cpython/Lib/test/test_sqlite3/test_transactions.py

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# pysqlite2/test/transactions.py: tests transactions
#
# Copyright (C) 2005-2007 Gerhard Häring <gh@ghaering.de>
#
# This file is part of pysqlite.
#
# This software is provided 'as-is', without any express or implied
# warranty. In no event will the authors be held liable for any damages
# arising from the use of this software.
#
# Permission is granted to anyone to use this software for any purpose,
# including commercial applications, and to alter it and redistribute it
# freely, subject to the following restrictions:
#
# 1. The origin of this software must not be misrepresented; you must not
# claim that you wrote the original software. If you use this software
# in a product, an acknowledgment in the product documentation would be
# appreciated but is not required.
# 2. Altered source versions must be plainly marked as such, and must not be
# misrepresented as being the original software.
# 3. This notice may not be removed or altered from any source distribution.
import unittest
import sqlite3 as sqlite
from contextlib import contextmanager
from test.support.os_helper import TESTFN, unlink
from test.support.script_helper import assert_python_ok
from .util import memory_database
from .util import MemoryDatabaseMixin
class TransactionTests(unittest.TestCase):
def setUp(self):
# We can disable the busy handlers, since we control
# the order of SQLite C API operations.
self.con1 = sqlite.connect(TESTFN, timeout=0)
self.cur1 = self.con1.cursor()
self.con2 = sqlite.connect(TESTFN, timeout=0)
self.cur2 = self.con2.cursor()
def tearDown(self):
try:
self.cur1.close()
self.con1.close()
self.cur2.close()
self.con2.close()
finally:
unlink(TESTFN)
def test_dml_does_not_auto_commit_before(self):
self.cur1.execute("create table test(i)")
self.cur1.execute("insert into test(i) values (5)")
self.cur1.execute("create table test2(j)")
self.cur2.execute("select i from test")
res = self.cur2.fetchall()
self.assertEqual(len(res), 0)
def test_insert_starts_transaction(self):
self.cur1.execute("create table test(i)")
self.cur1.execute("insert into test(i) values (5)")
self.cur2.execute("select i from test")
res = self.cur2.fetchall()
self.assertEqual(len(res), 0)
def test_update_starts_transaction(self):
self.cur1.execute("create table test(i)")
self.cur1.execute("insert into test(i) values (5)")
self.con1.commit()
self.cur1.execute("update test set i=6")
self.cur2.execute("select i from test")
res = self.cur2.fetchone()[0]
self.assertEqual(res, 5)
def test_delete_starts_transaction(self):
self.cur1.execute("create table test(i)")
self.cur1.execute("insert into test(i) values (5)")
self.con1.commit()
self.cur1.execute("delete from test")
self.cur2.execute("select i from test")
res = self.cur2.fetchall()
self.assertEqual(len(res), 1)
def test_replace_starts_transaction(self):
self.cur1.execute("create table test(i)")
self.cur1.execute("insert into test(i) values (5)")
self.con1.commit()
self.cur1.execute("replace into test(i) values (6)")
self.cur2.execute("select i from test")
res = self.cur2.fetchall()
self.assertEqual(len(res), 1)
self.assertEqual(res[0][0], 5)
def test_toggle_auto_commit(self):
self.cur1.execute("create table test(i)")
self.cur1.execute("insert into test(i) values (5)")
self.con1.isolation_level = None
self.assertEqual(self.con1.isolation_level, None)
self.cur2.execute("select i from test")
res = self.cur2.fetchall()
self.assertEqual(len(res), 1)
self.con1.isolation_level = "DEFERRED"
self.assertEqual(self.con1.isolation_level , "DEFERRED")
self.cur1.execute("insert into test(i) values (5)")
self.cur2.execute("select i from test")
res = self.cur2.fetchall()
self.assertEqual(len(res), 1)
def test_raise_timeout(self):
self.cur1.execute("create table test(i)")
self.cur1.execute("insert into test(i) values (5)")
with self.assertRaises(sqlite.OperationalError):
self.cur2.execute("insert into test(i) values (5)")
def test_locking(self):
# This tests the improved concurrency with pysqlite 2.3.4. You needed
# to roll back con2 before you could commit con1.
self.cur1.execute("create table test(i)")
self.cur1.execute("insert into test(i) values (5)")
with self.assertRaises(sqlite.OperationalError):
self.cur2.execute("insert into test(i) values (5)")
# NO self.con2.rollback() HERE!!!
self.con1.commit()
def test_rollback_cursor_consistency(self):
"""Check that cursors behave correctly after rollback."""
