def _setup_db_deviceagent(data): """Create the database for DeviceAgent table testing. Args: None Returns: result: Tuple of (idx_device, idx_agent) """ # Initialize key variables devicename = data['devicename'] description = data['device_description'] id_agent = data['id_agent'] agent_name = data['agent'] last_timestamp = data['timestamp'] # Add AgentName record to the database record = AgentName(name=general.encode(agent_name)) database = db.Database() database.add(record, 1031) # Add Agent record to the database record = Agent(id_agent=general.encode(id_agent)) database = db.Database() database.add(record, 1031) # Get idx_agent value from database agent_info = db_agent.GetIDAgent(id_agent) idx_agent = agent_info.idx_agent() # Add record to the database dev_record = Device(description=general.encode(description), devicename=general.encode(devicename)) database = db.Database() database.add(dev_record, 1034) # Get idx of newly added device device_info = db_device.GetDevice(devicename) idx_device = device_info.idx_device() # Update DeviceAgent table if hagent.device_agent_exists(idx_device, idx_agent) is False: # Add to DeviceAgent table da_record = DeviceAgent(idx_device=idx_device, idx_agent=idx_agent) database = db.Database() database.add(da_record, 1020) # Update DeviceAgent table with timestamp database = db.Database() session = database.session() record = session.query(DeviceAgent).filter( and_(DeviceAgent.idx_device == idx_device, DeviceAgent.idx_agent == idx_agent)).one() record.last_timestamp = last_timestamp database.commit(session, 1042) # Return result = (idx_device, idx_agent) return result
def test_valid(self): """Testing function valid.""" # Initialize key variables devicename = self.data['devicename'] id_agent = self.data['id_agent'] last_timestamp = self.data['timestamp'] # Drop the database and create tables unittest_setup_db.TestData() # Add record to the database record = Agent(id_agent=general.encode(id_agent)) database = db.Database() database.add(record, 1040) # Test must be good as DeviceAgent last_timestamp not updated result = validate._CheckDuplicates(self.data) self.assertEqual(result.valid(), True) # Get idx_agent value from database data = db_agent.GetIDAgent(id_agent) idx_agent = data.idx_agent() # Add record to the database record = Device(devicename=general.encode(devicename)) database = db.Database() database.add(record, 1024) # Test must be good as DeviceAgent last_timestamp not updated result = validate._CheckDuplicates(self.data) self.assertEqual(result.valid(), True) # Get idx of newly added device device_info = db_device.GetDevice(devicename) idx_device = device_info.idx_device() # Update DeviceAgent table if hagent.device_agent_exists(idx_device, idx_agent) is False: # Add to DeviceAgent table record = DeviceAgent(idx_device=idx_device, idx_agent=idx_agent) database = db.Database() database.add(record, 1055) # Test must be good as DeviceAgent last_timestamp not updated result = validate._CheckDuplicates(self.data) self.assertEqual(result.valid(), True) # Update database with timestamp database = db.Database() session = database.session() record = session.query(DeviceAgent).filter( and_(DeviceAgent.idx_device == idx_device, DeviceAgent.idx_agent == idx_agent)).one() record.last_timestamp = last_timestamp database.commit(session, 1044) # Test must fail as DeviceAgent last_timestamp not updated result = validate._CheckDuplicates(self.data) self.assertEqual(result.valid(), False)
def test___init__(self): """Testing function __init__.""" # Test with non existent DeviceIDX record = db_device.GetDevice('bogus') self.assertEqual(record.exists(), False) self.assertEqual(record.devicename(), None) self.assertEqual(record.enabled(), None) self.assertEqual(record.description(), None) self.assertEqual(record.idx_device(), None)
def idx_device(self): """Insert new device into database if necessary. Args: None Returns: idx_device: Index value for device record """ # Initialize key variables devicename = self.agent_data['devicename'] # Get information on agent from database device = db_device.GetDevice(devicename) # Determine index value for device if device.exists() is True: idx_device = device.idx_device() else: # Add record to the database record = Device(devicename=general.encode(devicename)) database = db.Database() database.add(record, 1080) # Get idx of newly added device device_info = db_device.GetDevice(devicename) idx_device = device_info.idx_device() # Update DeviceAgent table idx_agent = self._idx_agent if db_deviceagent.device_agent_exists(idx_device, idx_agent) is False: # Add to DeviceAgent table new_record = DeviceAgent(idx_device=idx_device, idx_agent=idx_agent) database = db.Database() database.add(new_record, 1038) # Return return idx_device
