mirror of
https://github.com/sprockets/sprockets-statsd.git
synced 2024-12-27 11:17:30 +00:00
da95efa544
This makes the low-level code a little more opinionated. If there is a good reason for making `timers`, `counters`, etc. optional, then we can PR it into place.
403 lines
17 KiB
Python
403 lines
17 KiB
Python
import asyncio
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import logging
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import socket
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import time
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import typing
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import asynctest
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from sprockets_statsd import statsd
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from tests import helpers
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class ProcessorTestCase(asynctest.TestCase):
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ip_protocol: int
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async def setUp(self):
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self.test_timeout = 5.0
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super().setUp()
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await self.asyncSetUp()
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async def tearDown(self):
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await self.asyncTearDown()
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super().tearDown()
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async def wait_for(self, fut):
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try:
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await asyncio.wait_for(fut, timeout=self.test_timeout)
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except asyncio.TimeoutError:
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self.fail('future took too long to resolve')
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async def asyncSetUp(self):
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self.statsd_server = helpers.StatsdServer(self.ip_protocol)
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self.statsd_task = asyncio.create_task(self.statsd_server.run())
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await self.statsd_server.wait_running()
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async def asyncTearDown(self):
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self.statsd_server.close()
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await self.statsd_server.wait_closed()
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class ProcessorTests(ProcessorTestCase):
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ip_protocol = socket.IPPROTO_TCP
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async def test_that_processor_connects_and_disconnects(self):
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processor = statsd.Processor(host=self.statsd_server.host,
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port=self.statsd_server.port)
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asyncio.create_task(processor.run())
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await self.wait_for(self.statsd_server.client_connected.acquire())
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await self.wait_for(processor.stop())
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self.assertEqual(1, self.statsd_server.connections_made)
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self.assertEqual(1, self.statsd_server.connections_lost)
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async def test_that_processor_reconnects(self):
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processor = statsd.Processor(host=self.statsd_server.host,
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port=self.statsd_server.port)
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asyncio.create_task(processor.run())
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await self.wait_for(self.statsd_server.client_connected.acquire())
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# Now that the server is running and the client has connected,
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# cancel the server and let it die off.
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self.statsd_server.close()
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await self.statsd_server.wait_closed()
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until = time.time() + self.test_timeout
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while processor.connected:
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await asyncio.sleep(0.1)
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if time.time() >= until:
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self.fail('processor never disconnected')
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# Start the server on the same port and let the client reconnect.
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self.statsd_task = asyncio.create_task(self.statsd_server.run())
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await self.wait_for(self.statsd_server.client_connected.acquire())
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self.assertTrue(processor.connected)
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await self.wait_for(processor.stop())
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async def test_that_processor_can_be_cancelled(self):
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processor = statsd.Processor(host=self.statsd_server.host,
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port=self.statsd_server.port)
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task = asyncio.create_task(processor.run())
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await self.wait_for(self.statsd_server.client_connected.acquire())
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task.cancel()
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await self.wait_for(processor.stopped.wait())
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async def test_shutdown_when_disconnected(self):
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processor = statsd.Processor(host=self.statsd_server.host,
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port=self.statsd_server.port)
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asyncio.create_task(processor.run())
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await self.wait_for(self.statsd_server.client_connected.acquire())
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self.statsd_server.close()
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await self.statsd_server.wait_closed()
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await self.wait_for(processor.stop())
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async def test_socket_resets(self):
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processor = statsd.Processor(host=self.statsd_server.host,
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port=self.statsd_server.port)
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asyncio.create_task(processor.run())
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await self.wait_for(self.statsd_server.client_connected.acquire())
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self.statsd_server.transports[0].close()
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await self.wait_for(self.statsd_server.client_connected.acquire())
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await self.wait_for(processor.stop())
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async def test_that_stopping_when_not_running_is_safe(self):
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processor = statsd.Processor(host=self.statsd_server.host,
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port=self.statsd_server.port)
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await self.wait_for(processor.stop())
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def test_that_processor_fails_when_host_is_none(self):
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with self.assertRaises(RuntimeError) as context:
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statsd.Processor(host=None, port=12345) # type: ignore[arg-type]
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self.assertIn('host', str(context.exception))
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async def test_starting_and_stopping_without_connecting(self):
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host, port = self.statsd_server.host, self.statsd_server.port
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self.statsd_server.close()
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await self.wait_for(self.statsd_server.wait_closed())
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processor = statsd.Processor(host=host, port=port)
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asyncio.create_task(processor.run())
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await self.wait_for(processor.running.wait())
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await processor.stop()
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async def test_that_protocol_exceptions_are_logged(self):
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processor = statsd.Processor(host=self.statsd_server.host,
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port=self.statsd_server.port)
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asyncio.create_task(processor.run())
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await self.wait_for(processor.running.wait())
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with self.assertLogs(processor.logger, level=logging.ERROR) as cm:
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processor.queue.put_nowait('not-bytes') # type: ignore[arg-type]
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while processor.queue.qsize() > 0:
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await asyncio.sleep(0.1)
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for record in cm.records:
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if record.exc_info is not None and record.funcName == 'run':
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break
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else:
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self.fail('Expected run to log exception')
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await processor.stop()
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class TCPProcessingTests(ProcessorTestCase):
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ip_protocol = socket.IPPROTO_TCP
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async def asyncSetUp(self):
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await super().asyncSetUp()
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self.processor = statsd.Processor(host=self.statsd_server.host,
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port=self.statsd_server.port,
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reconnect_sleep=0.25)
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asyncio.create_task(self.processor.run())
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await self.wait_for(self.statsd_server.client_connected.acquire())
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async def asyncTearDown(self):
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await self.processor.stop()
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await super().asyncTearDown()
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async def test_connection_failures(self):
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# Change the port and close the transport, this will cause the
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# processor to reconnect to the new port and fail.
