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