465 lines
24 KiB
Python
465 lines
24 KiB
Python
"""Test hook for verifying correctness of secondary's behavior during an unclean shutdown."""
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import time
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import bson
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import pymongo
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import pymongo.errors
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from buildscripts.resmokelib import errors
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from buildscripts.resmokelib.testing.fixtures import interface as fixture
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from buildscripts.resmokelib.testing.fixtures import replicaset
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from buildscripts.resmokelib.testing.hooks import dbhash
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from buildscripts.resmokelib.testing.hooks import interface
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from buildscripts.resmokelib.testing.hooks import oplog
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from buildscripts.resmokelib.testing.hooks import validate
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class PeriodicKillSecondaries(interface.Hook):
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"""Periodically kills the secondaries in a replica set.
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Also verifies that the secondaries can reach the SECONDARY state without having connectivity
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to the primary after an unclean shutdown.
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"""
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IS_BACKGROUND = False
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DEFAULT_PERIOD_SECS = 30
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def __init__(self, hook_logger, rs_fixture, period_secs=DEFAULT_PERIOD_SECS):
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"""Initialize PeriodicKillSecondaries."""
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if not isinstance(rs_fixture, replicaset.ReplicaSetFixture):
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raise TypeError("{} either does not support replication or does not support writing to"
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" its oplog early".format(rs_fixture.__class__.__name__))
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if rs_fixture.num_nodes <= 1:
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raise ValueError("PeriodicKillSecondaries requires the replica set to contain at least"
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" one secondary")
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description = ("PeriodicKillSecondaries (kills the secondary after running tests for a"
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" configurable period of time)")
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interface.Hook.__init__(self, hook_logger, rs_fixture, description)
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self._period_secs = period_secs
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self._start_time = None
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self._last_test = None
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def after_suite(self, test_report, teardown_flag=None):
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"""Run after suite."""
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if self._start_time is not None:
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# Ensure that we test killing the secondary and having it reach state SECONDARY after
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# being restarted at least once when running the suite.
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# The if condition ensures we haven't already run after the last test, making this
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# equivalent to an 'after_test' call for the last test.
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self._run(test_report)
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def before_test(self, test, test_report):
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"""Run before test."""
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if self._start_time is not None:
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# The "rsSyncApplyStop" failpoint is already enabled.
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return
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for secondary in self.fixture.get_secondaries():
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# Enable the "rsSyncApplyStop" failpoint on the secondary to prevent them from
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# applying any oplog entries while the test is running.
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self._enable_rssyncapplystop(secondary)
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self._start_time = time.time()
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def after_test(self, test, test_report):
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"""Run after test."""
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self._last_test = test
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# Kill the secondaries and verify that they can reach the SECONDARY state if the specified
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# period has elapsed.
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should_check_secondaries = time.time() - self._start_time >= self._period_secs
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if not should_check_secondaries:
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return
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self._run(test_report)
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def _run(self, test_report):
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try:
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hook_test_case = PeriodicKillSecondariesTestCase.create_after_test(
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self.logger, self._last_test, self, test_report)
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hook_test_case.configure(self.fixture)
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hook_test_case.run_dynamic_test(test_report)
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finally:
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# Set the hook back into a state where it will disable oplog application at the start
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# of the next test that runs.
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# Always reset _start_time to prevent the hook from running in after_suite immediately
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# after failing in after_test.
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self._start_time = None
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def _enable_rssyncapplystop(self, secondary):
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# Enable the "rsSyncApplyStop" failpoint on the secondary to prevent them from
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# applying any oplog entries while the test is running.
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client = secondary.mongo_client()
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try:
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client.admin.command(
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bson.SON([("configureFailPoint", "rsSyncApplyStop"), ("mode", "alwaysOn")]))
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except pymongo.errors.OperationFailure as err:
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self.logger.exception("Unable to disable oplog application on the mongod on port %d",
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secondary.port)
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raise errors.ServerFailure(
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"Unable to disable oplog application on the mongod on port {}: {}".format(
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secondary.port, err.args[0]))
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def _disable_rssyncapplystop(self, secondary):
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# Disable the "rsSyncApplyStop" failpoint on the secondary to have it resume applying
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# oplog entries.
