def setUp(self): """Test setup. Creates a new NetServer """ # Get configuration config = Configuration() cfile = os.path.join(config.path, 'test', 'unit', 'default.cfg') if not config.parseConfig(cfile): exit(1) self.server = NetServer(config)
def setUp(self): """Test setup. Creates a new NetServer Use factory default configuration. """ Registry.getConfig = MagicMock(return_value=None) # Get factory default configuration with patch.object(Model, 'save', MagicMock()): config = yield Config.loadFactoryDefaults() self.server = NetServer(config)
def setUp(self): # Mock Registry Registry.getConfig = MagicMock(return_value=None) # Load configuration defaults config = Config() config.defaults() self.server = NetServer(config) self.webserver = WebServer(self.server) self.restapi = self.webserver.restapi
def setUp(self): """Test setup""" Registry.getConfig = MagicMock(return_value=None) # Get factory default configuration with patch.object(Model, 'save', MagicMock()): config = yield Config.loadFactoryDefaults() self.server = NetServer(config) self.server.lora = LoraWAN(self.server) self.webserver = WebServer(self.server) self.restapi = self.webserver.restapi
def setUp(self): """Test setup. Creates a new NetServer """ Registry.getConfig = MagicMock(return_value=None) ## Get factory default configuration with patch.object(Model, 'save', MagicMock()): config = yield Config.loadFactoryDefaults() server = NetServer(config) self.lora = lora_wan.LoraWAN(server) g = Gateway(host='192.168.1.125', name='Test', enabled=True, power=26) self.lora.gateways.append(g)
def setUp(self): # Twistar requirem Registry.getConfig = MagicMock(return_value=None) db = Database() db.register() # Get factory default configuration with patch.object(Model, 'save', MagicMock()): config = yield Config.loadFactoryDefaults() self.server = NetServer(config) self.webserver = WebServer(self.server) self.restapi = self.webserver.restapi
def setUp(self): # Mock Registry Registry.getConfig = MagicMock(return_value=None) # Initialise Database object to create relationships db = Database() db.register() # Load configuration defaults config = Config() config.defaults() self.server = NetServer(config) self.webserver = WebServer(self.server) self.restapi = self.webserver.restapi
class NetServerTest(unittest.TestCase): def setUp(self): """Test setup. Creates a new NetServer """ # Get configuration config = Configuration() cfile = os.path.join(config.path, 'test', 'unit', 'default.cfg') if not config.parseConfig(cfile): exit(1) self.server = NetServer(config) def _test_device(self): """Create a test device object. We must load the device dynamically as it depends on the adbapi intialisation""" return Device(deveui=int('0x0F0E0E0D00010209', 16), devaddr=int('0x06000001', 16), appeui=int('0x0A0B0C0D0A0B0C0D', 16), nwkskey=int('0xAEB48D4C6E9EA5C48C37E4F132AA8516', 16), appskey=int('0x7987A96F267F0A86B739EED480FC2B3C', 16), tx_chan=3, tx_datr='SF7BW125', gw_addr='192.168.1.125') def test_loadAppServerInterface(self): appserver = self.server._loadAppServerInterface('reflector') self.assertTrue(isinstance(appserver, protocol.DatagramProtocol)) @inlineCallbacks def test_getOTAADevAddrs(self): device = self._test_device() mockDBObject.return_value = device expected = [[], [device.devaddr]] results = [] # Test when no devices are found with patch.object(Device, 'find', classmethod(mockDBObject.findFail)): result = yield self.server._getOTAADevAddrs() results.append(result) # Test when one device is found with patch.object(Device, 'find', classmethod(mockDBObject.findOne)): result = yield self.server._getOTAADevAddrs() results.append(result) self.assertEqual(expected, results) @inlineCallbacks def test_getFreeOTAAddress(self): expected = [ self.server.config.otaastart, self.server.config.otaastart + 1, self.server.config.otaaend, None ] results = [] # Test with empty OTA device