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#!/usr/bin/env python
#
# Public Domain 2014-present MongoDB, Inc.
# Public Domain 2008-2014 WiredTiger, Inc.
#
# This is free and unencumbered software released into the public domain.
#
# Anyone is free to copy, modify, publish, use, compile, sell, or
# distribute this software, either in source code form or as a compiled
# binary, for any purpose, commercial or non-commercial, and by any
# means.
#
# In jurisdictions that recognize copyright laws, the author or authors
# of this software dedicate any and all copyright interest in the
# software to the public domain. We make this dedication for the benefit
# of the public at large and to the detriment of our heirs and
# successors. We intend this dedication to be an overt act of
# relinquishment in perpetuity of all present and future rights to this
# software under copyright law.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
# EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
# MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.
# IN NO EVENT SHALL THE AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR
# OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE,
# ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
# OTHER DEALINGS IN THE SOFTWARE.
import time
from helper import copy_wiredtiger_home
import wiredtiger, wttest
from wtdataset import SimpleDataSet
from wtscenario import make_scenarios
# test_hs07.py
# Test that the history store sweep cleans the obsolete history store entries and gives expected results.
class test_hs07(wttest.WiredTigerTestCase):
# Force a small cache.
conn_config = ('cache_size=50MB,eviction_updates_trigger=95,'
'eviction_updates_target=80,log=(enabled)')
session_config = 'isolation=snapshot'
format_values = (
('column', dict(key_format='r', value_format='S')),
('column-fix', dict(key_format='r', value_format='8t')),
('integer-row', dict(key_format='i', value_format='S'))
)
scenarios = make_scenarios(format_values)
def large_updates(self, uri, value, ds, nrows, commit_ts):
# Update a large number of records, we'll hang if the history store table isn't working.
session = self.session
cursor = session.open_cursor(uri)
for i in range(1, nrows + 1):
session.begin_transaction()
cursor[ds.key(i)] = value
session.commit_transaction('commit_timestamp=' + self.timestamp_str(commit_ts))
cursor.close()
def check(self, check_value, uri, nrows, read_ts):
session = self.session
session.begin_transaction('read_timestamp=' + self.timestamp_str(read_ts))
cursor = session.open_cursor(uri)
count = 0
for k, v in cursor:
self.assertEqual(v, check_value)
count += 1
session.rollback_transaction()
self.assertEqual(count, nrows)
def test_hs(self):
nrows = 10000
# Create a table without logging to ensure we get "skew_newest" history store eviction
# behavior.
uri = "table:las07_main"
ds = SimpleDataSet(
self, uri, 0, key_format=self.key_format, value_format=self.value_format,
config='log=(enabled=false)')
ds.populate()
uri2 = "table:las07_extra"
ds2 = SimpleDataSet(
self, uri2, 0, key_format=self.key_format, value_format=self.value_format)
ds2.populate()
if self.value_format == '8t':
bigvalue = 97
bigvalue2 = 100
else:
bigvalue = "aaaaa" * 100
bigvalue2 = "ddddd" * 100
# Pin oldest and stable to timestamp 1.
self.conn.set_timestamp('oldest_timestamp=' + self.timestamp_str(1) +
',stable_timestamp=' + self.timestamp_str(1))
self.large_updates(uri, bigvalue, ds, nrows, 1)
# Check that all updates are seen
self.check(bigvalue, uri, nrows, 100)
# Force out most of the pages by updating a different tree
self.large_updates(uri2, bigvalue, ds2, nrows, 100)
# Check that the new updates are only seen after the update timestamp
self.check(bigvalue, uri, nrows, 100)
# Pin oldest and stable to timestamp 100.
self.conn.set_timestamp('oldest_timestamp=' + self.timestamp_str(100) +
',stable_timestamp=' + self.timestamp_str(100))
# Sleep here to let that sweep server to trigger cleanup of obsolete entries.
time.sleep(10)
# Check that the new updates are only seen after the update timestamp
self.check(bigvalue, uri, nrows, 100)
