def shutdown_task_appears(self): ''' To test if there is new task item in current tasks list ''' self.pd_browser_main_map.switch_to_default_content() current_tasks_btn = self.pd_browser_main_map.get_current_task_btn() current_tasks_btn.click() #time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) tasks_popup = self.pd_browser_main_map.get_popup_tasks() tasks_popup_cls_attr = tasks_popup.get_attribute("class") PD_DebugLog.debug_print("The current task: " + tasks_popup_cls_attr) if not "open-state" in tasks_popup_cls_attr: # click the button again current_tasks_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 13: show the task name pd_browser_current_task_map = PD_CurrentTasks_UIMap(self.pd_client_browser) #task_name_txt = pd_browser_current_task_map.get_task_name() tasks_count = int(pd_browser_current_task_map.get_task_count()) if tasks_count <= 0: PD_DebugLog.debug_print("There is no tasks") return False else: summary_text = pd_browser_current_task_map.get_task_summary() PD_DebugLog.debug_print("The task summary is : " + summary_text) return True
def shutdown_task_appears(self): ''' To test if there is new task item in current tasks list ''' self.pd_browser_main_map.switch_to_default_content() current_tasks_btn = self.pd_browser_main_map.get_current_task_btn() current_tasks_btn.click() #time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) tasks_popup = self.pd_browser_main_map.get_popup_tasks() tasks_popup_cls_attr = tasks_popup.get_attribute("class") PD_DebugLog.debug_print("The current task: " + tasks_popup_cls_attr) if not "open-state" in tasks_popup_cls_attr: # click the button again current_tasks_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 13: show the task name pd_browser_current_task_map = PD_CurrentTasks_UIMap( self.pd_client_browser) #task_name_txt = pd_browser_current_task_map.get_task_name() tasks_count = int(pd_browser_current_task_map.get_task_count()) if tasks_count <= 0: PD_DebugLog.debug_print("There is no tasks") return False else: summary_text = pd_browser_current_task_map.get_task_summary() PD_DebugLog.debug_print("The task summary is : " + summary_text) return True
def test_create_vm_from_image(self): u""" 安装PD2.5后,在PDHelper中配置了镜像库地址;接着做“注册平台”、“注册” 之后可以进行安装虚拟机 """ """ Create virtual machine In demo, create from a template Need step1 to step13, At last the steps are for tasks checking """ # The id starts from 1. vm_id = 4 vm_name = "AutoTest_VM%02d" % vm_id # Step 1: Login and pass in with username, password, server and port self.pd_login() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) pd_client_browser = self.driver # Step 2: Click the create virtual machine button PD_DebugLog.debug_print("select and click the create virtual machine button") pd_browser_main_map = Main_Browser_UIMap(pd_client_browser) create_vm_btn = pd_browser_main_map.get_create_vm_btn() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) create_vm_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 3: verify the text of the header in the popup window pd_create_vm_uimap = Create_VM_UIMap(pd_client_browser) expect_title = u"创建虚拟机" PD_DebugLog.debug_print("The title is: " + pd_create_vm_uimap.get_header().text) # assert expect_title == pd_create_vm_uimap.get_header().text time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 4: click the next button next_btn = pd_create_vm_uimap.get_next_button() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 5: input the virtual machine name (in Page 2:vmname) vm_name_input = pd_create_vm_uimap.get_vm_name_input() vm_name_input.send_keys(vm_name) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 6: select one image (in Page 3:image) from_template_rdio_btn = pd_create_vm_uimap.get_template_radio_btn() from_template_rdio_btn.click() # TODO: add parameters template_image_name = redhat6.4 # high priority to use the parameter from command line # then use the value from cfg file # image_template_name = self.config.get("redhat_normal_images", "image_template_name") PD_DebugLog.debug_print("The template image name is : " + image_template_name) pd_create_vm_uimap.select_template_from_table_by_name(image_template_name) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 7: edit cpu configuration (in Page 4:cpu) # click the cpu type