list # Mock the server method to return the devaddr list with patch.object(self.server, '_getOTAADevAddrs', MagicMock(return_value=[])): result = yield self.server._getFreeOTAAddress() results.append(result) # Test with one OTA device with patch.object( self.server, '_getOTAADevAddrs', MagicMock(return_value=[self.server.config.otaastart])): result = yield self.server._getFreeOTAAddress() results.append(result) # Test with last address only available with patch.object( self.server, '_getOTAADevAddrs', MagicMock(return_value=xrange(self.server.config.otaastart, self.server.config.otaaend))): result = yield self.server._getFreeOTAAddress() results.append(result) # Test with no address available with patch.object( self.server, '_getOTAADevAddrs', MagicMock(return_value=xrange(self.server.config.otaastart, self.server.config.otaaend + 1))): result = yield self.server._getFreeOTAAddress() results.append(result) self.assertEqual(expected, results) @inlineCallbacks def test_getActiveDevice(self): # Include for coverage. We are essentially testing a returnValue() call. device = self._test_device() mockDBObject.return_value = device expected = device.deveui with patch.object(Device, 'find', classmethod(mockDBObject.findSuccess)): result = yield self.server._getActiveDevice(device.devaddr) self.assertEqual(expected, result.deveui) @inlineCallbacks def test_addActiveDevice(self): device = self._test_device() mockDBObject.return_value = device # Test for device deveui, and allocated devaddr expected = [self.server.config.otaastart + 1, device.deveui] results = [] # Test adding a new device. i.e. Device.find() fails. # _addActiveDevice returns the saved device with patch.object(Device, 'find', classmethod(mockDBObject.findFail)), \ patch.object(device, 'save', MagicMock(return_value=device)), \ patch.object(self.server, '_getFreeOTAAddress', MagicMock(return_value=self.server.config.otaastart + 1)): device.devaddr = 0 result = yield self.server._addActiveDevice(device) results.append(result.devaddr) # Test when the device is found in the active list. with patch.object(Device, 'find', classmethod(mockDBObject.findSuccess)), \ patch.object(device, 'save', MagicMock(return_value=device)): result = yield self.server._addActiveDevice(device) results.append(result.deveui) self.assertEqual(expected, results) def test_checkDuplicateMessage(self): m = lora_mac.MACDataMessage() m.mic = 1111 self.server.config.duplicateperiod = 10 expected = [True, False] result = [] now = time.time() # Test a successful find of the duplicate for i in (1, 10): self.server.message_cache.append((randrange(1, 1000), now - i)) self.server.message_cache.append( (m.mic, now - self.server.config.duplicateperiod + 1)) result.append(self.server._checkDuplicateMessage(m)) # Test an unsuccessful find of the duplicate - the message's # cache period has expired. self.server.message_cache.remove( (m.mic, now - self.server.config.duplicateperiod + 1)) self.server.message_cache.append( (m.mic, now - self.server.config.duplicateperiod - 1)) result.append(self.server._checkDuplicateMessage(m)) self.assertEqual(expected, result) def test_cleanMessageCache(self): self.server.config.duplicateperiod = 10 # Create 10 cache entries, remove 5 now = time.time() for i in range(1, 21, 2): self.server.message_cache.append((i, now - i)) expected = 5 self.server._cleanMessageCache() result = len(self.server.message_cache) self.assertEqual(expected, result) def test_manageMACCommandQueue(self): self.server.config.macqueuelimit = 10 # Create 10 cache entries, remove 5 now = time.time() for i in range(1, 21, 2): self.server.commands.append( (int(now - i), i, lora_mac.LinkCheckAns())) expected = 5 self.server._manageMACCommandQueue() result = len(self.server.commands) self.assertEqual(expected, result) @inlineCallbacks def test_processADRRequests(self): device = self._test_device() mockDBObject.return_value = [device] # Remove any delays self.server.config.adrmessagetime = 0 device.snr_average = 3.5 device.adr_datr = None # Test we set adr_datr device attribute properly expected = ['SF9BW125', False] results = [] with patch.object(Device, 'all', classmethod(mockDBObject.all)), \ patch.multiple(device, refresh=MagicMock(), save=MagicMock()), \ patch.object(self.server, '_sendLinkADRRequest'): yield self.server._processADRRequests() results.append(device.adr_datr) results.append(self.server.adrprocessing) self.assertEqual(expected, results) def _createCommands(self): datarate = 'SF7BW125' chmask = int('FF', 16) return [ lora_mac.LinkCheckAns(), lora_mac.LinkADRReq(datarate, 0, chmask, 6, 0) ] def test_queueMACCommand(self): device = self._test_device() commands = self._createCommands() expected = [2, lora_mac.LINKCHECKANS, lora_mac.LINKADRREQ] for c in commands: self.server._queueMACCommand(device.deveui, c) result = [ len(self.server.commands), self.server.commands[0][2].cid, self.server.commands[1][2].cid ] self.assertEqual(expected, result) def test_dequeueMACCommand(self): device = self._test_device() commands = self._createCommands() for c in commands: self.server._queueMACCommand(device.deveui, c) self.server._dequeueMACCommand(device.deveui, commands[1]) expected = [1, lora_mac.LINKCHECKANS] result = [len(self.server.commands), self.server.commands[0][2].cid] self.assertEqual(expected, result) def test_scheduleDownlinkTime(self): offset = 10 tmst = randrange(0, 4294967295 - 10000000) expected = [tmst + 10000000, 5000000] result = [] result.append(self.server._scheduleDownlinkTime(tmst, offset)) tmst = 4294967295 - 5000000 result.append(self.server._scheduleDownlinkTime(tmst, offset)) self.assertEqual(expected, result) def test_txpkResponse(self): tmst = randrange(0, 4294967295) rxpk = loragw.Rxpk(tmst=tmst, chan=3, freq=915.8, datr='SF7BW125', data="n/uSwM0LIED8X6QV0mJMjC6oc2HOWFpCfmTry", size=54) device = self._test_device() device.rx = self.server.band.rxparams((rxpk.chan, rxpk.datr), join=False) gateway = self.server.protocol['lora'].configuredGateway( device.gw_addr) expected = [ (True, device.rx[1]['freq'], device.rx[1]['datr']), (True, device.rx[2]['freq'], device.rx[2]['datr']), (tmst + 1000000, device.rx[1]['freq'], device.rx[1]['datr']), (tmst + 2000000, device.rx[2]['freq'], device.rx[2]['datr']) ] result = [] txpk = self.server._txpkResponse(device, rxpk.data, gateway, tmst, immediate=True) for i in range(1, 3): result.append((txpk[i].imme, txpk[i].freq, txpk[i].datr)) txpk = self.server._txpkResponse(device, rxpk.data, gateway, tmst, immediate=False) for i in range(1, 3): result.append((txpk[i].tmst, txpk[i].freq, txpk[i].datr)) self.assertEqual(expected, result) def _processJoinRequest(self, request): """Called by test_processJoinRequest_pass and test_processJoinRequest_fail""" msg = lora_mac.MACMessage.decode(request) app = self.server.config.apps[0] dev = self._test_device() # Mock _addActiveDevice self.server._addActiveDevice = MagicMock(return_value=True) return self.server._processJoinRequest(msg, app, dev) def test_processJoinRequest_pass(self): joinreq = base64.b64decode("AA0MCwoNDAsKAwIBAA0ODg9IklIgzCM=") result = self._processJoinRequest(joinreq) self.assertTrue(result) def test_processJoinRequest_fail(self): joinreq = base64.b64decode("AA0MCwoNDAsKAwIBAA0ODg9IklIgzCX=") result = self._processJoinRequest(joinreq) self.assertFalse(result)
