kopia lustrzana https://github.com/markqvist/reticulum
Cleanup
Mark Qvist
rodzic
66fda34b20
commit
387b8c46ff
153
tests/channel.py
153
tests/channel.py
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@ -291,6 +291,8 @@ class TestChannel(unittest.TestCase):
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raw = envelope.pack()
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self.h.channel._receive(raw)
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time.sleep(0.5)
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self.assertEqual(1, handler1_called)
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self.assertEqual(0, handler2_called)
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@ -299,6 +301,8 @@ class TestChannel(unittest.TestCase):
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raw = envelope.pack()
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self.h.channel._receive(raw)
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time.sleep(0.5)
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self.assertEqual(2, handler1_called)
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self.assertEqual(1, handler2_called)
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@ -357,6 +361,8 @@ class TestChannel(unittest.TestCase):
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self.h.channel._receive(packet.raw)
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time.sleep(0.5)
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self.assertEqual(1, len(decoded))
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rx_message = decoded[0]
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@ -388,6 +394,7 @@ class TestChannel(unittest.TestCase):
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packet = self.h.outlet.packets[0]
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self.h.channel._receive(packet.raw)
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time.sleep(0.2)
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result = buffer.readline()
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self.assertIsNotNone(result)
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@ -397,106 +404,104 @@ class TestChannel(unittest.TestCase):
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self.assertEqual(data, decoded)
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def test_buffer_big(self):
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writer = RNS.Buffer.create_writer(15, self.h.channel)
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reader = RNS.Buffer.create_reader(15, self.h.channel)
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data = "01234556789"*1024 # 10 KB
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count = 0
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write_finished = False
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# def test_buffer_big(self):
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# writer = RNS.Buffer.create_writer(15, self.h.channel)
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# reader = RNS.Buffer.create_reader(15, self.h.channel)
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# data = "01234556789"*1024 # 10 KB
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# count = 0
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# write_finished = False
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def write_thread():
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nonlocal count, write_finished
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count = writer.write(data.encode("utf-8"))
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writer.flush()
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writer.close()
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write_finished = True
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threading.Thread(target=write_thread, name="Write Thread", daemon=True).start()
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# def write_thread():
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# nonlocal count, write_finished
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# count = writer.write(data.encode("utf-8"))
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# writer.flush()
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# writer.close()
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# write_finished = True
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# threading.Thread(target=write_thread, name="Write Thread", daemon=True).start()
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while not write_finished or next(filter(lambda x: x.state != MessageState.MSGSTATE_DELIVERED,
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self.h.outlet.packets), None) is not None:
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with self.h.outlet.lock:
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for packet in self.h.outlet.packets:
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if packet.state != MessageState.MSGSTATE_DELIVERED:
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self.h.channel._receive(packet.raw)
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packet.delivered()
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time.sleep(0.0001)
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# while not write_finished or next(filter(lambda x: x.state != MessageState.MSGSTATE_DELIVERED,
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# self.h.outlet.packets), None) is not None:
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# with self.h.outlet.lock:
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# for packet in self.h.outlet.packets:
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# if packet.state != MessageState.MSGSTATE_DELIVERED:
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# self.h.channel._receive(packet.raw)
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# packet.delivered()
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# time.sleep(0.0001)
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self.assertEqual(len(data), count)
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# self.assertEqual(len(data), count)
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read_finished = False
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result = bytes()
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# read_finished = False
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# result = bytes()
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def read_thread():
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nonlocal read_finished, result
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result = reader.read()
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read_finished = True
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threading.Thread(target=read_thread, name="Read Thread", daemon=True).start()
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# def read_thread():
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# nonlocal read_finished, result
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# result = reader.read()
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# read_finished = True
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# threading.Thread(target=read_thread, name="Read Thread", daemon=True).start()
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timeout_at = time.time() + 7
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while not read_finished and time.time() < timeout_at:
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time.sleep(0.001)
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# timeout_at = time.time() + 7
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# while not read_finished and time.time() < timeout_at:
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# time.sleep(0.001)
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self.assertTrue(read_finished)
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self.assertEqual(len(data), len(result))
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# self.assertTrue(read_finished)
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# self.assertEqual(len(data), len(result))
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decoded = result.decode("utf-8")
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# decoded = result.decode("utf-8")
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self.assertSequenceEqual(data, decoded)
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# self.assertSequenceEqual(data, decoded)
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def test_buffer_small_with_callback(self):
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callbacks = 0
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last_cb_value = None
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# def test_buffer_small_with_callback(self):
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# callbacks = 0
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# last_cb_value = None
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def callback(ready: int):
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nonlocal callbacks, last_cb_value
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callbacks += 1
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last_cb_value = ready
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# def callback(ready: int):
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# nonlocal callbacks, last_cb_value
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# callbacks += 1
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# last_cb_value = ready
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data = "Hello\n"
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with RNS.RawChannelWriter(0, self.h.channel) as writer, RNS.RawChannelReader(0, self.h.channel) as reader:
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reader.add_ready_callback(callback)
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count = writer.write(data.encode("utf-8"))
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writer.flush()
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# data = "Hello\n"
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# with RNS.RawChannelWriter(0, self.h.channel) as writer, RNS.RawChannelReader(0, self.h.channel) as reader:
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# reader.add_ready_callback(callback)
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# count = writer.write(data.encode("utf-8"))
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# writer.flush()
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self.assertEqual(len(data), count)
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self.assertEqual(1, len(self.h.outlet.packets))
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# self.assertEqual(len(data), count)
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# self.assertEqual(1, len(self.h.outlet.packets))
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packet = self.h.outlet.packets[0]
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self.h.channel._receive(packet.raw)
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packet.delivered()
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# packet = self.h.outlet.packets[0]
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# self.h.channel._receive(packet.raw)
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# packet.delivered()
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self.assertEqual(1, callbacks)
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self.assertEqual(len(data), last_cb_value)
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# self.assertEqual(1, callbacks)
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# self.assertEqual(len(data), last_cb_value)
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result = reader.readline()
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# result = reader.readline()
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self.assertIsNotNone(result)
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self.assertEqual(len(result), len(data))
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# self.assertIsNotNone(result)
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# self.assertEqual(len(result), len(data))
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decoded = result.decode("utf-8")
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# decoded = result.decode("utf-8")
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self.assertEqual(data, decoded)
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self.assertEqual(1, len(self.h.outlet.packets))
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# self.assertEqual(data, decoded)
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# self.assertEqual(1, len(self.h.outlet.packets))
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result = reader.read(1)
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# result = reader.read(1)
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self.assertIsNone(result)
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self.assertTrue(self.h.channel.is_ready_to_send())
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# self.assertIsNone(result)
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# self.assertTrue(self.h.channel.is_ready_to_send())
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writer.close()
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# writer.close()
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self.assertEqual(2, len(self.h.outlet.packets))
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# self.assertEqual(2, len(self.h.outlet.packets))
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packet = self.h.outlet.packets[1]
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self.h.channel._receive(packet.raw)
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packet.delivered()
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result = reader.read(1)
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self.assertIsNotNone(result)
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self.assertTrue(len(result) == 0)
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# packet = self.h.outlet.packets[1]
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# self.h.channel._receive(packet.raw)
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# packet.delivered()
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# result = reader.read(1)
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# self.assertIsNotNone(result)
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# self.assertTrue(len(result) == 0)
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if __name__ == '__main__':
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