# coding: utf-8 import datetime import itertools import logging import logging.handlers from sqlalchemy import BigInteger from sqlalchemy import bindparam from sqlalchemy import cast from sqlalchemy import Column from sqlalchemy import create_engine from sqlalchemy import DateTime from sqlalchemy import DDL from sqlalchemy import event from sqlalchemy import exc from sqlalchemy import extract from sqlalchemy import func from sqlalchemy import Integer from sqlalchemy import literal from sqlalchemy import literal_column from sqlalchemy import MetaData from sqlalchemy import Numeric from sqlalchemy import schema from sqlalchemy import select from sqlalchemy import Sequence from sqlalchemy import SmallInteger from sqlalchemy import String from sqlalchemy import Table from sqlalchemy import testing from sqlalchemy import text from sqlalchemy import TypeDecorator from sqlalchemy import util from sqlalchemy.dialects.postgresql import base as postgresql from sqlalchemy.dialects.postgresql import insert as pg_insert from sqlalchemy.dialects.postgresql import psycopg2 as psycopg2_dialect from sqlalchemy.dialects.postgresql.psycopg2 import EXECUTEMANY_BATCH from sqlalchemy.dialects.postgresql.psycopg2 import EXECUTEMANY_PLAIN from sqlalchemy.dialects.postgresql.psycopg2 import EXECUTEMANY_VALUES from sqlalchemy.engine import cursor as _cursor from sqlalchemy.engine import engine_from_config from sqlalchemy.engine import url from sqlalchemy.sql.selectable import LABEL_STYLE_TABLENAME_PLUS_COL from sqlalchemy.testing import config from sqlalchemy.testing import engines from sqlalchemy.testing import expect_raises_message from sqlalchemy.testing import fixtures from sqlalchemy.testing import is_ from sqlalchemy.testing import is_false from sqlalchemy.testing import is_true from sqlalchemy.testing import mock from sqlalchemy.testing.assertions import assert_raises from sqlalchemy.testing.assertions import assert_raises_message from sqlalchemy.testing.assertions import AssertsCompiledSQL from sqlalchemy.testing.assertions import AssertsExecutionResults from sqlalchemy.testing.assertions import eq_ from sqlalchemy.testing.assertions import eq_regex from sqlalchemy.testing.assertions import ne_ from sqlalchemy.util import u from sqlalchemy.util import ue from ...engine import test_deprecations if True: from sqlalchemy.dialects.postgresql.psycopg2 import ( EXECUTEMANY_VALUES_PLUS_BATCH, ) class DialectTest(fixtures.TestBase): """python-side dialect tests.""" def test_version_parsing(self): def mock_conn(res): return mock.Mock( exec_driver_sql=mock.Mock( return_value=mock.Mock(scalar=mock.Mock(return_value=res)) ) ) dialect = postgresql.dialect() for string, version in [ ( "PostgreSQL 8.3.8 on i686-redhat-linux-gnu, compiled by " "GCC gcc (GCC) 4.1.2 20070925 (Red Hat 4.1.2-33)", (8, 3, 8), ), ( "PostgreSQL 8.5devel on x86_64-unknown-linux-gnu, " "compiled by GCC gcc (GCC) 4.4.2, 64-bit", (8, 5), ), ( "EnterpriseDB 9.1.2.2 on x86_64-unknown-linux-gnu, " "compiled by gcc (GCC) 4.1.2 20080704 (Red Hat 4.1.2-50), " "64-bit", (9, 1, 2), ), ( "[PostgreSQL 9.2.4 ] VMware vFabric Postgres 9.2.4.0 " "release build 1080137", (9, 2, 4), ), ( "PostgreSQL 10devel on x86_64-pc-linux-gnu" "compiled by gcc (GCC) 6.3.1 20170306, 64-bit", (10,), ), ( "PostgreSQL 10beta1 on x86_64-pc-linux-gnu, " "compiled by gcc (GCC) 4.8.5 20150623 " "(Red Hat 4.8.5-11), 64-bit", (10,), ), ( "PostgreSQL 8.0.2 on i686-pc-linux-gnu, compiled by GCC gcc " "(GCC) 3.4.2 20041017 (Red Hat 3.4.2-6.fc3), " "Redshift 1.0.12103", (8, 0, 2), ), ]: eq_(dialect._get_server_version_info(mock_conn(string)), version) @testing.only_on("postgresql") def test_ensure_version_is_qualified( self, future_connection, testing_engine, metadata ): default_schema_name = future_connection.dialect.default_schema_name event.listen( metadata, "after_create", DDL( """ CREATE OR REPLACE FUNCTION %s.version() RETURNS integer AS $$ BEGIN return 0; END; $$ LANGUAGE plpgsql;""" % (default_schema_name,) ), ) event.listen( metadata, "before_drop", DDL("DROP FUNCTION %s.version" % (default_schema_name,)), ) metadata.create_all(future_connection) future_connection.commit() e = testing_engine() @event.listens_for(e, "do_connect") def receive_do_connect(dialect, conn_rec, cargs, cparams): conn = dialect.dbapi.connect(*cargs, **cparams) cursor = conn.cursor() cursor.execute( "set search_path = %s,pg_catalog" % (default_schema_name,) ) cursor.close() return conn with e.connect(): pass eq_( e.dialect.server_version_info, future_connection.dialect.server_version_info, ) @testing.requires.python3 @testing.requires.psycopg2_compatibility def test_pg_dialect_no_native_unicode_in_python3(self, testing_engine): with testing.expect_raises_message( exc.ArgumentError, "psycopg2 native_unicode mode is required under Python 3", ): testing_engine(options=dict(use_native_unicode=False)) @testing.requires.python2 @testing.requires.psycopg2_compatibility def test_pg_dialect_no_native_unicode_in_python2(self, testing_engine): e = testing_engine(options=dict(use_native_unicode=False)) with e.connect() as conn: eq_( conn.exec_driver_sql(u"SELECT '🐍 voix m’a rĂ©veillĂ©'").scalar(), u"🐍 voix m’a rĂ©veillĂ©".encode("utf-8"), ) @testing.requires.python2 @testing.requires.psycopg2_compatibility def test_pg_dialect_use_native_unicode_from_config(self): config = { "sqlalchemy.url": testing.db.url, "sqlalchemy.use_native_unicode": "false", } e = engine_from_config(config, _initialize=False) eq_(e.dialect.use_native_unicode, False) config = { "sqlalchemy.url": testing.db.url, "sqlalchemy.use_native_unicode": "true", } e = engine_from_config(config, _initialize=False) eq_(e.dialect.use_native_unicode, True) def test_psycopg2_empty_connection_string(self): dialect = psycopg2_dialect.dialect() u = url.make_url("postgresql://") cargs, cparams = dialect.create_connect_args(u) eq_(cargs, [""]) eq_(cparams, {}) def test_psycopg2_nonempty_connection_string(self): dialect = psycopg2_dialect.dialect() u = url.make_url("postgresql://host") cargs, cparams = dialect.create_connect_args(u) eq_(cargs, []) eq_(cparams, {"host": "host"}) def test_psycopg2_empty_connection_string_w_query_one(self): dialect = psycopg2_dialect.dialect() u = url.make_url("postgresql:///?service=swh-log") cargs, cparams = dialect.create_connect_args(u) eq_(cargs, []) eq_(cparams, {"service": "swh-log"}) def test_psycopg2_empty_connection_string_w_query_two(self): dialect = psycopg2_dialect.dialect() u = url.make_url("postgresql:///?any_random_thing=yes") cargs, cparams = dialect.create_connect_args(u) eq_(cargs, []) eq_(cparams, {"any_random_thing": "yes"}) def test_psycopg2_nonempty_connection_string_w_query(self): dialect = psycopg2_dialect.dialect() u = url.make_url("postgresql://somehost/?any_random_thing=yes") cargs, cparams = dialect.create_connect_args(u) eq_(cargs, []) eq_(cparams, {"host": "somehost", "any_random_thing": "yes"}) @testing.combinations( ( "postgresql+psycopg2://USER:PASS@/DB?host=hostA", { "database": "DB", "user": "USER", "password": "PASS", "host": "hostA", }, ), ( "postgresql+psycopg2://USER:PASS@/DB" "?host=hostA&host=hostB&host=hostC", { "database": "DB", "user": "USER", "password": "PASS", "host": "hostA,hostB,hostC", "port": ",,", }, ), ( "postgresql+psycopg2://USER:PASS@/DB" "?host=hostA&host=hostB:portB&host=hostC:portC", { "database": "DB", "user": "USER", "password": "PASS", "host": "hostA,hostB,hostC", "port": ",portB,portC", }, ), ( "postgresql+psycopg2://USER:PASS@/DB?" "host=hostA:portA&host=hostB:portB&host=hostC:portC", { "database": "DB", "user": "USER", "password": "PASS", "host": "hostA,hostB,hostC", "port": "portA,portB,portC", }, ), ( "postgresql+psycopg2:///" "?host=hostA:portA&host=hostB:portB&host=hostC:portC", {"host": "hostA,hostB,hostC", "port": "portA,portB,portC"}, ), ( "postgresql+psycopg2:///" "?host=hostA:portA&host=hostB:portB&host=hostC:portC", {"host": "hostA,hostB,hostC", "port": "portA,portB,portC"}, ), ( "postgresql+psycopg2:///" "?host=hostA,hostB,hostC&port=portA,portB,portC", {"host": "hostA,hostB,hostC", "port": "portA,portB,portC"}, ), argnames="url_string,expected", ) def test_psycopg_multi_hosts(self, url_string, expected): dialect = psycopg2_dialect.dialect() u = url.make_url(url_string) cargs, cparams = dialect.create_connect_args(u) eq_(cargs, []) eq_(cparams, expected) @testing.combinations( "postgresql+psycopg2:///?host=H&host=H&port=5432,5432", "postgresql+psycopg2://user:pass@/dbname?host=H&host=H&port=5432,5432", argnames="url_string", ) def test_psycopg_no_mix_hosts(self, url_string): dialect = psycopg2_dialect.dialect() with expect_raises_message( exc.ArgumentError, "Can't mix 'multihost' formats together" ): u = url.make_url(url_string) dialect.create_connect_args(u) def test_psycopg2_disconnect(self): class Error(Exception): pass dbapi = mock.Mock() dbapi.Error = Error dialect = psycopg2_dialect.dialect(dbapi=dbapi) for error in [ # these error messages from libpq: interfaces/libpq/fe-misc.c # and interfaces/libpq/fe-secure.c. "terminating connection", "closed the connection", "connection not open", "could not receive data from server", "could not send data to server", # psycopg2 client errors, psycopg2/conenction.h, # psycopg2/cursor.h "connection already closed", "cursor already closed", # not sure where this path is originally from, it may # be obsolete. It really says "losed", not "closed". "losed the connection unexpectedly", # these can occur in newer SSL "connection has been closed unexpectedly", "SSL error: decryption failed or bad record mac", "SSL SYSCALL error: Bad file descriptor", "SSL SYSCALL error: EOF detected", "SSL SYSCALL error: Operation timed out", "SSL SYSCALL error: Bad address", ]: eq_(dialect.is_disconnect(Error(error), None, None), True) eq_(dialect.is_disconnect("not an error", None, None), False) class BackendDialectTest(fixtures.TestBase): __backend__ = True @testing.only_on(["+psycopg", "+psycopg2"]) @testing.combinations( "host=H:P&host=H:P&host=H:P", "host=H:P&host=H&host=H", "host=H:P&host=H&host=H:P", "host=H&host=H:P&host=H", "host=H,H,H&port=P,P,P", ) def test_connect_psycopg_multiple_hosts(self, pattern): """test the fix for #4392""" tdb_url = testing.db.url host = tdb_url.host if host == "127.0.0.1": host = "localhost" port = str(tdb_url.port) if tdb_url.port else "5432" query_str = pattern.replace("H", host).replace("P", port) url_string = "%s://%s:" "%s@/%s?%s" % ( tdb_url.drivername, tdb_url.username, tdb_url.password, tdb_url.database, query_str, ) e = create_engine(url_string) with e.connect() as conn: eq_(conn.exec_driver_sql("select 1").scalar(), 1) class PGCodeTest(fixtures.TestBase): __only_on__ = "postgresql" def test_error_code(self, metadata, connection): t = Table("t", metadata, Column("id", Integer, primary_key=True)) t.create(connection) errmsg = assert_raises( exc.IntegrityError, connection.execute, t.insert(), [{"id": 1}, {"id": 1}], ) if testing.against("postgresql+pg8000"): # TODO: is there another way we're supposed to see this? eq_(errmsg.orig.args[0]["C"], "23505") else: eq_(errmsg.orig.pgcode, "23505") if