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self.processor.port = 1
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self.processor.protocol.transport.close()
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# Wait for the processor to be disconnected, then change the
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# port back and let the processor reconnect.
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while self.processor.connected:
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await asyncio.sleep(0.1)
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await asyncio.sleep(0.2)
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self.processor.port = self.statsd_server.port
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await self.wait_for(self.statsd_server.client_connected.acquire())
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async def test_socket_closure_while_processing_failed_event(self):
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state = {'first_time': True}
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real_process_metric = self.processor._process_metric
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async def fake_process_metric():
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if state['first_time']:
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self.processor.protocol.buffered_data = b'counter:1|c\n'
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self.processor.protocol.transport.close()
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state['first_time'] = False
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return await real_process_metric()
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self.processor._process_metric = fake_process_metric
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await self.wait_for(self.statsd_server.message_received.acquire())
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async def test_socket_closure_while_sending(self):
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state = {'first_time': True}
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protocol = typing.cast(statsd.TCPProtocol, self.processor.protocol)
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real_transport_write = protocol.transport.write
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def fake_transport_write(data):
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if state['first_time']:
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self.processor.protocol.transport.close()
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state['first_time'] = False
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return real_transport_write(data)
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protocol.transport.write = fake_transport_write
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self.processor.queue.put_nowait(b'counter:1|c')
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await self.wait_for(self.statsd_server.message_received.acquire())
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class UDPProcessingTests(ProcessorTestCase):
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ip_protocol = socket.IPPROTO_UDP
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async def asyncSetUp(self):
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await super().asyncSetUp()
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self.connector = statsd.Connector(host=self.statsd_server.host,
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port=self.statsd_server.port,
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ip_protocol=self.ip_protocol,
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reconnect_sleep=0.25)
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await self.connector.start()
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async def asyncTearDown(self):
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await self.connector.stop()
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await super().asyncTearDown()
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async def test_sending_metrics(self):
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self.connector.incr('counter')
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self.connector.timing('timer', 0.001)
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await self.wait_for(self.statsd_server.message_received.acquire())
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await self.wait_for(self.statsd_server.message_received.acquire())
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self.assertEqual(self.statsd_server.metrics[0],
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b'counters.counter:1|c')
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self.assertEqual(self.statsd_server.metrics[1], b'timers.timer:1.0|ms')
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async def test_that_client_sends_to_new_server(self):
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self.statsd_server.close()
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await self.statsd_server.wait_closed()
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self.connector.incr('should.be.lost')
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await asyncio.sleep(self.connector.processor._wait_timeout * 2)
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self.statsd_task = asyncio.create_task(self.statsd_server.run())
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await self.statsd_server.wait_running()
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self.connector.incr('should.be.recvd')
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await self.wait_for(self.statsd_server.message_received.acquire())
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self.assertEqual(self.statsd_server.metrics[0],
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b'counters.should.be.recvd:1|c')
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async def test_that_client_handles_socket_closure(self):
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self.connector.processor.protocol.transport.close()
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await self.wait_for(
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asyncio.sleep(self.connector.processor._reconnect_sleep))
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self.connector.incr('should.be.recvd')
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await self.wait_for(self.statsd_server.message_received.acquire())
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self.assertEqual(self.statsd_server.metrics[0],
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b'counters.should.be.recvd:1|c')
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class ConnectorTests(ProcessorTestCase):
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ip_protocol = socket.IPPROTO_TCP
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async def asyncSetUp(self):
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await super().asyncSetUp()
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self.connector = statsd.Connector(self.statsd_server.host,
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self.statsd_server.port)
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await self.connector.start()
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await self.wait_for(self.statsd_server.client_connected.acquire())
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async def asyncTearDown(self):
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await self.wait_for(self.connector.stop())
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await super().asyncTearDown()
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def assert_metrics_equal(self, recvd: bytes, path, value, type_code):
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decoded = recvd.decode('utf-8')
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recvd_path, _, rest = decoded.partition(':')
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recvd_value, _, recvd_code = rest.partition('|')
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self.assertEqual(path, recvd_path, 'metric path mismatch')
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self.assertEqual(recvd_value, str(value), 'metric value mismatch')
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self.assertEqual(recvd_code, type_code, 'metric type mismatch')
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async def test_adjusting_counter(self):
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self.connector.incr('simple.counter')
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await self.wait_for(self.statsd_server.message_received.acquire())
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self.assert_metrics_equal(self.statsd_server.metrics[-1],
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'counters.simple.counter', 1, 'c')
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self.connector.incr('simple.counter', 10)
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await self.wait_for(self.statsd_server.message_received.acquire())
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self.assert_metrics_equal(self.statsd_server.metrics[-1],