def valid(self): """Check if data keys are OK. Args: None Returns: valid: True if valid """ # Initialize key variables valid = True # Return if instantiation tests have failed if self._valid is False: valid = False return valid # Assign other values timestamp = int(self.data['timestamp']) id_agent = self.data['id_agent'] devicename = self.data['devicename'] # Check if there is a duplicate entry for this id_agent if db_agent.id_agent_exists(id_agent) is not False: idx_agent = db_agent.GetIDAgent(id_agent).idx_agent() # Check if device exists if db_device.devicename_exists(devicename) is True: idx_device = db_device.GetDevice(devicename).idx_device() # Check for device / agent entry existence if db_deviceagent.device_agent_exists( idx_device, idx_agent) is True: # Check if this device / agent has been updated before last_timesamp = db_deviceagent.GetDeviceAgent( idx_device, idx_agent).last_timestamp() # Validate if timestamp <= last_timesamp: log_message = ( 'Data for id_agent %s, devicename %s ' 'at timestamp %s ' 'is already found in database.' '') % (id_agent, devicename, timestamp) log.log2warning(1113, log_message) valid = False # Return return valid
def devicename_agents(devicename, id_agent): """Get last contact data from the DB. Args: devicename: Device table devicename id_agent: Agent table id_agent Returns: data: JSON data for the selected agent """ # Initialize key variables data = [] # Get starting timestamp secondsago = general.integerize(request.args.get('secondsago')) timestamp = general.integerize(request.args.get('ts_start')) ts_start = _ts_start(secondsago, timestamp) # Get idx_device and idx_agent device = db_device.GetDevice(devicename) if device.exists() is True: # Device Found idx_device = device.idx_device() # Now find idx_agent agent = db_agent.GetIDAgent(id_agent) if agent.exists() is True: idx_agent = agent.idx_agent() # Now get the idx_deviceagent deviceagent = db_deviceagent.GetDeviceAgent(idx_device, idx_agent) if deviceagent.exists() is True: idx_deviceagent = deviceagent.idx_deviceagent() # Now get the data data = db_data.last_contacts_by_device( int(idx_deviceagent), int(ts_start)) # Return return jsonify(data)
class TestGetDevice(unittest.TestCase): """Checks all functions and methods.""" ######################################################################### # General object setup ######################################################################### # Setup database based on the config database = unittest_setup_db.TestData() # Define expected values expected = {} expected['idx_device'] = database.idx_device() expected['devicename'] = database.devicename() expected['description'] = database.device_description() expected['enabled'] = True expected['exists'] = True # Create device object good_device = db_device.GetDevice(expected['devicename']) def test___init__(self): """Testing function __init__.""" # Test with non existent DeviceIDX record = db_device.GetDevice('bogus') self.assertEqual(record.exists(), False) self.assertEqual(record.devicename(), None) self.assertEqual(record.enabled(), None) self.assertEqual(record.description(), None) self.assertEqual(record.idx_device(), None) def test_idx_device(self): """Testing method idx_device.""" # Testing with known good value result = self.good_device.idx_device() self.assertEqual(result, self.expected['idx_device']) # Testing with known bad value expected = ('bogus') result = self.good_device.devicename() self.assertNotEqual(result, expected) def test_exists(self): """Testing function exists.""" # Testing with known good value result = self.good_device.exists() self.assertEqual(result, True) def test_description(self): """Testing function description.""" # Testing with known good value result = self.good_device.description() self.assertEqual(result, self.expected['description']) # Testing with known bad value expected = ('bogus') result = self.good_device.description() self.assertNotEqual(result, expected) def test_enabled(self): """Testing function enabled.""" # Testing with known good value result = self.good_device.enabled() self.assertEqual(result, self.expected['enabled']) # Testing with known bad value expected = ('bogus') result = self.good_device.enabled() self.assertNotEqual(result, expected) def test_everything(self): """Testing method everything.""" # Testing with known good value result = self.good_device.everything() for key, _ in self.expected.items(): self.assertEqual(result[key], self.expected[key]) # Test the number and names of keys keys = ['idx_device', 'devicename', 'description', 'enabled', 'exists'] self.assertEqual(len(result), len(keys)) for key in keys: self.assertEqual(key in result, True)