synapse/tests/util/test_rwlock.py
Erik Johnston 23740eaa3d
Correctly mention previous copyright (#16820)
During the migration the automated script to update the copyright
headers accidentally got rid of some of the existing copyright lines.
Reinstate them.
2024-01-23 11:26:48 +00:00

402 lines
16 KiB
Python

#
# This file is licensed under the Affero General Public License (AGPL) version 3.
#
# Copyright 2016 OpenMarket Ltd
# Copyright (C) 2023 New Vector, Ltd
#
# This program is free software: you can redistribute it and/or modify
# it under the terms of the GNU Affero General Public License as
# published by the Free Software Foundation, either version 3 of the
# License, or (at your option) any later version.
#
# See the GNU Affero General Public License for more details:
# <https://www.gnu.org/licenses/agpl-3.0.html>.
#
# Originally licensed under the Apache License, Version 2.0:
# <http://www.apache.org/licenses/LICENSE-2.0>.
#
# [This file includes modifications made by New Vector Limited]
#
#
from typing import AsyncContextManager, Callable, Sequence, Tuple
from twisted.internet import defer
from twisted.internet.defer import CancelledError, Deferred
from synapse.util.async_helpers import ReadWriteLock
from tests import unittest
class ReadWriteLockTestCase(unittest.TestCase):
def _start_reader_or_writer(
self,
read_or_write: Callable[[str], AsyncContextManager],
key: str,
return_value: str,
) -> Tuple["Deferred[str]", "Deferred[None]", "Deferred[None]"]:
"""Starts a reader or writer which acquires the lock, blocks, then completes.
Args:
read_or_write: A function returning a context manager for a lock.
Either a bound `ReadWriteLock.read` or `ReadWriteLock.write`.
key: The key to read or write.
return_value: A string that the reader or writer will resolve with when
done.
Returns:
A tuple of three `Deferred`s:
* A cancellable `Deferred` for the entire read or write operation that
resolves with `return_value` on successful completion.
* A `Deferred` that resolves once the reader or writer acquires the lock.
* A `Deferred` that blocks the reader or writer. Must be resolved by the
caller to allow the reader or writer to release the lock and complete.
"""
acquired_d: "Deferred[None]" = Deferred()
unblock_d: "Deferred[None]" = Deferred()
async def reader_or_writer() -> str:
async with read_or_write(key):
acquired_d.callback(None)
await unblock_d
return return_value
d = defer.ensureDeferred(reader_or_writer())
return d, acquired_d, unblock_d
def _start_blocking_reader(
self, rwlock: ReadWriteLock, key: str, return_value: str
) -> Tuple["Deferred[str]", "Deferred[None]", "Deferred[None]"]:
"""Starts a reader which acquires the lock, blocks, then releases the lock.
See the docstring for `_start_reader_or_writer` for details about the arguments
and return values.
"""
return self._start_reader_or_writer(rwlock.read, key, return_value)
def _start_blocking_writer(
self, rwlock: ReadWriteLock, key: str, return_value: str
) -> Tuple["Deferred[str]", "Deferred[None]", "Deferred[None]"]:
"""Starts a writer which acquires the lock, blocks, then releases the lock.
See the docstring for `_start_reader_or_writer` for details about the arguments
and return values.
"""
return self._start_reader_or_writer(rwlock.write, key, return_value)
def _start_nonblocking_reader(
self, rwlock: ReadWriteLock, key: str, return_value: str
) -> Tuple["Deferred[str]", "Deferred[None]"]:
"""Starts a reader which acquires the lock, then releases it immediately.
See the docstring for `_start_reader_or_writer` for details about the arguments.
Returns:
A tuple of two `Deferred`s:
* A cancellable `Deferred` for the entire read operation that resolves with
`return_value` on successful completion.
* A `Deferred` that resolves once the reader acquires the lock.
"""
d, acquired_d, unblock_d = self._start_reader_or_writer(
rwlock.read, key, return_value
)
unblock_d.callback(None)
return d, acquired_d
def _start_nonblocking_writer(
self, rwlock: ReadWriteLock, key: str, return_value: str
) -> Tuple["Deferred[str]", "Deferred[None]"]:
"""Starts a writer which acquires the lock, then releases it immediately.
See the docstring for `_start_reader_or_writer` for details about the arguments.
Returns:
A tuple of two `Deferred`s:
* A cancellable `Deferred` for the entire write operation that resolves
with `return_value` on successful completion.
* A `Deferred` that resolves once the writer acquires the lock.
"""
d, acquired_d, unblock_d = self._start_reader_or_writer(
rwlock.write, key, return_value
)
unblock_d.callback(None)
return d, acquired_d
def _assert_first_n_resolved(
self, deferreds: Sequence["defer.Deferred[None]"], n: int
) -> None:
"""Assert that exactly the first n `Deferred`s in the given list are resolved.
Args:
deferreds: The list of `Deferred`s to be checked.
n: The number of `Deferred`s at the start of `deferreds` that should be
resolved.
