_list = list() comma_count = a_unicode.count(',') for count in range(comma_count + 1): comma_position = a_unicode.find(',') if comma_position == -1: a_list.append(str(a_unicode)) else: a_list.append(a_unicode[0:comma_position]) a_unicode = a_unicode[comma_position + 1:] return a_list watcher = self.device.watcher(watcher_name) for condition in condition_list: watcher.when(**self.__unicode_to_dict(condition)) watcher.press(*unicode_to_list(press_keys)) self.device.watchers.run() def remove_watchers(self, watcher_name=None): """ Remove watcher with *watcher_name* or remove all watchers. """ if watcher_name == None: self.device.watchers.remove() else: self.device.watchers.remove(watcher_name) def list_all_watchers(self): """ Return the watcher list. """ return self.device.watchers #Selector def get_object(self, *args, **selectors): """ Get the UI object with selectors *selectors* See `introduction` for details about identified UI object. Example: | ${main_layer} | Get Object | className=android.widget.FrameLayout | index=0 | # Get main layer which class name is FrameLayout | """ return self.device(*args, **selectors) def get_child(self, object, *args, **selectors): """ Get the child or grandchild UI object from the *object* with *selectors* Example: | ${root_layout} | Get Object | className=android.widget.FrameLayout | | ${child_layout} | Get Child | ${root_layout} | className=LinearLayout | """ return object.child(*args, **selectors) def get_sibling(self, object, *args, **selectors): """ Get the sibling or child of sibling UI object from the *object* with *selectors* Example: | ${root_layout} | Get Object | className=android.widget.FrameLayout | | ${sibling_layout} | Get Sibling | ${root_layout} | className=LinearLayout | """ return object.sibling(*args, **selectors) def get_count(self, *args, **selectors): """ Return the count of UI object with *selectors* Example: | ${count} | Get Count | text=Accessibility | # Get the count of UI object text=Accessibility | | ${accessibility_text} | Get Object | text=Accessibility | # These two keywords combination | | ${count} | Get Count Of Object | ${accessibility_text} | # do the same thing. | """ obj = self.get_object(**selectors) return self.get_count_of_object(obj) # def get_count_of_object(self, obj): # """ # Return the count of given UI object # # See `Get Count` for more details. # """ # return len(obj) def get_info_of_object(self, obj, selector=None): """ return info dictionary of the *obj* The info example: { u'contentDescription': u'', u'checked': False, u'scrollable': True, u'text': u'', u'packageName': u'com.android.launcher', u'selected': False, u'enabled': True, u'bounds': { u'top': 231, u'left': 0, u'right': 1080, u'bottom': 1776 }, u'className': u'android.view.View', u'focusable': False, u'focused': False, u'clickable': False, u'checkable': False, u'chileCount': 1, u'longClickable': False, u'visibleBounds': { u'top': 231, u'left': 0, u'right': 1080, u'bottom': 1776 } } """ if selector: return obj.info.get(selector) else: return obj.info def click(self, *args, **selectors): """ Click on the UI object with *selectors* | Click | text=Accessibility | className=android.widget.Button | # Click the object with class name and text | """ self.device(**selectors).click() def click_on_object(self, object): """ Click on the UI object which is gained by `Get Object`. Example: | ${button_ok} | text=OK | className=android.widget.Button | | Click on Object | ${button_ok} | """ return object.click() def long_click(self, *args, **selectors): """ Long click on the UI object with *selectors* See `Click` for more details. """ self.device(**selectors).long_click() def call(self, obj, method, *args, **selectors): """ This keyword can use object method from original python uiautomator See more details from https://github.com/xiaocong/uiautomator Example: | ${accessibility_text} | Get Object | text=Accessibility | # Get the UI object | | Call | ${accessibility_text} | click | # Call the method of the UI object 'click' | """ func = getattr(obj, method) return func(**selectors) def set_text(self, input_text, *args, **selectors): """ Set *input_text* to the UI object with *selectors* """ self.device(**selectors).set_text(input_text) def set_object_text(self, input_text, object): """ Set *input_text* the *object* which could be selected by *Get Object* or *Get Child* """ object.set_text(input_text) # Other feature def clear_text(self, *args, **selectors): """ Clear text of the UI object with *selectors* """ while True: target = self.device(**selectors) text = target.info['text'] target.clear_text() remain_text = target.info['text'] if text == '' or remain_text == text: break def open_notification(self): """ Open notification Built in support for Android 4.3 (API level 18) Using swipe action as a workaround for API level lower than 18 """ sdk_version = self.device.info['sdkInt'] if sdk_version < 18: height = self.device.info['displayHeight'] self.device.swipe(1, 1, 1, height - 1, 1) else: self.device.open.notification() def open_quick_settings(self): """ Open quick settings Work for Android 4.3 above (API level 18) """ self.device.open.quick_settings() def sleep(self, time): """ Sleep(no action) for *time* (in millisecond) """ target = 'wait for %s' % str(time) self.device(text=target).wait.exists(timeout=time) def install(self, apk_path): """ Install apk to the device. Example: | Install | ${CURDIR}${/}com.hmh.api_4.0.apk | # Given the absolute path to the apk file | """ self.adb.cmd('install "%s"' % apk_path) def uninstall(self, package_name): """ Uninstall the APP with *package_name* """ self.adb.cmd('uninstall %s' % package_name) def execute_adb_command(self, cmd): """ Execute adb *cmd* """ return self.adb.cmd(cmd) def execute_adb_shell_command(self, cmd): """ Execute adb shell *cmd* """ return self.adb.shell_cmd(cmd) def type(self, input_text): """ [IME] Type *text* at current focused UI object """ self.test_helper.send_set_text_cmd(input_text) def start_test_agent(self): """ [Test Agent] Start Test Agent Service """ cmd = 'am start edu.ntut.csie.sslab1321.testagent/edu.ntut.csie.sslab1321.testagent.DummyActivity' self.adb.shell_cmd(cmd) def stop_test_agent(self): """ [Test Agent] Stop Test Agent Service """ cmd = 'am broadcast -a testagent -e action STOP_TESTAGENT' self.adb.shell_cmd(cmd) def connect_to_wifi(self, ssid, password=None): """ [Test Agent] Connect to *ssid* with *password* """ cmd = 'am broadcast -a testagent -e action CONNECT_TO_WIFI -e ssid %s -e password %s' % ( ssid, password) self.adb.shell_cmd(cmd) def clear_connected_wifi(self): """ [Test Agent] Clear all existed Wi-Fi connection """ cmd = 'am broadcast -a testagent -e action CLEAR_CONNECTED_WIFIS' self.adb.shell_cmd(cmd)
bosspin_icon = device(text='BOSS直聘') while not bosspin_icon.exists: device(scrollable=True).scroll.horiz.forward() bosspin_icon = device(text='BOSS直聘') time.sleep(1) bosspin_icon.click() device(scrollable=True).scroll.vert.toBeginning() # device.swipe(500, 1710, 500, 385) # time.sleep(2) # device.swipe(500, 1710, 500, 385) ''' # 点击搜索按钮 device.click(990,157) input_box = device(resourceId='com.hpbr.bosszhipin:id/et_search') if input_box.exists: input_box.set_text('python开发') device.press('enter') else: print ("搜索框不存在") time.sleep(2) ''' # print(device(resourceId='com.hpbr.bosszhipin:id/view_job_card').count) def crawl():
class typer(): ''' 填写facebook个人详细信息功能。 需要传入设备的IP, 或是deviceID. 函数的作用都能在函数名上看出一二. 开始的时候我写了大量的异常处理代码,想发送到本地服务器上供参考,因为无法发送数据,后来都删掉了. 可以在个人中心的内面检测是否填写了内容,然后根据填写情况调用相应的类函数. 我截了一张图放在服务器上,如果找不到好的获取办法可以用我下面文字识别的方法. 在填写学校时,必须先调用获取生日的类函数,会声明一个成员变量并赋值,供后面计算上学日期和毕业时间的函数使用,不然会报错(这个异常我没有捕获). ''' def __init__(self, deviceIP): self.d = Device(deviceIP) # 因为控制多台设备,所以用设备名命名截图等,不会发生冲突. self.deviceIP = deviceIP # 重启app的计数. 超过100次下面的函数中会抛出异常 self.RestartAppTimes = 0 # 几百种大学专业名json文件路径 self.ConcentrationRoad = './Concentration.json' # 公司图片路径 self.addWorkSrcRoad = './addWork/Position/' self.srcAddCollege = './homePage/addCollege.png' # srcAdd开头的除了下面这个都是第一个选择界面的五个填写部分的图片路径,如添加大学,公司。下面这个是用来识别大学专业填写框的demo. self.srcAddConcetration = './addCollege/AddConcentration.png' self.srcAddCurrentCity = './homePage/addCurrentCity.png' self.srcAddHighSchool = './homePage/addHighSchool.png' self.srcAddHomeTown = './homePage/addHomeTown.png' self.srcAddRelationship = './homePage/addRelationship.png' self.srcAddWork = './homePage/addWork.png' # 这个图片没用到,本是用来捕获网络异常的,因为不能传递数据取消功能,但还是放在这里备用. self.srcCannotFindASecureConnection = 'CannotFindASecureConnection.png ' # 下面图片的变量名都和要填写或点击部分的占位文字相同,不多解释了. self.srcCityTown = './addWork/CityTown.png' self.srcDay = './addHighSchool/Day.png' self.srcDescription = './addWork/Description.png' self.srcEditCollegeUI = './addCollege/EditCollege.png' self.srcEditHighSchoolUI = './addHighSchool/EditHighSchool.png' self.srcEditRelationship = './addRelationship/EditRelationship.png' self.srcEditWorkUI = './addWork/EditWork.png' self.srcEnterYourCollege = './addCollege/EnterYourCollege.png' self.srcEnterYourCurrentCity = './addCurrentCity/EnterYourCurrentCity.png' self.srcEnterYourHighSchool = './addHighSchool/EnterYourHighSchool.png' self.srcEnterYourHomeTown = './addCurrentCity/EnterYourHomeTown.png' self.srcFirstInSelectUI = 'FirsInAllSelectionUI.png' self.srcFrom = './addWork/From.png' self.srcHongKong = './addWork/HongKong.png' self.srcItsNotAPhysicalPlace = './add/addWork/ItsNotAPhysicalPlace.png' self.srcMonth = './addHighSchool/Month.png' self.srcPosition = './addWork/Position.png' self.srcSave = './homePage/Save.png' self.srcWhatIsYourRelationshipStatus = './addRelationship/WhatIsYourRelationshipStatus.png' self.srcWhereDidYouWork = './addWork/WhereDidYouWork.png' self.srcYear = './addHighSchool/Year.png' self.srcGraduated = './homePage/Graduated.png' self.srcEditCurrentCityUI = './addCurrentCity/EditCurrentCity.png' self.swipeTimes = 0 # 公司列表,注释掉的一行是因为测试时这家公司不再能在facebook上找到. self.CoporationList = [ {'name': 'ChinaResources', 'position': 'Sales'}, {'name': 'ChinaResourcesVanguard', 'position': 'Sales'}, # {'name': 'GreatFoodHall', 'position': 'CustomerServiceAssistant'}, {'name': 'JUSCO', 'position': 'AdviserSales'}, {'name': 'LaneCrawford', 'position': 'LaneCrawford'}, {'name': 'SeibuDepartmentStores', 'position': 'BeautyConsultant'}, {'name': 'SincereDepartmentStore', 'position': 'Stoker'}, {'name': 'SogoHongKong', 'position': 'Sales'}, {'name': 'Wellcome', 'position': 'ShopAssistant'}, {'name': 'WingOn', 'position': 'SalesAssociate'}, {'name': '裕華國貨', 'position': 'Sales'}, {'name': 'ParknShop', 'position': 'CustomerServiceAssistant'}, ] # 大学列表 self.CollegeList = [ {'name': 'CityUniversityOfHongKong'}, {'name': 'TheChineseUniversityOfHongKong'}, {'name': 'TheEducationUniversityOfHongKong'}, {'name': 'TheHongKongPolytechnicUniversity'}, {'name': 'TheHongKongUniversityOfScienceAndTechnology'}, {'name': 'TheUniversityOfHongKong'}, {'name': 'UniversityOfSunderlandInHongKong'}, {'name': 'HongKongBaptisUniversity'}, ] # 高中列表 self.HighSchoolList = [ {'name': 'Harrow International School'}, {'name': 'Hong Kong Academy'}, {'name': 'HongKong Japanese School'}, {'name': 'Islamic Kasim Tuet Memorial College'}, {'name': 'Kellett School'}, {'name': 'MaryKnoll Convent'}, {'name': 'Munsang College'}, {'name': 'Scared Heart Canossian College'}, {'name': 'South Island School'}, {'name': 'Yew Chung Community College'}, {'name': 'Ying Wa College'}, {'name': 'Chinese International School'}, {'name': 'Delia Memorial School'}, {'name': 'ESF Discovery College'}, {'name': 'German Swiss International School'}, ] # 随机生成的进入公司工作时间. self.workDate = { 'Day': random.choice([str(i) for i in range(1,31)]), 'Month': random.choice([ 'January', 'February', 'March', 'April', 'May', ]), 'Year':2018, } def addCollege(self): '''添加大学信息. 从选择编辑页面开始,编辑页面一共五个,分别是编辑工作信息,中学信息,大学信息,居住城市,婚姻关系,故居。 正常在填完一个内容的时候会回到选择编辑页面. 中途填写失败会抛出异常,异常被上一级捕获,调用重启app函数并重新执行当前填写功能. ''' try: self.findEditBlock(self.srcAddCollege) time.sleep(10) self.checkCurrentFullOfUI(self.srcEditCollegeUI) x, y = self.findElement(self.srcEnterYourCollege) self.raiseIfError(x, y) data = random.choice(self.CollegeList) self.clickAndInput(x, y, data['name']) time.sleep(5) x, y = self.findElement('./addCollege/'+data['name']+'/'+data['name']+'.png') self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) if self.d(index='6').exists: self.d.press.back() time.sleep(3) self.atSchoolDate = self.calculateDateAtSchool('College') self.selectDate(True) x, y = self.findElement(self.srcGraduated) self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) x, y = self.findElement(self.srcAddConcetration) self.raiseIfError(x, y) with open(self.ConcentrationRoad, 'r') as f: string = f.read() concentrationDict = json.loads(string) concentration = random.choice(concentrationDict['Concentration']) self.d.swipe(250, 800, 250, 200) time.sleep(3) self.clickAndInput(x, y, concentration) x, y = self.findElement(self.srcSave) self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) except UnKnowError: self.RestartAppAndWalkInEditUI() self.addCollege() return def addCurrentCity(self): '''添加现居和故居功能,这两个编辑内容可以在同一个页面填写. 填写内容均是香港,写死的,如果需要改可以在下面改. ''' try: self.findEditBlock(self.srcAddCurrentCity) time.sleep(10) self.checkCurrentFullOfUI(self.srcEditCurrentCityUI) x, y = self.findElement(self.srcEnterYourCurrentCity) self.raiseIfError(x, y) self.clickAndInput(x, y, 'HongKong') time.sleep(10) x, y = self.findElement(self.srcHongKong) self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) x, y = self.findElement(self.srcEnterYourHomeTown) self.raiseIfError(x, y) self.clickAndInput(x, y, 'HongKong') x, y = self.findElement(self.srcHongKong) self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) x, y = self.findElement(self.srcSave) self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) except UnKnowError: self.RestartAppAndWalkInEditUI() self.addCurrentCity() return def addHighSchool(self): '''添加中学信息''' try: self.findEditBlock(self.srcAddHighSchool) time.sleep(10) self.checkCurrentFullOfUI(self.srcEditHighSchoolUI) x, y = self.findElement(self.srcEnterYourHighSchool) self.raiseIfError(x, y) data = random.choice(self.HighSchoolList) self.clickAndInput(x, y, data['name']) time.sleep(5) x, y = self.findElement('./addHighSchool/'+data['name']+'/'+data['name']+'.png') self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) if self.d(index='6').exists: self.d.press.back() time.sleep(3) self.atSchoolDate = self.calculateDateAtSchool('HighSchool') print(self.atSchoolDate ) self.selectDate(True) x, y = self.findElement(self.srcGraduated) self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) x, y = self.findElement(self.srcSave) self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) except UnKnowError: self.RestartAppAndWalkInEditUI() self.addHighSchool() return def addRelationship(self): '''添加婚姻关系''' try: self.findEditBlock(self.srcAddRelationship) time.sleep(10) self.checkCurrentFullOfUI(self.srcEditRelationship) x, y = self.findElement(self.srcWhatIsYourRelationshipStatus) self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) if not self.d(index='6').exists: raise UnKnowError() self.d(text='Single').click() time.sleep(3) x, y = self.findElement(self.srcSave) self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) except UnKnowError: self.RestartAppAndWalkInEditUI() self.addRelationship() return def addWork(self): '''添加工作信息. 测试过程中发现裕华国货公司页面下的职位发生改变,原来的策略不再适用,注释掉了. 后期填写过程中也可能会发生改变,到时候需要有针对性的修改,或者添加一些新的公司信息和截取对应的图片. ''' try: self.findEditBlock(self.srcAddWork) time.sleep(10) self.checkCurrentFullOfUI(self.srcEditWorkUI) x, y = self.findElement(self.srcWhereDidYouWork) self.raiseIfError(x, y) data = random.choice(self.CoporationList) self.clickAndInput(x, y, data['name']) time.sleep(5) x, y = self.findElement('./addWork/Position/'+data['name']+'/'+data['name']+'.png') self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) x, y = self.findElement(self.srcPosition) if x == y == 0: pass else: self.d.click(x, y) time.sleep(5) if data['name'] == 'ChinaResourcesVanguard': self.d.swipe(250, 600, 250, 200) time.sleep(3) # if data['name'] == '裕華國貨': # self.clickAndInput(x, y, data['position']) # self.d.click(250, 800) # time.sleep(3) x, y = self.findElement('./addWork/Position/'+data['name']+'/'+data['position']+'.png') self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) if self.d(index='6').exists: self.d.press.back() time.sleep(3) x, y = self.findElement(self.srcCityTown) self.clickAndInput(x, y, 'HongKong') time.sleep(5) x, y = self.findElement(self.srcHongKong) self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) self.selectDate() x, y = self.findElement(self.srcSave) self.raiseIfError(x, y) self.d.click(x, y) time.sleep(3) except UnKnowError: self.RestartAppAndWalkInEditUI() self.addWork() return def calculateDateAtSchool(self, level): '''根据不同情况计算开始读书和毕业的时间.''' DATA = {} dateOne = {} dateOne['Month'] = 'September' dateOne['Day'] = 1 if level == 'College': dateOne['Year'] = self.Birthday['Year'] + 18 else: dateOne['Year'] = self.Birthday['Year'] + 15 DATA['Start'] = dateOne dateTwo = {} if level == 'College': dateTwo['Year'] = dateOne['Year'] + 4 else: dateTwo['Year'] = dateOne['Year'] + 3 dateTwo['Month'] = 'July' dateTwo['Day'] = 1 DATA['End'] = dateTwo return DATA def calculateDatePosition(self): '''根据截图上From的位置计算出选择月份的位置''' x, y = self.findElement(self.srcFrom) self.raiseIfError(x, y) month = (x + 138, y) year = (x + 64, y) return (year, month) def checkCurrentFullOfUI(self, imgobj): '''比对整张图片是否相同,用来检测是否成功进入编辑页面''' current = self.d.screenshot('{}.png'.format(self.deviceIP)) time.sleep(2) result = self.matchImg(current, imgobj, 0.7) x, y = result['result'] if result else (0, 0) self.raiseIfError(x, y) def clickAndInput(self, x, y, data): '''这里必须降低输入速度, 加入了睡眠随机数''' if x == y == 0: pass else: self.d.click(x, y) time.sleep(3) print('Clicking finished.') dataList = data.split(' ') length = len(dataList) print('the length of data: ' + str(length)) if length > 1: times = 0 for i in dataList: times += 1 print('starting input...') for j in i: os.popen("adb -s {} shell am broadcast -a ADB_INPUT_TEXT --es msg '{}'".format(self.deviceIP, j)) time.sleep((int(random.random()*10)/10+1)) if times < length: print('input space.') os.popen('adb -s {} shell input keyevent 62'.format(self.deviceIP)) print('done!') time.sleep(3) print('done!') else: os.popen("adb -s {} shell am broadcast -a ADB_INPUT_TEXT --es msg '{}'".format(self.deviceIP, data)) time.sleep(2) def clickWait(self): '''检测是否出现app停止运行的情况,点击wait并等待一小会. ''' if self.d(text='wait').exists: self.d(text='wait').click() time.sleep(10) if self.d(text='Thanks').exists: self.d(text='No Thanks').click() time.sleep(5) def findEditBlock(self, imgsrc): '''用来在第一个选择界面寻找编辑如工作、大学的入口,没找到的时候会向下滑动,超时会抛出异常,由上级承接。 ''' current = self.Myscreenshot() time.sleep(1) match_result = self.matchImg(current, imgsrc) t = time.time() while match_result == None or match_result['confidence'] < 0.8: ttt = time.time() - t print('It waste time: ' + str(int(ttt))) print('Swiping the screen...') self.d.swipe(250, 600, 250, 400) print('has finished swipeing...') time.sleep(3) current = self.Myscreenshot() time.sleep(1) match_result = self.matchImg(current, imgsrc) if ttt > 100: raise UnKnowError() self.clickWait() print('Looking for the edit block...') print('Has done the searching job.') x, y = match_result['result'] self.d.click(x, y) time.sleep(5) def findElement(self, imgsrc): '''在当前界面内寻找指定的图片位置,如果没找到,返回(0,0)。 ''' current = self.Myscreenshot() result = self.matchImg(current, imgsrc) if result == None: return (0, 0) else: return result['result'] def getBirthday(self): '''从Facebook个人中心获取到用户的生日信息。 使用了图像识别文字库tesseract-ocr. 这里我想过不在RestartApp函数里面调用,但是不好处理,建议修改代码,在外部处理,以类实例调用,并保存起来,避免反复获取。 上述建议只需将RestartApp函数中的调用此函数部分删去,在进行其他任务前以类实例调用一次即可。 需注意facebook界面须在个人中心处,并额外处理app停止运行的情况。 ''' self.d.click(0, 400) if self.d(textContains="Search in").exists: self.d(textContains="Search in").click() else: raise UnknowError() time.sleep(5) if self.d(textContains='In').exists: self.d(textContains='In').click() time.sleep(3) self.d(textContains='In').click() time.sleep(3) os.popen('adb -s {} shell input text "Born"'.format(self.deviceIP)) time.sleep(5) self.d(description='born').click() time.sleep(5) current = self.Myscreenshot() time.sleep(3) string = pytesseract.image_to_string(Image.open(current)) try: month, day, year = re.search('Born on ([\w]+) ([\d]+),([\d]+)', string).groups() except AttributeError: raise UnknowError() self.Birthday = {'Year': int(year), 'Month': month, 'Day': int(day)} self.d.press.back() time.sleep(4) self.d.press.back() time.sleep(4) self.d.press.back() def matchImg(self, imgsrc, imgobj, confidence=0.5): '''此函数用来识别一张图片在另一张图片中的位置,返回一个字典. 使用方法稍作尝试便知,使用的算法我也有,不依赖于aircv模块。 ''' imsrc = ac.imread(imgsrc) imobj = ac.imread(imgobj) match_result = ac.find_template(imsrc, imobj, confidence) if match_result is not None: match_result['shape']=(imsrc.shape[1],imsrc.shape[0]) return match_result def Myscreenshot(self): '''截图并以设备id或ip为图片名保存''' current = self.d.screenshot('{}.png'.format(self.deviceIP)) return current def partOfChooseDate(self, src, data): '''供selectDate函数调用''' x, y = self.findElement(src) self.raiseIfError(x, y) self.swipeAndClick(x, y, data) def raiseIfError(self, x, y): '''重复调用, 用来抛出异常到上级''' if x == y == 0: raise UnKnowError() def RestartAppAndWalkInEditUI(self): '''重启app并进入到选择五种编辑信息界面. ''' self.RestartAppTimes += 1 if self.RestartAppTimes > 100: raise CheckOutError() os.popen('adb -s {} shell am force-stop com.facebook.katana'.format(self.deviceIP)) time.sleep(5) os.popen('adb -s {} shell am start -n com.facebook.katana/.LoginActivity'.format(self.deviceIP)) time.sleep(30) if self.d(descriptionContains='More').exists: self.d(descriptionContains='More').click() time.sleep(3) else: self.RestartAppAndWalkInEditUI() return if self.d(descriptionContains='View your profile').exists: self.d(descriptionContains='View your profile').click() time.sleep(5) self.clickWait() else: self.RestartAppAndWalkInEditUI() return try: self.getBirthday() except UnKnowError: self.RestartAppAndWalkInEditUI() return t = time.time() ttt = 0 while not self.d(description='ADD DETAILS ABOUT YOU').exists and not self.d(text='EDIT DETAILS').exists and ttt < 100: ttt = time.time() - t self.d.swipe(250, 600, 250, 200) time.sleep(3) self.clickWait() if ttt > 100: self.RestartAppAndWalkInEditUI() return if self.d(description='ADD DETAILS ABOUT YOU').exists: self.d(description='ADD DETAILS ABOUT YOU').click() time.sleep(3) elif self.d(text='EDIT DETAILS').exists: self.d(text='EDIT DETAILS').click() time.sleep(3) else: self.RestartAppAndWalkInEditUI() return def selectDate(self, signal=False): '''根据不同参数,处理不同的日期选择, 由于月份的文字长度不同,给定的数值又不能确定,为避免复杂计算,使用了固定坐标添加. 如果树莓派或其他驱动设备的处理性能高,也可以写成依次识别十二个月份图片的方法.''' # x, y = self.findElement(self.srcFrom) # self.raiseIfError(x, y) (year_x, year_y), (month_x, month_y) = self.calculateDatePosition() print(month_x, month_y) if signal: self.swipeAndClick(year_x, year_y, self.atSchoolDate['Start']['Year']) if signal: Date = self.atSchoolDate['Start'] else: Date = self.workDate print(Date) self.swipeAndClick(month_x, month_y, Date['Month']) if Date['Month'] == 'January': day_x = 290 elif Date['Month'] == 'February': day_x = 299 elif Date['Month'] == 'March': day_x = 275 elif Date['Month'] == 'April': day_x = 260 elif Date['Month'] == 'May': day_x = 252 elif Date['Month'] == 'June' or Date['Month'] == 'July': day_x = 259 elif Date['Month'] == 'September': day_x = 315 day_y = month_y self.swipeAndClick(day_x, day_y, Date['Day']) if signal: self.partOfChooseDate(self.srcYear, self.atSchoolDate['End']['Year']) self.partOfChooseDate(self.srcMonth, self.atSchoolDate['End']['Month']) self.partOfChooseDate(self.srcDay, self.atSchoolDate['End']['Day']) def swipeAndClick(self, x, y, data): '''功能如函数名, 供选择日期使用.''' self.d.click(x, y) time.sleep(3) if not self.d(index='6').exists: print('index=6 not exists.') raise UnKnowError() for i in range(2): self.d.swipe(250, 200, 250, 800) time.sleep(3) print('swiping to the top.') t = time.time() while not self.d(text='{}'.format(data)).exists: ttt = time.time() - t self.d.swipe(250, 800, 250, 200) print('swiping down and looking for the selection.') time.sleep(3) self.clickWait() if ttt > 60: raise UnKnowError() print('has fond out.') self.d(text='{}'.format(data)).click() time.sleep(3)