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client = secondary.mongo_client()
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try:
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client.admin.command(
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bson.SON([("configureFailPoint", "rsSyncApplyStop"), ("mode", "off")]))
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except pymongo.errors.OperationFailure as err:
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self.logger.exception("Unable to re-enable oplog application on the mongod on port %d",
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secondary.port)
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raise errors.ServerFailure(
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"Unable to re-enable oplog application on the mongod on port {}: {}".format(
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secondary.port, err.args[0]))
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class PeriodicKillSecondariesTestCase(interface.DynamicTestCase):
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"""PeriodicKillSecondariesTestCase class."""
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INTERRUPTED_DUE_TO_REPL_STATE_CHANGE = 11602
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INTERRUPTED_DUE_TO_STORAGE_CHANGE = 355
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def __init__( # pylint: disable=too-many-arguments
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self, logger, test_name, description, base_test_name, hook, test_report):
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"""Initialize PeriodicKillSecondariesTestCase."""
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interface.DynamicTestCase.__init__(self, logger, test_name, description, base_test_name,
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hook)
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self._test_report = test_report
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def run_test(self):
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"""Run the test."""
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self._kill_secondaries()
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self._check_secondaries_and_restart_fixture()
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# The CheckReplOplogs hook checks that the local.oplog.rs matches on the primary and
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# the secondaries.
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self._check_repl_oplog(self._test_report)
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# The CheckReplDBHash hook waits until all operations have replicated to and have been
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# applied on the secondaries, so we run the ValidateCollections hook after it to ensure
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# we're validating the entire contents of the collection.
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#
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# Verify that the dbhashes match across all nodes after having the secondaries reconcile
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# the end of their oplogs.
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self._check_repl_dbhash(self._test_report)
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# Validate all collections on all nodes after having the secondaries reconcile the end
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# of their oplogs.
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self._validate_collections(self._test_report)
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self._restart_and_clear_fixture()
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def _kill_secondaries(self):
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for secondary in self.fixture.get_secondaries():
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# Disable the "rsSyncApplyStop" failpoint on the secondary to have it resume applying
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# oplog entries.
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self._hook._disable_rssyncapplystop(secondary) # pylint: disable=protected-access
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# Wait a little bit for the secondary to start apply oplog entries so that we are more
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# likely to kill the mongod process while it is partway into applying a batch.
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time.sleep(0.1)
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# Check that the secondary is still running before forcibly terminating it. This ensures
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# we still detect some cases in which the secondary has already crashed.
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if not secondary.is_running():
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raise errors.ServerFailure(
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"mongod on port {} was expected to be running in"
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" PeriodicKillSecondaries.after_test(), but wasn't.".format(secondary.port))
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self.logger.info("Killing the secondary on port %d...", secondary.port)
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secondary.mongod.stop(mode=fixture.TeardownMode.KILL)
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try:
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self.fixture.teardown()
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except errors.ServerFailure:
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# Teardown may or may not be considered a success as a result of killing a secondary,
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# so we ignore ServerFailure raised during teardown.
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pass
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def _check_secondaries_and_restart_fixture(self):
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preserve_dbpaths = []
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for node in self.fixture.nodes:
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preserve_dbpaths.append(node.preserve_dbpath)
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node.preserve_dbpath = True
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for secondary in self.fixture.get_secondaries():
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self._check_invariants_as_standalone(secondary)
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self.logger.info(
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"Restarting the secondary on port %d as a replica set node with"
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" its data files intact...", secondary.port)
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# Start the 'secondary' mongod back up as part of the replica set and wait for it to
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# reach state SECONDARY.
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secondary.setup()
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self.logger.info(fixture.create_fixture_table(self.fixture))
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secondary.await_ready()
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self._await_secondary_state(secondary)
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try:
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secondary.teardown()
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except errors.ServerFailure:
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raise errors.ServerFailure(
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"{} did not exit cleanly after reconciling the end of its oplog".format(
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secondary))
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self.logger.info("Starting the fixture back up again with its data files intact for final"
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" validation...")
