def _advertisement_connection_tests(scan_filter, bleAdapter, UUID, discoveryEvent_Cb): runTest._advertisement_start(scan_filter=scan_filter, UUID=UUID, discoveryEvent_Cb=discoveryEvent_Cb, bleAdapter=bleAdapter) runTest._simple_connect() runTest.stopAdvertisement(scan_filter) bleAdapter.disconnect() testutils.removeBondedDevices()
def Write_Notification_Size_Greater_Than_MTU_3(scan_filter, bleAdapter): runTest._advertisement_connection_tests( scan_filter=scan_filter, bleAdapter=bleAdapter, UUID=runTest.DUT_UUID_128, discoveryEvent_Cb=runTest.discoveryEventCb) runTest._simple_connect() runTest.stopAdvertisement(scan_filter) bleAdapter.gatt.updateLocalAttributeTable() # Data size > MTU - 3 send notification test bleAdapter.subscribeForNotification( runTest.DUT_NOTIFY_CHAR_UUID) #subscribe for next test isTestSuccessFull = True runTest.mainloop.run() isTestSuccessFull &= runTest.isNotificationDeclinedSuccessFull # unsubscribe isTestSuccessFull &= bleAdapter.subscribeForNotification( runTest.DUT_NOTIFY_CHAR_UUID, subscribe=False) #unsubscribe isTestSuccessFull &= bleAdapter.disconnect() testutils.removeBondedDevices() return isTestSuccessFull
def Check_ServiceData(scan_filter, bleAdapter, bEnableServiceData): isTestSuccessFull = True runTest._advertisement_start( scan_filter=scan_filter, UUID=runTest.DUT_UUID_16, discoveryEvent_Cb=runTest.discoveryEventCb_16bit, bleAdapter=bleAdapter) service_data = runTest.get_service_data(runTest.testDevice) if bEnableServiceData == False: if service_data is not None: print("ERROR: SERV_DATA is not None") isTestSuccessFull &= False else: if service_data is None: print("ERROR: SERV_DATA is None") isTestSuccessFull &= False else: for data in service_data: if data != runTest.SERV_DATA: print("SERV_DATA is not correct. Data received: %d" % data) isTestSuccessFull &= False runTest._simple_connect() runTest.stopAdvertisement(scan_filter) isTestSuccessFull &= bleAdapter.disconnect() testutils.removeBondedDevices() return isTestSuccessFull
def Write_Notification_Size_Greater_Than_MTU_3(scan_filter, bleAdapter): runTest._advertisement_start( scan_filter=scan_filter, UUID=runTest.DUT_UUID_128, discoveryEvent_Cb=runTest.discoveryEventCb, bleAdapter=bleAdapter) runTest._simple_connect() runTest.stopAdvertisement(scan_filter) isTestSuccessFull_discover = runTest.discoverPrimaryServices() bleAdapter.gatt.updateLocalAttributeTable() bleAdapter.setNotificationCallBack(runTest.notificationMTUCb) bleAdapter.subscribeForNotification( runTest.DUT_NOTIFY_CHAR_UUID) # subscribe for next test runTest.mainloop.run() isTestSuccessFull_notification = runTest.isNotificationDeclinedSuccessFull runTest.submitTestResult(isTestSuccessFull_notification, runTest.notification) isTestSuccessFull_removenotification = bleAdapter.subscribeForNotification( runTest.DUT_NOTIFY_CHAR_UUID, subscribe=False) # unsubscribe runTest.submitTestResult(isTestSuccessFull_removenotification, runTest.removeNotification) isTestSuccessFull_disconnect = bleAdapter.disconnect() testutils.removeBondedDevices() isTestSuccessFull = (isTestSuccessFull_discover & isTestSuccessFull_notification & isTestSuccessFull_removenotification & isTestSuccessFull_disconnect) return isTestSuccessFull