continue for package in applist: os.popen('adb -s ' + series + ' shell am start -n fu.hao.uidroid/.TaintDroidNotifyController') current_time = time.strftime(ISOTIMEFORMAT, time.localtime()) os.popen('adb -s ' + series + ' shell "su 0 date -s `date +%Y%m%d.%H%M%S`"') os.popen('adb -s ' + series + ' shell monkey -p com.lexa.fakegps --ignore-crashes 1') flag = True while flag: try: dev.info flag = False except: pass dev.screen.on() #dev(text='Set location').click() dev.click(300, 150) dev.press.back() os.popen('adb kill-server') os.popen('adb start-server') cmd = 'adb -s ' + series + ' shell "nohup /data/local/tcpdump -w /sdcard/' + package + current_time + '.pcap"' #os.system(cmd) subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, shell=True) logger.info('tcpdump begins') os.popen('adb -s ' + series + ' logcat -c') logger.info('clear logcat') dir_data = appdir + 'data/' + package + '/' os.popen('mkdir ' + dir_data) #os.popen('adb -s ' + series + ' shell "logcat -v threadtime | grep --line-buffered UiDroid_Taint > /sdcard/' + package + current_time +'.log " &') cmd = 'adb -s ' + series + ' shell "nohup logcat -v threadtime -s "UiDroid_Taint" > /sdcard/' + fline + current_time +'.log"' #os.system(cmd)
print 'off line' exit(0) d = Device(Phone_ID) print d.info #s = '683,263.home' coordinate_list = s.split('.') print coordinate_list while 1 > 0: link = ''.join(os.popen('adb devices').readlines()[1]) try: assert link.find('device') != -1, u'error' except: print 'off line' exit(0) for coordinate in coordinate_list: if coordinate == 'back': print 'back' d.press("back") time.sleep(1.9) elif coordinate == 'home': print 'home' d.press("home") time.sleep(1.9) else: c = ''.join(coordinate).split(',') print 'click:', c[0], c[1] d.click(int(c[0]), int(c[1])) time.sleep(1.9)
class AdbDevice(object): hiddenService = 'com.fuhu.settingshelper/.SettingsHelperService' LIST_SYSTEM = 'system' LIST_ALL = 'all' LIST_3RD_PARTY = '3rd' LIST_RECENT = 'recent' orientation = ['natural', 'left', 'upsidedown', 'right'] def __init__(self, serialno=None): self.lock = threading.Semaphore() self.cmd = AdbCmd(serialno) self.serialno = serialno def connect(self): self.d = Device(self.serialno) # self.d, self.serialno = ViewClient.connectToDeviceOrExit(serialno=self.serialno) # self.vc = ViewClient(self.d, self.serialno, compresseddump=False, ignoreuiautomatorkilled=True, autodump=False) def startActivity(self, component): component = component.replace('$', '\$') self.cmd.shell( ['am', 'start', '-n', component, '--activity-clear-task']) def isConnected(self): if self.__getDevices(self.serialno): return True else: return False def listPackages(self): return self.cmd.shell(['pm', 'list', 'package'], output=True) def reboot(self): self.cmd.reboot() def dump(self, compressed=False): return self.d.dump(compressed=compressed).encode('utf-8') @staticmethod def retrieveSelector(point, selectors): shortestDistance = 500000 result = None for selector in selectors: print selector.className bounds = selector.info['bounds'] if point[0] <= bounds['right'] and point[0] >= bounds['left'] and point[1] <= bounds['top'] and point[1] >= \ bounds['bottom']: return selector for selector in selectors: bounds = selector.info['bounds'] distance = ( ((bounds['left'] + bounds['top']) / 2 - point[0])**2 + ((bounds['left'] + bounds['bottom']) / 2 - point[1])**2)**0.5 if shortestDistance > distance: shortestDistance = distance result = selector return result def checkSamePoint(self, point, info, isLongClick=False): print info if not self.isScreenOn(): self.powerBtn() if self.isLocked(): self.unlock() if len(info) == 2: if self.d.info['currentPackageName'] == info['packageName']: self.cmd.shell(['input', 'tap', str(point[0]), str(point[1])]) return {'answer': True, 'reason': 'it is the navigation bar'} if info['content-desc'] != '': self.d(contentDescription=info['content-desc']) return {'answer': True, 'reason': 'find by description'} if info['text'] != '': self.d(text=info['text']).click() return {'answer': True, 'reason': 'find by text'} currentViewMap = self.getTouchViewInfo(point) if currentViewMap: if currentViewMap['package'] == info['package']: if currentViewMap['class'] == info['class']: self.d.click(point[0], point[1]) return {'answer': True, 'reason': 'Find the similar view'} else: return { 'answer': False, 'reason': 'the view doesn\'t be found.' } else: return {'answer': False, 'reason': 'In the wrong page'} else: return {'answer': False, 'reason': 'the view can\'t be found.'} @staticmethod def removeKey(d, keys): r = dict(d) for k in keys: if r.has_key(k): del r[k] return r def __getDevices(self, serial): outputRE = re.compile(serial) devices = outputRE.findall(AdbCmd.devices()) if len(devices) > 0: return devices[0] def getTouchViewInfo(self, point, compressed=False): smallestArea = sys.maxint result = None root = ET.fromstring(self.dump(compressed=compressed)) for node in root.iter('node'): bounds = re.match( '\[(?P<x1>[\d]+),(?P<y1>[\d]+)\]\[(?P<x2>[\d]+),(?P<y2>[\d]+)\]', node.get('bounds')) isInclude, area = self._parseRange( point, (int(bounds.group('x1')), int(bounds.group('y1'))), (int(bounds.group('x2')), int(bounds.group('y2')))) if isInclude: if area <= smallestArea: smallestArea = area result = node if result is not None: return result.attrib elif point[1] > self.d.info['displayHeight']: p = { 'packageName': self.d.info['currentPackageName'], 'type': 'Navigation Bar' } return p @staticmethod def getBoundsCenter(bounds): bounds = re.match( '\[(?P<x1>[\d]+),(?P<y1>[\d]+)\]\[(?P<x2>[\d]+),(?P<y2>[\d]+)\]', bounds) x = (int(bounds.group('x2')) + int(bounds.group('x1'))) / 2 y = (int(bounds.group('y2')) + int(bounds.group('y1'))) / 2 return x, y @staticmethod def _parseRange(point, point1, point2): if point[0] >= point1[0] and point[0] <= point2[0]: if point[1] >= point1[1] and point[1] <= point2[1]: area = (point2[0] - point1[0]) * (point2[1] - point1[1]) return (True, area) else: return (False, None) else: return (False, None) def viewFilter(self, view): if view.getClass() == self.viewClass: return True else: return False def screenOn(self, status): if status == True: self.d.screen.on() else: self.d.screen.off() def clearLog(self): self.cmd.shell(['logcat', '-c']) def longClick(self, x, y, duration): if y <= self.d.info['displayHeight']: self.d.swipe(x, y, x, y, steps=duration / 10) else: self.cmd.shell(['input', 'tap', str(x), str(y)]) def click(self, x, y): if y <= self.d.info['displayHeight']: self.d.click(x, y) else: self.cmd.shell(['input', 'tap', str(x), str(y)]) def drag(self, x, y, duration): self.d.drag(x[0], x[1], y[0], y[1], steps=duration / 10) def swipe(self, x, y, duration): self.cmd.shell([ 'input', 'swipe', str(x[0]), str(x[1]), str(y[0]), str(y[1]), str(duration) ]) def type(self, text): translate = re.sub(r'([#\(\)\&\*\'\\\"\~\`\|\<\>?\;])', r'\\\1', text) self.cmd.shell(['input', 'text', translate]) # self.d(className="android.widget.EditText").set_text(text) def hideKeyboard(self): if self.isKeyboardShown(): self.backBtn() def unlock(self): if self.isLocked(): self.menuBtn() def isLocked(self): lockScreenRE = re.compile('mShowingLockscreen=(true|false)') m = lockScreenRE.search(self.cmd.dumpsys(['window', 'policy'])) if m is not None: return m.group(1) == 'true' def isScreenOn(self): screenOnRE = re.compile('mScreenOnFully=(true|false)') m = screenOnRE.search(self.cmd.dumpsys(['window', 'policy'])) if m is not None: return m.group(1) == 'true' def powerBtn(self): self.cmd.inputKeyevnt('POWER') def backBtn(self): self.cmd.inputKeyevnt('BACK') def homeBtn(self): self.cmd.inputKeyevnt('HOME') def menuBtn(self): self.cmd.inputKeyevnt('MENU') # def rotate(self, orient): # if orient == 'auto': # self.d.freeze_rotation(False) # elif orient == '0': # self.d.orientation = 'n' # elif orient == '90': # self.d.orientation = 'l' # elif orient == '180': # self.d.freeze_rotation(True) # self._setScreenOrient(2) # elif orient == '270': # self.d.orientation = 'r' def rotate(self, orient): self.d.freeze_rotation(True) index = self.orientation.index(self.d.orientation) if orient == 'left': index -= 1 if index < 0: self._setScreenOrient(len(self.orientation) - 1) else: self._setScreenOrient(index) elif orient == 'right': index += 1 if index >= len(self.orientation): self._setScreenOrient(0) else: self._setScreenOrient(index) def volumeUp(self): self.cmd.inputKeyevnt('VOLUME_UP') def volumeDown(self): self.cmd.inputKeyevnt('VOLUME_DOWN') # def _setAutoRotate(self, status): # if status: # self.cmd.shell(['content', 'insert', '--uri', 'content://settings/system', '--bind', 'name:s:accelerometer_rotation', # '--bind', 'value:i:1']) # time.sleep(1) # self.cmd.shell(['content', 'insert', '--uri', 'content://settings/system', '--bind', 'name:s:accelerometer_rotation', # '--bind', 'value:i:1']) # # else: # self.cmd.shell(['content', 'insert', '--uri', 'content://settings/system', '--bind', 'name:s:accelerometer_rotation', # '--bind', 'value:i:0']) # time.sleep(1) # self.cmd.shell(['content', 'insert', '--uri', 'content://settings/system', '--bind', 'name:s:accelerometer_rotation', # '--bind', 'value:i:0']) def _setScreenOrient(self, orient): self.cmd.shell([ 'content', 'insert', '--uri', 'content://settings/system', '--bind', 'name:s:user_rotation', '--bind', 'value:i:' + str(orient) ]) def resetPackage(self, package): self.cmd.shell(['pm', 'clear', package]) def takeSnapshot(self, path): return self.d.screenshot(path) def getCurrDisplay(self): output = self.cmd.dumpsys(['display']) match = re.search( 'mCurrentOrientation=(?P<orientation>[\d])[\w\d\s\(\),-=]+' + 'mCurrentDisplayRect=Rect\(0, 0 - (?P<width>[\d]+),\s+(?P<height>[\d]+)', output) width = int(match.group('width')) height = int(match.group('height')) orientation = int(match.group('orientation')) mode = 'landscape' if width > height else 'portrait' return { 'width': width, 'height': height, 'orientation': orientation, 'mode': mode } def getRealDisplay(self): output = self.cmd.dumpsys(['display']) match = re.search('real\s(?P<width>[\d]+)\sx\s(?P<height>[\d]+)', output) return { 'width': int(match.group('width')), 'height': int(match.group('height')) } def getProp(self, propType=None): if propType: return self.cmd.shell(['getprop', propType], output=True).strip('\n') else: return self.cmd.shell(['getprop'], output=True).strip('\n') def uninstall(self, package): self.cmd.uninstall(package) def install(self, name): self.cmd.install(name) def close(self): pass def checkConnected(self): return self.d.checkConnected() def extractComponentName(self, packageName): if packageName == 'com.google.android.youtube': return 'com.google.android.youtube/.app.honeycomb.Shell$HomeActivity' output = self.cmd.dumpsys(['package', packageName]) try: if os.name == 'nt': splitOutput = output.split('\r\r\n') else: splitOutput = output.split('\r\n') num = splitOutput.index( next(x for x in splitOutput if x.find('android.intent.action.MAIN:') != -1)) if num != -1: print splitOutput[num + 1] return splitOutput[num + 1].split()[1] else: return None except: return None def screenTimeout(self): timeout = self.cmd.getSettings(['system', 'screen_off_timeout']) return long(timeout) / 1000 def setScreenTimeout(self, value): self.cmd.putSettings(['system', 'screen_off_timeout', value]) def isNfcOn(self): match = re.search('mState=(on|off)', self.cmd.dumpsys(['nfc'])) if match: if match.group(1) == 'on': return True else: return False else: return False def isAirPlaneModeOn(self): match = re.search('(0|1)', self.cmd.getSettings(['global', 'airplane_mode_on'])) if match: if match.group(1) == '1': return True else: return False def isInstallUnknownSources(self): match = re.search( '(0|1)', self.cmd.getSettings(['global', 'install_non_market_apps'])) if match: if match.group(1) == '1': return True else: return False def isKeyboardShown(self): output = self.cmd.dumpsys(['input_method']) result = re.search('mInputShown=(true|false)', output) if result.group(1) == 'true': return True else: return False def isWifiOn(self): match = re.search('(0|1)', self.cmd.getSettings(['global', 'wifi_on'])) if match: if match.group(1) == '1': return True else: return False def isBtOn(self): match = re.search('(0|1)', self.cmd.getSettings(['global', 'bluetooth_on'])) if match: if match.group(1) == '1': return True else: return False def isNoKeepActivityOn(self): match = re.search( '(0|1)', self.cmd.getSettings(['global', 'always_finish_activities'])) if match: if match.group(1) == '1': return True else: return False def isDataRoamingOn(self): match = re.search('(0|1)', self.cmd.getSettings(['global', 'data_roaming'])) if match: if match.group(1) == '1': return True else: return False def isAutoRotateOn(self): match = re.search( '(0|1)', self.cmd.getSettings(['system', 'accelerometer_rotation'])) if match: if match.group(1) == '1': return True else: return False def isGpsOn(self): state = self.cmd.getSettings(['secure', 'location_providers_allowed']) if state == 'none': return False else: return True def isAutoBrightnessOn(self): match = re.search( '(0|1)', self.cmd.getSettings(['system', 'screen_brightness_mode'])) if match: if match.group(1) == '1': return True else: return False def isVibrateWhenRingOn(self): match = re.search( '(0|1)', self.cmd.getSettings(['system', 'vibrate_when_ringing'])) if match: if match.group(1) == '1': return True else: return False else: return False def isWindowAniOn(self): match = re.search( '(0.0|1.0)', self.cmd.getSettings(['global', 'window_animation_scale'])) if match: if match.group(1) == '0.0': return True else: return False else: return False def isTransitionAnuOn(self): match = re.search( '(0.0|1.0)', self.cmd.getSettings(['global', 'transition_animation_scale'])) if match: if match.group(1) == '0.0': return True else: return False else: return False def isDurationAniOn(self): match = re.search( '(0.0|1.0)', self.cmd.getSettings(['global', 'animator_duration_scale'])) if match: if match.group(1) == '0.0': return True else: return False else: return False def enableWifi(self, state): if state: self.cmd.shell([ 'am', 'startservice', '--ez', 'wifi', 'true', '-n', self.hiddenService ]) else: self.cmd.shell([ 'am', 'startservice', '--ez', 'wifi', 'false', '-n', self.hiddenService ]) def enableBluetooth(self, state): if state: self.cmd.shell([ 'am', 'startservice', '--ez', 'bt', 'true', '-n', self.hiddenService ]) else: self.cmd.shell([ 'am', 'startservice', '--ez', 'bt', 'false', '-n', self.hiddenService ]) def enableInstallUnknownSources(self, state): if state: self.cmd.putSettings(['global', 'install_non_market_apps', '1']) else: self.cmd.putSettings(['global', 'install_non_market_apps', '0']) def enableNfc(self, state): if state: self.cmd.shell(['service', 'call', 'nfc', '6']) else: self.cmd.shell(['service', 'call', 'nfc', '5']) def enableNoKeepActivity(self, state): if state: self.cmd.putSettings(['global', 'always_finish_activities', '1']) else: self.cmd.putSettings(['global', 'always_finish_activities', '0']) def enableDataRoaming(self, state): if state: self.cmd.putSettings(['global', 'data_roaming', '1']) else: self.cmd.putSettings(['global', 'data_roaming', '0']) def enableAutoRotate(self, state): if state: self.cmd.putSettings(['system', 'accelerometer_rotation', '1']) else: self.cmd.putSettings(['system', 'accelerometer_rotation', '0']) def enableGps(self, state): if state: self.cmd.putSettings( ['secure', 'location_providers_allowed', 'gps,network']) else: self.cmd.putSettings( ['secure', 'location_providers_allowed', 'none']) def enableAutoBrightness(self, state): if state: self.cmd.putSettings(['system', 'screen_brightness_mode', '1']) else: self.cmd.putSettings(['system', 'screen_brightness_mode', '0']) def enableVibrateRinging(self, state): if state: self.cmd.putSettings(['system', 'vibrate_when_ringing', '1']) else: self.cmd.putSettings(['system', 'vibrate_when_ringing', '0']) def enableVibrateWhenRing(self, state): if state: self.cmd.putSettings(['system', 'vibrate_when_ringing', '1']) else: self.cmd.putSettings(['system', 'vibrate_when_ringing', '0']) def enableWindowAnimator(self, state): if state: self.cmd.putSettings(['global', 'window_animation_scale', '1.0']) else: self.cmd.putSettings(['global', 'window_animation_scale', '0.0']) def enableTransitionAnimator(self, state): if state: self.cmd.putSettings( ['global', 'transition_animation_scale', '1.0']) else: self.cmd.putSettings( ['global', 'transition_animation_scale', '0.0']) def enableDurationAnimation(self, state): if state: self.cmd.putSettings(['global', 'animator_duration_scale', '1.0']) else: self.cmd.putSettings(['global', 'animator_duration_scale', '0.0']) def enableAirplaneMode(self, state): if state: self.cmd.putSettings(['global', 'airplane_mode_on', '1']) self.cmd.shell([ 'am', 'broadcast', '-a', 'android.intent.action.AIRPLANE_MODE', '--ez', 'state', 'true' ]) else: self.cmd.putSettings(['global', 'airplane_mode_on', '0']) self.cmd.shell([ 'am', 'broadcast', '-a', 'android.intent.action.AIRPLANE_MODE', '--ez', 'state', 'false' ]) def requestPackage(self, t): result = None if t == self.LIST_ALL: result = self.cmd.shell(['pm', 'list', 'packages'], output=True) elif t == self.LIST_SYSTEM: result = self.cmd.shell(['pm', 'list', 'packages', '-s'], output=True) elif t == self.LIST_3RD_PARTY: result = self.cmd.shell(['pm', 'list', 'packages', '-3'], output=True) if result: packages = result.split('\r\n') packages.remove('') packages.sort() return packages def getSerialNumber(self): return self.serialno
class ModelInfo(): ''' classdocs ''' def __init__(self, deviceserial): ''' Constructor ''' #sndLog = CLS("test", "test") self.osType = sys.platform self.mstrInfo = {} #self.devSerials = self.instAdb.device_serial() self.mstrDevice = Device(deviceserial) self.mstrInfo = self.mstrDevice.info ''' DEVICE Infoamtions { u'displayRotation': 0, u'displaySizeDpY': 640, u'displaySizeDpX': 360, u'currentPackageName': u'com.android.launcher', u'productName': u'takju', u'displayWidth': 720, u'sdkInt': 18, u'displayHeight': 1184, u'naturalOrientation': True } ''' def getCurrntProductInfo(self): return self.mstrInfo def getProductNmae(self): return self.mstrInfo['productName'] def getCurrntPkg(self): return self.mstrInfo['currentPackageName'] def getSDKInt(self): return self.mstrInfo['sdkInt'] def getRotation(self): return self.mstrInfo['displayRotation'] def getNaturalOri(self): return self.mstrInfo['naturalOrientation'] def getDisplayState(self): return self.mstrDevice.screen def setReflash(self): pass #define Key activity def setDevScrnOn(self): self.mstrDevice.screen.on() def setMstDevScrnOff(self): self.mstrDevice.screen.off() def setWakeup(self): self.mstrDevice.wakeup() def setSleep(self): self.mstrDevice.sleep() #Hard key Soft key def pressHome(self): return self.mstrDevice.press.home() def pressBack(self): return self.mstrDevice.press.back() ###################################################################### def pressLeft(self): return self.mstrDevice.press.left() def pressRight(self): return self.mstrDevice.press.right() def pressUp(self): return self.mstrDevice.press.up() def pressDown(self): return self.mstrDevice.press.down() def pressCenter(self): return self.mstrDevice.press.center() ###################################################################### def pressMenu(self): return self.mstrDevice.press.menu() def pressSearch(self): return self.mstrDevice.press.search() def pressEnter(self): return self.mstrDevice.press.enter() def pressDelete(self): return self.mstrDevice.press.delete() # or del def pressRecent(self): return self.mstrDevice.press.recent() def pressVol_Up(self): return self.mstrDevice.press.volume_up() def pressVol_Down(self): return self.mstrDevice.press.volume_down() def pressVol_Mute(self): return self.mstrDevice.press.volume_mute() def pressPower(self): return self.mstrDevice.press.power() def clik(self, x, y): return self.mstrDevice.click(x, y) def longClik(self, x, y): ''' Description: param: x, y : start first point x, y return : Boolean ''' return self.mstrDevice.long_click(x, y) def swipe(self, sx, sy, ex, ey, steps=10): ''' Description: param: sx, xy : start first x, y ex, ey : move to x, y return : Boolean ''' return self.mstrDevice.swipe(sx, sy, ex, ey, steps) def drage(self, sx, sy, ex, ey, steps=10): ''' Description: param: sx, xy : start first x, y ex, ey : move to x, y return : Boolean ''' return self.mstrDevice.drag(sx, sy, ex, ey, steps) #screen action of the device def setOrientation(self, scrAct='natural', choiceDevice='mstr'): ''' Description param d.orientation = 'l' or 'left' d.orientation = 'r' or 'right' d.orientation = 'n' or 'natural' return : None ''' self.mstrDevice.orientation = scrAct def setFreezeRotation(self, condition=False, choiceDevice='mstr'): ''' param: condition : False un-freeze rotation return : None ''' self.mstrDevice.freeze_rotation(condition) def takeScreenShot(self, choiceDevice='mstr'): ''' Description: take screenshot and save to local file 'home.png' can work until android 4.2 param image name ''' def dumpWindowHeirarchy(self, filename='./log/hierachy.xml'): return self.mstrDevice.dump(filename) def dumpWindowHeirarchyStream(self): return self.mstrDevice.dump() def notification(self): ''' Open notification, can not work until android 4.3 return : Boolean ''' return self.mstrDevice.open.Notification() def quickSettings(self): ''' open quick settins, can not work until android 4.3 return : Boolean ''' return self.mstrDevice.open.quick_settings() def waitidle(self): ''' wait for current window to idle return : None ''' self.mstrDevice.wait.idle() def waitWindowUpdate(self): ''' wait until window upate event occurs return : Boolean ''' self.mstrDevice.wait.update() def getCurrentActivityInfo(self, text): ''' INFOMATION: { u'contentDescription': u'', u'checked': False, u'scrollable': False, u'text': u'Settings', u'packageName': u'com.android.launcher', u'selected': False, u'enabled': True, u'bounds': {u'top': 385, u'right': 360, u'bottom': 585, u'left': 200}, u'className': u'android.widget.TextView', u'focused': False, u'focusable': True, u'clickable': True, u'chileCount': 0, u'longClickable': True, u'visibleBounds': {u'top': 385, u'right': 360, u'bottom': 585, u'left': 200}, u'checkable': False } ''' return self.mstrDevice(text).info def uiObjExist(self, text): ''' ture if exists, else False ''' return self.mstrDevice.exists(text) def watcher(self): pass def handler(self): pass def selector(self): pass def __del__(self): pass
def login_app(self): d = Device('{}'.format(self.serial)) component = "%s/%s" % (self.package.name, self.package.activity) self.adb.start_activity(component) time.sleep(15) try: if self.package.name == "com.cmcm.shorts": click_premission(d) d(resourceId="com.cmcm.shorts:id/home_bottom_user").click() d(resourceId="com.cmcm.shorts:id/layout_login_second").click() click_premission(d) # d(text="Guoliang Ren").click() d(resourceId="com.google.android.gms:id/account_name").click() time.sleep(15) click_premission(d) d.press.home() elif self.package.name == "com.cmcm.live": click_premission(d) d(resourceId="com.cmcm.live:id/layout_login_fifth").click() d(resourceId="com.cmcm.live:id/id_google_plus").click() click_premission(d) # d(text="Guoliang Ren").click() d(resourceId="com.google.android.gms:id/account_name").click() time.sleep(20) click_premission(d) d.press.home() elif self.package.name == "panda.keyboard.emoji.theme": d.click(770, 2100) time.sleep(2) d.press.back() time.sleep(2) d(text=' Cheetah Keyboard ❤ ❤ ❤ ').click() d(text='OK').click() d(text='OK').click() time.sleep(5) d.click(770, 2100) d(text=' Cheetah Keyboard ❤ ❤ ❤ ').click() time.sleep(5) click_premission(d) d.press.back() d.press.back() d.press.back() elif self.package.name == 'com.ksmobile.launcher': self.adb.quit_app(self.package.name) time.sleep(3) self.adb.start_activity(component) time.sleep(3) self.adb.send_key_event(3) d(resourceId="android:id/title").click() time.sleep(3) d(text="CM Launcher").click() time.sleep(3) d(resourceId="android:id/button_always").click() else: U.Logging.info("Don't need login") self.adb.quit_app('com.github.uiautomator') return True except Exception as e: U.Logging.error(e) U.Logging.error("login failed please check") return False