# Load a slight modification with a later timestamp.
cursor = self.session.open_cursor(uri)
self.session.begin_transaction()
for i in range(1, nrows):
cursor.set_key(i)
if self.value_format == '8t':
cursor.set_value(105)
cursor.update()
else:
mods = [wiredtiger.Modify('A', 10, 1)]
self.assertEqual(cursor.modify(mods), 0)
self.session.commit_transaction('commit_timestamp=' + self.timestamp_str(110))
# Load a slight modification with a later timestamp.
self.session.begin_transaction()
for i in range(1, nrows):
cursor.set_key(i)
if self.value_format == '8t':
cursor.set_value(106)
cursor.update()
else:
mods = [wiredtiger.Modify('B', 20, 1)]
self.assertEqual(cursor.modify(mods), 0)
self.session.commit_transaction('commit_timestamp=' + self.timestamp_str(120))
# Load a slight modification with a later timestamp.
self.session.begin_transaction()
for i in range(1, nrows):
cursor.set_key(i)
if self.value_format == '8t':
cursor.set_value(107)
cursor.update()
else:
mods = [wiredtiger.Modify('C', 30, 1)]
self.assertEqual(cursor.modify(mods), 0)
self.session.commit_transaction('commit_timestamp=' + self.timestamp_str(130))
cursor.close()
# Second set of update operations with increased timestamp
self.large_updates(uri, bigvalue2, ds, nrows, 200)
# Force out most of the pages by updating a different tree
self.large_updates(uri2, bigvalue2, ds2, nrows, 200)
# Check that the new updates are only seen after the update timestamp
self.check(bigvalue2, uri, nrows, 200)
# Pin oldest and stable to timestamp 300.
self.conn.set_timestamp('oldest_timestamp=' + self.timestamp_str(200) +
',stable_timestamp=' + self.timestamp_str(200))
# Sleep here to let that sweep server to trigger cleanup of obsolete entries.
time.sleep(10)
# Check that the new updates are only seen after the update timestamp
self.check(bigvalue2, uri, nrows, 200)
# Load a slight modification with a later timestamp.
cursor = self.session.open_cursor(uri)
self.session.begin_transaction()
for i in range(1, nrows):
cursor.set_key(i)
if self.value_format == '8t':
cursor.set_value(105)
cursor.update()
else:
mods = [wiredtiger.Modify('A', 10, 1)]
self.assertEqual(cursor.modify(mods), 0)
self.session.commit_transaction('commit_timestamp=' + self.timestamp_str(210))
# Load a slight modification with a later timestamp.
self.session.begin_transaction()
for i in range(1, nrows):
cursor.set_key(i)
if self.value_format == '8t':
cursor.set_value(106)
cursor.update()
else:
mods = [wiredtiger.Modify('B', 20, 1)]
self.assertEqual(cursor.modify(mods), 0)
self.session.commit_transaction('commit_timestamp=' + self.timestamp_str(220))
# Load a slight modification with a later timestamp.
self.session.begin_transaction()
for i in range(1, nrows):
cursor.set_key(i)
if self.value_format == '8t':
cursor.set_value(107)
cursor.update()
else:
mods = [wiredtiger.Modify('C', 30, 1)]
self.assertEqual(cursor.modify(mods), 0)
self.session.commit_transaction('commit_timestamp=' + self.timestamp_str(230))
cursor.close()
# Third set of update operations with increased timestamp
self.large_updates(uri, bigvalue, ds, nrows, 300)
# Force out most of the pages by updating a different tree
self.large_updates(uri2, bigvalue, ds2, nrows, 300)
# Check that the new updates are only seen after the update timestamp
self.check(bigvalue, uri, nrows, 300)
# Pin oldest and stable to timestamp 400.
self.conn.set_timestamp('oldest_timestamp=' + self.timestamp_str(300) +
',stable_timestamp=' + self.timestamp_str(300))
# Sleep here to let that sweep server to trigger cleanup of obsolete entries.
time.sleep(10)
# Check that the new updates are only seen after the update timestamp
self.check(bigvalue, uri, nrows, 300)
if __name__ == '__main__':
wttest.run()
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