with memory_database() as con:
cur = con.cursor()
cur.execute("create table test(x)")
cur.execute("insert into test(x) values (5)")
cur.execute("select 1 union select 2 union select 3")
con.rollback()
self.assertEqual(cur.fetchall(), [(1,), (2,), (3,)])
def test_multiple_cursors_and_iternext(self):
# gh-94028: statements are cleared and reset in cursor iternext.
# Provoke the gh-94028 by using a cursor cache.
CURSORS = {}
def sql(cx, sql, *args):
cu = cx.cursor()
cu.execute(sql, args)
CURSORS[id(sql)] = cu
return cu
self.con1.execute("create table t(t)")
sql(self.con1, "insert into t values (?), (?), (?)", "u1", "u2", "u3")
self.con1.commit()
# On second connection, verify rows are visible, then delete them.
count = sql(self.con2, "select count(*) from t").fetchone()[0]
self.assertEqual(count, 3)
changes = sql(self.con2, "delete from t").rowcount
self.assertEqual(changes, 3)
self.con2.commit()
# Back in original connection, create 2 new users.
sql(self.con1, "insert into t values (?)", "u4")
sql(self.con1, "insert into t values (?)", "u5")
# The second connection cannot see uncommitted changes.
count = sql(self.con2, "select count(*) from t").fetchone()[0]
self.assertEqual(count, 0)
# First connection can see its own changes.
count = sql(self.con1, "select count(*) from t").fetchone()[0]
self.assertEqual(count, 2)
# The second connection can now see the changes.
self.con1.commit()
count = sql(self.con2, "select count(*) from t").fetchone()[0]
self.assertEqual(count, 2)
class RollbackTests(unittest.TestCase):
"""bpo-44092: sqlite3 now leaves it to SQLite to resolve rollback issues"""
def setUp(self):
self.con = sqlite.connect(":memory:")
self.cur1 = self.con.cursor()
self.cur2 = self.con.cursor()
with self.con:
self.con.execute("create table t(c)");
self.con.executemany("insert into t values(?)", [(0,), (1,), (2,)])
self.cur1.execute("begin transaction")
select = "select c from t"
self.cur1.execute(select)
self.con.rollback()
self.res = self.cur2.execute(select) # Reusing stmt from cache
def tearDown(self):
self.con.close()
def _check_rows(self):
for i, row in enumerate(self.res):
self.assertEqual(row[0], i)
def test_no_duplicate_rows_after_rollback_del_cursor(self):
del self.cur1
self._check_rows()
def test_no_duplicate_rows_after_rollback_close_cursor(self):
self.cur1.close()
self._check_rows()
def test_no_duplicate_rows_after_rollback_new_query(self):
self.cur1.execute("select c from t where c = 1")
self._check_rows()
class SpecialCommandTests(MemoryDatabaseMixin, unittest.TestCase):
def test_drop_table(self):
self.cur.execute("create table test(i)")
self.cur.execute("insert into test(i) values (5)")
self.cur.execute("drop table test")
def test_pragma(self):
self.cur.execute("create table test(i)")
self.cur.execute("insert into test(i) values (5)")
self.cur.execute("pragma count_changes=1")
class TransactionalDDL(MemoryDatabaseMixin, unittest.TestCase):
def test_ddl_does_not_autostart_transaction(self):
# For backwards compatibility reasons, DDL statements should not
# implicitly start a transaction.
self.con.execute("create table test(i)")
self.con.rollback()
result = self.con.execute("select * from test").fetchall()
self.assertEqual(result, [])
def test_immediate_transactional_ddl(self):
# You can achieve transactional DDL by issuing a BEGIN
# statement manually.
self.con.execute("begin immediate")
self.con.execute("create table test(i)")
self.con.rollback()
with self.assertRaises(sqlite.OperationalError):
self.con.execute("select * from test")
def test_transactional_ddl(self):