class UiTestLib(object): """Ui Test Lib """ def __init__(self, serial=None): """ """ logger.info("<p>Device=%s>" % serial, html=True) print "<p>Device=%s>" % serial self._result = "" self.starttime = 0 self.d = Device(serial) self.adb = Adb(serial) self.debug = "True" def set_debugable(flag): self.debug = flag def set_serial(self, serial): """Specify given *serial* device to perform test. or export ANDROID_SERIAL=CXFS42343 if you have many devices connected but you don't use this interface When you need to use multiple devices, do not use this keyword to switch between devices in test execution. And set the serial to each library. Using different library name when importing this library according to http://robotframework.googlecode.com/hg/doc/userguide/RobotFrameworkUserGuide.html?r=2.8.5. Examples: | Setting | Value | Value | Value | | Library | UiTestLib | WITH NAME | Mobile1 | | Library | UiTestLib | WITH NAME | Mobile2 | And set the serial to each library. | Test Case | Action | Argument | | Multiple Devices | Mobile1.Set Serial | device_1's serial | | | Mobile2.Set Serial | device_2's serial | """ self.d = Device(serial) self.adb = Adb(serial) def logmsg(self, msg): if self.debug == "True": print msg def exe_adb_command(self, cmd): """ Execute adb *cmd* Examples: | Exe Adb Command | shell getprop | """ return self.adb.cmd(cmd).wait() def exe_adb_and_result(self, cmd): """Execute adb *cmd* and return lines of the command""" lproc = self.adb.cmd(cmd) lproc.poll() lines = lproc.stdout.readlines() return lines def get_device_info(self): """Get Device information return info dictionary """ return self.d.info def light_screen(self): """Light screen by wakeup. Examples: | Action | |Light screen| Use `Light screen` to light screen. """ self.d.wakeup() self._result = self.d.press.home() def open_application(self, appname): """Open application by it name `appname`. Example: | Action | Argument | | Open application | "com.android.settings/com.android.settings.Settings" | """ appname = "shell am start -n " + appname print "Open Application:", appname self._result = self.exe_adb_command(appname) def click_text(self, text, instance=0): """Click text label on screen instance=0 is default, change when you needed. Example: | Action | Argument | Argument | | Click Text | text | instance | """ return self.d(text=text, instance=instance).click.wait() def long_click_text(self, text, instance=0): """ Long Click text label on screen, *text* and *instance=0* Example: | Action | Argument | Argument | | Long Click Text | text | instance | """ return self.d(text=text, instance=instance).long_click() def long_click_ui(self, **selectors): """ Long Click on **selectors** Selector supports below parameters. Refer to UiSelector java doc for detailed information. text, textContains, textMatches, textStartsWith className, classNameMatches description, descriptionContains, descriptionMatches, descriptionStartsWith checkable, checked, clickable, longClickable scrollable, enabled,focusable, focused, selected packageName, packageNameMatches resourceId, resourceIdMatches index, instance Example: | Action | Argument | Argument | Argument | | Long Click UI | text=XXXX | className=XXX.xxxx | resourceId=xxxxxx | """ return self.d(**selectors).long_click() def text_display_on_screen_contains(self, text): """Verify text display on screen Example: | Action | Argument | |Text display on screen is| text | """ if self.d(text=text).exists: self._result = True return True else: self._result = False return False def object_display_on_screen(self, obj, timeout=5000): """ Verify *obj* UiObject display on screen return to self._result Example: | Action | Argument | |Object display on screen | obj | """ if obj.wait.exists(timeout): self._result = True return True else: self._result = False return False def assert_expectation(self, expect, actual): """ Assert Expectation and actual value Example: | Action | args | args | | Assert Expectation | 324324 | ${actual} | """ if str(expect) != str(actual): raise AssertionError("Actual result is = %s, but expectation is: %s" % (str(actual), str(expect))) def assert_true(self, condition): """ Assert True of *condition Example: |Assert True | condition | """ if str(condition) != "True": # because only string from robotframework raise AssertionError("Result is = %s" % str(condition)) def assert_result_true(self): """ Assert True of *self._result Example: |Assert True | """ if self._result != True: raise AssertionError("Result is = %s" % str(self._result)) def wait_for_ui_exists(self, timeout, **selectors): """ Return True if Selector is to identify specific ui object in current window. # To seleted the object ,text is 'Clock' and its className is 'android.widget.TextView' wait_for_ui_exists(text='Clock', className='android.widget.TextView') Selector supports below parameters. Refer to UiSelector java doc for detailed information. text, textContains, textMatches, textStartsWith className, classNameMatches description, descriptionContains, descriptionMatches, descriptionStartsWith checkable, checked, clickable, longClickable scrollable, enabled,focusable, focused, selected packageName, packageNameMatches resourceId, resourceIdMatches index, instance Examples: | Action | Argument | Argument | Argument | Argument | |Wait For UI Exists | timeout | text=XXXX | className=XXX.xxxx | resourceId=xxxxxx | """ self._result = self.d(**selectors).wait.exists(timeout=int(timeout)) return self._result def wait_and_click(self, timeout, **selectors): """Wait for uiselector and click""" if self.d(**selectors).wait.exists(timeout=int(timeout)): self.d(**selectors).click() def assert_ui_exists(self, **selectors): """ Assert UiObject appear on the screen Examples: | Action | Argument | Argument | Argument | Argument | |Assert UI Exists | timeout | text=XXXX | className=XXX.xxxx | resourceId=xxxxxx | """ if not self.d(**selectors).wait.exists(): raise AssertionError("UiObject does not exists %s" % selectors.items()) def result_should_be(self, expected): """Verifies that the current result is `expected`. Example: | Action | Argument | | Open application | com.android.settings/com.android.settings.Settings | | Result Should Be | 0 | """ print ("result is: %s\n", self._result) print ("ex is: %s\n", expected) if str(self._result) != expected: raise AssertionError("%s != %s" % (self._result, expected)) def click_at_coordinates(self, x, y): """ Click at (x,y) coordinates. Example: | Action | Argument | Argument | | Click At Corrdinates | x | y | """ return self.d.click(int(x), int(y)) def long_click_at_coordinates(self, x, y): """ # long click (x, y) on screen """ return self.d.long_click(int(x), int(y)) def swipe(self, sx, sy, ex, ey, steps=20): """ Swipe from (sx,sy) to (ex,ey) """ return self.d.swipe(int(sx), int(sy), int(ex), int(ex), int(steps)) def drag(self, sx, sy, ex, ey, steps=20): """ Drag from (sx,sy) to (ex,ey) """ return self.d.drag(int(sx), int(sy), int(ex), int(ex), int(steps)) def freeze_rotation(self, rotation=True): """ Freeze rotation, *rotation*, True is default, """ return self.d.freeze_rotation(rotation) def set_rotation(self, rotation): """ # retrieve orientation, # it should be "natural" or "left" or "right" or "upsidedown" Example: | Action | Argument | | Set Rotation | nature | | Set Rotation | left | | Set Rotation | right | | Set Rotation | upsidedown | """ orientation = self.d.orientation if rotation == "nature": self.d.orientation = "n" # or "natural" elif rotation == "left": self.d.orientation = "l" # or "left" elif rotation == "right": self.d.orientation = "r" # or "right" elif rotation == "upsidedown": self.d.orientation = "upsidedown" # or "upsidedown" else: self.d.rotation = "n" def take_screenshot(self, scale=None, quality=None): """ Take a screenshot of device and log in the report with timestamp, scale for screenshot size and quality for screenshot quality default scale=1.0 quality=100 Example: | Action | Argument | Argument | | Take Screenshot | 0.5 | 80 | """ output_dir = BuiltIn().get_variable_value("${OUTPUTDIR}") ts = time.time() st = datetime.datetime.fromtimestamp(ts).strftime("%Y%m%d%H%M%S") screenshot_path = "%s%s%s.png" % (output_dir, os.sep, st) screenshot_name = "%s%s.png" % (os.sep, st) self.d.screenshot(screenshot_path, scale, quality) logger.info('\n<a href="%s">%s</a><br><img src="%s">' % (screenshot_path, st, screenshot_name), html=True) def open_notification(self): """ Open notification of the phone """ self.d.open.notification() def wait_window_update(self): """ wait for window update """ return self.d.wait.update() def wait_window_idle(self): """ wait for window idle """ return self.d.wait.idle() def remove_watchers(self): """ Remove UI watchers """ self.d.watchers.remove() def get_device(self): """ Get device object, you can do any command using this """ return self.d def click_id(self, id, instance=0): """ Click *id* with *instance*=0 """ return self.d(resourceId=id, instance=instance).click.wait() def long_click_id(self, id, instance=0): """ Long click *id* with *instance*=0 """ return self.d(resourceId=id, instance=0).long_click() def click_description(self, description, instance=0): """ Click *description* with *instance*=0 """ return self.d(description=description, instance=instance).long_click() def click_class(self, className, instance=0): """ Click *className* with *instance*=0 """ return self.d(className=className, instance=instance).long_click() def type_text(self, textStr, **selectors): """ type text on selectors like text=EditName """ self.d(**selectors).set_text(textStr) def press_key(self, key): """ Press Key of following value home back left right up down center menu search enter delete(or del) recent(recent apps) volume_up volume_down volume_mute camera power Examples: | Action | Argument | | Press Key | home | | Press Key | back | | Press Key | left | | Press Key | right | | Press Key | recent | | Press Key | volume_up | | Press Key | camera | """ if key.isdigit(): return self.d.press(int(key)) return self.d.press(key) def phone_sleep(self, timeout): """ android device sleep with timeout in ms, don't use for executor sleep, """ return self.d.wait(int(timeout)) def execute_command(self, cmd, block_parent_process=True): """ Execute shell *cmd* command, with block_parent_process = True If block_parent_process = False, kill_command is needed to terminal the child process Example: | Execute Command | ping -c 5 127.0.0.1 | """ if str(block_parent_process) == str(True): return subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE).communicate() else: return subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) def kill_command(self, process, timeout=0): """ Kill child *process* in timeout seconds Some bugs after process teminated """ time.sleep(float(timeout)) process.terminate() def wait_for_logcat(self, log, timeout=30): """ Wait log exists in given timeout, return True if have, otherwise will return False log is your want to search, log can be a regular expression time in seconds, default value is 30 seconds Example: | Wait For Logcat | .*ActivityManager.*cmp=com.sonyericsson.album/com.sonyericsson.album.Main.* | """ start = time.time() while (time.time() - start) < int(timeout): log_proc = self.adb.cmd("logcat -d -v time") returncode = log_proc.poll() lines = log_proc.stdout.readlines() for line in lines: rlt = re.search(log, line.rstrip()) if rlt is not None: print rlt.group(0) self._result = True return True time.sleep(2) # sleep 2s to wait self._result = False return False def clear_logcat(self): """ Clear logcat, it's often used before you want to use *wait_for_logcat()* """ print "Clear logcat before test" return self.exe_adb_command("logcat -c") def click_object(self, obj): """ Click UiObject *obj* Exmaple: | ${result} | Get UI Object | text=XXX | className=xxxx | | Click Object | ${result} | """ obj.click() def click_ui(self, **selectors): """ Click selector click_selector(text="Home", resourceId = "android:id/title") for **selector, please refer *get_ui_object()* Selector supports below parameters. Refer to UiSelector java doc for detailed information. text, textContains, textMatches, textStartsWith className, classNameMatches description, descriptionContains, descriptionMatches, descriptionStartsWith checkable, checked, clickable, longClickable scrollable, enabled,focusable, focused, selected packageName, packageNameMatches resourceId, resourceIdMatches index, instance Operation for a UiObjects: click, clear_text, drag(obj).to(**selector), gesture, exists, set_text, long_click pinch.In(percent=100, steps=10), pinch.Out(percent=100, steps=100),.swipe.right(), .swipe.left(steps=10),.swipe("right", steps=20),.wait.gone(),.wait.exists() """ print "selectors:", selectors return self.d(**selectors).click() def get_ui_object(self, **selectors): """ Get UI object with *selectors* you can do anything on UiObject, like click(), long_click(),wait.exists(timeout) examples: get_ui_object(text="Home", resourceId = "android:id/title") Selector supports below parameters. Refer to UiSelector java doc for detailed information. text, textContains, textMatches, textStartsWith className, classNameMatches description, descriptionContains, descriptionMatches, descriptionStartsWith checkable, checked, clickable, longClickable scrollable, enabled,focusable, focused, selected packageName, packageNameMatches resourceId, resourceIdMatches index, instance Operation for a UiObjects: click, clear_text, drag(obj).to(**selector), gesture, exists, set_text, long_click pinch.In(percent=100, steps=10), pinch.Out(percent=100, steps=100),.swipe.right(), .swipe.left(steps=10),.swipe("right", steps=20),.wait.gone(),.wait.exists() Exmaple: | ${result} | Get UI Object | text=XXX | className=xxxx | """ self._result = self.d(**selectors) return self._result def wait_for_object_exists(self, obj, timeout=0): """ Wait for UiObject *obj* exists in *timeout*= 0 Example: | ${result} | Get UI Object | text=XXX | className=xxxx | | Wait For Object Exists | ${result} | timeout | """ self._result = obj.wait.exists(timeout=int(timeout)) return self._result def wait_for_ui_gone(self, timeout=0, **selectors): """ Wait for UiObject *obj* gone in *timeout*= 0 Example: | ${result} | Get UI Object | text=XXX | className=xxxx | | Wait For Object Gone | ${result} | timeout | """ self._result = self.d(**selectors).wait.gone(timeout=int(timeout)) return self._result def get_key_value(self, key, dictionary): """ Get key value of dictionary """ return dictionary(key) def get_tts(self, input_text, delete_file=False, **args): """ Get TTS voice mp3 from Google get_tts(input_text='tunnel snakes rule apparently', args = {'language':'en','output':'outputto.mp3'}) Robot Framework: Examples: | Action | Argument | Argument | Argument | Argument | | UiTestLib.Get TTS | Hello world | False | output=ooo.mp3 | language=en | """ print "Get text to speech: ", input_text downloaded = False if str(delete_file) == "True": if os.path.exists(args["output"]): os.remove(args["output"]) if os.path.exists(args["output"]): if os.path.getsize(args["output"]) <= 0: os.remove(args["output"]) if args["output"] is not None: if not os.path.exists(args["output"]): print "Generating mp3 file......", args["output"] downloaded = GoogleTTS.audio_extract(input_text, args) else: print "Have same local file" downloaded = True if not downloaded: print "Downloaded TTS from Google failed, trying to download from local FTP..." mp3file = open(args["output"], "w") mp3url = "ftp://cnbjlx9548/atautomation/Test-Content/Croft/" + args["output"] try: resp = urllib2.urlopen(mp3url, timeout=40) mp3file.write(resp.read()) time.sleep(0.05) except Exception, e: print e return False mp3file.close() return True
class TfTravel(object): def __init__(self): self.d = Device() self.Q = collections.OrderedDict() self.stats = 0 # 0 本界面,1新界面 self.package = "com.android.deskclock" self.mainpagemd5, self.mainpagenode = self.parserxml() # logging.basicConfig(level=logging.DEBUG, # format='%(asctime)s %(levelname)s: %(message)s') def performaction(self, act=Actions.CLICK, para=(100, 200)): if act == Actions.CLICK: self.d.click(para[0], para[1]) self.d.wait.idle() time.sleep(1) elif act == Actions.BACK: self.d.press.back() return self.parserxml() def returnmd5(self, str): md5str = str m1 = hashlib.md5() m1.update(md5str.encode("utf-8")) token = m1.hexdigest() return token def getxml(self): t = self.d.dump(filename=None, compressed=False) # with open("test.xml") as f: # t = f.read() DOMTree = xml.dom.minidom.parseString(t.encode("utf-8")) Data = DOMTree.documentElement nodes = Data.getElementsByTagName("node") return nodes # 解析xml,返回页面所有节点[((y,x),nodemd5)]/页面MD5 def parserxml(self): pagestr = "" nodes_list = [] # collections.OrderedDict() nodes = self.getxml() for i in nodes: bound = i.getAttribute('bounds').strip() classname = i.getAttribute('class').strip() text = i.getAttribute('text').strip() resourceid = i.getAttribute('resource-id').strip() package = i.getAttribute('package').strip() if classname not in BLACK_CLASS and resourceid not in BLACK_RESOURCE and text not in BLACK_TEXT and package == self.package: # 过滤节点,获取可操作bounds _ = bound.replace("][", ",").replace("bounds=", "").replace("\"", "") __ = _.replace("[", "").replace("]", "").split(",") # box = (int(__[0]), int(__[1]), int(__[2]), int(__[3])) x = int(__[0]) + (int(__[2]) - int(__[0])) / 2 y = int(__[1]) + (int(__[3]) - int(__[1])) / 2 box = (y, x) if box not in nodes_list: # nodes_list[box] = {} nodes_list.append(box) pagestr = pagestr + classname + resourceid + bound + text nodes_list.sort(reverse=False) # sorted_nodes_list = sorted(nodes_list.items(), key=operator.itemgetter(0)) # 按照Y-X 排序 pagemd5 = self.returnmd5(pagestr) return pagemd5, nodes_list def compareblack(self): if len(self.cycle) == 3 and self.cycle[0] == self.cycle[1] and self.cycle[1] == self.cycle[2]: self.cycle = [] return True return False def startstravel(self): # #pagecontainer={mainpagemd5:mainpagenode} for i in self.mainpagenode: clicknode = i self.mainpagenode.remove(i) click = clicknode[0] print "move clicknode:", clicknode self.performaction(act=Actions.CLICK, para=(click[1], click[0])) time.sleep(1) subpagemd5, subpagenode = self.parserxml() if subpagemd5 != self.mainpagemd5: self.mainpagenode.append(clicknode) # if self.compareblack(): # mainpagenode.remove(clicknode) self.startstravel() # subpagenode, subpagemd5 = self.parserxml() # click = i.get(subpagemd5) # self.performaction(act=Actions.CLICK, para=(click[1], click[0])) # subpagenode, subpagemd5 = self.parserxml() # if subpagemd5 not in pagecontainer: # pagecontainer[subpagemd5] = subpagenode # else: # pagecontainer.get() def looptravel(self): popclick = () container = {self.mainpagemd5: self.mainpagenode} lastpage = self.mainpagenode lastpagemd5 = self.mainpagemd5 while True: nowpagemd5, nowpage = self.parserxml() print nowpagemd5, lastpagemd5 if nowpagemd5 != lastpagemd5: # 进入不同的页面 if nowpagemd5 not in container: container[nowpagemd5] = nowpage self.stats = 1 else: self.stats = 0 if self.stats == 0: # 如果在本界面: pass elif self.stats == 1: # 如果新界面: # 如果返回了一个已经存在的界面,说明是返回的,要去掉这个返回键 if nowpagemd5 not in container: lastpage.insert(0, popclick) if popclick not in container.get(lastpagemd5): container.get(lastpagemd5).insert(0, popclick) if len(container.get(nowpagemd5)) > 0: popclick = container.get(nowpagemd5).pop(0) self.performaction(act=Actions.CLICK, para=(popclick[1], popclick[0])) time.sleep(1) lastpage, lastpagemd5 = nowpage, nowpagemd5 lastpopclick = popclick def performclick(self, x, y): self.performaction(act=Actions.CLICK, para=(x, y)) return self.parserxml() def looptravel1(self): container = self.mainpagenode oldmd5 = self.mainpagemd5 oldpage = self.mainpagenode tree = container for i in xrange(len(self.mainpagenode)): click = container[i] nowpagemd5, nowpage = self.performaction(act=Actions.CLICK, para=(click[1], click[0])) if nowpagemd5 != oldmd5: container[i] = [i] + nowpage for j in xrange(len(nowpage)): self.looptravel2(nowpagemd5, nowpage[j]) def looptravel2(self, md5, node): nowpagemd5, nowpage = self.performaction(act=Actions.CLICK, para=(node[1], node[0])) if nowpagemd5 != md5:#new world return nowpagemd5, nowpage else: return None
""" Keeps Android from falling asleep (warm!) by tapping every five seconds Usage: python warm.py [adb device id] """ import sys import os import time from uiautomator import Device DEVICE_NAME = sys.argv[1] d = Device(DEVICE_NAME) d.wakeup() os.system("adb shell content insert --uri content://settings/system --bind name:s:user_rotation --bind value:i:0") while True: d.click(100, 100) time.sleep(5)
from uiautomator import Device import time import os import requests import re import random import time d = Device('6b862e8') os.system("adb -s 6b862e8 uninstall cn.mailchat") os.system("adb -s 6b862e8 install /home/administator/下载/MailChat_Setup.apk") d.press('home') time.sleep(1) d(text="MailChat").click() time.sleep(2) d(text="Others").click() time.sleep(1) d(resourceId="cn.mailchat:id/actv_account_email").set_text( '*****@*****.**') time.sleep(1) d(resourceId="cn.mailchat:id/et_account_password").set_text('lingxiuguigu') time.sleep(1) d(resourceId="cn.mailchat:id/bt_login").click() time.sleep(5) d(resourceId="cn.mailchat:id/bt_sure").click() time.sleep(5) d(textContains="is your Facebook").click() time.sleep(5) d.click(400, 500) d.click(400, 500)