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try:
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self.fixture.setup()
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self.logger.info(fixture.create_fixture_table(self.fixture))
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self.fixture.await_ready()
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finally:
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for (i, node) in enumerate(self.fixture.nodes):
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node.preserve_dbpath = preserve_dbpaths[i]
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def _validate_collections(self, test_report):
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validate_test_case = validate.ValidateCollections(
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self._hook.logger, self.fixture,
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{'global_vars': {'TestData': {'skipEnforceFastCountOnValidate': True}}})
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validate_test_case.before_suite(test_report)
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validate_test_case.before_test(self, test_report)
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validate_test_case.after_test(self, test_report)
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validate_test_case.after_suite(test_report)
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def _check_repl_dbhash(self, test_report):
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dbhash_test_case = dbhash.CheckReplDBHash(self._hook.logger, self.fixture)
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dbhash_test_case.before_suite(test_report)
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dbhash_test_case.before_test(self, test_report)
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dbhash_test_case.after_test(self, test_report)
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dbhash_test_case.after_suite(test_report)
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def _check_repl_oplog(self, test_report):
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oplog_test_case = oplog.CheckReplOplogs(self._hook.logger, self.fixture)
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oplog_test_case.before_suite(test_report)
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oplog_test_case.before_test(self, test_report)
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oplog_test_case.after_test(self, test_report)
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oplog_test_case.after_suite(test_report)
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def _restart_and_clear_fixture(self):
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# We restart the fixture after setting 'preserve_dbpath' back to its original value in order
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# to clear the contents of the data directory if desired. The CleanEveryN hook cannot be
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# used in combination with the PeriodicKillSecondaries hook because we may attempt to call
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# Fixture.teardown() while the "rsSyncApplyStop" failpoint is still enabled on the
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# secondaries, causing them to exit with a non-zero return code.
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self.logger.info("Finished verifying data consistency, stopping the fixture...")
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try:
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self.fixture.teardown()
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except errors.ServerFailure:
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raise errors.ServerFailure(
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"{} did not exit cleanly after verifying data consistency".format(self.fixture))
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self.logger.info("Starting the fixture back up again with no data...")
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self.fixture.setup()
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self.logger.info(fixture.create_fixture_table(self.fixture))
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self.fixture.await_ready()
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def _check_invariants_as_standalone(self, secondary): # pylint: disable=too-many-locals
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# pylint: disable=too-many-branches,too-many-statements
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# We remove the --replSet option in order to start the node as a standalone.
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replset_name = secondary.mongod_options.pop("replSet")
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self.logger.info(
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"Restarting the secondary on port %d as a standalone node with"
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" its data files intact...", secondary.port)
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try:
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secondary.setup()
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self.logger.info(fixture.create_fixture_table(self.fixture))
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secondary.await_ready()
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client = secondary.mongo_client()
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minvalid_doc = client.local["replset.minvalid"].find_one()
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oplog_truncate_after_doc = client.local["replset.oplogTruncateAfterPoint"].find_one()
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recovery_timestamp_res = client.admin.command("replSetTest",
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getLastStableRecoveryTimestamp=True)
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latest_oplog_doc = client.local["oplog.rs"].find_one(sort=[("$natural",
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pymongo.DESCENDING)])
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self.logger.info("Checking invariants: minValid: {}, oplogTruncateAfterPoint: {},"
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" stable recovery timestamp: {}, latest oplog doc: {}".format(
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minvalid_doc, oplog_truncate_after_doc, recovery_timestamp_res,
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latest_oplog_doc))
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null_ts = bson.Timestamp(0, 0)
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# We wait for a stable recovery timestamp at setup, so we must have an oplog.
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latest_oplog_entry_ts = null_ts
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if latest_oplog_doc is None:
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raise errors.ServerFailure("No latest oplog entry")
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latest_oplog_entry_ts = latest_oplog_doc.get("ts")
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if latest_oplog_entry_ts is None:
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raise errors.ServerFailure(
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"Latest oplog entry had no 'ts' field: {}".format(latest_oplog_doc))
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# The "oplogTruncateAfterPoint" document may not exist at startup. If so, we default
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# it to null.