# You can achieve transactional DDL by issuing a BEGIN
# statement manually.
self.con.execute("begin")
self.con.execute("create table test(i)")
self.con.rollback()
with self.assertRaises(sqlite.OperationalError):
self.con.execute("select * from test")
class IsolationLevelFromInit(unittest.TestCase):
CREATE = "create table t(t)"
INSERT = "insert into t values(1)"
def setUp(self):
self.traced = []
def _run_test(self, cx):
cx.execute(self.CREATE)
cx.set_trace_callback(lambda stmt: self.traced.append(stmt))
with cx:
cx.execute(self.INSERT)
def test_isolation_level_default(self):
with memory_database() as cx:
self._run_test(cx)
self.assertEqual(self.traced, ["BEGIN ", self.INSERT, "COMMIT"])
def test_isolation_level_begin(self):
with memory_database(isolation_level="") as cx:
self._run_test(cx)
self.assertEqual(self.traced, ["BEGIN ", self.INSERT, "COMMIT"])
def test_isolation_level_deferred(self):
with memory_database(isolation_level="DEFERRED") as cx:
self._run_test(cx)
self.assertEqual(self.traced, ["BEGIN DEFERRED", self.INSERT, "COMMIT"])
def test_isolation_level_immediate(self):
with memory_database(isolation_level="IMMEDIATE") as cx:
self._run_test(cx)
self.assertEqual(self.traced,
["BEGIN IMMEDIATE", self.INSERT, "COMMIT"])
def test_isolation_level_exclusive(self):
with memory_database(isolation_level="EXCLUSIVE") as cx:
self._run_test(cx)
self.assertEqual(self.traced,
["BEGIN EXCLUSIVE", self.INSERT, "COMMIT"])
def test_isolation_level_none(self):
with memory_database(isolation_level=None) as cx:
self._run_test(cx)
self.assertEqual(self.traced, [self.INSERT])
class IsolationLevelPostInit(unittest.TestCase):
QUERY = "insert into t values(1)"
def setUp(self):
self.cx = sqlite.connect(":memory:")
self.cx.execute("create table t(t)")
self.traced = []
self.cx.set_trace_callback(lambda stmt: self.traced.append(stmt))
def tearDown(self):
self.cx.close()
def test_isolation_level_default(self):
with self.cx:
self.cx.execute(self.QUERY)
self.assertEqual(self.traced, ["BEGIN ", self.QUERY, "COMMIT"])
def test_isolation_level_begin(self):
self.cx.isolation_level = ""
with self.cx:
self.cx.execute(self.QUERY)
self.assertEqual(self.traced, ["BEGIN ", self.QUERY, "COMMIT"])
def test_isolation_level_deferrred(self):
self.cx.isolation_level = "DEFERRED"
with self.cx:
self.cx.execute(self.QUERY)
self.assertEqual(self.traced, ["BEGIN DEFERRED", self.QUERY, "COMMIT"])
def test_isolation_level_immediate(self):
self.cx.isolation_level = "IMMEDIATE"
with self.cx:
self.cx.execute(self.QUERY)
self.assertEqual(self.traced,
["BEGIN IMMEDIATE", self.QUERY, "COMMIT"])
def test_isolation_level_exclusive(self):
self.cx.isolation_level = "EXCLUSIVE"
with self.cx:
self.cx.execute(self.QUERY)
self.assertEqual(self.traced,
["BEGIN EXCLUSIVE", self.QUERY, "COMMIT"])
def test_isolation_level_none(self):
self.cx.isolation_level = None
with self.cx:
self.cx.execute(self.QUERY)
self.assertEqual(self.traced, [self.QUERY])
class AutocommitAttribute(unittest.TestCase):
"""Test PEP 249-compliant autocommit behaviour."""
legacy = sqlite.LEGACY_TRANSACTION_CONTROL
@contextmanager
def check_stmt_trace(self, cx, expected, reset=True):
try:
traced = []
cx.set_trace_callback(lambda stmt: traced.append(stmt))
yield
finally:
self.assertEqual(traced, expected)
if reset:
cx.set_trace_callback(None)
def test_autocommit_default(self):
with memory_database() as cx:
self.assertEqual(cx.autocommit,
sqlite.LEGACY_TRANSACTION_CONTROL)
def test_autocommit_setget(self):
dataset = (
True,
False,
sqlite.LEGACY_TRANSACTION_CONTROL,
)
for mode in dataset:
with self.subTest(mode=mode):
with memory_database(autocommit=mode) as cx:
self.assertEqual(cx.autocommit, mode)
with memory_database() as cx:
cx.autocommit = mode
self.assertEqual(cx.autocommit, mode)
def test_autocommit_setget_invalid(self):
msg = "autocommit must be True, False, or.*LEGACY"
for mode in "a", 12, (), None:
with self.subTest(mode=mode):
with self.assertRaisesRegex(ValueError, msg):
sqlite.connect(":memory:", autocommit=mode)
def test_autocommit_disabled(self):