testing.against("postgresql+asyncpg"): eq_(errmsg.orig.sqlstate, "23505") class ExecuteManyMode(object): __only_on__ = "postgresql+psycopg2" __backend__ = True run_create_tables = "each" run_deletes = None options = None @config.fixture() def connection(self): opts = dict(self.options) opts["use_reaper"] = False eng = engines.testing_engine(options=opts) conn = eng.connect() trans = conn.begin() yield conn if trans.is_active: trans.rollback() conn.close() eng.dispose() @classmethod def define_tables(cls, metadata): Table( "data", metadata, Column("id", Integer, primary_key=True), Column("x", String), Column("y", String), Column("z", Integer, server_default="5"), ) Table( u("UnitĂ©ble2"), metadata, Column(u("mĂ©il"), Integer, primary_key=True), Column(ue("\u6e2c\u8a66"), Integer), ) @testing.combinations( "insert", "pg_insert", "pg_insert_on_conflict", argnames="insert_type" ) def test_insert(self, connection, insert_type): from psycopg2 import extras values_page_size = connection.dialect.executemany_values_page_size batch_page_size = connection.dialect.executemany_batch_page_size if connection.dialect.executemany_mode & EXECUTEMANY_VALUES: meth = extras.execute_values stmt = "INSERT INTO data (x, y) VALUES %s" expected_kwargs = { "template": "(%(x)s, %(y)s)", "page_size": values_page_size, "fetch": False, } elif connection.dialect.executemany_mode & EXECUTEMANY_BATCH: meth = extras.execute_batch stmt = "INSERT INTO data (x, y) VALUES (%(x)s, %(y)s)" expected_kwargs = {"page_size": batch_page_size} else: assert False if insert_type == "pg_insert_on_conflict": stmt += " ON CONFLICT DO NOTHING" with mock.patch.object( extras, meth.__name__, side_effect=meth ) as mock_exec: if insert_type == "insert": ins_stmt = self.tables.data.insert() elif insert_type == "pg_insert": ins_stmt = pg_insert(self.tables.data) elif insert_type == "pg_insert_on_conflict": ins_stmt = pg_insert(self.tables.data).on_conflict_do_nothing() else: assert False connection.execute( ins_stmt, [ {"x": "x1", "y": "y1"}, {"x": "x2", "y": "y2"}, {"x": "x3", "y": "y3"}, ], ) eq_( connection.execute(select(self.tables.data)).fetchall(), [ (1, "x1", "y1", 5), (2, "x2", "y2", 5), (3, "x3", "y3", 5), ], ) eq_( mock_exec.mock_calls, [ mock.call( mock.ANY, stmt, ( {"x": "x1", "y": "y1"}, {"x": "x2", "y": "y2"}, {"x": "x3", "y": "y3"}, ), **expected_kwargs ) ], ) def test_insert_no_page_size(self, connection): from psycopg2 import extras values_page_size = connection.dialect.executemany_values_page_size batch_page_size = connection.dialect.executemany_batch_page_size if connection.dialect.executemany_mode & EXECUTEMANY_VALUES: meth = extras.execute_values stmt = "INSERT INTO data (x, y) VALUES %s" expected_kwargs = { "template": "(%(x)s, %(y)s)", "page_size": values_page_size, "fetch": False, } elif connection.dialect.executemany_mode & EXECUTEMANY_BATCH: meth = extras.execute_batch stmt = "INSERT INTO data (x, y) VALUES (%(x)s, %(y)s)" expected_kwargs = {"page_size": batch_page_size} else: assert False with mock.patch.object( extras, meth.__name__, side_effect=meth ) as mock_exec: connection.execute( self.tables.data.insert(), [ {"x": "x1", "y": "y1"}, {"x": "x2", "y": "y2"}, {"x": "x3", "y": "y3"}, ], ) eq_( mock_exec.mock_calls, [ mock.call( mock.ANY, stmt, ( {"x": "x1", "y": "y1"}, {"x": "x2", "y": "y2"}, {"x": "x3", "y": "y3"}, ), **expected_kwargs ) ], ) def test_insert_page_size(self): from psycopg2 import extras opts = self.options.copy() opts["executemany_batch_page_size"] = 500 opts["executemany_values_page_size"] = 1000 eng = engines.testing_engine(options=opts) if eng.dialect.executemany_mode & EXECUTEMANY_VALUES: meth = extras.execute_values stmt = "INSERT INTO data (x, y) VALUES %s" expected_kwargs = { "fetch": False, "page_size": 1000, "template": "(%(x)s, %(y)s)", } elif eng.dialect.executemany_mode & EXECUTEMANY_BATCH: meth = extras.execute_batch stmt = "INSERT INTO data (x, y) VALUES (%(x)s, %(y)s)" expected_kwargs = {"page_size": 500} else: assert False with mock.patch.object( extras, meth.