radio button cpu_type_rdobtn = pd_create_vm_uimap.get_shared_cpu_type_radio_btn() cpu_type_rdobtn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # TODO: # need get an algorithm to calculate the cpu units number and vm cpu number cpu_num_min_value = "0.2" cpu_num_expect_value = "0.2" cpu_num_max_value = "0.2" cpu_num_min_input_elem = pd_create_vm_uimap.get_cpu_num_min_input_elem() cpu_num_min_input_elem.clear() cpu_num_min_input_elem.send_keys(cpu_num_min_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) cpu_num_expect_input_elem = pd_create_vm_uimap.get_cpu_num_expect_input_elem() cpu_num_expect_input_elem.clear() cpu_num_expect_input_elem.send_keys(cpu_num_expect_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) cpu_num_max_input_elem = pd_create_vm_uimap.get_cpu_num_max_input_elem() cpu_num_max_input_elem.clear() cpu_num_max_input_elem.send_keys(cpu_num_max_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) vmcpu_num_min_value = "2" vmcpu_num_expect_value = "2" vmcpu_num_max_value = "2" vmcpu_num_min_input_elem = pd_create_vm_uimap.get_vmcpu_num_min_input_elem() vmcpu_num_min_input_elem.clear() vmcpu_num_min_input_elem.send_keys(vmcpu_num_min_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) vmcpu_num_expect_input_elem = pd_create_vm_uimap.get_vmcpu_num_expect_input_elem() vmcpu_num_expect_input_elem.clear() vmcpu_num_expect_input_elem.send_keys(vmcpu_num_expect_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) vmcpu_num_max_input_elem = pd_create_vm_uimap.get_vmcpu_num_max_input_elem() vmcpu_num_max_input_elem.clear() vmcpu_num_max_input_elem.send_keys(vmcpu_num_max_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 8: edit memory configuration (in Page 5: memory) mem_unit = "GB" pd_create_vm_uimap.select_GB_unit() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) mem_num_min_value = "4" mem_num_avail_value = "4" mem_num_max_value = "4" mem_num_min_input_elem = pd_create_vm_uimap.get_mem_num_min_input_elem() mem_num_min_input_elem.clear() mem_num_min_input_elem.send_keys(mem_num_min_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) mem_num_expect_input_elem = pd_create_vm_uimap.get_mem_num_expect_input_elem() mem_num_expect_input_elem.clear() mem_num_expect_input_elem.send_keys(mem_num_avail_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) mem_num_max_input_elem = pd_create_vm_uimap.get_mem_num_max_input_elem() mem_num_max_input_elem.clear() mem_num_max_input_elem.send_keys(mem_num_max_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 9: edit storage configuration (in Page 6: storage) pd_create_vm_uimap.select_storage_type_vg() pd_create_vm_uimap.select_volume_name_datavg() pd_create_vm_uimap.unselect_existed_volume() pd_create_vm_uimap.select_vol_size_GB_unit() pd_create_vm_uimap.set_storage_vol_size(20, "GB") time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 10: edit network configuration (in Page 7: network) pd_create_vm_uimap.assign_ip_addr(self.config.get("redhat_normal_images", "ip_addr")) pd_create_vm_uimap.assign_submask(self.config.get("redhat_normal_images", "submask")) pd_create_vm_uimap.assign_gateway(self.config.get("redhat_normal_images", "gateway")) pd_create_vm_uimap.assign_dns(self.config.get("redhat_normal_images", "dns")) pd_create_vm_uimap.assign_slavedns(self.config.get("redhat_normal_images", "slavedns")) pd_create_vm_uimap.assign_vlan(self.config.get("redhat_normal_images", "vlanid1")) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 11: edit network configuration (in Page 8: confirmation) confirm_btn = pd_create_vm_uimap.get_confirm_button() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) confirm_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 12: to check task status and wait the task finishes # if popup_task is not open, click the button again pd_browser_main_map.switch_to_default_content() current_tasks_btn = pd_browser_main_map.get_current_task_btn() current_tasks_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) tasks_popup = pd_browser_main_map.get_popup_tasks() tasks_popup_cls_attr = tasks_popup.get_attribute("class") PD_DebugLog.debug_print("The current task: " + tasks_popup_cls_attr) if not "open-state" in tasks_popup_cls_attr: # click the button again