def Advertise_With_Manufacture_Data(scan_filter, bleAdapter): isTestSuccessFull = True # Check when manufacture data length is 0, but pointer is valid runTest._advertisement_start( scan_filter=scan_filter, UUID=runTest.DUT_UUID_128, discoveryEvent_Cb=runTest.discoveryEventCb, bleAdapter=bleAdapter) manufacture_data = runTest.get_manufacture_data(runTest.testDevice) if manufacture_data is not None: isTestSuccessFull = False runTest._simple_connect() runTest.stopAdvertisement(scan_filter) isTestSuccessFull &= bleAdapter.disconnect() testutils.removeBondedDevices() # Check when manufacture data pointer is NULL, but length is not 0 runTest._advertisement_start( scan_filter=scan_filter, UUID=runTest.DUT_UUID_128, discoveryEvent_Cb=runTest.discoveryEventCb, bleAdapter=bleAdapter) manufacture_data = runTest.get_manufacture_data(runTest.testDevice) if manufacture_data is not None: isTestSuccessFull = False runTest._simple_connect() runTest.stopAdvertisement(scan_filter) isTestSuccessFull &= bleAdapter.disconnect() testutils.removeBondedDevices() # Check when manufacture data length is not 0, and pointer is valid runTest._advertisement_start( scan_filter=scan_filter, UUID=runTest.DUT_UUID_128, discoveryEvent_Cb=runTest.discoveryEventCb, bleAdapter=bleAdapter) manufacture_data = runTest.get_manufacture_data(runTest.testDevice) for data in manufacture_data: if data != runTest.MANU_DATA: isTestSuccessFull = False runTest._simple_connect() runTest.stopAdvertisement(scan_filter) isTestSuccessFull &= bleAdapter.disconnect() testutils.removeBondedDevices() return isTestSuccessFull
def Change_MTU_Size(scan_filter, bleAdapter): runTest._advertisement_start( scan_filter=scan_filter, UUID=runTest.DUT_UUID_128, discoveryEvent_Cb=runTest.discoveryEventCb, bleAdapter=bleAdapter) runTest._simple_connect() time.sleep(5) isTestSuccessFull = bleAdapter.disconnect() testutils.removeBondedDevices() return isTestSuccessFull
def Advertise_Interval_Consistent_After_BT_Reset(scan_filter, bleAdapter): isTestSuccessFull = True runTest._advertisement_start( scan_filter=scan_filter, UUID=runTest.DUT_UUID_128, discoveryEvent_Cb=runTest.discoveryEventCb, bleAdapter=bleAdapter) secondKPI = runTest._scan_discovery_with_timer(bleAdapter) runTest._simple_connect() isTestSuccessFull = runTest.discoverPrimaryServices() bleAdapter.gatt.updateLocalAttributeTable( False ) time.sleep(2) # wait for connection parameters update # Second time disconnect isTestSuccessFull &= bleAdapter.disconnect() # Third time connection # wait for DUT to start advertising thirdKPI = runTest._scan_discovery_with_timer(bleAdapter) isTestSuccessFull &= bleAdapter.connect(runTest.testDevice) if thirdKPI > secondKPI * 10: isTestSuccessFull &= False # write result back to server isTestSuccessFull = runTest.discoverPrimaryServices() bleAdapter.gatt.updateLocalAttributeTable( False ) isTestSuccessFull &= runTest.writeResultWithoutResponse( chr(isTestSuccessFull + 48)) runTest.stopAdvertisement(scan_filter) isTestSuccessFull &= bleAdapter.disconnect() testutils.removeBondedDevices() return isTestSuccessFull
def Callback_NULL_check(scan_filter, bleAdapter): runTest._advertisement_start( scan_filter=scan_filter, UUID=runTest.DUT_UUID_128, discoveryEvent_Cb=runTest.discoveryEventCb, bleAdapter=bleAdapter) runTest._simple_connect() isTestSuccessFull = runTest.discoverPrimaryServices() runTest.submitTestResult(isTestSuccessFull, runTest.discoverPrimaryServices) bleAdapter.gatt.updateLocalAttributeTable(False) isTestSuccessFull &= runTest.checkUUIDs(bleAdapter.gatt, False) time.sleep(5) isTestSuccessFull &= bleAdapter.disconnect() testutils.removeBondedDevices() return isTestSuccessFull
def disconnect(): isTestSuccessFull = bleAdapter.disconnect() runTest.submitTestResult(isTestSuccessFull, runTest.disconnect)