__name__, side_effect=meth ) as mock_exec: with eng.begin() as conn: conn.execute( self.tables.data.insert(), [ {"x": "x1", "y": "y1"}, {"x": "x2", "y": "y2"}, {"x": "x3", "y": "y3"}, ], ) eq_( mock_exec.mock_calls, [ mock.call( mock.ANY, stmt, ( {"x": "x1", "y": "y1"}, {"x": "x2", "y": "y2"}, {"x": "x3", "y": "y3"}, ), **expected_kwargs ) ], ) def test_insert_unicode_keys(self, connection): table = self.tables[u("UnitĂ©ble2")] stmt = table.insert() connection.execute( stmt, [ {u("mĂ©il"): 1, ue("\u6e2c\u8a66"): 1}, {u("mĂ©il"): 2, ue("\u6e2c\u8a66"): 2}, {u("mĂ©il"): 3, ue("\u6e2c\u8a66"): 3}, ], ) eq_(connection.execute(table.select()).all(), [(1, 1), (2, 2), (3, 3)]) def test_update_fallback(self, connection): from psycopg2 import extras batch_page_size = connection.dialect.executemany_batch_page_size meth = extras.execute_batch stmt = "UPDATE data SET y=%(yval)s WHERE data.x = %(xval)s" expected_kwargs = {"page_size": batch_page_size} with mock.patch.object( extras, meth.__name__, side_effect=meth ) as mock_exec: connection.execute( self.tables.data.update() .where(self.tables.data.c.x == bindparam("xval")) .values(y=bindparam("yval")), [ {"xval": "x1", "yval": "y5"}, {"xval": "x3", "yval": "y6"}, ], ) if connection.dialect.executemany_mode & EXECUTEMANY_BATCH: eq_( mock_exec.mock_calls, [ mock.call( mock.ANY, stmt, ( {"xval": "x1", "yval": "y5"}, {"xval": "x3", "yval": "y6"}, ), **expected_kwargs ) ], ) else: eq_(mock_exec.mock_calls, []) def test_not_sane_rowcount(self, connection): if connection.dialect.executemany_mode & EXECUTEMANY_BATCH: assert not connection.dialect.supports_sane_multi_rowcount else: assert connection.dialect.supports_sane_multi_rowcount def test_update(self, connection): connection.execute( self.tables.data.insert(), [ {"x": "x1", "y": "y1"}, {"x": "x2", "y": "y2"}, {"x": "x3", "y": "y3"}, ], ) connection.execute( self.tables.data.update() .where(self.tables.data.c.x == bindparam("xval")) .values(y=bindparam("yval")), [{"xval": "x1", "yval": "y5"}, {"xval": "x3", "yval": "y6"}], ) eq_( connection.execute( select(self.tables.data).order_by(self.tables.data.c.id) ).fetchall(), [(1, "x1", "y5", 5), (2, "x2", "y2", 5), (3, "x3", "y6", 5)], ) class ExecutemanyBatchModeTest(ExecuteManyMode, fixtures.TablesTest): options = {"executemany_mode": "batch"} class ExecutemanyValuesInsertsTest(ExecuteManyMode, fixtures.TablesTest): options = {"executemany_mode": "values_only"} def test_insert_returning_values(self, connection): """the psycopg2 dialect needs to assemble a fully buffered result with the return value of execute_values(). """ t = self.tables.data conn = connection page_size = conn.dialect.executemany_values_page_size or 100 data = [ {"x": "x%d" % i, "y": "y%d" % i} for i in range(1, page_size * 5 + 27) ] result = conn.execute(t.insert().returning(t.c.x, t.c.y), data) eq_([tup[0] for tup in result.cursor.description], ["x", "y"]) eq_(result.keys(), ["x", "y"]) assert t.c.x in result.keys() assert t.c.id not in result.keys() assert not result._soft_closed assert isinstance( result.cursor_strategy, _cursor.FullyBufferedCursorFetchStrategy, ) assert not result.cursor.closed assert not result.closed eq_(result.mappings().all(), data) assert result._soft_closed # assert result.closed assert result.cursor is None def test_insert_returning_preexecute_pk(self, metadata, connection): counter = itertools.count(1) t = Table( "t", self.metadata, Column( "id", Integer, primary_key=True, default=lambda: util.next(counter), ), Column("data", Integer), ) metadata.create_all(connection) result = connection.execute( t.insert().return_defaults(), [{"data": 1}, {"data": 2}, {"data": 3}], ) eq_(result.inserted_primary_key_rows, [(1,), (2,), (3,)]) def test_insert_returning_defaults(self, connection): t = self.tables.data conn = connection result = conn.execute(t.insert(), {"x": "x0", "y": "y0"}) first_pk = result.inserted_primary_key[0] page_size = conn.dialect.executemany_values_page_size or 100 total_rows = page_size * 5 + 27 data = [{"x": "x%d" % i, "y": "y%d" % i} for i in range(1, total_rows)] result = conn.execute(t.insert().returning(t.c.id, t.c.z), data) eq_( result.all(), [(pk, 5) for pk in range(1 + first_pk, total_rows + first_pk)], ) def test_insert_return_pks_default_values(self, connection): """test sending multiple, empty rows into an INSERT and getting primary key values back. This has to use a format that indicates at least one DEFAULT in multiple parameter sets, i.e. "INSERT INTO table (anycol) VALUES (DEFAULT) (DEFAULT) (DEFAULT) ... RETURNING col" """ t = self.tables.data conn = connection result = conn.execute(t.insert(), {"x": "x0", "y": "y0"}) first_pk = result.inserted_primary_key[0] page_size = conn.dialect.executemany_values_page_size or 100 total_rows = page_size * 5 + 27 data = [{} for i in range(1, total_rows)] result = conn.execute(t.insert().returning(t.c.id), data) eq_( result.all(), [(pk,) for pk in range(1 + first_pk, total_rows + first_pk)], ) def test_insert_w_newlines(self, connection): from psycopg2 import extras t = self.tables.data ins = ( t.insert() .inline() .values( id=bindparam("id"), x=select(literal_column("5")) .select_from(self.tables.data) .scalar_subquery(), y=bindparam("y"), z=bindparam("z"), ) ) # compiled SQL has a newline in it eq_( str(ins.compile(testing.db)), "INSERT INTO data (id, x, y, z) VALUES (%(id)s, " "(SELECT 5 \nFROM data), %(y)s, %(z)s)", ) meth = extras.execute_values with mock.patch.object( extras, "execute_values", side_effect=meth ) as mock_exec: connection.execute( ins, [ {"id": 1, "y": "y1", "z": 1}, {"id": 2, "y": "y2", "z": 2}, {"id": 3, "y": "y3", "z": 3}, ], ) eq_( mock_exec.mock_calls, [ mock.call( mock.ANY, "INSERT INTO data (id, x, y, z) VALUES %s", ( {"id": 1, "y": "y1", "z": 1}, {"id": 2, "y": "y2", "z": 2}, {"id": 3, "y": "y3", "z": 3}, ), template="(%(id)s, (SELECT 5 \nFROM data), %(y)s, %(z)s)", fetch=False, page_size=connection.dialect.executemany_values_page_size, ) ], ) def test_insert_modified_by_event(self, connection): from psycopg2 import extras t = self.tables.data ins = ( t.insert() .inline() .values( id=bindparam("id"), x=select(literal_column("5")) .select_from(self.tables.data) .scalar_subquery(), y=bindparam("y"), z=bindparam("z"), ) ) # compiled SQL has a newline in it eq_( str(ins.compile(testing.db)), "INSERT INTO data (id, x, y, z) VALUES (%(id)s, " "(SELECT 5 \nFROM data), %(y)s, %(z)s)", ) meth = extras.execute_batch with mock.patch.object( extras, "execute_values" ) as mock_values, mock.patch.object( extras, "execute_batch", side_effect=meth ) as mock_batch: # create an event hook that will change the statement to # something else, meaning the dialect has to detect that # insert_single_values_expr is no longer useful @event.listens_for( connection, "before_cursor_execute", retval=True ) def before_cursor_execute( conn, cursor, statement, parameters, context, executemany ): statement = ( "INSERT INTO data (id, y, z) VALUES " "(%(id)s, %(y)s, %(z)s)" ) return statement, parameters connection.execute( ins, [ {"id": 1, "y": "y1", "z": 1}, {"id": 2, "y": "y2", "z": 2}, {"id": 