class NetServerTest(unittest.TestCase): @inlineCallbacks def setUp(self): """Test setup. Creates a new NetServer Use factory default configuration. """ Registry.getConfig = MagicMock(return_value=None) # Get factory default configuration with patch.object(Model, 'save', MagicMock()): config = yield Config.loadFactoryDefaults() self.server = NetServer(config) def _test_device(self): """Create a test device object """ return Device(deveui=int('0x0F0E0E0D00010209', 16), devaddr=int('0x06000001', 16), appeui=int('0x0A0B0C0D0A0B0C0D', 16), nwkskey=int('0xAEB48D4C6E9EA5C48C37E4F132AA8516', 16), appskey=int('0x7987A96F267F0A86B739EED480FC2B3C', 16), adr=True, tx_chan=3, tx_datr='SF7BW125', gw_addr='192.168.1.125', enabled=True) def test_checkDevaddr(self): """Test checkDevaddr method""" # Check valid address device = self._test_device() result = self.server.checkDevaddr(device.devaddr) self.assertTrue(result) # Check invalid address devaddr = int('0x11223344', 16) result = self.server.checkDevaddr(devaddr) self.assertFalse(result) @inlineCallbacks def test_getOTAADevAddrs(self): """Test getOTAADevAddrs method""" device = self._test_device() mockDBObject.return_value = device expected = [[], [device.devaddr]] results = [] # Test when no devices are found with patch.object(Device, 'find', classmethod(mockDBObject.findFail)): result = yield self.server._getOTAADevAddrs() results.append(result) # Test when one device is found with patch.object(Device, 'find', classmethod(mockDBObject.findOne)): result = yield self.server._getOTAADevAddrs() results.append(result) self.assertEqual(expected, results) @inlineCallbacks def test_getFreeOTAAddress(self): expected = [ self.server.config.otaastart, self.server.config.otaastart + 1, self.server.config.otaaend, None ] results = [] # Test with empty OTA device list # Mock the server method to return the devaddr list with patch.object(self.server, '_getOTAADevAddrs', MagicMock(return_value=[])): result = yield self.server._getFreeOTAAddress() results.append(result) # Test with one OTA device with patch.object( self.server, '_getOTAADevAddrs', MagicMock(return_value=[self.server.config.otaastart])): result = yield self.server._getFreeOTAAddress() results.append(result) # Test with last address only available with patch.object( self.server, '_getOTAADevAddrs', MagicMock(return_value=xrange(self.server.config.otaastart, self.server.config.otaaend))): result = yield self.server._getFreeOTAAddress() results.append(result) # Test with no address available with patch.object( self.server, '_getOTAADevAddrs', MagicMock(return_value=xrange(self.server.config.otaastart, self.server.config.otaaend + 1))): result = yield self.server._getFreeOTAAddress() results.append(result) self.assertEqual(expected, results) @inlineCallbacks def test_getActiveDevice(self): # Include for coverage. We are essentially testing a returnValue() call. device = self._test_device() mockDBObject.return_value = device expected = device.deveui with patch.object(Device, 'find', classmethod(mockDBObject.findSuccess)): result = yield self.server._getActiveDevice(device.devaddr) self.assertEqual(expected, result.deveui) def test_checkDuplicateMessage(self): m = lora_mac.MACDataMessage() m.mic = 1111 self.server.config.duplicateperiod = 10 expected = [True, False] result = [] now = time.time() # Test a successful find of the duplicate for i in (1, 10): self.server.message_cache.append((randrange(1, 1000), now - i)) self.server.message_cache.append( (m.mic, now - self.server.config.duplicateperiod + 1)) result.append(self.server._checkDuplicateMessage(m)) # Test an unsuccessful find of the duplicate - the message's # cache period has expired. self.server.message_cache.remove( (m.mic, now - self.server.config.duplicateperiod + 1)) self.server.message_cache.append( (m.mic, now - self.server.config.duplicateperiod - 1)) result.append(self.server._checkDuplicateMessage(m)) self.assertEqual(expected, result) def test_cleanMessageCache(self): self.server.config.duplicateperiod = 10 # Create 10 cache entries, remove 5 now = time.time() for i in range(1, 21, 2): self.server.message_cache.append((i, now - i)) expected = 5 self.server._cleanMessageCache() result = len(self.server.message_cache) self.assertEqual(expected, result) def test_manageMACCommandQueue(self): self.server.config.macqueuelimit = 10 # Create 10 cache entries, remove 5 now = time.time() for i in range(1, 21, 2): self.server.commands.append( (int(now - i), i, lora_mac.LinkCheckAns())) expected = 5 self.server._manageMACCommandQueue() result = len(self.server.commands) self.assertEqual(expected, result) @inlineCallbacks def test_processADRRequests(self): device = self._test_device() device.snr_average = 3.5 device.adr_datr = None # Test we set adr_datr device attribute properly expected = ['SF9BW125', False] results = [] mockDBObject.return_value = [device] mockModel.mock_object = device with patch.object(Device, 'all', classmethod(mockDBObject.all)), \ patch.object(device, 'update', mockModel.update), \ patch.object(self.server, '_sendLinkADRRequest', MagicMock()): # Remove any delays self.server.config.adrmessagetime = 0 yield self.server._processADRRequests() results.append(device.adr_datr) results.append(self.server.adrprocessing) self.assertEqual(expected, results) def _createCommands(self): datarate = 'SF7BW125' chmask = int('FF', 16) return [ lora_mac.LinkCheckAns(), lora_mac.LinkADRReq(datarate, 0, chmask, 6, 0) ] def test_queueMACCommand(self): device = self._test_device() commands = self._createCommands() expected = [2, lora_mac.LINKCHECKANS, lora_mac.LINKADRREQ] for c in commands: self.server._queueMACCommand(device.deveui, c) result = [ len(self.server.commands), self.server.commands[0][2].cid, self.server.commands[1][2].cid ] self.assertEqual(expected, result) def test_dequeueMACCommand(self): device = self._test_device() commands = self._createCommands() for c in commands: self.server._queueMACCommand(device.deveui, c) self.server._dequeueMACCommand(device.deveui, commands[1]) expected = [1, lora_mac.LINKCHECKANS] result = [len(self.server.commands), self.server.commands[0][2].cid] self.assertEqual(expected, result) def test_scheduleDownlinkTime(self): offset = 10 tmst = randrange(0, 4294967295 - 10000000) expected = [tmst + 10000000, 5000000] result = [] result.append(self.server._scheduleDownlinkTime(tmst, offset)) tmst = 4294967295 - 5000000 result.append(self.server._scheduleDownlinkTime(tmst, offset)) self.assertEqual(expected, result) def test_txpkResponse(self): self.server.lora = LoraWAN(self) self.server.lora.addGateway( Gateway(host='192.168.1.125', name='Test', enabled=True, power=26)) tmst = randrange(0, 4294967295) rxpk = Rxpk(tmst=tmst, chan=3, freq=915.8, datr='SF7BW125', data="n/uSwM0LIED8X6QV0mJMjC6oc2HOWFpCfmTry", size=54) device = self._test_device() device.rx = self.server.band.rxparams((rxpk.chan, rxpk.datr), join=False) gateway = self.server.lora.gateway(device.gw_addr) expected = [ (True, device.rx[1]['freq'], device.rx[1]['datr']), (True, device.rx[2]['freq'], device.rx[2]['datr']), (tmst + 1000000, device.rx[1]['freq'], device.rx[1]['datr']), (tmst + 2000000, device.rx[2]['freq'], device.rx[2]['datr']) ] result = [] txpk = self.server._txpkResponse(device, rxpk.data, gateway, tmst, immediate=True) for i in range(1, 3): result.append((txpk[i].imme, txpk[i].freq, txpk[i].datr)) txpk = self.server._txpkResponse(device, rxpk.data, gateway, tmst, immediate=False) for i in range(1, 3): result.append((txpk[i].tmst, txpk[i].freq, txpk[i].datr)) self.assertEqual(expected, result) def _processJoinRequest(self, request): """Called by test_processJoinRequest_pass and test_processJoinRequest_fail""" device = self._test_device() app = self.server.config.apps[0] # Passing join request request = base64.b64decode("AA0MCwoNDAsKAwIBAA0ODg9IklIgzCM=") msg = lora_mac.MACMessage.decode(request) result = yield self.server._processJoinRequest(msg, app, device) self.assertTrue(result) # Failing join request request = base64.b64decode("AA0MCwoNDAsKAwIBAA0ODg9IklIgzCX=") msg = lora_mac.MACMessage.decode(request) result = yield self.server._processJoinRequest(msg, app, device) self.assertFalse(result)