class Excute(object): def __init__(self, device_id): self.device_id = device_id self.d = Device(self.device_id) print(self.d.info) def run(self): """ count:控制总的执行次数 i:控制签到页广告次数 j:控制开屏广告次数 k:控制浮窗次数 """ time_slapse = time.strftime("%Y-%m-%d_%H_%M_%S", time.localtime()) path = os.path.join(os.getcwd(), device_id + '_' + time_slapse + '_log.txt') i = 0 j = 0 k = 0 count = 1 log = Logger(path) while count <= 100000: # 脚本逻辑 if (count % 3) == 1: log.info(50 * "#") log.info(u"开始:签到页广告页次数测试") try: commands.getoutput( ('adb -s %s shell am start ' + PACKAGE_NAME) % self.device_id) #启动后等待时间7S,防止启动画面影响不能达到书架界面 time.sleep(7) if self.d(description='bookshelf_button').wait.exists( timeout=5000): self.d(description='bookshelf_button').click.wait() time.sleep(1) if self.d(resourceId=PACKAGE_NAME + ':id/sign_view').wait.exists(timeout=3000): self.d(resourceId=PACKAGE_NAME + ':id/sign_view').click.wait() time.sleep(3) x = self.d.info["displayWidth"] y = self.d.info["displayHeight"] self.d.click(x / 6, y / 6) time.sleep(10) #TODOif d(resourceId='com.android.browser:id/abx').wait.exists(timeout=7000): #TODO 点击广告,跳转后断言浏览器里属性,请根据自己项目实际修改调试 if self.d(resourceId='com.android.browser:id/url' ).wait.exists(timeout=7000): time.sleep(0.5) i += 1 log.info(u"签到页广告页次数" + str(i)) else: time_slapse = time.strftime( "%Y-%m-%d_%H_%M_%S", time.localtime()) finename = device_id + '签到页广告页跳转_error' + '_' + str( time_slapse) + '.png' self.screenshot(self.device_id, finename) self.dealTips() commands.getoutput( ('adb -s %s shell am force-stop ' + PACKAGE_NAME) % self.device_id) else: self.dealTips() commands.getoutput( ('adb -s %s shell am force-stop ' + PACKAGE_NAME) % self.device_id) else: self.dealTips() commands.getoutput( ('adb -s %s shell am force-stop ' + PACKAGE_NAME) % self.device_id) except: time_slapse = time.strftime("%Y-%m-%d_%H_%M_%S", time.localtime()) finename = device_id + '_script_error' + '_' + str( time_slapse) + '.png' self.screenshot(self.device_id, finename) msg = traceback.format_exc() log.info(msg) elif (count % 3) == 2: log.info(u"开始:点击开屏广告次数测试") try: commands.getoutput( ('adb -s %s shell am start ' + PACKAGE_NAME) % self.device_id) #启动后等待时间2S,防止等待时间较长,启动画面消失 #等待1s,会出现长时间执行后手机启动变慢,点击时启动画面还没有加载出来 #启动画面最好配置5S time.sleep(2) x = self.d.info["displayWidth"] y = self.d.info["displayHeight"] self.d.click(x / 2, y / 2) time.sleep(8) if self.d(description='bookstore_button').exists: commands.getoutput( ('adb -s %s shell am force-stop ' + PACKAGE_NAME) % self.device_id) else: # TODO 点击广告,跳转后断言页面返回按钮属性,请根据自己项目实际修改调试 if self.d(className='android.widget.ImageButton' )[0].exists: j += 1 time.sleep(0.5) log.info(u"点击开屏广告次数" + str(j)) self.d(className='android.widget.ImageButton' )[0].click.wait() else: time_slapse = time.strftime( "%Y-%m-%d_%H_%M_%S", time.localtime()) finename = device_id + '点击开屏广告跳转_error' + '_' + str( time_slapse) + '.png' self.screenshot(self.device_id, finename) self.dealTips() commands.getoutput( ('adb -s %s shell am force-stop ' + PACKAGE_NAME) % self.device_id) except: time_slapse = time.strftime("%Y-%m-%d_%H_%M_%S", time.localtime()) finename = device_id + '_script_error' + '_' + str( time_slapse) + '.png' self.screenshot(self.device_id, finename) msg = traceback.format_exc() log.info(msg) else: log.info(u"开始:浮窗点击广告次数测试") try: commands.getoutput( ('adb -s %s shell am start ' + PACKAGE_NAME) % self.device_id) # 启动后等待时间7S,防止启动画面影响不能达到书架界面 time.sleep(7) """ #书架浮窗--oppo项目没有 if self.d(description="bookshelf_button").exists: self.d(description="bookshelf_button").click.wait() time.sleep(1) if self.d(resourceId=PACKAGE_NAME+':id/float_pic').exists: self.d(resourceId=PACKAGE_NAME+':id/float_pic').click.wait() time.sleep(2) #TODO if self.d(resourceId='com.android.browser:id/abx').wait.exists(timeout=7000): """ if self.d(description='bookshelf_button').wait.exists( timeout=5000): self.d(description='bookshelf_button').click.wait() time.sleep(1) if self.d(resourceId=PACKAGE_NAME + ':id/sign_view').wait.exists(timeout=3000): self.d(resourceId=PACKAGE_NAME + ':id/sign_view').click.wait() time.sleep(5) if self.d(resourceId=PACKAGE_NAME + ':id/float_pic').wait.exists( timeout=3000): self.d(resourceId=PACKAGE_NAME + ':id/float_pic').click.wait() time.sleep(10) # TODO 点击广告,跳转后断言浏览器里属性,请根据自己项目实际修改调试 if self.d(resourceId='com.android.browser:id/url' ).wait.exists(timeout=7000): time.sleep(0.5) k += 1 log.info(u"浮窗点击广告次数:" + str(k)) else: time_slapse = time.strftime( "%Y-%m-%d_%H_%M_%S", time.localtime()) finename = device_id + '浮窗点击广告跳转_error' + '_' + str( time_slapse) + '.png' self.screenshot(self.device_id, finename) self.dealTips() commands.getoutput( ('adb -s %s shell am force-stop ' + PACKAGE_NAME) % self.device_id) else: self.dealTips() commands.getoutput( ('adb -s %s shell am force-stop ' + PACKAGE_NAME) % self.device_id) else: self.dealTips() commands.getoutput( ('adb -s %s shell am force-stop ' + PACKAGE_NAME) % self.device_id) except: time_slapse = time.strftime("%Y-%m-%d_%H_%M_%S", time.localtime()) finename = device_id + '_script_error' + '_' + str( time_slapse) + '.png' self.screenshot(self.device_id, finename) msg = traceback.format_exc() log.info(msg) #执行一次后,关闭浏览器,关闭测试程序;防止对下次测试有影响 commands.getoutput( ('adb -s %s shell am force-stop com.android.browser') % self.device_id) time.sleep(3) commands.getoutput( ('adb -s %s shell am force-stop ' + PACKAGE_NAME) % self.device_id) time.sleep(10) count += 1 def screenshot(self, device_id, filename): """ 说明:截图(广告点击跳转出错,脚本出错时调用) :param device_id: 设备ID :param filename: 截图名称 """ targetPath = os.getcwd() os.system("adb -s %s shell /system/bin/screencap -p /sdcard/%s" % (device_id, filename)) os.system("adb -s %s pull /sdcard/%s %s" % (device_id, filename, targetPath)) os.system("adb -s %s shell rm -r /sdcard/%s" % (device_id, filename)) def dealTips(self): """ 说明:处理各种弹框;防止对脚本影响 """ if self.d( resourceId='com.zhangyue.commonplugin:id/dialog_batch_buy_close' ).wait.exists(timeout=3000): self.d( resourceId='com.zhangyue.commonplugin:id/dialog_batch_buy_close' ).click.wait() if self.d(resourceId=PACKAGE_NAME + ':id/cloud_close').wait.exists(timeout=3000): self.d(resourceId=PACKAGE_NAME + ':id/cloud_close').click.wait() if self.d(resourceId=PACKAGE_NAME + ':id/close_btn').wait.exists(timeout=3000): self.d(resourceId=PACKAGE_NAME + ':id/close_btn').click.wait() if self.d(resourceId=PACKAGE_NAME + ':id/dialog_public_top_bar_title_close').wait.exists(): self.d(resourceId=PACKAGE_NAME + ':id/dialog_public_top_bar_title_close').click.wait() if self.d(resourceId=PACKAGE_NAME + ':id/iv_close').wait.exists(timeout=3000): self.d(resourceId=PACKAGE_NAME + ':id/iv_close').click.wait()
class Mobile(): """ robotframework-uiautomatorlibrary is an Android device testing library for Robot Framework. It uses uiautomator - Python wrapper for Android uiautomator tool (https://pypi.python.org/pypi/uiautomator/0.1.28) internally. *Before running tests* You can use `Set Serial` to specify which device to perform the test. *Identify UI object* There are two kinds of keywords. """ __version__ = '0.1' ROBOT_LIBRARY_DOC_FORMAT = 'ROBOT' ROBOT_LIBRARY_SCOPE = 'GLOBAL' def set_serial(self, android_serial): """ Specify given *android_serial* device to perform test. You do not have to specify the device when there is only one device connects to the computer. When you need to use multiple devices, do not use this keyword to switch between devices in test execution. Using different library name when importing this library according to http://robotframework.googlecode.com/hg/doc/userguide/RobotFrameworkUserGuide.html?r=2.8.4#setting-custom-name-to-test-library. | Setting | Value | Value | Value | | Library | Mobile | WITH NAME | Mobile1 | | Library | Mobile | WITH NAME | Mobile2 | And set the serial to each library. | Test Case | Action | Argument | | Multiple Devices | Mobile1.Set Serial | device_1's serial | | | Mobile2.Set Serial | device_2's serial | """ self.adb = ADB(android_serial) self.device = Device(android_serial) self.test_helper = TestHelper(self.adb) def get_device_info(self): """ Retrieve the device info. The keyword will return a dictionary. You can log the information by using the log dictionary keyword in build in Collections library(http://robotframework.googlecode.com/hg/doc/libraries/Collections.html?r=2.8.4). Example: | ${device_info} | Get Device Info | | Log Dictionary | ${device_info} | => Dictionary size is 9 and it contains following items:\n currentPackageName: com.android.keyguard\n displayHeight: 1776\n displayRotation: 0\n displaySizeDpX: 360\n displaySizeDpY: 640\n displayWidth: 1080\n naturalOrientation: True\n productName: hammerhead\n sdkInt: 19\n Or get specific information of the device by giving the key. | ${device_info} | Get Device Info | | | | ${product_name} | Get From Dictionary | ${device_info} | productName | => ${product_name} = hammerhead """ return self.device.info #Key Event Actions of the device """ Turn on/off screen """ def turn_on_screen(self): """ Turn on screen """ self.device.screen.on() def turn_off_screen(self): """ Turn off screen """ self.device.screen.off() """ Press hard/soft key """ def press_key(self, *keys): """ Press *key* keycode. You can find all keycode in http://developer.android.com/reference/android/view/KeyEvent.html Example: |Press Key | """ self.device.press(*keys) def press_home(self): """ Press home key """ self.device.press.home() def press_back(self): """ Press back key """ self.device.press.back() def press_left(self): """ Press left key """ self.device.pres.left() def press_right(self): """ Press right key """ self.device.press.right() def press_up(self): """ Press up key """ self.device.press.up() def press_down(self): """ Press down key """ self.device.press.down() def press_center(self): """ Press center key """ self.device.press.center() def press_menu(self): """ Press menu key """ self.device.press.menu() def press_search(self): """ Press search key """ self.device.press.search() def press_enter(self): """ Press enter key """ self.device.press.enter() def press_delete(self): """ Press delete key """ self.device.press.delete() def press_recent(self): """ Press recent key """ self.device.press.recent() def press_volume_up(self): """ Press volume up key """ self.device.press.volume_up() def press_volume_down(self): """ Press volume down key """ self.device.press.volume_down() def press_camera(self): """ Press camera key """ self.device.press.camera() def press_power(self): """ Press power key """ self.device.press.power() #Gesture interaction of the device def click_at_coordinates(self, x, y): """ Click at (x,y) coordinates. """ self.device.click(x, y) def swipe_by_coordinates(self, sx, sy, ex, ey, steps=100): """ Swipe from (sx, sy) to (ex, ey) with *steps* . """ self.device.swipe(sx, sy, ex, ey, steps) # Swipe from the center of the ui object to its edge def swipe_left(self, steps=100, *args, **attributes): """ Swipe the UI object with *attributes* from center to left. """ self.device(**attributes).swipe.left(steps=steps) def swipe_right(self, steps=100, *args, **attributes): """ Swipe the UI object with *attributes* from center to right """ self.device(**attributes).swipe.right(steps=steps) def swipe_top(self, steps=100, *args, **attributes): """ Swipe the UI object with *attributes* from center to top """ self.device(**attributes).swipe.up(steps=steps) def swipe_bottom(self, steps=100, *args, **attributes): """ Swipe the UI object with *attributes* from center to bottom """ self.device(**attributes).swipe.down(steps=steps) def object_swipe_left(self, obj, steps=100): """ Swipe the *obj* from center to left """ obj.swipe.left(steps=steps) def object_swipe_right(self, obj, steps=100): """ Swipe the *obj* from center to right """ obj.swipe.right(steps=steps) def object_swipe_top(self, obj, steps=100): """ Swipe the *obj* from center to top """ obj.swipe.up(steps=steps) def object_swipe_bottom(self, obj, steps=100): """ Swipe the *obj* from center to bottom """ obj.swipe.down(steps=steps) def drag(self,sx, sy, ex, ey, steps=100): """ drag from (sx, sy) to (ex, ey) with steps """ self.device.drag(sx, sy, ex, ey, steps) #Wait until the specific ui object appears or gone # wait until the ui object appears def wait_for_exists(self, timeout=0, *args, **attribute): """ true means the object which has *attribute* exist false means the object does not exist in the given timeout """ return self.device(**attribute).wait.exists(timeout=timeout) # wait until the ui object gone def wait_until_gone(self, timeout=0, *args, **attribute): """ true means the object which has *attribute* disappear false means the object exist in the given timeout """ return self.device(**attribute).wait.gone(timeout=timeout) def wait_for_object_exists(self, obj, timeout=0): """ true means the object exist false means the object does not exist in the given timeout """ return obj.wait.exists(timeout=timeout) # wait until the ui object gone def wait_until_object_gone(self, obj, timeout=0): """ true means the object disappear false means the object exist in the given timeout """ return obj.wait.gone(timeout=timeout) # Perform fling on the specific ui object(scrollable) def fling_forward_horizontally(self, obj): """ return whether the object can be fling or not """ return obj.fling.horiz.forward() def fling_backward_horizontally(self, obj): """ return whether the object can be fling or not """ return obj.fling.horiz.backward() def fling_forward_vertically(self, obj): """ return whether the object can be fling or not """ return obj.fling.vert.forward() def fling_backward_vertically(self, obj): """ return whether the object can be fling or not """ return obj.fling.vert.backward() # Perform scroll on the specific ui object(scrollable) def scroll_to_beginning_vertically(self, steps=10, **attributes): """ """ return self.device(**attributes).scroll.vert.toBeginning(steps=steps) def scroll_to_end_vertically(self, steps=10, **attributes): """ """ return self.device(**attributes).scroll.vert.toEnd(steps=steps) def scroll_object_to_beginning_vertically(self, obj, steps=10): """ """ return obj.scroll.vert.toBeginning(steps=steps) def scroll_object_to_end_vertically(self, obj, steps=10): """ """ return obj.scroll.vert.toEnd(steps=steps) def scroll_forward_horizontally(self, obj, steps=10): """ return whether the object can be scroll or not """ return obj.scroll.horiz.forward(steps=steps) def scroll_backward_horizontally(self, obj, steps=10): """ return whether the object can be scroll or not """ return obj.scroll.horiz.backward(steps=steps) def scroll_to_horizontally(self, obj, *args,**attribute): """ return whether the object can be scroll or not """ return obj.scroll.horiz.to(**attribute) def scroll_forward_vertically(self, obj, steps=10): """ return whether the object can be scroll or not """ return obj.scroll.vert.forward(steps=steps) def scroll_backward_vertically(self, obj, steps=10): """ return whether the object can be scroll or not """ return obj.scroll.vert.backward(steps=steps) def scroll_to_vertically(self, obj, *args, **attribute): """ return whether the object exists or not """ return obj.scroll.vert.to(**attribute) #Screen Actions of the device def screenshot(self, scale=None, quality=None): """ Take a screenshot of device and log in the report with timestamp, scale for screenshot size and quality for screenshot quality default scale=1.0 quality=100 """ output_dir = BuiltIn().get_variable_value('${OUTPUTDIR}') ts = time.time() st = datetime.datetime.fromtimestamp(ts).strftime('%Y%m%d%H%M%S') screenshot_path = '%s%s%s.png' % (output_dir, os.sep, st) self.device.screenshot(screenshot_path, scale, quality) logger.info('\n<a href="%s">%s</a><br><img src="%s">' % (screenshot_path, st, screenshot_path), html=True) #Watcher # def register_click_watcher(self, watcher_name, attributes, *condition_list): # """ # The watcher click on the object which has the attributes when conditions match # """ # print type(attributes) # watcher = self.device.watcher(watcher_name) # for condition in condition_list: # watcher.when(**condition) # watcher.click(**attributes) # self.device.watchers.run() # print 'register watcher:%s' % watcher_name # return def __unicode_to_dict(self, a_unicode): a_dict = dict() dict_item_count = a_unicode.count('=') for count in range(dict_item_count): equal_sign_position = a_unicode.find('=') comma_position = a_unicode.find(',') a_key = a_unicode[0:equal_sign_position] if comma_position == -1: a_value = a_unicode[equal_sign_position + 1:] else: a_value = a_unicode[equal_sign_position + 1:comma_position] a_unicode = a_unicode[comma_position + 1:] a_dict[a_key] = a_value return a_dict def register_click_watcher(self, watcher_name, attributes, *condition_list): """ The watcher click on the object which has the *attributes* when conditions match """ watcher = self.device.watcher(watcher_name) for condition in condition_list: watcher.when(**self.__unicode_to_dict(condition)) watcher.click(**self.__unicode_to_dict(attributes)) self.device.watchers.run() def register_press_watcher(self, watcher_name, press_keys, *condition_list): """ The watcher perform *press_keys* action sequentially when conditions match """ def unicode_to_list(a_unicode): a_list = list() comma_count = a_unicode.count(',') for count in range(comma_count + 1): comma_position = a_unicode.find(',') if comma_position == -1: a_list.append(str(a_unicode)) else: a_list.append(a_unicode[0:comma_position]) a_unicode = a_unicode[comma_position + 1:] return a_list watcher = self.device.watcher(watcher_name) for condition in condition_list: watcher.when(**self.__unicode_to_dict(condition)) watcher.press(*unicode_to_list(press_keys)) self.device.watchers.run() def remove_watchers(self, watcher_name = None): """ Remove watcher with *watcher_name* or remove all watchers """ if watcher_name == None: self.device.watchers.remove() else: self.device.watchers.remove(watcher_name) def list_all_watchers(self): """ return the watcher list """ return self.device.watchers #Selector def get_object(self, *args, **attribute): """ Get the ui object with attribute *attribute* """ return self.device(*args, **attribute) def get_count_of_object(self, obj): """ Return the count of given *obj* """ return len(obj) def get_info_of_object(self, obj, attribute=None): """ return info dictionary of the *obj* The info example: { u'contentDescription': u'', u'checked': False, u'scrollable': True, u'text': u'', u'packageName': u'com.android.launcher', u'selected': False, u'enabled': True, u'bounds': { u'top': 231, u'left': 0, u'right': 1080, u'bottom': 1776 }, u'className': u'android.view.View', u'focusable': False, u'focused': False, u'clickable': False, u'checkable': False, u'chileCount': 1, u'longClickable': False, u'visibleBounds': { u'top': 231, u'left': 0, u'right': 1080, u'bottom': 1776 } } """ if attribute: return obj.info.get(attribute) else: return obj.info def click_on(self, *args, **attribute): """ click on the object with *attribute* """ self.device(**attribute).click() def long_click_on(self, *args, **attribute): """ click on the object with *attribute* """ self.device(**attribute).long_click() def call(self, obj, method, *args, **attribute): func = getattr(obj, method) return func(**attribute) def set_text(self, input_text, *args, **attribute): """ set *text* to the Component which has the *attribute* """ self.device(**attribute).set_text(input_text) # Other feature def clear_text(self, *args, **attributes): """ Clear text of the component with *attributes* """ while True: target = self.device(**attributes) text = target.info['text'] target.clear_text() remain_text = target.info['text'] if text == '' or remain_text == text: break def open_notification(self): """ open notification Built in support for Android 4.3 (API level 18) Using swipe action as a workaround for API level lower 18 """ sdk_version = self.device.info['sdkInt'] if sdk_version < 18: height = self.device.info['displayHeight'] self.device.swipe(1, 1, 1, height - 1, 1) else: self.device.open.notification() def open_quick_settings(self): """ open quick settings Work for Android 4.3 (API level 18) """ self.device.open.quick_settings() def sleep(self, time): """ sleep(no action) for *time* (in millisecond) """ target = 'wait for %s' % str(time) self.device(text=target).wait.exists(timeout=time) def install(self, apk_path): """ Install apk to the device """ self.adb.cmd('install "%s"' % apk_path) def uninstall(self, package_name): """ Uninstall the APP with *package_name* """ self.adb.cmd('uninstall %s' % package_name) def execute_adb_command(self, cmd): """ Execute adb *cmd* """ self.adb.cmd(cmd) def execute_adb_shell_command(self,cmd): """ Execute adb shell *cmd* """ self.adb.shell_cmd(cmd) def type(self, text): """ Type *text* at current focused component """ self.test_helper.send_set_text_cmd(text) def start_test_agent(self): """ [Test Agent] Start Test Agent Service """ cmd = 'am start edu.ntut.csie.sslab1321.testagent/edu.ntut.csie.sslab1321.testagent.DummyActivity' self.adb.shell_cmd(cmd) def stop_test_agent(self): """ [Test Agent] Stop Test Agent Service """ cmd = 'am broadcast -a testagent -e action STOP_TESTAGENT' self.adb.shell_cmd(cmd) def connect_to_wifi(self, ssid, password): """ [Test Agent] Connect to *ssid* with *password* """ cmd = 'adb shell am start edu.ntut.csie.sslab1321.testagent/edu.ntut.csie.sslab1321.testagent.DummyActivity' cmd = 'adb shell am broadcast -a testagent -e action CONNECT_TO_WIFI -e ssid WEP -e password 12345' cmd = 'am broadcast -a testagent -e action CONNECT_TO_WIFI -e ssid %s -e password %s' % (ssid, password) self.adb.shell_cmd(cmd) def clear_connected_wifi(self): """ [Test Agent] Clear all existed Wi-Fi connection """ cmd = 'am broadcast -a testagent -e action CLEAR_CONNECTED_WIFIS' self.adb.shell_cmd(cmd) def foo(self): pass # logger.info('\nGot arg %s %s' % (output_dir, st), also_console=True) # clm = CommandLineWriter() # output some messages on console # clm.message(' ') # clm.message(u'中文') # clm.message(u'2----------2') def test(self): pass
break print(username) print(password) d.press('home') # 更改机器码 # d.press('home') # time.sleep(1) # d(text="changer").click() # time.sleep(2) # d(text="Random").click() # time.sleep(1) # d.press('home') d(text="XPrivacy").click() time.sleep(3) d.click(650, 100) time.sleep(1) d.swipe(700, 1000, 700, 600) d(text="Settings").click() time.sleep(1) d(text="Randomize now").click() time.sleep(1) d.swipe(350, 1000, 350, 100) d.dump('aaa') d.swipe(350, 1000, 350, 100) # time.sleep(1) # d.swipe(350, 1000, 350, 800) d.dump('bbb') d(text="OK").click() list = [17, 20, 23, 26, 31, 36, 39, 42, 45, 48, 55, 66, 69]
class Mobile(): def __init__(self): pass def set_serial(self, android_serial): """ Specify given *android_serial* device to perform test. You do not have to specify the device when there is only one device connects to the computer. When you need to use multiple devices, do not use this keyword to switch between devices in test execution. Using different library name when importing this library according to http://robotframework.googlecode.com/hg/doc/userguide/RobotFrameworkUserGuide.html?r=2.8.4#setting-custom-name-to-test-library. | ==Setting== | ==Value== | ==Value== | ==Value== | | Library | Mobile | WITH NAME | Mobile1 | | Library | Mobile | WITH NAME | Mobile2 | And set the serial to each library. | Test Case | Action | Argument | | Multiple Devices | Mobile1.Set Serial | device_1's serial | | | Mobile2.Set Serial | device_2's serial | """ self.adb = ADB(android_serial) self.device = Device(android_serial) self.test_helper = TestHelper(self.adb) def get_device_info(self): """ Retrieve the device info. The keyword will return a dictionary. You can log the information by using the log dictionary keyword in build in Collections library(http://robotframework.googlecode.com/hg/doc/libraries/Collections.html?r=2.8.4). Example: | ${device_info} | Get Device Info | | Log Dictionary | ${device_info} | => Dictionary size is 9 and it contains following items:\n currentPackageName: com.android.keyguard\n displayHeight: 1776\n displayRotation: 0\n displaySizeDpX: 360\n displaySizeDpY: 640\n displayWidth: 1080\n naturalOrientation: True\n productName: hammerhead\n sdkInt: 19\n Or get specific information of the device by giving the key. | ${device_info} | Get Device Info | | | | ${product_name} | Get From Dictionary | ${device_info} | productName | => ${product_name} = hammerhead """ return self.device.info #Key Event Actions of the device """ Turn on/off screen """ def turn_on_screen(self): """ Turn on screen """ self.device.screen.on() def turn_off_screen(self): """ Turn off screen """ self.device.screen.off() """ Press hard/soft key """ def press_key(self, *keys): """ Press *key* keycode. You can find all keycode in http://developer.android.com/reference/android/view/KeyEvent.html """ #not tested self.device.press(*keys) def press_home(self): """ Press home key """ self.device.press.home() def press_back(self): """ Press back key """ self.device.press.back() def press_left(self): """ Press left key """ self.device.pres.left() def press_right(self): """ Press right key """ self.device.press.right() def press_up(self): """ Press up key """ self.device.press.up() def press_down(self): """ Press down key """ self.device.press.down() def press_center(self): """ Press center key """ self.device.press.center() def press_menu(self): """ Press menu key """ self.device.press.menu() def press_search(self): """ Press search key """ self.device.press.search() def press_enter(self): """ Press enter key """ self.device.press.enter() def press_delete(self): """ Press delete key """ self.device.press.delete() def press_recent(self): """ Press recent key """ self.device.press.recent() def press_volume_up(self): """ Press volume up key """ self.device.press.volume_up() def press_volume_down(self): """ Press volume down key """ self.device.press.volume_down() def press_camera(self): """ Press camera key """ self.device.press.camera() def press_power(self): """ Press power key """ self.device.press.power() #Gesture interaction of the device def click_at_coordinates(self, x, y): """ Click at (x,y) coordinates. """ self.device.click(x, y) def swipe_by_coordinates(self, sx, sy, ex, ey, steps=10): """ Swipe from (sx, sy) to (ex, ey) with *steps* . Example: | Swipe By Coordinates | 540 | 1340 | 940 | 1340 | | # Swipe from (540, 1340) to (940, 100) with default steps 10 | | Swipe By Coordinates | 540 | 1340 | 940 | 1340 | 100 | # Swipe from (540, 1340) to (940, 100) with steps 100 | """ self.device.swipe(sx, sy, ex, ey, steps) # Swipe from the center of the ui object to its edge def swipe_left(self, steps=10, *args, **selectors): """ Swipe the UI object with *selectors* from center to left. Example: | Swipe Left | description=Home screen 3 | | # swipe the UI object left | | Swipe Left | 5 | description=Home screen 3 | # swipe the UI object left with steps=5 | See `introduction` for details about identified UI