"""
for i, d in enumerate(deferreds[:n]):
self.assertTrue(d.called, msg="deferred %d was unexpectedly unresolved" % i)
for i, d in enumerate(deferreds[n:]):
self.assertFalse(
d.called, msg="deferred %d was unexpectedly resolved" % (i + n)
)
def test_rwlock(self) -> None:
rwlock = ReadWriteLock()
key = "key"
ds = [
self._start_blocking_reader(rwlock, key, "0"),
self._start_blocking_reader(rwlock, key, "1"),
self._start_blocking_writer(rwlock, key, "2"),
self._start_blocking_writer(rwlock, key, "3"),
self._start_blocking_reader(rwlock, key, "4"),
self._start_blocking_reader(rwlock, key, "5"),
self._start_blocking_writer(rwlock, key, "6"),
]
# `Deferred`s that resolve when each reader or writer acquires the lock.
acquired_ds = [acquired_d for _, acquired_d, _ in ds]
# `Deferred`s that will trigger the release of locks when resolved.
release_ds = [release_d for _, _, release_d in ds]
# The first two readers should acquire their locks.
self._assert_first_n_resolved(acquired_ds, 2)
# Release one of the read locks. The next writer should not acquire the lock,
# because there is another reader holding the lock.
self._assert_first_n_resolved(acquired_ds, 2)
release_ds[0].callback(None)
self._assert_first_n_resolved(acquired_ds, 2)
# Release the other read lock. The next writer should acquire the lock.
self._assert_first_n_resolved(acquired_ds, 2)
release_ds[1].callback(None)
self._assert_first_n_resolved(acquired_ds, 3)
# Release the write lock. The next writer should acquire the lock.
self._assert_first_n_resolved(acquired_ds, 3)
release_ds[2].callback(None)
self._assert_first_n_resolved(acquired_ds, 4)
# Release the write lock. The next two readers should acquire locks.
self._assert_first_n_resolved(acquired_ds, 4)
release_ds[3].callback(None)
self._assert_first_n_resolved(acquired_ds, 6)
# Release one of the read locks. The next writer should not acquire the lock,
# because there is another reader holding the lock.
self._assert_first_n_resolved(acquired_ds, 6)
release_ds[5].callback(None)
self._assert_first_n_resolved(acquired_ds, 6)
# Release the other read lock. The next writer should acquire the lock.
self._assert_first_n_resolved(acquired_ds, 6)
release_ds[4].callback(None)
self._assert_first_n_resolved(acquired_ds, 7)
# Release the write lock.
release_ds[6].callback(None)
# Acquire and release the write and read locks one last time for good measure.
_, acquired_d = self._start_nonblocking_writer(rwlock, key, "last writer")
self.assertTrue(acquired_d.called)
_, acquired_d = self._start_nonblocking_reader(rwlock, key, "last reader")
self.assertTrue(acquired_d.called)
def test_lock_handoff_to_nonblocking_writer(self) -> None:
"""Test a writer handing the lock to another writer that completes instantly."""
rwlock = ReadWriteLock()
key = "key"
d1, _, unblock = self._start_blocking_writer(rwlock, key, "write 1 completed")
d2, _ = self._start_nonblocking_writer(rwlock, key, "write 2 completed")
self.assertFalse(d1.called)
self.assertFalse(d2.called)
# Unblock the first writer. The second writer will complete without blocking.
unblock.callback(None)
self.assertTrue(d1.called)
self.assertTrue(d2.called)
# The `ReadWriteLock` should operate as normal.
d3, _ = self._start_nonblocking_writer(rwlock, key, "write 3 completed")
self.assertTrue(d3.called)
def test_cancellation_while_holding_read_lock(self) -> None:
"""Test cancellation while holding a read lock.
A waiting writer should be given the lock when the reader holding the lock is
cancelled.
"""
rwlock = ReadWriteLock()
key = "key"
# 1. A reader takes the lock and blocks.
reader_d, _, _ = self._start_blocking_reader(rwlock, key, "read completed")
# 2. A writer waits for the reader to complete.
writer_d, _ = self._start_nonblocking_writer(rwlock, key, "write completed")
self.assertFalse(writer_d.called)
# 3. The reader is cancelled.
reader_d.cancel()
self.failureResultOf(reader_d, CancelledError)
# 4. The writer should take the lock and complete.
self.assertTrue(
writer_d.called, "Writer is stuck waiting for a cancelled reader"
)
self.assertEqual("write completed", self.successResultOf(writer_d))
def test_cancellation_while_holding_write_lock(self) -> None:
"""Test cancellation while holding a write lock.
A waiting reader should be given the lock when the writer holding the lock is
cancelled.