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'counters.simple.counter', 10, 'c')
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self.connector.decr('simple.counter')
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await self.wait_for(self.statsd_server.message_received.acquire())
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self.assert_metrics_equal(self.statsd_server.metrics[-1],
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'counters.simple.counter', -1, 'c')
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self.connector.decr('simple.counter', 10)
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await self.wait_for(self.statsd_server.message_received.acquire())
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self.assert_metrics_equal(self.statsd_server.metrics[-1],
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'counters.simple.counter', -10, 'c')
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async def test_adjusting_gauge(self):
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self.connector.gauge('simple.gauge', 100)
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self.connector.gauge('simple.gauge', -10, delta=True)
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self.connector.gauge('simple.gauge', 10, delta=True)
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for _ in range(3):
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await self.wait_for(self.statsd_server.message_received.acquire())
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self.assert_metrics_equal(self.statsd_server.metrics[0],
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'gauges.simple.gauge', '100', 'g')
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self.assert_metrics_equal(self.statsd_server.metrics[1],
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'gauges.simple.gauge', '-10', 'g')
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self.assert_metrics_equal(self.statsd_server.metrics[2],
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'gauges.simple.gauge', '+10', 'g')
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async def test_sending_timer(self):
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secs = 12.34
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self.connector.timing('simple.timer', secs)
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await self.wait_for(self.statsd_server.message_received.acquire())
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self.assert_metrics_equal(self.statsd_server.metrics[0],
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'timers.simple.timer', 12340.0, 'ms')
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async def test_that_queued_metrics_are_drained(self):
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# The easiest way to test that the internal metrics queue
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# is drained when the processor is stopped is to monkey
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# patch the "process metric" method to enqueue a few
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# metrics and then terminate the processor. It will exit
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# the run loop and drain the queue.
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real_process_metric = self.connector.processor._process_metric
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async def fake_process_metric():
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if not self.connector.processor.should_terminate:
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self.connector.incr('counter', 1)
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self.connector.incr('counter', 2)
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self.connector.incr('counter', 3)
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self.connector.processor.should_terminate = True
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return await real_process_metric()
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self.connector.processor._process_metric = fake_process_metric
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await self.wait_for(self.statsd_server.message_received.acquire())
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await self.wait_for(self.statsd_server.message_received.acquire())
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await self.wait_for(self.statsd_server.message_received.acquire())
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async def test_metrics_sent_while_disconnected_are_queued(self):
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self.statsd_server.close()
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await self.statsd_server.wait_closed()
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for value in range(50):
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self.connector.incr('counter', value)
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asyncio.create_task(self.statsd_server.run())
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await self.wait_for(self.statsd_server.client_connected.acquire())
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for value in range(50):
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await self.wait_for(self.statsd_server.message_received.acquire())
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self.assertEqual(f'counters.counter:{value}|c'.encode(),
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self.statsd_server.metrics.pop(0))
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class ConnectorOptionTests(ProcessorTestCase):
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ip_protocol = socket.IPPROTO_TCP
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def test_protocol_values(self):
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connector = statsd.Connector(host=self.statsd_server.host,
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port=self.statsd_server.port)
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self.assertEqual(socket.IPPROTO_TCP, connector.processor._ip_protocol)
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connector = statsd.Connector(host=self.statsd_server.host,
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port=self.statsd_server.port,
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ip_protocol=socket.IPPROTO_UDP)
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self.assertEqual(socket.IPPROTO_UDP, connector.processor._ip_protocol)
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with self.assertRaises(RuntimeError):
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statsd.Connector(host=self.statsd_server.host,
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port=self.statsd_server.port,
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ip_protocol=socket.IPPROTO_GRE)
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def test_invalid_port_values(self):
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for port in {None, 0, -1, 'not-a-number'}:
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with self.assertRaises(RuntimeError) as context:
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statsd.Connector(host=self.statsd_server.host, port=port)
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self.assertIn('port', str(context.exception))
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self.assertIn(repr(port), str(context.exception))
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async def test_that_metrics_are_dropped_when_queue_overflows(self):
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connector = statsd.Connector(host=self.statsd_server.host,
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port=1,
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max_queue_size=10)
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await connector.start()
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self.addCleanup(connector.stop)
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# fill up the queue with incr's
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for expected_size in range(1, connector.processor.queue.maxsize + 1):
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connector.incr('counter')
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self.assertEqual(connector.processor.queue.qsize(), expected_size)
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# the following decr's should be ignored
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for _ in range(10):
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connector.decr('counter')
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self.assertEqual(connector.processor.queue.qsize(), 10)
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# make sure that only the incr's are in the queue
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for _ in range(connector.processor.queue.qsize()):
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metric = await connector.processor.queue.get()
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self.assertEqual(metric, b'counters.counter:1|c')
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