def Send_Data_After_Disconnected(scan_filter, bleAdapter): runTest._advertisement_start( scan_filter=scan_filter, UUID=runTest.DUT_UUID_128, discoveryEvent_Cb=runTest.discoveryEventCb, bleAdapter=bleAdapter) runTest._simple_connect() isTestSuccessFull = runTest.discoverPrimaryServices() runTest.submitTestResult(isTestSuccessFull, runTest.discoverPrimaryServices) bleAdapter.gatt.updateLocalAttributeTable() # Check device not present. After discovery of services, advertisement # should have stopped. runTest.stopAdvertisement(scan_filter) # Check write and read bleAdapter.writeCharacteristic(runTest.DUT_OPEN_CHAR_UUID, runTest.DUT_OPEN_DESCR_UUID) bleAdapter.readCharacteristic(runTest.DUT_OPEN_CHAR_UUID) # Enable and receive notification and indication then disable. bleAdapter.subscribeForNotification(runTest.DUT_NOTIFY_CHAR_UUID) bleAdapter.subscribeForNotification( runTest.DUT_INDICATE_CHAR_UUID) # subscribe for next test time.sleep(2) # wait for connection parameters update # Check Notification and Indication bleAdapter.setNotificationCallBack(runTest.notificationCb) isTestSuccessFull = True runTest.mainloop.run() runTest.submitTestResult(isTestSuccessFull, runTest.notification) bleAdapter.setNotificationCallBack(runTest.indicationCb) isTestSuccessFull = True runTest.mainloop.run() runTest.submitTestResult(isTestSuccessFull, runTest.indication) isTestSuccessFull &= bleAdapter.disconnect() # Second time connection # wait for DUT to start advertising bleAdapter.startDiscovery(runTest.discoveryStartedCb) runTest.mainloop.run() bleAdapter.stopDiscovery() runTest._simple_connect() bleAdapter.subscribeForNotification(runTest.DUT_NOTIFY_CHAR_UUID) bleAdapter.subscribeForNotification( runTest.DUT_INDICATE_CHAR_UUID) # subscribe for next test # Check write and read after reconnection bleAdapter.writeCharacteristic(runTest.DUT_OPEN_CHAR_UUID, runTest.DUT_OPEN_DESCR_UUID) bleAdapter.readCharacteristic(runTest.DUT_OPEN_CHAR_UUID) # Check Notification and Indication after reconnection bleAdapter.setNotificationCallBack(runTest.notificationCb) isTestSuccessFull = True runTest.mainloop.run() runTest.submitTestResult(isTestSuccessFull, runTest.notification) bleAdapter.setNotificationCallBack(runTest.indicationCb) isTestSuccessFull = True runTest.mainloop.run() runTest.submitTestResult(isTestSuccessFull, runTest.indication) isTestSuccessFull = bleAdapter.subscribeForNotification( runTest.DUT_NOTIFY_CHAR_UUID, subscribe=False) # unsubscribe isTestSuccessFull = True runTest.submitTestResult(isTestSuccessFull, runTest.removeNotification) isTestSuccessFull = bleAdapter.subscribeForNotification( runTest.DUT_INDICATE_CHAR_UUID, subscribe=False) # unsubscribe isTestSuccessFull = True runTest.submitTestResult(isTestSuccessFull, runTest.removeIndication) isTestSuccessFull &= bleAdapter.disconnect() testutils.removeBondedDevices() return isTestSuccessFull
def main(): scan_filter = dict() bleAdapter.init() agent = securityAgent.createSecurityAgent() scan_filter.update({"UUIDs": [runTest.DUT_UUID_128]}) bleAdapter.setDiscoveryFilter(scan_filter) # Discovery test bleAdapter.startDiscovery(runTest.discoveryEventCb) runTest.mainloop.run() isTestSuccessFull = True runTest.submitTestResult(isTestSuccessFull, runTest.advertisement) bleAdapter.stopDiscovery() # Simple Connection test testDevice = runTest.getTestDevice() isTestSuccessFull = bleAdapter.connect(testDevice) runTest.submitTestResult(isTestSuccessFull, runTest.simpleConnection) time.sleep(2) # wait for connection parameters update # Discover all primary services isTestSuccessFull = runTest.discoverPrimaryServices() runTest.submitTestResult(isTestSuccessFull, runTest.discoverPrimaryServices) bleAdapter.gatt.updateLocalAttributeTable() # Check