object. """ self.device(**selectors).swipe.left(steps=steps) def swipe_right(self, steps=10, *args, **selectors): """ Swipe the UI object with *selectors* from center to right See `Swipe Left` for more details. """ self.device(**selectors).swipe.right(steps=steps) def swipe_top(self, steps=10, *args, **selectors): """ Swipe the UI object with *selectors* from center to top See `Swipe Left` for more details. """ self.device(**selectors).swipe.up(steps=steps) def swipe_bottom(self, steps=10, *args, **selectors): """ Swipe the UI object with *selectors* from center to bottom See `Swipe Left` for more details. """ self.device(**selectors).swipe.down(steps=steps) def object_swipe_left(self, obj, steps=10): """ Swipe the *obj* from center to left Example: | ${object} | Get Object | description=Home screen 3 | # Get the UI object | | Object Swipe Left | ${object} | | # Swipe the UI object left | | Object Swipe Left | ${object} | 5 | # Swipe the UI object left with steps=5 | | Object Swipe Left | ${object} | steps=5 | # Swipe the UI object left with steps=5 | See `introduction` for details about identified UI object. """ obj.swipe.left(steps=steps) def object_swipe_right(self, obj, steps=10): """ Swipe the *obj* from center to right See `Object Swipe Left` for more details. """ obj.swipe.right(steps=steps) def object_swipe_top(self, obj, steps=10): """ Swipe the *obj* from center to top See `Object Swipe Left` for more details. """ obj.swipe.up(steps=steps) def object_swipe_bottom(self, obj, steps=10): """ Swipe the *obj* from center to bottom See `Object Swipe Left` for more details. """ obj.swipe.down(steps=steps) def drag_by_coordinates(self,sx, sy, ex, ey, steps=10): """ Drag from (sx, sy) to (ex, ey) with steps See `Swipe By Coordinates` also. """ self.device.drag(sx, sy, ex, ey, steps) #Wait until the specific ui object appears or gone # wait until the ui object appears def wait_for_exists(self, timeout=0, *args, **selectors): """ true means the object which has *selectors* exist false means the object does not exist in the given timeout """ return self.device(**selectors).wait.exists(timeout=timeout) # wait until the ui object gone def wait_until_gone(self, timeout=0, *args, **selectors): """ true means the object which has *selectors* disappear false means the object exist in the given timeout """ return self.device(**selectors).wait.gone(timeout=timeout) def wait_for_object_exists(self, obj, timeout=0): """ true means the object exist false means the object does not exist in the given timeout """ return obj.wait.exists(timeout=timeout) # wait until the ui object gone def wait_until_object_gone(self, obj, timeout=0): """ true means the object disappear false means the object exist in the given timeout """ return obj.wait.gone(timeout=timeout) # Perform fling on the specific ui object(scrollable) def fling_forward_horizontally(self, *args, **selectors): """ return whether the object can be fling or not """ return self.device(**selectors).fling.horiz.forward() def fling_backward_horizontally(self, *args, **selectors): """ return whether the object can be fling or not """ return self.device(**selectors).fling.horiz.backward() def fling_forward_vertically(self, *args, **selectors): """ return whether the object can be fling or not """ return self.device(**selectors).fling.vert.forward() def fling_backward_vertically(self, *args, **selectors): """ return whether the object can be fling or not """ return self.device(**selectors).fling.vert.backward() # Perform scroll on the specific ui object(scrollable) def scroll_to_beginning_vertically(self, steps=10, **selectors): """ """ return self.device(**selectors).scroll.vert.toBeginning(steps=steps) def scroll_to_end_vertically(self, steps=10, **selectors): """ """ return self.device(**selectors).scroll.vert.toEnd(steps=steps) def scroll_object_to_beginning_vertically(self, obj, steps=10): """ """ return obj.scroll.vert.toBeginning(steps=steps) def scroll_object_to_end_vertically(self, obj, steps=10): """ """ return obj.scroll.vert.toEnd(steps=steps) def scroll_forward_horizontally(self, obj, steps=10): """ return whether the object can be scroll or not """ return obj.scroll.horiz.forward(steps=steps) def scroll_backward_horizontally(self, obj, steps=10): """ return whether the object can be scroll or not """ return obj.scroll.horiz.backward(steps=steps) def scroll_to_horizontally(self, obj, *args,**selectors): """ return whether the object can be scroll or not """ return obj.scroll.horiz.to(**selectors) def scroll_forward_vertically(self, obj, steps=10): """ return whether the object can be scroll or not """ return obj.scroll.vert.forward(steps=steps) def scroll_backward_vertically(self, obj, steps=10): """ return whether the object can be scroll or not """ return obj.scroll.vert.backward(steps=steps) def scroll_to_vertically(self, obj, *args, **selectors): """ return whether the object exists or not """ return obj.scroll.vert.to(**selectors) #Screen Actions of the device def get_screen_orientation(self): """ Get the screen orientation. Possible result: natural, left, right, upsidedown See for more details: https://github.com/xiaocong/uiautomator#screen-actions-of-the-device """ return self.device.orientation def set_screen_orientation(self, orientation): """ Set the screen orientation. Input *orientation* : natural or n, left or l, right or r, upsidedown (support android version above 4.3) The keyword will unfreeze the screen rotation first. See for more details: https://github.com/xiaocong/uiautomator#screen-actions-of-the-device Example: | Set Screen Orientation | n | # Set orientation to natural | | Set Screen Orientation | natural | # Do the same thing | """ self.device.orientation = orientation def freeze_screen_rotation(self): """ Freeze the screen auto rotation """ self.device.freeze_rotation() def unfreeze_screen_rotation(self): """ Un-Freeze the screen auto rotation """ self.device.freeze_rotation(False) def screenshot(self, scale=None, quality=None): """ Take a screenshot of device and log in the report with timestamp, scale for screenshot size and quality for screenshot quality default scale=1.0 quality=100 """ output_dir = BuiltIn().get_variable_value('${OUTPUTDIR}') ts = time.time() st = datetime.datetime.fromtimestamp(ts).strftime('%Y%m%d%H%M%S') screenshot_path = '%s%s%s.png' % (output_dir, os.sep, st) self.device.screenshot(screenshot_path, scale, quality) logger.info('\n<a href="%s">%s</a><br><img src="%s">' % (screenshot_path, st, screenshot_path), html=True) #Watcher # def register_click_watcher(self, watcher_name, selectors, *condition_list): # """ # The watcher click on the object which has the selectors when conditions match # """ # print type(selectors) # watcher = self.device.watcher(watcher_name) # for condition in condition_list: # watcher.when(**condition) # watcher.click(**selectors) # self.device.watchers.run() # print 'register watcher:%s' % watcher_name # return def __unicode_to_dict(self, a_unicode): a_dict = dict() dict_item_count = a_unicode.count('=') for count in range(dict_item_count): equal_sign_position = a_unicode.find('=') comma_position = a_unicode.find(',') a_key = a_unicode[0:equal_sign_position] if comma_position == -1: a_value = a_unicode[equal_sign_position + 1:] else: a_value = a_unicode[equal_sign_position + 1:comma_position] a_unicode = a_unicode[comma_position + 1:] a_dict[a_key] = a_value return a_dict def register_click_watcher(self, watcher_name, selectors, *condition_list): """ The watcher click on the object which has the *selectors* when conditions match """ watcher = self.device.watcher(watcher_name) for condition in condition_list: watcher.when(**self.__unicode_to_dict(condition)) watcher.click(**self.__unicode_to_dict(selectors)) self.device.watchers.run() def register_press_watcher(self, watcher_name, press_keys, *condition_list): """ The watcher perform *press_keys* action sequentially when conditions match """ def unicode_to_list(a_unicode): a_list = list() comma_count = a_unicode.count(',') for count in range(comma_count + 1): comma_position = a_unicode.find(',') if comma_position == -1: a_list.append(str(a_unicode)) else: a_list.append(a_unicode[0:comma_position]) a_unicode = a_unicode[comma_position + 1:] return a_list watcher = self.device.watcher(watcher_name) for condition in condition_list: watcher.when(**self.__unicode_to_dict(condition)) watcher.press(*unicode_to_list(press_keys)) self.device.watchers.run() def remove_watchers(self, watcher_name = None): """ Remove watcher with *watcher_name* or remove all watchers """ if watcher_name == None: self.device.watchers.remove() else: self.device.watchers.remove(watcher_name) def list_all_watchers(self): """ Return the watcher list """ return self.device.watchers #Selector def get_object(self, *args, **selectors): """ Get the UI object with selectors *selectors* See `introduction` for details about identified UI object. """ return self.device(*args, **selectors) def get_count(self, *args, **selectors): """ Return the count of UI object with *selectors* Example: | ${count} | Get Count | text=Accessibility | # Get the count of UI object text=Accessibility | | ${accessibility_text} | Get Object | text=Accessibility | # These two keywords combination | | ${count} | Get Count Of Object | ${accessibility_text} | # do the same thing. | """ obj = self.get_object(**selectors) return self.get_count_of_object(obj) def get_count_of_object(self, obj): """ Return the count of given UI object See `Get Count` for more details. """ return len(obj) def get_info_of_object(self, obj, selector=None): """ return info dictionary of the *obj* The info example: { u'contentDescription': u'', u'checked': False, u'scrollable': True, u'text': u'', u'packageName': u'com.android.launcher', u'selected': False, u'enabled': True, u'bounds': { u'top': 231, u'left': 0, u'right': 1080, u'bottom': 1776 }, u'className': u'android.view.View', u'focusable': False, u'focused': False, u'clickable': False, u'checkable': False, u'chileCount': 1, u'longClickable': False, u'visibleBounds': { u'top': 231, u'left': 0, u'right': 1080, u'bottom': 1776 } } """ if selector: return obj.info.get(selector) else: return obj.info def click(self, *args, **selectors): """ click on the UI object with *selectors* """ self.device(**selectors).click() def long_click(self, *args, **selectors): """ click on the UI object with *selectors* """ self.device(**selectors).long_click() def call(self, obj, method, *args, **selectors): """ This keyword can use object method from original python uiautomator See more details from https://github.com/xiaocong/uiautomator Example: | ${accessibility_text} | Get Object | text=Accessibility | # Get the UI object | | Call | ${accessibility_text} | click | # Call the method of the UI object 'click' | """ func = getattr(obj, method) return func(**selectors) def set_text(self, input_text, *args, **selectors): """ Set *input_text* to the UI object with *selectors* """ self.device(**selectors).set_text(input_text) # Other feature def clear_text(self, *args, **selectors): """ Clear text of the UI object with *selectors* """ while True: target = self.device(**selectors) text = target.info['text'] target.clear_text() remain_text = target.info['text'] if text == '' or remain_text == text: break def open_notification(self): """ open notification Built in support for Android 4.3 (API level 18) Using swipe action as a workaround for API level lower than 18 """ sdk_version = self.device.info['sdkInt'] if sdk_version < 18: height = self.device.info['displayHeight'] self.device.swipe(1, 1, 1, height - 1, 1) else: self.device.open.notification() def open_quick_settings(self): """ open quick settings Work for Android 4.3 above (API level 18) """ self.device.open.quick_settings() def sleep(self, time): """ Sleep(no action) for *time* (in millisecond) """ target = 'wait for %s' % str(time) self.device(text=target).wait.exists(timeout=time) def install(self, apk_path): """ Install apk to the device """ self.adb.cmd('install "%s"' % apk_path) def uninstall(self, package_name): """ Uninstall the APP with *package_name* """ self.adb.cmd('uninstall %s' % package_name) def execute_adb_command(self, cmd): """ Execute adb *cmd* """ return self.adb.cmd(cmd) def execute_adb_shell_command(self,cmd): """ Execute adb shell *cmd* """ return self.adb.shell_cmd(cmd) def type(self, input_text, **selectors): """ Type *text* at current focused UI object """ self.test_helper.send_set_text_cmd(input_text) def start_test_agent(self): """ [Test Agent] Start Test Agent Service """ cmd = 'am start edu.ntut.csie.sslab1321.testagent/edu.ntut.csie.sslab1321.testagent.DummyActivity' self.adb.shell_cmd(cmd) def stop_test_agent(self): """ [Test Agent] Stop Test Agent Service """ cmd = 'am broadcast -a testagent -e action STOP_TESTAGENT' self.adb.shell_cmd(cmd) def connect_to_wifi(self, ssid, password): """ [Test Agent] Connect to *ssid* with *password* """ cmd = 'adb shell am start edu.ntut.csie.sslab1321.testagent/edu.ntut.csie.sslab1321.testagent.DummyActivity' cmd = 'adb shell am broadcast -a testagent -e action CONNECT_TO_WIFI -e ssid WEP -e password 12345' cmd = 'am broadcast -a testagent -e action CONNECT_TO_WIFI -e ssid %s -e password %s' % (ssid, password) self.adb.shell_cmd(cmd) def clear_connected_wifi(self): """ [Test Agent] Clear all existed Wi-Fi connection """ cmd = 'am broadcast -a testagent -e action CLEAR_CONNECTED_WIFIS' self.adb.shell_cmd(cmd) def foo(self): pass # logger.info('\nGot arg %s %s' % (output_dir, st), also_console=True) # clm = CommandLineWriter() # output some messages on console # clm.message(' ') # clm.message(u'中文') # clm.message(u'2----------2') def test(self): pass
class AndroidDevice(object): ''' wrapper for android uiautomator(pip install uiautomator) and image comparision(pip install imglib) to provide android device event inject and ui object inspect and image comparison. ''' def __init__(self): self.serial = configer.env[ANDROID_SERIAL] if configer.env.has_key(ANDROID_SERIAL) else None self.d = Device(self.serial) def __getattr__(self, method): ''' forward method to uiautomator device if method support by uiautomator. ''' if hasattr(self.d, method): def wrapper(*args, **kwargs): return getattr(self.d, method)(*args, **kwargs) return wrapper raise AttributeError(method) def serial(self): '''device serial number from $ANDROID_SERIAL ''' return self.serial def info(self): '''retrieve the device info''' return self.d.info def sleep(self, seconds): time.sleep(seconds) return self #device event inject def start_activity(self, **kwargs): '''launch application from android shell am start: component, flag // from adb docs: //<INTENT> specifications include these flags: // [-a <ACTION>] [-d <DATA_URI>] [-t <MIME_TYPE>] // [-c <CATEGORY> [-c <CATEGORY>] ...] // [-e|--es <EXTRA_KEY> <EXTRA_STRING_VALUE> ...] // [--esn <EXTRA_KEY> ...] // [--ez <EXTRA_KEY> <EXTRA_BOOLEAN_VALUE> ...] // [-e|--ei <EXTRA_KEY> <EXTRA_INT_VALUE> ...] // [-n <COMPONENT>] [-f <FLAGS>] // [<URI>] ''' #d.server.adb.cmd('shell','am', 'start', '-a', 'android.intent.action.DIAL','tel:13581739891').communicate() #sys.stderr.write(str(kwargs)) keys = kwargs.keys() shellcmd = ['shell', 'am', 'start'] if 'component' in keys: shellcmd.append('-n') shellcmd.append(kwargs['component']) if 'action' in keys: shellcmd.append('-a') shellcmd.append(kwargs['action']) if 'data' in keys: shellcmd.append('-d') shellcmd.append(kwargs['data']) if 'mimetype' in keys: shellcmd.append('-t') shellcmd.append(kwargs['mimetype']) if 'categories' in keys: for category in kwargs['categories']: shellcmd.append('-c') shellcmd.append(category) if 'extras' in keys: for extra_key, extra_value in kwargs['extras'].items(): str_value = '' arg = '' if isinstance(extra_value, types.IntType): str_value = str(extra_value) arg = '--ei' elif isinstance(extra_value, types.BooleanType): str_value = str(extra_value) arg = '--ez' else: str_value = str(extra_value) arg = '--es' shellcmd.append(arg) shellcmd.append(extra_key) shellcmd.append(str_value) if 'flags' in keys: shellcmd.append('-f') shellcmd.append(str(kwargs['flags'])) if 'uri' in keys: shellcmd.append(kwargs['uri']) #sys.stderr.write(str(shellcmd)) self.d.server.adb.cmd(*shellcmd).communicate() return self def instrument(self, **kwargs): keys = kwargs.keys() shellcmd = ['shell', 'am', 'instrument', '-w', '-r'] pkgname = kwargs.pop('packagename') for k, v in kwargs.items(): if k and v: shellcmd.append('-e') shellcmd.append(k) shellcmd.append(str(v)) shellcmd.append(pkgname) result = self.d.server.adb.cmd(*shellcmd).communicate() return result def TODOinstallPackage(self, **kwargs): pass def TODOremovePackage(self, **kwargs): pass def press(self, keyname, waittime=1): #hard, soft key: home,back,up,down,right,left,center,menu,power or ANDROID_KEYEVENT self.d.press(keyname) time.sleep(waittime) return self def click(self, x, y, waittime=1): self.d.click(x, y) time.sleep(waittime) return self def click_image(self, imagename, waittime=1, threshold=0.01): ''' if the wanted image found on current screen click it. if the wanted image not found raise exception and set test to be failure. ''' expect_image_path = os.path.join(configer['right_dir_path'], imagename) assert os.path.exists(expect_image_path), 'the local expected image %s not found!' % imagename current_image_path = os.path.join(configer['report_dir_path'], imagename) self.d.screenshot(current_image_path) assert os.path.exists(current_image_path), 'fetch current screen shot image %s failed!' % imagename pos = getMatchedCenterOffset(expect_image_path, current_image_path, threshold) assert pos, 'Fail Reason: The wanted image \'%s\' not found on screen!' % imagename self.d.click(pos[0], pos[1]) time.sleep(waittime) return self def swipe(self, sx, sy, ex, ey, steps=100, waittime=1): self.d.swipe(sx, sy, ex, ey, steps) time.sleep(waittime) return self def drag(self, sx, sy, ex, ey, steps=100, waittime=1): self.d.drag(sx, sy, ex, ey, steps) time.sleep(waittime) return self #inspect def exists(self, **kwargs): ''' if the expected component exists on current screen layout return true else return false. ''' return self.d.exists(**kwargs) #device snapshot def screenshot(self, filename, waittime=1): path = os.path.join(configer['report_dir_path'], filename) self.d.screenshot(path) return self def expect(self, imagename, interval=2, timeout=4, threshold=0.01, msg=''): ''' if the expected image found on current screen return self else raise exception. set test to be failure. ''' expect_image_path = os.path.join(configer['right_dir_path'], imagename) assert os.path.exists(expect_image_path) current_image_path = os.path.join(configer['report_dir_path'], imagename) begin = time.time() while (time.time() - begin < timeout): self.d.screenshot(current_image_path) if isMatch(expect_image_path , current_image_path , threshold): return self time.sleep(interval) name, ext = os.path.splitext(os.path.basename(imagename)) shutil.copyfile(expect_image_path, os.path.join(configer['report_dir_path'], '%s%s%s' % (name, '_expect', ext))) reason = msg if not msg else 'Fail Reason: Image \'%s\' not found on screen!' % imagename assert False, reason def find(self, imagename, interval=2, timeout=4, threshold=0.01): ''' if the expected image found on current screen return true else return false ''' expect_image_path = os.path.join(configer['right_dir_path'], imagename) assert os.path.exists(expect_image_path) current_image_path = os.path.join(configer['report_dir_path'], imagename) begin = time.time() isExists = False while (time.time() - begin < timeout): time.sleep(interval) self.d.screenshot(current_image_path) isExists = isMatch(expect_image_path , current_image_path , threshold) if not isExists: time.sleep(interval) continue return isExists
status, string = subprocess.getstatusoutput( 'adb -s {} shell am broadcast -a android.intent.action.AIRPLANE_MODE'. format(deviceID)) time.sleep(5) status, string = subprocess.getstatusoutput( "adb -s {} install /home/administator/protonmail.apk".format(deviceID)) time.sleep(8) # d(description='More options').click() os.popen( 'adb -s {} shell am start -n ch.protonmail.android/ch.protonmail.android.activities.SplashActivity' .format(deviceID)) time.sleep(10) print(1) # d(resourceId='ch.protonmail.android:id/create_account').click() try: d.click(168 + random.randint(300, 500), 935 + random.randint(20, 80)) except JsonRPCError: time.sleep(5) d.click(168 + random.randint(300, 500), 935 + random.randint(20, 80)) time.sleep(10) if d(text='Retry').exists: d(text='Retry').click() time.sleep(8) d(resourceId="ch.protonmail.android:id/expand_free").click() time.sleep(2) d(text="Select").click() time.sleep(1) words = [ 'a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z'
from uiautomator import Device d = Device("6b862e8") d.click(230, 530) d.set_text('1995')