"""
rwlock = ReadWriteLock()
key = "key"
# 1. A writer takes the lock and blocks.
writer_d, _, _ = self._start_blocking_writer(rwlock, key, "write completed")
# 2. A reader waits for the writer to complete.
reader_d, _ = self._start_nonblocking_reader(rwlock, key, "read completed")
self.assertFalse(reader_d.called)
# 3. The writer is cancelled.
writer_d.cancel()
self.failureResultOf(writer_d, CancelledError)
# 4. The reader should take the lock and complete.
self.assertTrue(
reader_d.called, "Reader is stuck waiting for a cancelled writer"
)
self.assertEqual("read completed", self.successResultOf(reader_d))
def test_cancellation_while_waiting_for_read_lock(self) -> None:
"""Test cancellation while waiting for a read lock.
Tests that cancelling a waiting reader:
* does not cancel the writer it is waiting on
* does not cancel the next writer waiting on it
* does not allow the next writer to acquire the lock before an earlier writer
has finished
* does not keep the next writer waiting indefinitely
These correspond to the asserts with explicit messages.
"""
rwlock = ReadWriteLock()
key = "key"
# 1. A writer takes the lock and blocks.
writer1_d, _, unblock_writer1 = self._start_blocking_writer(
rwlock, key, "write 1 completed"
)
# 2. A reader waits for the first writer to complete.
# This reader will be cancelled later.
reader_d, _ = self._start_nonblocking_reader(rwlock, key, "read completed")
self.assertFalse(reader_d.called)
# 3. A second writer waits for both the first writer and the reader to complete.
writer2_d, _ = self._start_nonblocking_writer(rwlock, key, "write 2 completed")
self.assertFalse(writer2_d.called)
# 4. The waiting reader is cancelled.
# Neither of the writers should be cancelled.
# The second writer should still be waiting, but only on the first writer.
reader_d.cancel()
self.failureResultOf(reader_d, CancelledError)
self.assertFalse(writer1_d.called, "First writer was unexpectedly cancelled")
self.assertFalse(
writer2_d.called,
"Second writer was unexpectedly cancelled or given the lock before the "
"first writer finished",
)
# 5. Unblock the first writer, which should complete.
unblock_writer1.callback(None)
self.assertEqual("write 1 completed", self.successResultOf(writer1_d))
# 6. The second writer should take the lock and complete.
self.assertTrue(
writer2_d.called, "Second writer is stuck waiting for a cancelled reader"
)
self.assertEqual("write 2 completed", self.successResultOf(writer2_d))
def test_cancellation_while_waiting_for_write_lock(self) -> None:
"""Test cancellation while waiting for a write lock.
Tests that cancelling a waiting writer:
* does not cancel the reader or writer it is waiting on
* does not cancel the next writer waiting on it
* does not allow the next writer to acquire the lock before an earlier reader
and writer have finished
* does not keep the next writer waiting indefinitely
These correspond to the asserts with explicit messages.
"""
rwlock = ReadWriteLock()
key = "key"
# 1. A reader takes the lock and blocks.
reader_d, _, unblock_reader = self._start_blocking_reader(
rwlock, key, "read completed"
)
# 2. A writer waits for the reader to complete.
writer1_d, _, unblock_writer1 = self._start_blocking_writer(
rwlock, key, "write 1 completed"
)
# 3. A second writer waits for both the reader and first writer to complete.
# This writer will be cancelled later.
writer2_d, _ = self._start_nonblocking_writer(rwlock, key, "write 2 completed")
self.assertFalse(writer2_d.called)
# 4. A third writer waits for the second writer to complete.
writer3_d, _ = self._start_nonblocking_writer(rwlock, key, "write 3 completed")
self.assertFalse(writer3_d.called)
# 5. The second writer is cancelled, but continues waiting for the lock.
# The reader, first writer and third writer should not be cancelled.
# The first writer should still be waiting on the reader.
# The third writer should still be waiting on the second writer.
writer2_d.cancel()
self.assertNoResult(writer2_d)
self.assertFalse(reader_d.called, "Reader was unexpectedly cancelled")
self.assertFalse(writer1_d.called, "First writer was unexpectedly cancelled")
self.assertFalse(
writer3_d.called,
"Third writer was unexpectedly cancelled or given the lock before the first "
"writer finished",
)
# 6. Unblock the reader, which should complete.
# The first writer should be given the lock and block.
# The third writer should still be waiting on the second writer.
unblock_reader.callback(None)
self.assertEqual("read completed", self.successResultOf(reader_d))
self.assertNoResult(writer2_d)
self.assertFalse(
writer3_d.called,
"Third writer was unexpectedly given the lock before the first writer "
"finished",
)
# 7. Unblock the first writer, which should complete.
unblock_writer1.callback(None)
self.assertEqual("write 1 completed", self.successResultOf(writer1_d))
# 8. The second writer should take the lock and release it immediately, since it
# has been cancelled.
self.failureResultOf(writer2_d, CancelledError)
# 9. The third writer should take the lock and complete.
self.assertTrue(
writer3_d.called, "Third writer is stuck waiting for a cancelled writer"
)
self.assertEqual("write 3 completed", self.successResultOf(writer3_d))