current_tasks_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 13: show the task name pd_browser_current_task_map = PD_CurrentTasks_UIMap(pd_client_browser) # task_name_txt = pd_browser_current_task_map.get_task_name() tasks_count = int(pd_browser_current_task_map.get_task_count()) if tasks_count <= 0: PD_DebugLog.debug_print("There is no tasks") pd_client_browser.close() else: summary_text = pd_browser_current_task_map.get_task_summary() PD_DebugLog.debug_print("The task summary is : " + summary_text) task_id = pd_browser_current_task_map.get_task_id(vm_name) poll_time = 0.5 timeout = 7600 time_passed = 0 while time_passed < timeout: time.sleep(poll_time) progress_bar_percentage = int(pd_browser_current_task_map.get_task_percentage(task_id)) if progress_bar_percentage <= 100: time_passed = time_passed + poll_time else: timer_expired = False break task_result = pd_browser_current_task_map.get_taask_result() if task_result == "SUCCESS": PD_DebugLog.debug_print("The test finishes GOOD") else: PD_DebugLog.debug_print("The test finishes FAILED")
def test_create_vm_from_image(self): u''' 安装PD2.5后,在PDHelper中配置了镜像库地址;接着做“注册平台”、“注册” 之后可以进行安装虚拟机 ''' ''' Create virtual machine In demo, create from a template Need step1 to step13, At last the steps are for tasks checking ''' # The id starts from 1. vm_id = 4 vm_name = "AutoTest_VM%02d" % vm_id # Step 1: Login and pass in with username, password, server and port self.pd_login() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) pd_client_browser = self.driver # Step 2: Click the create virtual machine button PD_DebugLog.debug_print("select and click the create virtual machine button") pd_browser_main_map = Main_Browser_UIMap(pd_client_browser) create_vm_btn = pd_browser_main_map.get_create_vm_btn() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) create_vm_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 3: verify the text of the header in the popup window pd_create_vm_uimap = Create_VM_UIMap(pd_client_browser) expect_title = u"创建虚拟机" PD_DebugLog.debug_print("The title is: " + pd_create_vm_uimap.get_header().text) #assert expect_title == pd_create_vm_uimap.get_header().text time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 4: click the next button next_btn = pd_create_vm_uimap.get_next_button() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 5: input the virtual machine name (in Page 2:vmname) vm_name_input = pd_create_vm_uimap.get_vm_name_input() vm_name_input.send_keys(vm_name) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 6: select one image (in Page 3:image) from_template_rdio_btn = pd_create_vm_uimap.get_template_radio_btn() from_template_rdio_btn.click() # TODO: add parameters template_image_name = redhat6.4 # high priority to use the parameter from command line # then use the value from cfg file # image_template_name = self.config.get("redhat_normal_images", "image_template_name") PD_DebugLog.debug_print("The template image name is : " + image_template_name) pd_create_vm_uimap.select_template_from_table_by_name(image_template_name) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 7: edit cpu configuration (in Page 4:cpu) # click the cpu type radio button cpu_type_rdobtn = pd_create_vm_uimap.get_shared_cpu_type_radio_btn() cpu_type_rdobtn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # TODO: # need get an algorithm to calculate the cpu units number and vm cpu number cpu_num_min_value = '0.2' cpu_num_expect_value = '0.2' cpu_num_max_value = '0.2' cpu_num_min_input_elem = pd_create_vm_uimap.get_cpu_num_min_input_elem() cpu_num_min_input_elem.clear() cpu_num_min_input_elem.send_keys(cpu_num_min_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) cpu_num_expect_input_elem = pd_create_vm_uimap.get_cpu_num_expect_input_elem() cpu_num_expect_input_elem.clear() cpu_num_expect_input_elem.send_keys(cpu_num_expect_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) cpu_num_max_input_elem = pd_create_vm_uimap.get_cpu_num_max_input_elem() cpu_num_max_input_elem.clear() cpu_num_max_input_elem.send_keys(cpu_num_max_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) vmcpu_num_min_value = '2' vmcpu_num_expect_value = '2' vmcpu_num_max_value = '2' vmcpu_num_min_input_elem = pd_create_vm_uimap.get_vmcpu_num_min_input_elem() vmcpu_num_min_input_elem.clear() vmcpu_num_min_input_elem.send_keys(vmcpu_num_min_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) vmcpu_num_expect_input_elem = pd_create_vm_uimap.get_vmcpu_num_expect_input_elem() vmcpu_num_expect_input_elem.clear() vmcpu_num_expect_input_elem.send_keys(vmcpu_num_expect_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) vmcpu_num_max_input_elem = pd_create_vm_uimap.get_vmcpu_num_max_input_elem() vmcpu_num_max_input_elem.clear() vmcpu_num_max_input_elem.send_keys(vmcpu_num_max_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 8: edit memory configuration (in Page 5: memory) mem_unit ="GB" pd_create_vm_uimap.select_GB_unit() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) mem_num_min_value = '4' mem_num_avail_value = '4' mem_num_max_value = '4' mem_num_min_input_elem = pd_create_vm_uimap.get_mem_num_min_input_elem() mem_num_min_input_elem.clear() mem_num_min_input_elem.send_keys(mem_num_min_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) mem_num_expect_input_elem = pd_create_vm_uimap.get_mem_num_expect_input_elem() mem_num_expect_input_elem.clear() mem_num_expect_input_elem.send_keys(mem_num_avail_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) mem_num_max_input_elem = pd_create_vm_uimap.get_mem_num_max_input_elem() mem_num_max_input_elem.clear() mem_num_max_input_elem.send_keys(mem_num_max_value) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 9: edit storage configuration (in Page 6: storage) pd_create_vm_uimap.select_storage_type_vg() pd_create_vm_uimap.select_volume_name_datavg() pd_create_vm_uimap.unselect_existed_volume() pd_create_vm_uimap.select_vol_size_GB_unit() pd_create_vm_uimap.set_storage_vol_size(20, 'GB') time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 10: edit network configuration (in Page 7: network) pd_create_vm_uimap.assign_ip_addr(self.config.get('redhat_normal_images', 'ip_addr')) pd_create_vm_uimap.assign_submask(self.config.get('redhat_normal_images', 'submask')) pd_create_vm_uimap.assign_gateway(self.config.get('redhat_normal_images', 'gateway')) pd_create_vm_uimap.assign_dns(self.config.get('redhat_normal_images', 'dns')) pd_create_vm_uimap.assign_slavedns(self.config.get('redhat_normal_images', 'slavedns')) pd_create_vm_uimap.assign_vlan(self.config.get('redhat_normal_images', 'vlanid1')) time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) next_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 11: edit network configuration (in Page 8: confirmation) confirm_btn = pd_create_vm_uimap.get_confirm_button() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) confirm_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 12: to check task status and wait the task finishes # if popup_task is not open, click the button again pd_browser_main_map.switch_to_default_content() current_tasks_btn = pd_browser_main_map.get_current_task_btn() current_tasks_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) tasks_popup = pd_browser_main_map.get_popup_tasks() tasks_popup_cls_attr = tasks_popup.get_attribute("class") PD_DebugLog.debug_print("The current task: " + tasks_popup_cls_attr) if not "open-state" in tasks_popup_cls_attr: # click the button again current_tasks_btn.click() time.sleep(TestSpeedControl.TEST_STEP_INTERVAL) # Step 13: show the task name pd_browser_current_task_map = PD_CurrentTasks_UIMap(pd_client_browser) #task_name_txt = pd_browser_current_task_map.get_task_name() tasks_count = int(pd_browser_current_task_map.get_task_count()) if tasks_count <= 0: PD_DebugLog.debug_print("There is no tasks") pd_client_browser.close() else: summary_text = pd_browser_current_task_map.get_task_summary() PD_DebugLog.debug_print("The task summary is : " + summary_text) task_id = pd_browser_current_task_map.get_task_id(vm_name) poll_time = 0.5 timeout = 7600 time_passed = 0 while time_passed < timeout: time.sleep(poll_time) progress_bar_percentage = int(pd_browser_current_task_map.get_task_percentage(task_id)) if progress_bar_percentage <= 100: time_passed = time_passed + poll_time else: timer_expired = False break task_result = pd_browser_current_task_map.get_taask_result() if task_result == "SUCCESS": PD_DebugLog.debug_print("The test finishes GOOD") else: PD_DebugLog.debug_print("The test finishes FAILED")