class AndroidDevice(object): def __init__(self): self.device = None self.d = None self.sdk = 25 self.btn_elements = {} def load_btn_elements_by_country(self): """ """ country_key = check_output([ 'adb', '-s', self.device, 'shell', 'getprop', 'gsm.operator.iso-country' ]).decode('utf-8')[:-1] print(country_key) if '\r' in country_key: country_key = country_key.replace('\r', '') with open('dictionary.json') as json_file: data = json.load(json_file) self.btn_elements = data[country_key] def select_device(self, device=1): """ Verify and return the serial device available. By default return the first device found. :param device: string This is the number of the selected device :return: string Returns the serial device """ list_devices = self.check_list() if list_devices: if device <= 0 or device > len(list_devices): print(NO_SELECTED) exit() else: self.device = list_devices[device - 1].split()[0].decode('utf-8') self.d = Device(self.device) print('>>>> Device selected: ' + self.device + ' <<<<') self.load_btn_elements_by_country() self.get_api_level() return self.device else: print(NO_CONNECTED) exit() def check_list(self): """ Using adb shell command, checks if there are devices connected and retruns them on a list :return: array List of available devices """ output = check_output(['adb', 'devices']) lines = output.splitlines()[1:-1] if not lines or lines[0] == b'': return None else: return lines def get_api_level(self): output = check_output([ 'adb', '-s', self.device, 'shell', 'getprop', 'ro.build.version.sdk' ]).decode('utf-8')[:-1] if '\r' in output: output = output.replace('\r', '') self.sdk = int(output) def dial_number(self, number): """ Call to the specified number by adb shell command :param number: string It is the number to call """ check_call([ 'adb', '-s', self.device, 'shell', 'am', 'start', '-a', 'android.intent.action.CALL', '-d', 'tel:{0}'.format(number) ]) def hang_up(self): """ Hang up or cancel the calling if there is one in progress """ check_call(['adb', '-s', self.device, 'shell', 'input', 'keyevent 6']) def get_current_call_state(self): # 0: no hay nada | 1: sonando | 2: llamando output = check_output([ 'adb', '-s', self.device, 'shell', 'dumpsys', 'telephony.registry', '|', 'grep', 'mCallState' ]) line = output.split()[0].decode('utf-8') return int(line[-1]) def get_current_wifi_state(self): output = check_output([ 'adb', '-s', self.device, 'shell', 'dumpsys', 'wifi', '|', 'grep', 'mNetworkInfo' ]).decode('utf-8') state = output[output.find('state'):output.find('reason')] return state.split()[1][:-1] def adb_open_settings(self): """ Open the settings menu by adb shel command """ check_call([ 'adb', '-s', self.device, 'shell', 'am', 'start', '-a', 'android.settings.SETTINGS' ]) def turn_on_wifi_test(self): """ Turn on the wifi by adb shell command """ check_call(['adb', '-s', self.device, 'shell', 'svc wifi enable']) def turn_off_wifi_test(self): """ Turn off the wifi by adb shell command """ check_call(['adb', '-s', self.device, 'shell', 'svc wifi disable']) def verify_call_process(self, calling, hang_up): if calling == 2 and hang_up == 0: # hang up correctly print(utils.TGREEN + '.' + utils.TNOR) return True elif calling == 0 and hang_up == 2: # call out of time print(utils.TRED + 'F' + utils.TNOR) return Exception('ADB Call error :: Call started out of time') elif calling == 2 and hang_up == 2: # still calling print(utils.TRED + 'F' + utils.TNOR) return Exception( 'ADB Call error :: Should hang up but still was calling') elif calling == 0 and hang_up == 0: # did not call print(utils.TRED + 'F' + utils.TNOR) return Exception('ADB Call error :: Should call but did not start') def wifi_have_to_be(self, expected_value): real_value = self.get_current_wifi_state() if expected_value == real_value: print(utils.TGREEN + '.' + utils.TNOR) return True else: print(utils.TRED + 'F' + utils.TNOR) return Exception( 'ADB WiFi error state :: Expected {0} but got {1}'.format( expected_value, real_value)) @escribano def adb_calling_test(self, number, delay=5): """ Call to the number given and hangs up after the time specified :param number: string It is the number to call :param delay: int It is the time between the call event and hang up event """ self.dial_number(number) time.sleep(2) _call = self.get_current_call_state() time.sleep(delay) self.hang_up() time.sleep(1) _hang_up = self.get_current_call_state() return { 'sdk': self.sdk, 'res': self.verify_call_process(_call, _hang_up) } @escribano def adb_wifi_test(self, value): """ By the state given, turn on or turn off the wifi using adb shell command :param value: string It is the state to turn ON/OFF """ if value == 0: self.turn_off_wifi_test() time.sleep(5) return {'sdk': self.sdk, 'res': self.wifi_have_to_be(DISCONNECTED)} elif value == 1: self.turn_on_wifi_test() time.sleep(5) return {'sdk': self.sdk, 'res': self.wifi_have_to_be(CONNECTED)} def find_by_image_button(self, text): _device = self.d(descriptionMatches='{0}'.format(text), className='android.widget.ImageButton') return _device def find_by_text_view(self, text): return self.d(text='{0}'.format(text), className='android.widget.TextView') def find_by_image_view(self, text): return self.d(descriptionContains='{0}'.format(text), className='android.widget.ImageView') def find_by_frame_layout(self, text): _device = self.d(descriptionContains='{0}'.format(text), className='android.widget.FrameLayout') return _device def find_by_switch(self, text): return self.d(descriptionContains='{0}'.format(text), className='android.widget.Switch') def find_by_switch_text(self, text): return self.d(text='{0}'.format(text), className='android.widget.Switch') def find_by_text_button(self, text): return self.d(text='{0}'.format(text), className='android.widget.Button') def find_by_desc_button(self, text): return self.d(descriptionMatches='{0}'.format(text), className='android.widget.Button') def get_wifi_switch_bar(self): return self.d(resourceId='com.android.settings:id/switch_bar', className='android.widget.Switch') def get_wifi_switch_widget(self): return self.d(resourceId='com.android.settings:id/switchWidget', className='android.widget.Switch') def get_wifi_toggle_bar(self): return self.d(resourceId='android:id/toggle', className='android.widget.Switch') def get_wifi_quick_btn(self, text): return self.d(descriptionContains='{0}'.format(text), className='android.widget.Button') def get_wifi_quick_switch(self, text): return self.d(descriptionContains='{0}'.format(text), className='android.widget.Switch') def find_by_index_class(self, index_e, class_name): return self.d(index=index_e, className='android.widget.{0}'.format(class_name)) def get_formula_display(self): return self.d(textMatches=r'^[-]*[0-9]*\.?[0-9]*$', className='android.widget.TextView') def get_display_result(self): if self.sdk > 25: return self.d(resourceId='com.google.android.calculator:id/result', className='android.widget.TextView') else: return self.d(resourceId='com.android.calculator2:id/result', className='android.widget.TextView') def type_number(self, number): """ This function iterates through the number given and click each digit :param number: string It is the number to call """ for digit in number: if digit == '+': _btn_bounds = self.find_by_frame_layout('0').info['bounds'] self.d.swipe(_btn_bounds['left'], _btn_bounds['top'], _btn_bounds['right'], _btn_bounds['bottom'], steps=30) else: self.find_by_frame_layout(digit).click() @escribano def uia_calling_test(self, number, delay=5): """ This function sets the device on the home screen and calls the number given, after a certain time hangs up. :param number: string It is the number to call :param delay: int Time between call event and hang up event """ self.d.press.home() self.open_all_applications_menu() time.sleep(2) self.find_by_text_view(self.btn_elements['phone']).click() time.sleep(3) if self.sdk > 25: self.find_by_image_button(self.btn_elements['key-pad'][0]).click() else: self.find_by_image_button(self.btn_elements['key-pad'][1]).click() time.sleep(1) self.type_number(number) self.find_by_image_button(self.btn_elements['dial']).click() time.sleep(delay) _call = self.get_current_call_state() time.sleep(1) if self.sdk > 25: self.find_by_image_button(self.btn_elements['end-call'][0]).click() else: self.find_by_image_button(self.btn_elements['end-call'][1]).click() time.sleep(1) _hang_up = self.get_current_call_state() time.sleep(1) self.d.press.home() time.sleep(1) return { 'sdk': self.sdk, 'res': self.verify_call_process(_call, _hang_up) } def quick_turn_on_wifi(self): """ Open the quick settings menu to turn on the wifi. """ if self.sdk > 25: _wifi_btn = self.get_wifi_quick_switch('Wi-Fi,') if not _wifi_btn.checked: _wifi_btn.click() else: _wifi_btn = self.get_wifi_quick_btn('Wi-Fi') _wifi_btn.click() _wifi_switch_switch = self.get_wifi_toggle_bar() if not _wifi_switch_switch.checked: _wifi_switch_switch.click() time.sleep(2) def quick_turn_off_wifi(self): """ Open the quick settings menu to turn off the wifi """ if self.sdk > 25: _wifi_btn = self.get_wifi_quick_switch('Wi-Fi,') if _wifi_btn.checked: _wifi_btn.click() else: _wifi_btn = self.get_wifi_quick_btn('Wi-Fi') _wifi_btn.click() _wifi_switch_switch = self.get_wifi_toggle_bar() if _wifi_switch_switch.checked: _wifi_switch_switch.click() time.sleep(2) @escribano def uia_quick_wifi_test(self, value): """ By the state given, open the quick settings menu and turn on or turn off the wifi using uiautomator :param on_off: string It is the state to turn """ self.d.press.home() self.d.open.quick_settings() time.sleep(10) if value == 0: self.quick_turn_off_wifi() time.sleep(4) return {'sdk': self.sdk, 'res': self.wifi_have_to_be(DISCONNECTED)} elif value == 1: self.quick_turn_on_wifi() time.sleep(8) return {'sdk': self.sdk, 'res': self.wifi_have_to_be(CONNECTED)} def setting_turn_on_wifi(self): """ Look for the wifi button and check if it is enable. If it is already on, it won't do anything. """ if self.sdk > 25: _wifi_switch = self.find_by_switch('Wi-Fi') else: _wifi_switch = self.get_wifi_switch_bar() if not _wifi_switch.checked: _wifi_switch.click() def setting_turn_off_wifi(self): """ Look for the wifi button and check if it is enable. If it is already off, it won't do anything. """ if self.sdk > 25: _wifi_switch = self.find_by_switch('Wi-Fi') else: _wifi_switch = self.get_wifi_switch_bar() if _wifi_switch.checked: _wifi_switch.click() @escribano def uia_settings_wifi_test(self, value): """ By the state given, open the settings menu and turn on or turn off the wifi using uiautomator :param on_off: string It is the state to turn """ self.d.press.home() time.sleep(1) self.adb_open_settings() time.sleep(2) if self.sdk > 25: self.find_by_text_view(self.btn_elements['wifi'][1]).click() else: # print('api 25 wifi') # self.d.click(540, 934) self.find_by_text_view(self.btn_elements['wifi'][1]).click() time.sleep(2) if value == 0: self.setting_turn_off_wifi() time.sleep(4) return {'sdk': self.sdk, 'res': self.wifi_have_to_be(DISCONNECTED)} elif value == 1: self.setting_turn_on_wifi() time.sleep(8) return {'sdk': self.sdk, 'res': self.wifi_have_to_be(CONNECTED)} def open_all_applications_menu(self): if self.sdk > 25: self.d.swipe(500, 800, 500, 100, steps=10) else: try: time.sleep(2) _up_button = self.find_by_image_view('Apps list') _up_button.click() except: time.sleep(1) self.d.swipe(360, 980, 360, 100, steps=10) finally: self.d.click(360, 980) def enter_operation(self, operation): for character in operation: if character == '+': self.find_by_desc_button( self.btn_elements['operations'][0]).click() elif character == '-': self.find_by_desc_button( self.btn_elements['operations'][1]).click() elif character == '/': self.find_by_desc_button( self.btn_elements['operations'][3]).click() elif character == '*': self.find_by_desc_button( self.btn_elements['operations'][2]).click() else: self.find_by_text_button(character).click() def press_clear_btn(self): self.find_by_desc_button(self.btn_elements['operations'][5]).click() def press_del_btn(self): if self.sdk > 25: self.find_by_image_button( self.btn_elements['operations'][4]).click() else: self.find_by_desc_button( self.btn_elements['operations'][4]).click() def press_equal_btn(self): self.find_by_text_button('=').click() def verify_result_operation(self, expected_value, actual_value): if expected_value == actual_value: print(utils.TGREEN + '.' + utils.TNOR) return True else: print(utils.TRED + 'F' + utils.TNOR) return Exception( 'UIAUTOMATOR OPERATION ERROR :: Expected {0} but got {1}'. format(expected_value, actual_value)) @escribano def single_operation(self, operation_to_do, expected_result): self.enter_operation(operation_to_do) self.press_equal_btn() actual_result = self.get_display_result().info['text'] if isinstance(expected_result, list): if actual_result in expected_result: return { 'sdk': self.sdk, 'res': self.verify_result_operation( expected_result[expected_result.index(actual_result)], actual_result) } else: return { 'sdk': self.sdk, 'res': self.verify_result_operation( expected_result, utils.clean_string_negative_values(actual_result)) } def uia_calculator_test(self, operations_to_do): self.d.press.home() time.sleep(2) self.open_all_applications_menu() time.sleep(3) self.find_by_text_view(self.btn_elements['calculator']).click() time.sleep(1) for operation in operations_to_do: self.single_operation(operation[0], operation[1]) time.sleep(1) if isinstance(operation[1], list): _del_count = 0 while _del_count < len(operation[0]): self.press_del_btn() _del_count += 1 else: self.press_clear_btn() time.sleep(1)
class AndroidDevice(object): ''' wrapper for android uiautomator-server binding(pip install uiautomator). provide android device event inject, ui object inspect and image comparison. ''' def __init__(self, seral=None): ''' create device instance. ''' self.serial = os.environ[ANDROID_SERIAL] if os.environ.has_key(ANDROID_SERIAL) else None self.working_dir_path = WORKING_DIR_PATH self.report_dir_path = REPORT_DIR_PATH self.right_dir_path = WORKING_DIR_PATH self._internal_storage_dir = DEFAULT_DEVICE_INTERNAL_STORAGE self.d = Device(self.serial) #try: # if int(self.d.info['sdkInt']) <= 17: # self.d.screenshot = self.screenshot_common #except: # pass def set_internal_storage_dir(self, path): self._internal_storage_dir = path def __getattr__(self, attr): ''' forward method/attrbuite to uiautomator device if method support by uiautomator. ''' if hasattr(self.d, attr): if attr == 'screenshot': return self.screenshot_common m = getattr(self.d, attr) if inspect.ismethod(m): def wrapper(*args, **kwargs): return m(*args, **kwargs) return wrapper else: return m raise AttributeError(attr) def __call__(self, *args, **kwargs): ''' selector support: d(text="Settings").click() ''' return self.d(*args, **kwargs) @property def orientation(self): return self.d.orientation @orientation.setter def orientation(self, v): self.d.orientation = v def serial(self): ''' device serial number from $ANDROID_SERIAL ''' return self.serial def sleep(self, sec): time.sleep(sec) #device event inject def start_activity(self, **intent_params): ''' Starts an Activity on the device by sending an Intent which constructed from the specified parameters. The params of Intent supported from adb docs: <INTENT> specifications include these flags: [-a <ACTION>] [-d <DATA_URI>] [-t <MIME_TYPE>] [-c <CATEGORY> [-c <CATEGORY>] ...] [-e|--es <EXTRA_KEY> <EXTRA_STRING_VALUE> ...] [--esn <EXTRA_KEY> ...] [--ez <EXTRA_KEY> <EXTRA_BOOLEAN_VALUE> ...] [-e|--ei <EXTRA_KEY> <EXTRA_INT_VALUE> ...] [-n <COMPONENT>] [-f <FLAGS>] [<URI>] @type intent_params: dictionary @param intent_params: the properties of an Intent. property support: component/action/data/mimetype/categories/extras/flags/uri @rtype: AndroidDevice @return: a instance of AndroidDevice. ''' #d.server.adb.cmd('shell','am', 'start', '-a', 'android.intent.action.DIAL','tel:13581739891').communicate() #sys.stderr.write(str(intent_params)) keys = intent_params.keys() shellcmd = ['shell', 'am', 'start'] if 'component' in keys: shellcmd.append('-n') shellcmd.append(intent_params['component']) if 'action' in keys: shellcmd.append('-a') shellcmd.append(intent_params['action']) if 'data' in keys: shellcmd.append('-d') shellcmd.append(intent_params['data']) if 'mimetype' in keys: shellcmd.append('-t') shellcmd.append(intent_params['mimetype']) if 'categories' in keys: for category in intent_params['categories']: shellcmd.append('-c') shellcmd.append(category) if 'extras' in keys: for extra_key, extra_value in intent_params['extras'].items(): str_value = '' arg = '' if isinstance(extra_value, types.IntType): str_value = str(extra_value) arg = '--ei' elif isinstance(extra_value, types.BooleanType): str_value = str(extra_value) arg = '--ez' else: str_value = str(extra_value) arg = '--es' shellcmd.append(arg) shellcmd.append(extra_key) shellcmd.append(str_value) if 'flags' in keys: shellcmd.append('-f') shellcmd.append(str(intent_params['flags'])) if 'uri' in keys: shellcmd.append(intent_params['uri']) if 'package' in keys: shellcmd.append(intent_params['package']) #sys.stderr.write(str(shellcmd)) self.d.server.adb.cmd(*shellcmd).communicate() return self def instrument(self, **kwargs): ''' Run the specified package with instrumentation and return the output it generates. Use this to run a test package using InstrumentationTestRunner. Typically this target <COMPONENT> is the form <TEST_PACKAGE>/<RUNNER_CLASS>. Options are: -w: wait for instrumentation to finish before returning. Required for test runners. -r: print raw results (otherwise decode REPORT_KEY_STREAMRESULT). Use with [-e perf true] to generate raw output for performance measurements. -e <NAME> <VALUE>: set argument <NAME> to <VALUE>. For test runners a common form is [-e <testrunner_flag> <value>[,<value>...]]. -p <FILE>: write profiling data to <FILE> --user <USER_ID> | current: Specify user instrumentation runs in; current user if not specified. --no-window-animation: turn off window animations will running. @type intent_params: dictionary @param intent_params: the properties of an instrumentation testing. property support: packagename, <NAME> to <VALUE>. @rtype: AndroidDevice @return: a instance of AndroidDevice. ''' keys = kwargs.keys() shellcmd = ['shell', 'am', 'instrument', '-w', '-r'] pkgname = kwargs.pop('packagename') for k, v in kwargs.items(): if k and v: shellcmd.append('-e') shellcmd.append(k) shellcmd.append(str(v)) shellcmd.append(pkgname) result = self.d.server.adb.cmd(*shellcmd).communicate() return result def click(self, *args, **kwargs): ''' example: click(x,y) Click the screen location specified by x and y. Format: (x,y) the screen location specified by x and y. x The horizontal position of the touch in actual device pixels, starting from the left of the screen in its current orientation. y The vertical position of the touch in actual device pixels, starting from the top of the screen in its current orientation. click('phone_app.png', rotation=90) Perform a click event on the center point on the expected screen region. If the screen region want to click not found in the current screen snapshot will do nothing rotation: 0, 90, 180, 270 ''' if args: if isinstance(args[0], types.IntType): self.__click_point(*args, **kwargs) return self if isinstance(args[0], types.StringType): self.__click_image(*args, **kwargs) return self def __click_point(self, x, y, waittime=1): ''' click x,y ''' self.d.click(x, y) time.sleep(waittime) def __click_image(self, imagename, waittime=1, threshold=0.01, rotation=0): ''' if the wanted image found on current screen click it. if the wanted image not found raise exception and set test to be failure. ''' expect_image_path = None current_image_path = None if os.path.isabs(imagename): expect_image_path = imagename current_image_path = join(self.report_dir_path, os.path.basenme(imagename)) else: expect_image_path = join(self.right_dir_path, imagename) current_image_path = join(self.report_dir_path, imagename) assert os.path.exists(expect_image_path), 'the local expected image %s not found!' % expect_image_path self.d.screenshot(current_image_path) assert os.path.exists(current_image_path), 'fetch current screen shot image %s failed!' % imagename pos = getMatchedCenterOffset(subPath=expect_image_path, srcPath=current_image_path, threshold=0.01, rotation=rotation) if not pos: reason = 'Fail Reason: The wanted image \'%s\' not found on screen!' % imagename raise ExpectException(expect_image_path, current_image_path, reason) self.d.click(pos[0], pos[1]) time.sleep(waittime) def screenshot_common(self, filename): ''' if SK version <= 16 Capture the screenshot via adb and store it in the specified location. ''' png = os.path.basename(filename) if self.serial: shell('adb -s %s shell screencap %s%s' % (self.serial, self._internal_storage_dir, png)) shell('adb -s %s pull %s%s %s' % (self.serial, self._internal_storage_dir, png, filename)) else: shell('adb shell screencap %s%s' % (self._internal_storage_dir, png)) shell('adb pull %s%s %s' % (self._internal_storage_dir, png, filename)) return True #inspect def exists(self, **kwargs): ''' if the expected component exists on current screen layout return true else return false. ''' return self.d.exists(**kwargs) def expect(self, imagename, interval=2, timeout=4, threshold=0.01, msg=''): ''' if the expected image found on current screen return self else raise exception. set test to be failure. ''' expect_image_path = None current_image_path = None if os.path.isabs(imagename): expect_image_path = imagename current_image_path = join(self.report_dir_path, os.path.basenme(imagename)) else: expect_image_path = join(self.right_dir_path, imagename) current_image_path = join(self.report_dir_path, imagename) assert os.path.exists(expect_image_path), 'the local expected image %s not found!' % expect_image_path begin = time.time() while (time.time() - begin < timeout): self.d.screenshot(current_image_path) if isMatch(expect_image_path , current_image_path , threshold): return self time.sleep(interval) reason = msg if msg else 'Fail Reason: Image \'%s\' not found on screen!' % imagename raise ExpectException(expect_image_path, current_image_path, reason) def find(self, imagename, interval=2, timeout=4, threshold=0.01): ''' if the expected image found on current screen return true else return false ''' expect_image_path = None current_image_path = None if os.path.isabs(imagename): expect_image_path = imagename current_image_path = join(self.report_dir_path, os.path.basenme(imagename)) else: expect_image_path = join(self.right_dir_path, imagename) current_image_path = join(self.report_dir_path, imagename) assert os.path.exists(expect_image_path), 'the local expected image %s not found!' % expect_image_path begin = time.time() isExists = False while (time.time() - begin < timeout): time.sleep(interval) self.d.screenshot(current_image_path) isExists = isMatch(expect_image_path , current_image_path , threshold) if not isExists: time.sleep(interval) continue return isExists def TODOinstallPackage(self, **kwargs): pass def TODOremovePackage(self, **kwargs): pass
break print(username) print(password) d.press('home') # 更改机器码 # d.press('home') # time.sleep(1) # d(text="changer").click() # time.sleep(2) # d(text="Random").click() # time.sleep(1) # d.press('home') d(text="XPrivacy").click() time.sleep(3) d.click(650, 100) time.sleep(1) d.swipe(700, 1000, 700, 500) d(text="Settings").click() time.sleep(1) d(text="Randomize now").click() time.sleep(1) d.swipe(350, 1000, 350, 100) d.dump('aaa') d.swipe(350, 1000, 350, 100) time.sleep(1) d.swipe(350, 1000, 350, 800) d.dump('bbb') d(text="OK").click() list = [17, 20, 23, 26, 31, 36, 39, 42, 45, 48, 55, 66, 69]
#!/usr/bin/python from uiautomator import Device import sys # get the target device d = Device(sys.argv[1]) # press the menu d.click(50, 50)
""" Keeps Android from falling asleep (warm!) by tapping every five seconds Usage: python warm.py [adb device id] """ import sys import os import time from uiautomator import Device DEVICE_NAME = sys.argv[1] d = Device(DEVICE_NAME) d.wakeup() os.system( "adb shell content insert --uri content://settings/system --bind name:s:user_rotation --bind value:i:0" ) while True: d.click(100, 100) time.sleep(5)
from uiautomator import Device import time import os username = '******' password = '******' d = Device('6b862e8') d(text="Mail").click() time.sleep(1) d(textContains="Deny").click() time.sleep(1) d(text="Username").set_text(username) time.sleep(1) d.click(280, 350) os.system('adb -s 6b862e8 shell input text "{}"'.format(password)) time.sleep(1) d(text="Sign in").click() time.sleep(8) d(text="Continue to inbox").click() time.sleep(3) d(text="No, thanks").click() time.sleep(1) d(textContains="is your Facebook").click() time.sleep(5) if d(descriptionContains="Confirm Your Facebook Account Link").exists: d(descriptionContains="Confirm Your Facebook Account Link").click() time.sleep(2) else: d.click(400, 610) time.sleep(2) d(text="Facebook").click()