expected = [
"SELECT 1",
"COMMIT",
"BEGIN",
"ROLLBACK",
"BEGIN",
]
with memory_database(autocommit=False) as cx:
self.assertTrue(cx.in_transaction)
with self.check_stmt_trace(cx, expected):
cx.execute("SELECT 1")
cx.commit()
cx.rollback()
def test_autocommit_disabled_implicit_rollback(self):
expected = ["ROLLBACK"]
with memory_database(autocommit=False) as cx:
self.assertTrue(cx.in_transaction)
with self.check_stmt_trace(cx, expected, reset=False):
cx.close()
def test_autocommit_enabled(self):
expected = ["CREATE TABLE t(t)", "INSERT INTO t VALUES(1)"]
with memory_database(autocommit=True) as cx:
self.assertFalse(cx.in_transaction)
with self.check_stmt_trace(cx, expected):
cx.execute("CREATE TABLE t(t)")
cx.execute("INSERT INTO t VALUES(1)")
self.assertFalse(cx.in_transaction)
def test_autocommit_enabled_txn_ctl(self):
for op in "commit", "rollback":
with self.subTest(op=op):
with memory_database(autocommit=True) as cx:
meth = getattr(cx, op)
self.assertFalse(cx.in_transaction)
with self.check_stmt_trace(cx, []):
meth() # expect this to pass silently
self.assertFalse(cx.in_transaction)
def test_autocommit_disabled_then_enabled(self):
expected = ["COMMIT"]
with memory_database(autocommit=False) as cx:
self.assertTrue(cx.in_transaction)
with self.check_stmt_trace(cx, expected):
cx.autocommit = True # should commit
self.assertFalse(cx.in_transaction)
def test_autocommit_enabled_then_disabled(self):
expected = ["BEGIN"]
with memory_database(autocommit=True) as cx:
self.assertFalse(cx.in_transaction)
with self.check_stmt_trace(cx, expected):
cx.autocommit = False # should begin
self.assertTrue(cx.in_transaction)
def test_autocommit_explicit_then_disabled(self):
expected = ["BEGIN DEFERRED"]
with memory_database(autocommit=True) as cx:
self.assertFalse(cx.in_transaction)
with self.check_stmt_trace(cx, expected):
cx.execute("BEGIN DEFERRED")
cx.autocommit = False # should now be a no-op
self.assertTrue(cx.in_transaction)
def test_autocommit_enabled_ctx_mgr(self):
with memory_database(autocommit=True) as cx:
# The context manager is a no-op if autocommit=True
with self.check_stmt_trace(cx, []):
with cx:
self.assertFalse(cx.in_transaction)
self.assertFalse(cx.in_transaction)
def test_autocommit_disabled_ctx_mgr(self):
expected = ["COMMIT", "BEGIN"]
with memory_database(autocommit=False) as cx:
with self.check_stmt_trace(cx, expected):
with cx:
self.assertTrue(cx.in_transaction)
self.assertTrue(cx.in_transaction)
def test_autocommit_compat_ctx_mgr(self):
expected = ["BEGIN ", "INSERT INTO T VALUES(1)", "COMMIT"]
with memory_database(autocommit=self.legacy) as cx:
cx.execute("create table t(t)")
with self.check_stmt_trace(cx, expected):
with cx:
self.assertFalse(cx.in_transaction)
cx.execute("INSERT INTO T VALUES(1)")
self.assertTrue(cx.in_transaction)
self.assertFalse(cx.in_transaction)
def test_autocommit_enabled_executescript(self):
expected = ["BEGIN", "SELECT 1"]
with memory_database(autocommit=True) as cx:
with self.check_stmt_trace(cx, expected):
self.assertFalse(cx.in_transaction)
cx.execute("BEGIN")
cx.executescript("SELECT 1")
self.assertTrue(cx.in_transaction)
def test_autocommit_disabled_executescript(self):
expected = ["SELECT 1"]
with memory_database(autocommit=False) as cx:
with self.check_stmt_trace(cx, expected):
self.assertTrue(cx.in_transaction)
cx.executescript("SELECT 1")
self.assertTrue(cx.in_transaction)
def test_autocommit_compat_executescript(self):
expected = ["BEGIN", "COMMIT", "SELECT 1"]
with memory_database(autocommit=self.legacy) as cx:
with self.check_stmt_trace(cx, expected):
self.assertFalse(cx.in_transaction)
cx.execute("BEGIN")
cx.executescript("SELECT 1")
self.assertFalse(cx.in_transaction)
def test_autocommit_disabled_implicit_shutdown(self):
# The implicit ROLLBACK should not call back into Python during
# interpreter tear-down.
code = """if 1:
import sqlite3
cx = sqlite3.connect(":memory:", autocommit=False)
cx.set_trace_callback(print)
"""
assert_python_ok("-c", code, PYTHONIOENCODING="utf-8")
if __name__ == "__main__":
unittest.main()