device not present. After discovery of services, advertisement # should have stopped. runTest.stopAdvertisement(scan_filter) # Change MTU size # bleAdapter.readLocalMTU() # Check attribute table UUIDs bleAdapter.gatt.updateLocalAttributeTable() isTestSuccessFull = runTest.checkUUIDs(bleAdapter.gatt) runTest.submitTestResult(isTestSuccessFull, runTest.checkUUIDs) # Check attribute table properties isTestSuccessFull = runTest.checkProperties(bleAdapter.gatt) runTest.submitTestResult(isTestSuccessFull, runTest.checkProperties) # CHeck long write isTestSuccessFull = runTest.writeLongCharacteristic() runTest.submitTestResult(isTestSuccessFull, runTest.writeLongCharacteristic) # Check read/write, simple connection isTestSuccessFull = runTest.readWriteSimpleConnection() runTest.submitTestResult(isTestSuccessFull, runTest.readWriteSimpleConnection) # check write without response isTestSuccessFull = runTest.writeWithoutResponse() runTest.submitTestResult(isTestSuccessFull, runTest.writeWithoutResponse) # Enable and receive notification and indication then disable. bleAdapter.setNotificationCallBack(runTest.notificationCb) bleAdapter.subscribeForNotification( runTest.DUT_NOTIFY_CHAR_UUID) # subscribe for next test bleAdapter.subscribeForNotification( runTest.DUT_INDICATE_CHAR_UUID) # subscribe for next test isTestSuccessFull = True runTest.mainloop.run() runTest.submitTestResult(isTestSuccessFull, runTest.notification) bleAdapter.setNotificationCallBack(runTest.indicationCb) isTestSuccessFull = True runTest.mainloop.run() runTest.submitTestResult(isTestSuccessFull, runTest.indication) isTestSuccessFull = bleAdapter.subscribeForNotification( runTest.DUT_NOTIFY_CHAR_UUID, subscribe=False) # unsubscribe isTestSuccessFull = True runTest.submitTestResult(isTestSuccessFull, runTest.removeNotification) isTestSuccessFull = bleAdapter.subscribeForNotification( runTest.DUT_INDICATE_CHAR_UUID, subscribe=False) # unsubscribe isTestSuccessFull = True runTest.submitTestResult(isTestSuccessFull, runTest.removeIndication) # Check writing to protected characteristic triggers pairing isTestSuccessFull = runTest.pairing() runTest.submitTestResult(isTestSuccessFull, runTest.pairing) bleAdapter.bondToRemoteDevice() # Check writing to protected characteristic after successfull pairing # succeed time.sleep(2) # wait before starting next test isTestSuccessFull = runTest.readWriteProtectedAttributesWhilePaired() runTest.submitTestResult(isTestSuccessFull, runTest.readWriteProtectedAttributesWhilePaired) # disconnect, Note it is not a test happening on bluez, the DUT is waiting # for a disconnect Cb runTest.disconnect() # reconnect! Since devices bonded, it should not ask for pairing again. # Security agent can be destroyed # remove security agent so as not to trigger auto pairing. securityAgent.removeSecurityAgent() bleAdapter.setDiscoveryFilter(scan_filter) # wait for DUT to start advertising bleAdapter.startDiscovery(runTest.discoveryStartedCb) runTest.mainloop.run() bleAdapter.stopDiscovery() runTest.reconnectWhileBonded() # reconnect while not bonded. Pairing should fail since Just works is not # accepted bleAdapter.disconnect() bleAdapter.removeBondedDevices() time.sleep(2) # wait for bonded devices to be deleted bleAdapter.setDiscoveryFilter(scan_filter) bleAdapter.startDiscovery(runTest.discoveryEventCb) runTest.mainloop.run() bleAdapter.stopDiscovery() agent = securityAgent.createSecurityAgent("NoInputNoOutput", agent) runTest.reconnectWhileNotBonded() time.sleep(2) runTest.printTestsSummary()