class UiTestLib(object): """Ui Test Lib """ def __init__(self, serial=None): """ """ logger.info('<p>Device=%s>' % serial, html=True) print '<p>Device=%s>' % serial self._result = '' self.starttime = 0 self.d = Device(serial) self.adb = Adb(serial) self.debug = 'True' def set_debugable(flag): self.debug = flag def set_serial(self, serial): """Specify given *serial* device to perform test. or export ANDROID_SERIAL=CXFS42343 if you have many devices connected but you don't use this interface When you need to use multiple devices, do not use this keyword to switch between devices in test execution. And set the serial to each library. Using different library name when importing this library according to http://robotframework.googlecode.com/hg/doc/userguide/RobotFrameworkUserGuide.html?r=2.8.5. Examples: | Setting | Value | Value | Value | | Library | UiTestLib | WITH NAME | Mobile1 | | Library | UiTestLib | WITH NAME | Mobile2 | And set the serial to each library. | Test Case | Action | Argument | | Multiple Devices | Mobile1.Set Serial | device_1's serial | | | Mobile2.Set Serial | device_2's serial | """ self.d = Device(serial) self.adb = Adb(serial) def logmsg(self, msg): if self.debug == 'True': print msg def exe_adb_command(self, cmd): """ Execute adb *cmd* Examples: | Exe Adb Command | shell getprop | """ return self.adb.cmd(cmd).wait() def exe_adb_and_result(self, cmd): """Execute adb *cmd* and return lines of the command""" lproc = self.adb.cmd(cmd) lproc.poll() lines = lproc.stdout.readlines() return lines def get_device_info(self): """Get Device information return info dictionary """ return self.d.info def light_screen(self): """Light screen by wakeup. Examples: | Action | |Light screen| Use `Light screen` to light screen. """ self.d.wakeup() self._result = self.d.press.home() def open_application(self, appname): """Open application by it name `appname`. Example: | Action | Argument | | Open application | "com.android.settings/com.android.settings.Settings" | """ appname = 'shell am start -n ' + appname print 'Open Application:', appname self._result = self.exe_adb_command(appname) def click_text(self, text, instance=0): """Click text label on screen instance=0 is default, change when you needed. Example: | Action | Argument | Argument | | Click Text | text | instance | """ return self.d(text=text, instance=instance).click.wait() def long_click_text(self, text, instance=0): """ Long Click text label on screen, *text* and *instance=0* Example: | Action | Argument | Argument | | Long Click Text | text | instance | """ return self.d(text=text, instance=instance).long_click() def long_click_ui(self, **selectors): """ Long Click on **selectors** Selector supports below parameters. Refer to UiSelector java doc for detailed information. text, textContains, textMatches, textStartsWith className, classNameMatches description, descriptionContains, descriptionMatches, descriptionStartsWith checkable, checked, clickable, longClickable scrollable, enabled,focusable, focused, selected packageName, packageNameMatches resourceId, resourceIdMatches index, instance Example: | Action | Argument | Argument | Argument | | Long Click UI | text=XXXX | className=XXX.xxxx | resourceId=xxxxxx | """ return self.d(**selectors).long_click() def text_display_on_screen_contains(self, text): """Verify text display on screen Example: | Action | Argument | |Text display on screen is| text | """ if self.d(text=text).exists: self._result = True return True else: self._result = False return False def object_display_on_screen(self, obj, timeout=5000): """ Verify *obj* UiObject display on screen return to self._result Example: | Action | Argument | |Object display on screen | obj | """ if obj.wait.exists(timeout): self._result = True return True else: self._result = False return False def assert_expectation(self, expect, actual): """ Assert Expectation and actual value Example: | Action | args | args | | Assert Expectation | 324324 | ${actual} | """ if str(expect) != str(actual): raise AssertionError( 'Actual result is = %s, but expectation is: %s' % (str(actual), str(expect))) def assert_true(self, condition): """ Assert True of *condition Example: |Assert True | condition | """ if str(condition) != 'True': #because only string from robotframework raise AssertionError('Result is = %s' % str(condition)) def assert_result_true(self): """ Assert True of *self._result Example: |Assert True | """ if self._result != True: raise AssertionError('Result is = %s' % str(self._result)) def wait_for_ui_exists(self, timeout, **selectors): """ Return True if Selector is to identify specific ui object in current window. # To seleted the object ,text is 'Clock' and its className is 'android.widget.TextView' wait_for_ui_exists(text='Clock', className='android.widget.TextView') Selector supports below parameters. Refer to UiSelector java doc for detailed information. text, textContains, textMatches, textStartsWith className, classNameMatches description, descriptionContains, descriptionMatches, descriptionStartsWith checkable, checked, clickable, longClickable scrollable, enabled,focusable, focused, selected packageName, packageNameMatches resourceId, resourceIdMatches index, instance Examples: | Action | Argument | Argument | Argument | Argument | |Wait For UI Exists | timeout | text=XXXX | className=XXX.xxxx | resourceId=xxxxxx | """ self._result = self.d(**selectors).wait.exists(timeout=int(timeout)) return self._result def wait_and_click(self, timeout, **selectors): """Wait for uiselector and click""" if self.d(**selectors).wait.exists(timeout=int(timeout)): self.d(**selectors).click() def assert_ui_exists(self, **selectors): """ Assert UiObject appear on the screen Examples: | Action | Argument | Argument | Argument | Argument | |Assert UI Exists | timeout | text=XXXX | className=XXX.xxxx | resourceId=xxxxxx | """ if not self.d(**selectors).wait.exists(): raise AssertionError('UiObject does not exists %s' % selectors.items()) def result_should_be(self, expected): """Verifies that the current result is `expected`. Example: | Action | Argument | | Open application | com.android.settings/com.android.settings.Settings | | Result Should Be | 0 | """ print('result is: %s\n', self._result) print('ex is: %s\n', expected) if str(self._result) != expected: raise AssertionError('%s != %s' % (self._result, expected)) def click_at_coordinates(self, x, y): """ Click at (x,y) coordinates. Example: | Action | Argument | Argument | | Click At Corrdinates | x | y | """ return self.d.click(int(x), int(y)) def long_click_at_coordinates(self, x, y): """ # long click (x, y) on screen """ return self.d.long_click(int(x), int(y)) def swipe(self, sx, sy, ex, ey, steps=20): """ Swipe from (sx,sy) to (ex,ey) """ return self.d.swipe(int(sx), int(sy), int(ex), int(ex), int(steps)) def drag(self, sx, sy, ex, ey, steps=20): """ Drag from (sx,sy) to (ex,ey) """ return self.d.drag(int(sx), int(sy), int(ex), int(ex), int(steps)) def freeze_rotation(self, rotation=True): """ Freeze rotation, *rotation*, True is default, """ return self.d.freeze_rotation(rotation) def set_rotation(self, rotation): """ # retrieve orientation, # it should be "natural" or "left" or "right" or "upsidedown" Example: | Action | Argument | | Set Rotation | nature | | Set Rotation | left | | Set Rotation | right | | Set Rotation | upsidedown | """ orientation = self.d.orientation if rotation == "nature": self.d.orientation = "n" # or "natural" elif rotation == "left": self.d.orientation = "l" # or "left" elif rotation == "right": self.d.orientation = "r" # or "right" elif rotation == "upsidedown": self.d.orientation = "upsidedown" # or "upsidedown" else: self.d.rotation = "n" def take_screenshot(self, scale=None, quality=None): """ Take a screenshot of device and log in the report with timestamp, scale for screenshot size and quality for screenshot quality default scale=1.0 quality=100 Example: | Action | Argument | Argument | | Take Screenshot | 0.5 | 80 | """ output_dir = BuiltIn().get_variable_value('${OUTPUTDIR}') ts = time.time() st = datetime.datetime.fromtimestamp(ts).strftime('%Y%m%d%H%M%S') screenshot_path = '%s%s%s.png' % (output_dir, os.sep, st) screenshot_name = '%s%s.png' % (os.sep, st) self.d.screenshot(screenshot_path, scale, quality) logger.info('\n<a href="%s">%s</a><br><img src="%s">' % (screenshot_path, st, screenshot_name), html=True) def open_notification(self): """ Open notification of the phone """ self.d.open.notification() def wait_window_update(self): """ wait for window update """ return self.d.wait.update() def wait_window_idle(self): """ wait for window idle """ return self.d.wait.idle() def remove_watchers(self): """ Remove UI watchers """ self.d.watchers.remove() def get_device(self): """ Get device object, you can do any command using this """ return self.d def click_id(self, id, instance=0): """ Click *id* with *instance*=0 """ return self.d(resourceId=id, instance=instance).click.wait() def long_click_id(self, id, instance=0): """ Long click *id* with *instance*=0 """ return self.d(resourceId=id, instance=0).long_click() def click_description(self, description, instance=0): """ Click *description* with *instance*=0 """ return self.d(description=description, instance=instance).long_click() def click_class(self, className, instance=0): """ Click *className* with *instance*=0 """ return self.d(className=className, instance=instance).long_click() def type_text(self, textStr, **selectors): """ type text on selectors like text=EditName """ self.d(**selectors).set_text(textStr) def press_key(self, key): """ Press Key of following value home back left right up down center menu search enter delete(or del) recent(recent apps) volume_up volume_down volume_mute camera power Examples: | Action | Argument | | Press Key | home | | Press Key | back | | Press Key | left | | Press Key | right | | Press Key | recent | | Press Key | volume_up | | Press Key | camera | """ if key.isdigit(): return self.d.press(int(key)) return self.d.press(key) def phone_sleep(self, timeout): """ android device sleep with timeout in ms, don't use for executor sleep, """ return self.d.wait(int(timeout)) def execute_command(self, cmd, block_parent_process=True): """ Execute shell *cmd* command, with block_parent_process = True If block_parent_process = False, kill_command is needed to terminal the child process Example: | Execute Command | ping -c 5 127.0.0.1 | """ if str(block_parent_process) == str(True): return subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE).communicate() else: return subprocess.Popen(cmd, shell=True, stdout=subprocess.PIPE, stderr=subprocess.PIPE) def kill_command(self, process, timeout=0): """ Kill child *process* in timeout seconds Some bugs after process teminated """ time.sleep(float(timeout)) process.terminate() def wait_for_logcat(self, log, timeout=30): """ Wait log exists in given timeout, return True if have, otherwise will return False log is your want to search, log can be a regular expression time in seconds, default value is 30 seconds Example: | Wait For Logcat | .*ActivityManager.*cmp=com.sonyericsson.album/com.sonyericsson.album.Main.* | """ start = time.time() while (time.time() - start) < int(timeout): log_proc = self.adb.cmd("logcat -d -v time") returncode = log_proc.poll() lines = log_proc.stdout.readlines() for line in lines: rlt = re.search(log, line.rstrip()) if rlt is not None: print rlt.group(0) self._result = True return True time.sleep(2) #sleep 2s to wait self._result = False return False def clear_logcat(self): """ Clear logcat, it's often used before you want to use *wait_for_logcat()* """ print "Clear logcat before test" return self.exe_adb_command("logcat -c") def click_object(self, obj): """ Click UiObject *obj* Exmaple: | ${result} | Get UI Object | text=XXX | className=xxxx | | Click Object | ${result} | """ obj.click() def click_ui(self, **selectors): """ Click selector click_selector(text="Home", resourceId = "android:id/title") for **selector, please refer *get_ui_object()* Selector supports below parameters. Refer to UiSelector java doc for detailed information. text, textContains, textMatches, textStartsWith className, classNameMatches description, descriptionContains, descriptionMatches, descriptionStartsWith checkable, checked, clickable, longClickable scrollable, enabled,focusable, focused, selected packageName, packageNameMatches resourceId, resourceIdMatches index, instance Operation for a UiObjects: click, clear_text, drag(obj).to(**selector), gesture, exists, set_text, long_click pinch.In(percent=100, steps=10), pinch.Out(percent=100, steps=100),.swipe.right(), .swipe.left(steps=10),.swipe("right", steps=20),.wait.gone(),.wait.exists() """ print "selectors:", selectors return self.d(**selectors).click() def get_ui_object(self, **selectors): """ Get UI object with *selectors* you can do anything on UiObject, like click(), long_click(),wait.exists(timeout) examples: get_ui_object(text="Home", resourceId = "android:id/title") Selector supports below parameters. Refer to UiSelector java doc for detailed information. text, textContains, textMatches, textStartsWith className, classNameMatches description, descriptionContains, descriptionMatches, descriptionStartsWith checkable, checked, clickable, longClickable scrollable, enabled,focusable, focused, selected packageName, packageNameMatches resourceId, resourceIdMatches index, instance Operation for a UiObjects: click, clear_text, drag(obj).to(**selector), gesture, exists, set_text, long_click pinch.In(percent=100, steps=10), pinch.Out(percent=100, steps=100),.swipe.right(), .swipe.left(steps=10),.swipe("right", steps=20),.wait.gone(),.wait.exists() Exmaple: | ${result} | Get UI Object | text=XXX | className=xxxx | """ self._result = self.d(**selectors) return self._result def wait_for_object_exists(self, obj, timeout=0): """ Wait for UiObject *obj* exists in *timeout*= 0 Example: | ${result} | Get UI Object | text=XXX | className=xxxx | | Wait For Object Exists | ${result} | timeout | """ self._result = obj.wait.exists(timeout=int(timeout)) return self._result def wait_for_ui_gone(self, timeout=0, **selectors): """ Wait for UiObject *obj* gone in *timeout*= 0 Example: | ${result} | Get UI Object | text=XXX | className=xxxx | | Wait For Object Gone | ${result} | timeout | """ self._result = self.d(**selectors).wait.gone(timeout=int(timeout)) return self._result def get_key_value(self, key, dictionary): """ Get key value of dictionary """ return dictionary(key) def get_tts(self, input_text, delete_file=False, **args): """ Get TTS voice mp3 from Google get_tts(input_text='tunnel snakes rule apparently', args = {'language':'en','output':'outputto.mp3'}) Robot Framework: Examples: | Action | Argument | Argument | Argument | Argument | | UiTestLib.Get TTS | Hello world | False | output=ooo.mp3 | language=en | """ print "Get text to speech: ", input_text downloaded = False if str(delete_file) == 'True': if os.path.exists(args['output']): os.remove(args['output']) if os.path.exists(args['output']): if os.path.getsize(args['output']) <= 0: os.remove(args['output']) if args['output'] is not None: if not os.path.exists(args['output']): print 'Generating mp3 file......', args['output'] downloaded = GoogleTTS.audio_extract(input_text, args) else: print 'Have same local file' downloaded = True if not downloaded: print "Downloaded TTS from Google failed, trying to download from local FTP..." mp3file = open(args['output'], 'w') mp3url = 'ftp://cnbjlx9548/atautomation/Test-Content/Croft/' + args[ 'output'] try: resp = urllib2.urlopen(mp3url, timeout=40) mp3file.write(resp.read()) time.sleep(.05) except Exception, e: print e return False mp3file.close() return True
) current_time = time.strftime(ISOTIMEFORMAT, time.localtime()) os.popen('adb -s ' + series + ' shell "su 0 date -s `date +%Y%m%d.%H%M%S`"') os.popen('adb -s ' + series + ' shell monkey -p com.lexa.fakegps --ignore-crashes 1') flag = True while flag: try: dev.info flag = False except: pass dev.screen.on() # dev(text='Set location').click() dev.click(300, 150) dev.press.back() os.popen('adb kill-server') os.popen('adb start-server') cmd = 'adb -s ' + series + ' shell "nohup /data/local/tcpdump -w /sdcard/' + package + current_time + '.pcap"' # os.system(cmd) subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.STDOUT, shell=True) logger.info('tcpdump begins') os.popen('adb -s ' + series + ' logcat -c') logger.info('clear logcat') dir_data = appdir + 'data/' + package + '/' os.popen('mkdir ' + dir_data) # os.popen('adb -s ' + series + ' shell "logcat -v threadtime | grep --line-buffered UiDroid_Taint > /sdcard/' + package + current_time +'.log " &')
'port': '7005', 'password': '******', 'way': 'AES-256-CTR' }, } for i in sslist: ip = i['ip'] port = i["port"] password = i['password'] way = i['way'] d = Device('6b862e8') d(description="添加配置文件").click() d(text="手动设置").click() d(text="服务器").click() time.sleep(1) d.click(660, 1100) d(resourceId="android:id/edit").set_text(ip) d(text="确定").click() d(text="远程端口").click() d(resourceId="android:id/numberpicker_input").set_text(port) d(text="确定").click() d(text="密码").click() d(resourceId="android:id/edit").set_text(password) d(text="确定").click() d(text="加密方法").click() d(text=way).click() d(resourceId="com.github.shadowsocks:id/action_apply").click()
class AndroidDevice(object): ''' wrapper for android uiautomator-server binding(pip install uiautomator). provide android device event inject, ui object inspect and image comparison. ''' def __init__(self, seral=None): ''' create device instance. ''' self.serial = os.environ[ANDROID_SERIAL] if os.environ.has_key( ANDROID_SERIAL) else None self.working_dir_path = WORKING_DIR_PATH self.report_dir_path = REPORT_DIR_PATH self.right_dir_path = WORKING_DIR_PATH self._internal_storage_dir = DEFAULT_DEVICE_INTERNAL_STORAGE self.d = Device(self.serial) #try: # if int(self.d.info['sdkInt']) <= 17: # self.d.screenshot = self.screenshot_common #except: # pass def set_internal_storage_dir(self, path): self._internal_storage_dir = path def __getattr__(self, attr): ''' forward method/attrbuite to uiautomator device if method support by uiautomator. ''' if hasattr(self.d, attr): #if attr == 'screenshot': # return self.screenshot_common m = getattr(self.d, attr) if inspect.ismethod(m): def wrapper(*args, **kwargs): return m(*args, **kwargs) return wrapper else: return m raise AttributeError(attr) def __call__(self, *args, **kwargs): ''' selector support: d(text="Settings").click() ''' return self.d(*args, **kwargs) @property def orientation(self): return self.d.orientation @orientation.setter def orientation(self, v): self.d.orientation = v def serial(self): ''' device serial number from $ANDROID_SERIAL ''' return self.serial def sleep(self, sec): time.sleep(sec) #device event inject def start_activity(self, *argv, **intent_params): ''' Starts an Activity on the device by sending an Intent which constructed from the specified parameters. The params of Intent supported from adb docs: <INTENT> specifications include these flags: [-a <ACTION>] [-d <DATA_URI>] [-t <MIME_TYPE>] [-c <CATEGORY> [-c <CATEGORY>] ...] [-e|--es <EXTRA_KEY> <EXTRA_STRING_VALUE> ...] [--esn <EXTRA_KEY> ...] [--ez <EXTRA_KEY> <EXTRA_BOOLEAN_VALUE> ...] [-e|--ei <EXTRA_KEY> <EXTRA_INT_VALUE> ...] [-n <COMPONENT>] [-f <FLAGS>] [<URI>] example: start avtivity as new task: start_activity('--activity-clear-task', component='com.android.settings/.Settings') @type argv: string @param argv: specify the rule of how to start acitivty. the value of argv show as below: [--grant-read-uri-permission] [--grant-write-uri-permission] [--debug-log-resolution] [--exclude-stopped-packages] [--include-stopped-packages] [--activity-brought-to-front] [--activity-clear-top] [--activity-clear-when-task-reset] [--activity-exclude-from-recents] [--activity-launched-from-history] [--activity-multiple-task] [--activity-no-animation] [--activity-no-history] [--activity-no-user-action] [--activity-previous-is-top] [--activity-reorder-to-front] [--activity-reset-task-if-needed] [--activity-single-top] [--activity-clear-task] [--activity-task-on-home] [--receiver-registered-only] [--receiver-replace-pending] @type intent_params: dictionary @param intent_params: the properties of an Intent. property support: component/action/data/mimetype/categories/extras/flags/uri @rtype: AndroidDevice @return: a instance of AndroidDevice. ''' #d.server.adb.cmd('shell','am', 'start', '-a', 'android.intent.action.DIAL','tel:13581739891').communicate() #sys.stderr.write(str(intent_params)) keys = intent_params.keys() shellcmd = ['shell', 'am', 'start'] if 'component' in keys: shellcmd.append('-n') shellcmd.append(intent_params['component']) if 'action' in keys: shellcmd.append('-a') shellcmd.append(intent_params['action']) if 'data' in keys: shellcmd.append('-d') shellcmd.append(intent_params['data']) if 'mimetype' in keys: shellcmd.append('-t') shellcmd.append(intent_params['mimetype']) if 'categories' in keys: for category in intent_params['categories']: shellcmd.append('-c') shellcmd.append(category) if 'extras' in keys: for extra_key, extra_value in intent_params['extras'].items(): str_value = '' arg = '' if isinstance(extra_value, types.IntType): str_value = str(extra_value) arg = '--ei' elif isinstance(extra_value, types.BooleanType): str_value = str(extra_value) arg = '--ez' else: str_value = str(extra_value) arg = '--es' shellcmd.append(arg) shellcmd.append(extra_key) shellcmd.append(str_value) if 'flags' in keys: shellcmd.append('-f') shellcmd.append(str(intent_params['flags'])) if 'uri' in keys: shellcmd.append(intent_params['uri']) if 'package' in keys: shellcmd.append(intent_params['package']) #sys.stderr.write(str(shellcmd)) if argv: shellcmd.append(*argv) self.d.server.adb.cmd(*shellcmd).communicate() return self def instrument(self, **kwargs): ''' Run the specified package with instrumentation and return the output it generates. Use this to run a test package using InstrumentationTestRunner. Typically this target <COMPONENT> is the form <TEST_PACKAGE>/<RUNNER_CLASS>. Options are: -w: wait for instrumentation to finish before returning. Required for test runners. -r: print raw results (otherwise decode REPORT_KEY_STREAMRESULT). Use with [-e perf true] to generate raw output for performance measurements. -e <NAME> <VALUE>: set argument <NAME> to <VALUE>. For test runners a common form is [-e <testrunner_flag> <value>[,<value>...]]. -p <FILE>: write profiling data to <FILE> --user <USER_ID> | current: Specify user instrumentation runs in; current user if not specified. --no-window-animation: turn off window animations will running. @type intent_params: dictionary @param intent_params: the properties of an instrumentation testing. property support: packagename, <NAME> to <VALUE>. @rtype: AndroidDevice @return: a instance of AndroidDevice. ''' keys = kwargs.keys() shellcmd = ['shell', 'am', 'instrument', '-w', '-r'] pkgname = kwargs.pop('packagename') for k, v in kwargs.items(): if k and v: shellcmd.append('-e') shellcmd.append(k) shellcmd.append(str(v)) shellcmd.append(pkgname) result = self.d.server.adb.cmd(*shellcmd).communicate() return result def click(self, *args, **kwargs): ''' example: click(x,y) Click the screen location specified by x and y. Format: (x,y) the screen location specified by x and y. x The horizontal position of the touch in actual device pixels, starting from the left of the screen in its current orientation. y The vertical position of the touch in actual device pixels, starting from the top of the screen in its current orientation. click('phone_app.png', rotation=90) Perform a click event on the center point on the expected screen region. If the screen region want to click not found in the current screen snapshot will do nothing rotation: 0, 90, 180, 270 ''' if args: if isinstance(args[0], types.IntType): self.__click_point(*args, **kwargs) return self if isinstance(args[0], types.StringType): self.__click_image(*args, **kwargs) return self def __click_point(self, x, y, waittime=1): ''' click x,y ''' self.d.click(x, y) time.sleep(waittime) def __click_image(self, imagename, waittime=1, threshold=0.01, rotation=0): ''' if the wanted image found on current screen click it. if the wanted image not found raise exception and set test to be failure. ''' expect_image_path = None current_image_path = None if os.path.isabs(imagename): expect_image_path = imagename current_image_path = join(self.report_dir_path, os.path.basename(imagename)) else: expect_image_path = join(self.right_dir_path, imagename) current_image_path = join(self.report_dir_path, imagename) assert os.path.exists( expect_image_path ), 'the local expected image %s not found!' % expect_image_path self.d.screenshot(current_image_path) assert os.path.exists( current_image_path ), 'fetch current screen shot image %s failed!' % imagename pos = getMatchedCenterOffset(subPath=expect_image_path, srcPath=current_image_path, threshold=0.01, rotation=rotation) if not pos: reason = 'Fail Reason: The wanted image \'%s\' not found on screen!' % imagename raise ExpectException(expect_image_path, current_image_path, reason) self.d.click(pos[0], pos[1]) time.sleep(waittime) def screenshot_common(self, filename): ''' if SK version <= 16 Capture the screenshot via adb and store it in the specified location. ''' png = os.path.basename(filename) if self.serial: shell('adb -s %s shell screencap %s%s' % (self.serial, self._internal_storage_dir, png)) shell('adb -s %s pull %s%s %s' % (self.serial, self._internal_storage_dir, png, filename)) else: shell('adb shell screencap %s%s' % (self._internal_storage_dir, png)) shell('adb pull %s%s %s' % (self._internal_storage_dir, png, filename)) return True #inspect def exists(self, **kwargs): ''' if the expected component exists on current screen layout return true else return false. @rtype: boolean @return: return True f the expected component exists on current screen layout, else return false. ''' return self.d.exists(**kwargs) def expect(self, imagename, interval=2, timeout=4, threshold=0.01, msg=''): ''' if the expected image found on current screen return self else raise exception. set test to be failure. @type imagename: sting @param imagename: the name of picture which expected to find in current screenshot. @type interval: int @param iinterval: the value of interval time @type timeout: int @param timeout: the value of timeout @type threshold: float @param threshold: the value of threshold. 0.0~1.0 @type msg: string @param msg: the prompt message content when the expected image not found on current screenshot ''' expect_image_path = None current_image_path = None if os.path.isabs(imagename): expect_image_path = imagename current_image_path = join(self.report_dir_path, os.path.basename(imagename)) else: expect_image_path = join(self.right_dir_path, imagename) current_image_path = join(self.report_dir_path, imagename) assert os.path.exists( expect_image_path ), 'the local expected image %s not found!' % expect_image_path begin = time.time() while (time.time() - begin < timeout): self.d.screenshot(current_image_path) if isMatch(expect_image_path, current_image_path, threshold): return self time.sleep(interval) reason = msg if msg else 'Fail Reason: Image \'%s\' not found on screen!' % imagename raise ExpectException(expect_image_path, current_image_path, reason) def find(self, imagename, interval=2, timeout=4, threshold=0.01): ''' if the expected image found on current screen return true else return false @type imagename: sting @param imagename: the name of picture which expected to find in current screenshot. @type interval: int @param iinterval: the value of interval time @type timeout: int @param timeout: the value of timeout @type threshold: float @param threshold: the value of threshold. 0.0~1.0 @type msg: string @param msg: the prompt message content when the expected image not found on current screenshot @rtype: boolean @return: return True f the expected image found exists on current screenshot, else return false. ''' expect_image_path = None current_image_path = None if os.path.isabs(imagename): expect_image_path = imagename current_image_path = join(self.report_dir_path, os.path.basename(imagename)) else: expect_image_path = join(self.right_dir_path, imagename) current_image_path = join(self.report_dir_path, imagename) assert os.path.exists( expect_image_path ), 'the local expected image %s not found!' % expect_image_path begin = time.time() isExists = False while (time.time() - begin < timeout): #time.sleep(interval) self.d.screenshot(current_image_path) isExists = isMatch(expect_image_path, current_image_path, threshold) if not isExists: time.sleep(interval) continue break return isExists def TODOinstallPackage(self, **kwargs): pass def TODOremovePackage(self, **kwargs): pass