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oplog_truncate_after_ts = null_ts
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if oplog_truncate_after_doc is not None:
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oplog_truncate_after_ts = oplog_truncate_after_doc.get(
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"oplogTruncateAfterPoint", null_ts)
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# The "lastStableRecoveryTimestamp" field is present if the storage engine supports
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# "recover to a timestamp". If it's a null timestamp on a durable storage engine, that
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# means we do not yet have a stable checkpoint timestamp and must be restarting at the
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# top of the oplog. Since we wait for a stable recovery timestamp at test fixture setup,
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# we should never encounter a null timestamp here.
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recovery_timestamp = recovery_timestamp_res.get("lastStableRecoveryTimestamp")
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if recovery_timestamp == null_ts:
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raise errors.ServerFailure(
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"Received null stable recovery timestamp {}".format(recovery_timestamp_res))
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# On a storage engine that doesn't support "recover to a timestamp", we default to null.
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if recovery_timestamp is None:
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recovery_timestamp = null_ts
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# last stable recovery timestamp <= top of oplog
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if not recovery_timestamp <= latest_oplog_entry_ts:
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raise errors.ServerFailure("The condition last stable recovery timestamp <= top"
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" of oplog ({} <= {}) doesn't hold:"
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" getLastStableRecoveryTimestamp result={},"
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" latest oplog entry={}".format(
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recovery_timestamp, latest_oplog_entry_ts,
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recovery_timestamp_res, latest_oplog_doc))
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if minvalid_doc is not None:
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applied_through_ts = minvalid_doc.get("begin", {}).get("ts", null_ts)
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minvalid_ts = minvalid_doc.get("ts", null_ts)
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# The "appliedThrough" value should always equal the "last stable recovery
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# timestamp", AKA the stable checkpoint for durable engines, on server restart.
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#
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# The written "appliedThrough" time is updated with the latest timestamp at the end
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# of each batch application, and batch boundaries are the only valid stable
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# timestamps on secondaries. Therefore, a non-null appliedThrough timestamp must
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# equal the checkpoint timestamp, because any stable timestamp that the checkpoint
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# could use includes an equal persisted appliedThrough timestamp.
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if (recovery_timestamp != null_ts and applied_through_ts != null_ts
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and (not recovery_timestamp == applied_through_ts)):
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raise errors.ServerFailure(
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"The condition last stable recovery timestamp ({}) == appliedThrough ({})"
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" doesn't hold: minValid document={},"
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" getLastStableRecoveryTimestamp result={}, last oplog entry={}".format(
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recovery_timestamp, applied_through_ts, minvalid_doc,
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recovery_timestamp_res, latest_oplog_doc))
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if applied_through_ts == null_ts:
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# We clear "appliedThrough" to represent having applied through the top of the
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# oplog in PRIMARY state or immediately after "rollback via refetch".
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# If we are using a storage engine that supports "recover to a timestamp,"
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# then we will have a "last stable recovery timestamp" and we should use that
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# as our "appliedThrough" (similarly to why we assert their equality above).
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# If both are null, then we are in PRIMARY state on a storage engine that does
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# not support "recover to a timestamp" or in RECOVERING immediately after
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# "rollback via refetch". Since we do not update "minValid" in PRIMARY state,
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# we leave "appliedThrough" as null so that the invariants below hold, rather
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# than substituting the latest oplog entry for the "appliedThrough" value.
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applied_through_ts = recovery_timestamp
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if minvalid_ts == null_ts:
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# The server treats the "ts" field in the minValid document as missing when its
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# value is the null timestamp.
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minvalid_ts = applied_through_ts
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if latest_oplog_entry_ts == null_ts:
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# If the oplog is empty, we treat the "minValid" as the latest oplog entry.
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latest_oplog_entry_ts = minvalid_ts
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if oplog_truncate_after_ts == null_ts:
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# The server treats the "oplogTruncateAfterPoint" field as missing when its
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# value is the null timestamp. When it is null, the oplog is complete and
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# should not be truncated, so it is effectively the top of the oplog.
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oplog_truncate_after_ts = latest_oplog_entry_ts
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# Check the ordering invariants before the secondary has reconciled the end of
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# its oplog.
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# The "oplogTruncateAfterPoint" is set to the first timestamp of each batch of
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# oplog entries before they are written to the oplog. Thus, it can be ahead
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# of the top of the oplog before any oplog entries are written, and behind it
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# after some are written. Thus, we cannot compare it to the top of the oplog.
