def test_verify_success_msg(self): """ Verify that the Success message appears Verify that the outlet shrinks out edit mode and return to original location """ driver = SeleniumDriver(self.driver) outletBoxList = self.driver.find_elements_by_xpath(outlet_box_xpath()) retriesInputElem = "//div[8]/div[2]/form[2]/p[3]/input" ip_addr_ping = "//div[8]/div[2]/form[2]/p[1]/input" enableBtn = "//div[8]/div[2]/form[1]/button[2]" outlet_div = "//div[8]" retries = 5 for outletBox in outletBoxList: time.sleep(5) outletBox.click() if not self.is_on(enableBtn): driver.wait_and_click(enableBtn, XPATH) driver.send_input(ip_addr_ping, XPATH, "8.8.8.8") driver.send_input(retriesInputElem, XPATH, retries) driver.wait_and_click(outlet_save_btn(), XPATH) driver.wait_for_visibility(success_msg(), XPATH) assert self.is_hidden_string(success_msg()) == False driver.wait_and_click(close_btn_msg(), XPATH) driver.wait_for_invisibility(outlet_div, XPATH) assert driver.is_element_present(outlet_div, XPATH) == False
def test_outlet_cycle(self): """ Verify that the cycle input is between 1 - 999 Verify “Are you sure…” message appears Verify success message appears Verify that the outlet face has changed color Verify that the outlet shrinks out of edit mode """ driver = SeleniumDriver(self.driver) outletBoxList = self.driver.find_elements_by_xpath(outlet_box_xpath()) cycleNum = 10 # cycle number in seconds cycleInput = '//div[8]/div[2]/form[1]/p[2]/input' startCycleBtn = "//div[8]/div[2]/form[1]/p[2]/button" outletEditMode = "//div[8]" index = 2 for outletBox in outletBoxList: outletCtrlStr = "//*[@id='outletControl']/div[{0}]/div[1]".format( index) time.sleep(5) outletBox.click() driver.wait_until_clickable(cycleInput, XPATH) driver.send_input(cycleInput, XPATH, cycleNum) # Verify that the cycle input is between 1 - 999 cycleInputVal = driver.get_element_attribute( cycleInput, XPATH, VALUE) assert 1 <= int(cycleInputVal) <= 999 driver.element_click(startCycleBtn, XPATH) # Verify “Are you sure…” message appears driver.wait_for_visibility(notify_msg(), XPATH) assert self.is_hidden_string(notify_msg()) == False driver.element_click("btnOk", ID) # Verify success message appears time.sleep(1) if driver.is_element_present(success_msg(), XPATH): assert self.is_hidden_string(success_msg()) == False # Verify that the outlet face has changed color to red time.sleep(5) driver.get_element(outletCtrlStr, XPATH) assert self.is_on(outletCtrlStr) == False # Verify that the outlet face has changed color to green time.sleep(cycleNum) driver.get_element(outletCtrlStr, XPATH) assert self.is_on(outletCtrlStr) == True # Verify that the outlet shrinks out of edit 0mode assert driver.is_element_present(outletEditMode, XPATH) == False index += 1
def test_authentication(self): driver = SeleniumDriver(self.driver) username = "******" password = "******" confirmPass = "******" showPass = "******" # show password self.open_email_settings() time.sleep(3) self.default_ip_email_rep() time.sleep(3) driver.wait_and_click("authReq", ID) driver.wait_and_click(save_btn(), XPATH) assert self.has_error(username) == True assert self.has_error(password) == True assert self.has_error(confirmPass) == True assert self.is_hidden_string(notify_msg()) == False driver.element_click("btnOk", ID) time.sleep(3) driver.wait_for_visibility(password, XPATH) driver.get_element(password, XPATH) driver.send_input(password, XPATH, "Test123") driver.get_element(confirmPass, XPATH) driver.send_input(confirmPass, XPATH, "Test123") driver.element_click(showPass, XPATH) if driver.is_element_selected(showPass, XPATH): # if 'hidden' is in the password class assert self.is_hidden_string(password) == True time.sleep(3) driver.element_click(showPass, XPATH) # if 'hidden' is not in the password class assert self.is_hidden_string(password) == False driver.wait_and_click(cancel_btn(), XPATH) time.sleep(3) self.restore_email_settings()
def test_outlet_name_length(self): """ function to test outlets' name outlet name can only accept up to 50 characters (letters, digits, and special characters) """ driver = SeleniumDriver(self.driver) outletBoxList = self.driver.find_elements_by_xpath(outlet_box_xpath()) outletNameElement = '//div[8]/div[2]/input' # Random characters with a length of 50 to test outlet's name randomChars = 'g#QUfjeTakWbxHCS*6RQ579Wq6sBV3AT?#T!DrZ6#yJpbZzC$@' i = 2 for outletBox in outletBoxList: outletCtrlStr = ".//*[@id='outletControl']/div[{0}]/div[1]".format( i) time.sleep(5) driver.wait_and_click(outletCtrlStr, XPATH) driver.wait_for_visibility(outletNameElement, XPATH) driver.send_input(outletNameElement, XPATH, randomChars) driver.wait_and_click(outlet_save_btn(), XPATH) time.sleep(2) if driver.is_element_present(close_btn_msg(), XPATH): assert self.is_hidden_string(success_msg()) == False driver.wait_and_click(close_btn_msg(), XPATH) time.sleep(5) driver.wait_and_click(outletCtrlStr, XPATH) inputValue = driver.get_element_attribute(outletNameElement, XPATH, VALUE) # assert input assert 50 >= len(inputValue) >= 1 driver.wait_and_click(outlet_cancel_btn(), XPATH) i += 1 time.sleep(3) self.restore_outlet_defaults()