class AdbDevice(object): hiddenService = 'com.fuhu.settingshelper/.SettingsHelperService' LIST_SYSTEM = 'system' LIST_ALL = 'all' LIST_3RD_PARTY = '3rd' LIST_RECENT = 'recent' orientation = ['natural', 'left', 'upsidedown', 'right'] def __init__(self, serialno=None): self.lock = threading.Semaphore() self.cmd = AdbCmd(serialno) self.serialno = serialno def connect(self): self.d = Device(self.serialno) self.d.orientation # notify to connect # self.d, self.serialno = ViewClient.connectToDeviceOrExit(serialno=self.serialno) # self.vc = ViewClient(self.d, self.serialno, compresseddump=False, ignoreuiautomatorkilled=True, autodump=False) def startActivity(self, component): component = component.replace('$', '\$') self.cmd.shell(['am', 'start', '-n', component, '--activity-clear-task']) def isConnected(self): if self.__getDevices(self.serialno): return True else: return False def listPackages(self): return self.cmd.shell(['pm', 'list', 'package'], output=True) def reboot(self): self.cmd.reboot() def dump(self, compressed=False): return self.d.dump(compressed=compressed).encode('utf-8') @staticmethod def retrieveSelector(point, selectors): shortestDistance = 500000 result = None for selector in selectors: print selector.className bounds = selector.info['bounds'] if bounds['right'] >= point[0] >= bounds['left'] and bounds['top'] >= point[1] >= bounds['bottom']: return selector for selector in selectors: bounds = selector.info['bounds'] distance = (((bounds['left'] + bounds['top']) / 2 - point[0]) ** 2 + ( (bounds['left'] + bounds['bottom']) / 2 - point[1]) ** 2) ** 0.5 if shortestDistance > distance: shortestDistance = distance result = selector return result def checkSamePoint(self, point, info, isLongClick=False): if not self.isScreenOn(): self.powerBtn() if self.isLocked(): self.unlock() if len(info) == 2: if self.d.info['currentPackageName'] == info['packageName']: self.cmd.shell(['input', 'tap', str(point[0]), str(point[1])]) return {'answer': True, 'reason': 'it is the navigation bar'} else: return {'answer': False, 'reason': 'unknown view'} if info['content-desc'] != '': uiObject = self.d(description=info['content-desc']) if self.__checkIncludePoint(uiObject, point): self.cmd.shell(['input', 'tap', str(point[0]), str(point[1])]) else: uiObject.click() return {'answer': True, 'reason': 'find by description'} if info['text'] != '': uiObject = self.d(text=info['text']) if self.__checkIncludePoint(uiObject, point): self.cmd.shell(['input', 'tap', str(point[0]), str(point[1])]) else: uiObject.click() return {'answer': True, 'reason': 'find by text'} currentViewMap = self.getTouchViewInfo(point) if currentViewMap: if currentViewMap['package'] == info['package']: if currentViewMap['class'] == info['class']: self.d.click(point[0], point[1]) return {'answer': True, 'reason': 'Find the similar view'} else: return {'answer': False, 'reason': 'the view doesn\'t be found.'} else: return {'answer': False, 'reason': 'In the wrong page'} else: return {'answer': False, 'reason': 'the view can\'t be found.'} @staticmethod def __checkIncludePoint(uiObject, point): bounds = uiObject.info['visibleBounds'] result, _ = AdbDevice._parseRange(point, (int(bounds['top']), int(bounds['left'])), (int(bounds['right']), int(bounds['bottom']))) return result @staticmethod def removeKey(d, keys): r = dict(d) for k in keys: if r.has_key(k): del r[k] return r def __getDevices(self, serial): outputRE = re.compile(serial) devices = outputRE.findall(AdbCmd.devices()) if len(devices) > 0: return devices[0] def getTouchViewInfo(self, point, compressed=False): smallestArea = sys.maxint result = None root = ET.fromstring(self.dump(compressed=compressed)) for node in root.iter('node'): print node.get('bounds') bounds = re.match('\[(?P<x1>[\d]+),(?P<y1>[\d]+)\]\[(?P<x2>[\d]+),(?P<y2>[\d]+)\]', node.get('bounds')) if bounds: isInclude, area = AdbDevice._parseRange(point, (int(bounds.group('x1')), int(bounds.group('y1'))), (int(bounds.group('x2')), int(bounds.group('y2')))) if isInclude: if area <= smallestArea: smallestArea = area result = node if result is not None: return result.attrib elif point[1] > self.d.info['displayHeight']: p = {'packageName': self.d.info['currentPackageName'], 'type': 'Navigation Bar'} return p @staticmethod def getBoundsCenter(bounds): bounds = re.match('\[(?P<x1>[\d]+),(?P<y1>[\d]+)\]\[(?P<x2>[\d]+),(?P<y2>[\d]+)\]', bounds) x = (int(bounds.group('x2')) + int(bounds.group('x1'))) / 2 y = (int(bounds.group('y2')) + int(bounds.group('y1'))) / 2 return x, y @staticmethod def _parseRange(point, point1, point2): if point1[0] <= point[0] <= point2[0] and point1[1] <= point[1] <= point2[1]: area = (point2[0] - point1[0]) * (point2[1] - point1[1]) return True, area else: return False, None def viewFilter(self, view): if view.getClass() == self.viewClass: return True else: return False def screenOn(self, status): if status == True: self.d.screen.on() else: self.d.screen.off() def clearLog(self): self.cmd.shell(['logcat', '-c']) def longClick(self, x, y, duration): if y <= self.d.info['displayHeight']: self.d.swipe(x, y, x, y, steps=duration / 10) else: self.cmd.shell(['input', 'tap', str(x), str(y)]) def click(self, x, y): if y <= self.d.info['displayHeight']: self.d.click(x, y) else: self.cmd.shell(['input', 'tap', str(x), str(y)]) def drag(self, x, y, duration): self.d.drag(x[0], x[1], y[0], y[1], steps=duration / 10) def swipe(self, x, y, duration): self.cmd.shell(['input', 'swipe', str(x[0]), str(x[1]), str(y[0]), str(y[1]), str(duration)]) def type(self, text): translate = re.sub(r'([#\(\)\&\*\'\\\"\~\`\|\<\>?\;])', r'\\\1', text) self.cmd.shell(['input', 'text', translate]) # self.d(className="android.widget.EditText").set_text(text) def hideKeyboard(self): if self.isKeyboardShown(): self.backBtn() def unlock(self): if self.isLocked(): self.menuBtn() def isLocked(self): lockScreenRE = re.compile('mShowingLockscreen=(true|false)') m = lockScreenRE.search(self.cmd.dumpsys(['window', 'policy'])) if m is not None: return m.group(1) == 'true' def isScreenOn(self): screenOnRE = re.compile('mScreenOnFully=(true|false)') m = screenOnRE.search(self.cmd.dumpsys(['window', 'policy'])) if m is not None: return m.group(1) == 'true' def powerBtn(self): self.cmd.inputKeyevnt('POWER') def backBtn(self): self.cmd.inputKeyevnt('BACK') def homeBtn(self): self.cmd.inputKeyevnt('HOME') def menuBtn(self): self.cmd.inputKeyevnt('MENU') # def rotate(self, orient): # if orient == 'auto': # self.d.freeze_rotation(False) # elif orient == '0': # self.d.orientation = 'n' # elif orient == '90': # self.d.orientation = 'l' # elif orient == '180': # self.d.freeze_rotation(True) # self._setScreenOrient(2) # elif orient == '270': # self.d.orientation = 'r' def rotate(self, orient): self.d.freeze_rotation(True) index = self.orientation.index(self.d.orientation) if orient == 'left': index -= 1 if index < 0: self._setScreenOrient(len(self.orientation) - 1) else: self._setScreenOrient(index) elif orient == 'right': index += 1 if index >= len(self.orientation): self._setScreenOrient(0) else: self._setScreenOrient(index) def volumeUp(self): self.cmd.inputKeyevnt('VOLUME_UP') def volumeDown(self): self.cmd.inputKeyevnt('VOLUME_DOWN') # def _setAutoRotate(self, status): # if status: # self.cmd.shell(['content', 'insert', '--uri', 'content://settings/system', '--bind', 'name:s:accelerometer_rotation', # '--bind', 'value:i:1']) # time.sleep(1) # self.cmd.shell(['content', 'insert', '--uri', 'content://settings/system', '--bind', 'name:s:accelerometer_rotation', # '--bind', 'value:i:1']) # # else: # self.cmd.shell(['content', 'insert', '--uri', 'content://settings/system', '--bind', 'name:s:accelerometer_rotation', # '--bind', 'value:i:0']) # time.sleep(1) # self.cmd.shell(['content', 'insert', '--uri', 'content://settings/system', '--bind', 'name:s:accelerometer_rotation', # '--bind', 'value:i:0']) def _setScreenOrient(self, orient): self.cmd.shell(['content', 'insert', '--uri', 'content://settings/system', '--bind', 'name:s:user_rotation', '--bind', 'value:i:' + str(orient)]) def resetPackage(self, package): self.cmd.shell(['pm', 'clear', package]) def takeSnapshot(self, path): ''' screen capture in png format :param path: saved file path :return: None ''' p1 = self.cmd.popen(['screencap', '-p'], stdout=PIPE) p = Popen(['perl', '-pe', 's/\x0D\x0D\x0A/\x0A/g'], stdin=p1.stdout, stdout=PIPE) out, error = p.communicate() ba = QByteArray.fromRawData(out) img = QImage.fromData(ba, 'PNG') orient = self.getCurrDisplay()['orientation'] if orient == 1: img = img.transformed(QMatrix().rotate(-90)) elif orient == 2: img = img.transformed(QMatrix().rotate(-180)) elif orient == 3: img = img.transformed(QMatrix().rotate(-270)) img.save(path, 'PNG') def getCurrDisplay(self): output = self.cmd.dumpsys(['display']) match = re.search('mCurrentOrientation=(?P<orientation>[\d])[\w\d\s\(\),-=]+' + 'mCurrentDisplayRect=Rect\(0, 0 - (?P<width>[\d]+),\s+(?P<height>[\d]+)', output) if match: width = int(match.group('width')) height = int(match.group('height')) orientation = int(match.group('orientation')) mode = 'landscape' if width > height else 'portrait' return {'width': width, 'height': height, 'orientation': orientation, 'mode': mode} def getRealDisplay(self): output = self.cmd.dumpsys(['display']) match = re.search('real\s(?P<width>[\d]+)\sx\s(?P<height>[\d]+)', output) return {'width': int(match.group('width')), 'height': int(match.group('height'))} def getProp(self, propType=None): if propType: return self.cmd.getProp(propType) else: return self.cmd.getProp(propType) def uninstall(self, package): self.cmd.uninstall(package) def install(self, name): self.cmd.install(name) def close(self): pass def checkConnected(self): return self.d.checkConnected() def extractComponentName(self, packageName): if packageName == 'com.google.android.youtube': return 'com.google.android.youtube/.app.honeycomb.Shell$HomeActivity' output = self.cmd.dumpsys(['package', packageName]) try: if os.name == 'nt': splitOutput = output.split('\r\r\n') else: splitOutput = output.split('\r\n') num = splitOutput.index(next(x for x in splitOutput if x.find('android.intent.action.MAIN:') != -1)) if num != -1: print splitOutput[num + 1] return splitOutput[num + 1].split()[1] else: return None except: return None def screenTimeout(self): timeout = self.cmd.getSettings(['system', 'screen_off_timeout']) return long(timeout) / 1000 def setScreenTimeout(self, value): self.cmd.putSettings(['system', 'screen_off_timeout', value]) def isNfcOn(self): match = re.search('mState=(on|off)', self.cmd.dumpsys(['nfc'])) if match: if match.group(1) == 'on': return True else: return False else: return False def isAirPlaneModeOn(self): match = re.search('(0|1)', self.cmd.getSettings(['global', 'airplane_mode_on'])) if match: if match.group(1) == '1': return True else: return False def isInstallUnknownSources(self): match = re.search('(0|1)', self.cmd.getSettings(['global', 'install_non_market_apps'])) if match: if match.group(1) == '1': return True else: return False def isKeyboardShown(self): output = self.cmd.dumpsys(['input_method']) result = re.search('mInputShown=(true|false)', output) if result.group(1) == 'true': return True else: return False def isWifiOn(self): match = re.search('(0|1)', self.cmd.getSettings(['global', 'wifi_on'])) if match: if match.group(1) == '1': return True else: return False def isBtOn(self): match = re.search('(0|1)', self.cmd.getSettings(['global', 'bluetooth_on'])) if match: if match.group(1) == '1': return True else: return False def isNoKeepActivityOn(self): match = re.search('(0|1)', self.cmd.getSettings(['global', 'always_finish_activities'])) if match: if match.group(1) == '1': return True else: return False def isDataRoamingOn(self): match = re.search('(0|1)', self.cmd.getSettings(['global', 'data_roaming'])) if match: if match.group(1) == '1': return True else: return False def isAutoRotateOn(self): match = re.search('(0|1)', self.cmd.getSettings(['system', 'accelerometer_rotation'])) if match: if match.group(1) == '1': return True else: return False def isGpsOn(self): state = self.cmd.getSettings(['secure', 'location_providers_allowed']) if state == 'none': return False else: return True def isAutoBrightnessOn(self): match = re.search('(0|1)', self.cmd.getSettings(['system', 'screen_brightness_mode'])) if match: if match.group(1) == '1': return True else: return False def isVibrateWhenRingOn(self): match = re.search('(0|1)', self.cmd.getSettings(['system', 'vibrate_when_ringing'])) if match: if match.group(1) == '1': return True else: return False else: return False def isWindowAniOn(self): match = re.search('(0.0|1.0)', self.cmd.getSettings(['global', 'window_animation_scale'])) if match: if match.group(1) == '0.0': return True else: return False else: return False def isTransitionAnuOn(self): match = re.search('(0.0|1.0)', self.cmd.getSettings(['global', 'transition_animation_scale'])) if match: if match.group(1) == '0.0': return True else: return False else: return False def isDurationAniOn(self): match = re.search('(0.0|1.0)', self.cmd.getSettings(['global', 'animator_duration_scale'])) if match: if match.group(1) == '0.0': return True else: return False else: return False def enableWifi(self, state): if state: self.cmd.shell(['am', 'startservice', '--ez', 'wifi', 'true', '-n', self.hiddenService]) else: self.cmd.shell(['am', 'startservice', '--ez', 'wifi', 'false', '-n', self.hiddenService]) def enableBluetooth(self, state): if state: self.cmd.shell(['am', 'startservice', '--ez', 'bt', 'true', '-n', self.hiddenService]) else: self.cmd.shell(['am', 'startservice', '--ez', 'bt', 'false', '-n', self.hiddenService]) def enableInstallUnknownSources(self, state): if state: self.cmd.putSettings(['global', 'install_non_market_apps', '1']) else: self.cmd.putSettings(['global', 'install_non_market_apps', '0']) def enableNfc(self, state): if state: self.cmd.shell(['service', 'call', 'nfc', '6']) else: self.cmd.shell(['service', 'call', 'nfc', '5']) def enableNoKeepActivity(self, state): if state: self.cmd.putSettings(['global', 'always_finish_activities', '1']) else: self.cmd.putSettings(['global', 'always_finish_activities', '0']) def enableDataRoaming(self, state): if state: self.cmd.putSettings(['global', 'data_roaming', '1']) else: self.cmd.putSettings(['global', 'data_roaming', '0']) def enableAutoRotate(self, state): if state: self.cmd.putSettings(['system', 'accelerometer_rotation', '1']) else: self.cmd.putSettings(['system', 'accelerometer_rotation', '0']) def enableGps(self, state): if state: self.cmd.putSettings(['secure', 'location_providers_allowed', 'gps,network']) else: self.cmd.putSettings(['secure', 'location_providers_allowed', 'none']) def enableAutoBrightness(self, state): if state: self.cmd.putSettings(['system', 'screen_brightness_mode', '1']) else: self.cmd.putSettings(['system', 'screen_brightness_mode', '0']) def enableVibrateRinging(self, state): if state: self.cmd.putSettings(['system', 'vibrate_when_ringing', '1']) else: self.cmd.putSettings(['system', 'vibrate_when_ringing', '0']) def enableVibrateWhenRing(self, state): if state: self.cmd.putSettings(['system', 'vibrate_when_ringing', '1']) else: self.cmd.putSettings(['system', 'vibrate_when_ringing', '0']) def enableWindowAnimator(self, state): if state: self.cmd.putSettings(['global', 'window_animation_scale', '1.0']) else: self.cmd.putSettings(['global', 'window_animation_scale', '0.0']) def enableTransitionAnimator(self, state): if state: self.cmd.putSettings(['global', 'transition_animation_scale', '1.0']) else: self.cmd.putSettings(['global', 'transition_animation_scale', '0.0']) def enableDurationAnimation(self, state): if state: self.cmd.putSettings(['global', 'animator_duration_scale', '1.0']) else: self.cmd.putSettings(['global', 'animator_duration_scale', '0.0']) def enableAirplaneMode(self, state): if state: self.cmd.putSettings(['global', 'airplane_mode_on', '1']) self.cmd.shell(['am', 'broadcast', '-a', 'android.intent.action.AIRPLANE_MODE', '--ez', 'state', 'true']) else: self.cmd.putSettings(['global', 'airplane_mode_on', '0']) self.cmd.shell(['am', 'broadcast', '-a', 'android.intent.action.AIRPLANE_MODE', '--ez', 'state', 'false']) def requestPackage(self, t): result = None if t == self.LIST_ALL: result = self.cmd.shell(['pm', 'list', 'packages'], output=True) elif t == self.LIST_SYSTEM: result = self.cmd.shell(['pm', 'list', 'packages', '-s'], output=True) elif t == self.LIST_3RD_PARTY: result = self.cmd.shell(['pm', 'list', 'packages', '-3'], output=True) if result: packages = result.split('\r\n') packages.remove('') packages.sort() return packages def getSerialNumber(self): return self.serialno
class FnatDevice(Device): def __init__(self, serial_no): Device.__init__(self, serial_no) self.serial = serial_no if 0 != cmp(self.serial.upper(), "FAKE"): self.d = Device(self.serial) def wakeup(self): if 0 != cmp(self.serial.upper(), "FAKE"): self.d.wakeup() else: pass def launch_from_home(self, list_of_icons): self.d.press.home() app_icon = self.d(packageName="com.android.launcher", description="Apps") if 0 <= self.wait_for_object_v(app_icon, 3): app_icon.click() widget_tab = self.d(packageName="com.android.launcher", description="Widgets") if 0 > self.wait_for_object_v(widget_tab, 3): return False size_list = len(list_of_icons) center_point = (-1, -1) for i in range(0, size_list - 1): self.screenshot("pata_fullscreen.png") center_point = find_obj( config["__log_dir"] + "/pata_fullscreen.png", config["__testset_root"] + "/icons/" + list_of_icons[i]) if center_point[0] < 0 or center_point[1] < 0: return False else: self.d.click(center_point[0], center_point[1]) return True else: return False def wait_for_object_v(self, obj_selector, timeout, by_force=False): while (timeout >= 0): if obj_selector.exists: return timeout timeout = timeout - 1 time.sleep(1) if True == by_force: assert False else: return -1 def wait_for_object_x(self, obj_selector, timeout, by_force=False): while (timeout >= 0): if not obj_selector.exists: return timeout timeout = timeout - 1 time.sleep(1) if True == by_force: assert False else: return -1 def wait_for_object_description(self, obj_selector, expected_value, timeout, by_force=False): while (timeout >= 0): if obj_selector.exists: obj_description = obj_selector.description if str(obj_description) == expected_value: return timeout timeout = timeout - 1 time.sleep(1) if True == by_force: assert False else: return -1 def unlock(self): if 0 != cmp(self.serial.upper(), "FAKE"): icon_lock = self.d(resourceId="com.android.systemui:id/lock_icon") if icon_lock.exists: icon_lock.drag.to(icon_lock.bounds["left"], 0) self.wait_for_object_x(icon_lock, 5, True) else: pass def screenshot(self, png_file): this_cmd = "adb -s " + self.serial + " shell /system/bin/screencap -p | sed 's/\r$//' > " + config[ "__log_dir"] + "/" + png_file os.system(this_cmd) def run_adb_cmd(self, adb_cmd): this_cmd = "adb -s " + self.serial + " shell " + adb_cmd return os.popen(this_cmd).readlines()
# 设置信号量 ss['times'] = ss['times'] + 1 db.ss.update({'ip': ss['ip']}, ss) ip = ss['ip'] #port = ss["port"] #pwd = ss['password'] way = ss['way'] d(textContains='shadow').click() time.sleep(1) d(resourceId="com.github.shadowsocks:id/fab").click() time.sleep(2) d(resourceId="com.github.shadowsocks:id/edit").click() time.sleep(1) d(text="Server").click() time.sleep(2) d.click(660, 1100) time.sleep(1) d(resourceId="android:id/edit").set_text(ip) d(text="OK").click() #d(text="Remote Port").click() #d(resourceId="android:id/numberpicker_input").set_text(port) #d(text="OK").click() #d(text="Password").click() #d(resourceId="android:id/edit").set_text(pwd) #d(text="OK").click() time.sleep(1) d(text="Encrypt Method").click() time.sleep(1) d.swipe(200, 140, 200, 1200) time.sleep(1) d(text=way).click()
name = re.search('''<div class="address"> <h3>([\w\W]+?)</h3>''', text).groups()[0] nameGroup = re.firname = re.match('([\w]+) ([\w\W]+)', name).groups() firname = nameGroup[0] lastname = nameGroup[1] lastnameNoPoint = re.sub('([\w]+)\. ([\w]+)', r'\1\2', lastname) emailpart = firname + lastnameNoPoint password = '' # a list for makeing password. words = ['a', 'b', 'c', 'd', 'e', 'f', 'g', 'h', 'i', 'j', 'k', 'l', 'm', 'n', 'o', 'p', 'q', 'r', 's', 't', 'u', 'v', 'w', 'x', 'y', 'z', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9'] for i in range(12): password += random.choice(words) emailaccount = emailpart+"@protonmail.com" d(resourceId="ch.protonmail.android:id/username").set_text(emailpart) d.click(660, 1220) d(resourceId="ch.protonmail.android:id/sign_up").click() time.sleep(1) #d(text="Password").click() d(resourceId="ch.protonmail.android:id/password").set_text(password) d(resourceId="ch.protonmail.android:id/confirm_password").set_text(password) time.sleep(1) d.click(660, 1220) d(resourceId="ch.protonmail.android:id/generate_keypair").click() d.click(665, 805) d(resourceId="ch.protonmail.android:id/cont").click() d(resourceId="ch.protonmail.android:id/phone_verification").click() time.sleep(2) d.click(400,550) time.sleep(2)
# name = re.match('[\w]+', namelist[0]).group() # sign up d(text="注册").click() # d(resourceId="com.twitter.android:id/name_entry").click() # os.system("adb -s 0123456789ABCDEF shell am broadcast -a ADB_INPUT_TEXT --es msg '{}'".format(enname)) enname = re.match('[\w]+', username).group() print(enname) os.system('adb -s 0123456789ABCDEF shell input text "{}"'.format(enname)) time.sleep(4) d(text="下一步").click() if d(textContains="使用电子邮件注册").exists: ui = d(textContains="使用电子邮件注册").info x = ui["bounds"]["left"] y = ui["bounds"]["top"] d.click(x, y) d.click(300, 320) # d(resourceId="com.twitter.android:id/email_entry").click() os.system("adb -s 0123456789ABCDEF shell input text {}".format(username)) time.sleep(4) # d(resourceId="com.twitter.android:id/cta").click() d(text="下一步").click() time.sleep(7) # d(resourceId="com.twitter.android:id/password_entry") os.system("adb -s 0123456789ABCDEF shell input text {}".format(password)) time.sleep(4) d(text="下一步").click() time.sleep(2) d(text="暂时不用").click() time.sleep(2) d(text="我确定").click()