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# appliedThrough <= minValid
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# appliedThrough represents the end of the previous batch, so it is always the
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# earliest.
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if applied_through_ts > minvalid_ts:
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raise errors.ServerFailure(
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"The condition appliedThrough <= minValid ({} <= {}) doesn't hold: minValid"
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" document={}, latest oplog entry={}".format(
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applied_through_ts, minvalid_ts, minvalid_doc, latest_oplog_doc))
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# minValid <= oplogTruncateAfterPoint
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# This is true because this hook is never run after a rollback. Thus, we only
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# move "minValid" to the end of each batch after the batch is written to the oplog.
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# We reset the "oplogTruncateAfterPoint" to null before we move "minValid" from
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# the end of the previous batch to the end of the current batch. Thus "minValid"
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# must be less than or equal to the "oplogTruncateAfterPoint".
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if minvalid_ts > oplog_truncate_after_ts:
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raise errors.ServerFailure(
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"The condition minValid <= oplogTruncateAfterPoint ({} <= {}) doesn't"
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" hold: minValid document={}, oplogTruncateAfterPoint document={},"
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" latest oplog entry={}".format(minvalid_ts, oplog_truncate_after_ts,
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minvalid_doc, oplog_truncate_after_doc,
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latest_oplog_doc))
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# minvalid <= latest oplog entry
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# "minValid" is set to the end of a batch after the batch is written to the oplog.
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# Thus it is always less than or equal to the top of the oplog.
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if minvalid_ts > latest_oplog_entry_ts:
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raise errors.ServerFailure(
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"The condition minValid <= top of oplog ({} <= {}) doesn't"
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" hold: minValid document={}, latest oplog entry={}".format(
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minvalid_ts, latest_oplog_entry_ts, minvalid_doc, latest_oplog_doc))
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try:
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secondary.teardown()
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except errors.ServerFailure:
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raise errors.ServerFailure(
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"{} did not exit cleanly after being started up as a standalone".format(
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secondary))
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except pymongo.errors.OperationFailure as err:
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self.logger.exception(
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"Failed to read the minValid document, the oplogTruncateAfterPoint document,"
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" the last stable recovery timestamp, or the latest oplog entry from the"
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" mongod on port %d", secondary.port)
|
|
raise errors.ServerFailure(
|
|
"Failed to read the minValid document, the oplogTruncateAfterPoint document,"
|
|
" the last stable recovery timestamp, or the latest oplog entry from the"
|
|
" mongod on port {}: {}".format(secondary.port, err.args[0]))
|
|
finally:
|
|
# Set the secondary's options back to their original values.
|
|
secondary.mongod_options["replSet"] = replset_name
|
|
|
|
def _await_secondary_state(self, secondary):
|
|
client = secondary.mongo_client()
|
|
while True:
|
|
try:
|
|
client.admin.command(
|
|
bson.SON([
|
|
("replSetTest", 1),
|
|
("waitForMemberState", 2), # 2 = SECONDARY
|
|
("timeoutMillis",
|
|
fixture.ReplFixture.AWAIT_REPL_TIMEOUT_FOREVER_MINS * 60 * 1000)
|
|
]))
|
|
break
|
|
except pymongo.errors.OperationFailure as err:
|
|
if (err.code != self.INTERRUPTED_DUE_TO_REPL_STATE_CHANGE
|
|
and err.code != self.INTERRUPTED_DUE_TO_STORAGE_CHANGE):
|
|
self.logger.exception(
|
|
"mongod on port %d failed to reach state SECONDARY after %d seconds",
|
|
secondary.port, fixture.ReplFixture.AWAIT_REPL_TIMEOUT_FOREVER_MINS * 60)
|
|
raise errors.ServerFailure(
|
|
"mongod on port {} failed to reach state SECONDARY after {} seconds: {}".
|
|
format(secondary.port,
|
|
fixture.ReplFixture.AWAIT_REPL_TIMEOUT_FOREVER_MINS * 60,
|
|
err.args[0]))
|
|
|
|
msg = ("Interrupted while waiting for node to reach secondary state, retrying: {}"
|
|
).format(err)
|
|
self.logger.error(msg)
|