def test_inSeq_selected(self): """ Asserts each outlet is in-sequence This function clicks on each outlet and make sure the check box is checked. If it is already checked, then it continues to the next outlet """ driver = SeleniumDriver(self.driver) outletBoxList = self.driver.find_elements_by_xpath(outlet_box_xpath()) inSeqInput = "//div[8]/div[2]/form[1]/p[1]/input" outletsWithStateOff = self.driver.find_elements_by_class_name("state-off") numOfOutletBox = len(outletBoxList) numOutletsStateOff = len(outletsWithStateOff) if numOutletsStateOff == numOfOutletBox: assert numOutletsStateOff == numOfOutletBox print "\nAll outlets are already off" return index = 2 for outletBox in outletBoxList: outletCtrlStr = ".//*[@id='outletControl']/div[{0}]/div[1]".format(index) time.sleep(5) driver.wait_and_click(outletCtrlStr, XPATH) time.sleep(3) if not driver.is_element_selected(inSeqInput, XPATH): driver.wait_for_visibility(inSeqInput, XPATH) driver.element_click(inSeqInput, XPATH) assert driver.is_element_selected(inSeqInput, XPATH) == True driver.wait_and_click(outlet_save_btn(), XPATH) driver.wait_and_click(close_btn_msg(), XPATH) else: driver.wait_and_click(outlet_save_btn(), XPATH) driver.wait_and_click(close_btn_msg(), XPATH) if 'in-sequence' in outletBox.get_attribute(ClASS): assert 'in-sequence' in outletBox.get_attribute(ClASS) index += 1
def test_power_cycle_until_recovery(self): driver = SeleniumDriver(self.driver) outletBoxList = self.driver.find_elements_by_xpath(outlet_box_xpath()) powerCycUntilRec = "//div[8]/div[2]/form[2]/select/option[contains(@value, '6')]" ipAddressInputElem = '//div[8]/div[2]/form[2]/p[1]/input' freqInputElem = "//div[8]/div[2]/form[2]/p[2]/input" retriesInputElem = "//div[8]/div[2]/form[2]/p[3]/input" selectOptions = "//div[8]/div[2]/form[2]/select" cycleDelayElem = "//div[8]/div[2]/form[2]/p[6]/input" frequency = 30 retries = 2 cycleDelay = 3 waitTime = (frequency * retries) * 2 index = 2 for outletBox in outletBoxList: outletCtrlStr = ".//*[@id='outletControl']/div[{0}]/div[1]".format( index) outletOn = "//*[@id='outletControl']/div[{0}]/div[contains(@class, 'state-on')]".format( index) autoPingTitle = "//*[@id='outletControl']/div[{0}]/h6".format( index) time.sleep(5) driver.wait_and_click(outletCtrlStr, XPATH) self.ctrl_device_power() # turn outlet off in the control device ipAddresses = get_ip_addresses() ipAddressToPing = ipAddresses[2] # ip address to ping if self.is_on(outletFace) is False: driver.element_click(stateBtn, XPATH) driver.element_click("btnOk", ID) driver.wait_and_click(close_btn_msg(), XPATH) time.sleep(5) driver.get_element(outletCtrlStr, XPATH) driver.wait_and_click(outletCtrlStr, XPATH) if not self.is_on(enableBtn): driver.wait_and_click(enableBtn, XPATH) # input for ip address to ping, frequency, and retries driver.send_input(ipAddressInputElem, XPATH, ipAddressToPing) driver.send_input(freqInputElem, XPATH, frequency) driver.send_input(retriesInputElem, XPATH, retries) time.sleep(3) driver.wait_and_click(selectOptions, XPATH) if driver.is_element_selected(powerCycUntilRec, XPATH): driver.wait_and_click(outlet_save_btn(), XPATH) else: driver.wait_and_click(powerCycUntilRec, XPATH) self.driver.find_element_by_xpath(powerCycUntilRec).send_keys( Keys.ENTER) driver.wait_until_clickable(cycleDelayElem, XPATH) driver.send_input(cycleDelayElem, XPATH, cycleDelay) driver.wait_and_click(outlet_save_btn(), XPATH) # in case the notification message pops up notifyDisplayed = self.driver.find_element_by_xpath( notify_msg()).is_displayed() if notifyDisplayed: driver.element_click("btnOk", ID) # verify if "AutoPing Failed" is in the autoPing title driver.wait_text_to_be_present_in_elem(autoPingTitle, XPATH, 'AutoPing Failed', waitTime) autoPingTitleClass = driver.get_element_attribute( autoPingTitle, XPATH, "title") assert autoPingTitleClass == "AutoPing Failed" self.ctrl_device_power( ) # turn outlet back on in the control device # verify that the outlet in the UUT is on, wait cycle delay # then verify that the outlet turned off driver.wait_for_visibility(outletOn, XPATH) assert self.is_on(outletCtrlStr) == True time.sleep(cycleDelay + 1) assert self.is_on(outletCtrlStr) == False # gets class again and verify if "AutoPing Replied" is in the autoPing title driver.wait_text_to_be_present_in_elem(autoPingTitle, XPATH, 'AutoPing Replied', waitTime) autoPingTitleClass = driver.get_element_attribute( autoPingTitle, XPATH, "title") assert autoPingTitleClass == "AutoPing Replied" # open outlet in UUT, turn it back on, change ip address to default, & save changes time.sleep(3) self.change_ip_address_to_default(outletCtrlStr, ipAddressInputElem) index += 1