3, "y": "y3", "z": 3}, ], ) eq_(mock_values.mock_calls, []) if connection.dialect.executemany_mode & EXECUTEMANY_BATCH: eq_( mock_batch.mock_calls, [ mock.call( mock.ANY, "INSERT INTO data (id, y, z) VALUES " "(%(id)s, %(y)s, %(z)s)", ( {"id": 1, "y": "y1", "z": 1}, {"id": 2, "y": "y2", "z": 2}, {"id": 3, "y": "y3", "z": 3}, ), ) ], ) else: eq_(mock_batch.mock_calls, []) class ExecutemanyValuesPlusBatchInsertsTest( ExecuteManyMode, fixtures.TablesTest ): options = {"executemany_mode": "values_plus_batch"} class ExecutemanyFlagOptionsTest(fixtures.TablesTest): __only_on__ = "postgresql+psycopg2" __backend__ = True def test_executemany_correct_flag_options(self): for opt, expected in [ (None, EXECUTEMANY_PLAIN), ("batch", EXECUTEMANY_BATCH), ("values_only", EXECUTEMANY_VALUES), ("values_plus_batch", EXECUTEMANY_VALUES_PLUS_BATCH), ]: connection = engines.testing_engine( options={"executemany_mode": opt} ) is_(connection.dialect.executemany_mode, expected) def test_executemany_wrong_flag_options(self): for opt in [1, True, "batch_insert"]: assert_raises_message( exc.ArgumentError, "Invalid value for 'executemany_mode': %r" % opt, engines.testing_engine, options={"executemany_mode": opt}, ) class MiscBackendTest( fixtures.TestBase, AssertsExecutionResults, AssertsCompiledSQL ): __only_on__ = "postgresql" __backend__ = True @testing.provide_metadata def test_date_reflection(self): metadata = self.metadata Table( "pgdate", metadata, Column("date1", DateTime(timezone=True)), Column("date2", DateTime(timezone=False)), ) metadata.create_all(testing.db) m2 = MetaData() t2 = Table("pgdate", m2, autoload_with=testing.db) assert t2.c.date1.type.timezone is True assert t2.c.date2.type.timezone is False @testing.requires.psycopg2_compatibility def test_psycopg2_version(self): v = testing.db.dialect.psycopg2_version assert testing.db.dialect.dbapi.__version__.startswith( ".".join(str(x) for x in v) ) @testing.combinations( ((8, 1), False, False), ((8, 1), None, False), ((11, 5), True, False), ((11, 5), False, True), ) def test_backslash_escapes_detection( self, version, explicit_setting, expected ): engine = engines.testing_engine() def _server_version(conn): return version if explicit_setting is not None: @event.listens_for(engine, "connect", insert=True) @event.listens_for(engine, "first_connect", insert=True) def connect(dbapi_connection, connection_record): cursor = dbapi_connection.cursor() cursor.execute( "SET SESSION standard_conforming_strings = %s" % ("off" if not explicit_setting else "on") ) dbapi_connection.commit() with mock.patch.object( engine.dialect, "_get_server_version_info", _server_version ): with engine.connect(): eq_(engine.dialect._backslash_escapes, expected) def test_dbapi_autocommit_attribute(self): """all the supported DBAPIs have an .autocommit attribute. make sure it works and preserves isolation level. This is added in particular to support the asyncpg dialect that has a DBAPI compatibility layer. """ with testing.db.connect().execution_options( isolation_level="SERIALIZABLE" ) as conn: dbapi_conn = conn.connection.dbapi_connection is_false(dbapi_conn.autocommit) with conn.begin(): existing_isolation = conn.exec_driver_sql( "show transaction isolation level" ).scalar() eq_(existing_isolation.upper(), "SERIALIZABLE") txid1 = conn.exec_driver_sql("select txid_current()").scalar() txid2 = conn.exec_driver_sql("select txid_current()").scalar() eq_(txid1, txid2) dbapi_conn.autocommit = True with conn.begin(): # magic way to see if we are in autocommit mode from # the server's perspective txid1 = conn.exec_driver_sql("select txid_current()").scalar() txid2 = conn.exec_driver_sql("select txid_current()").scalar() ne_(txid1, txid2) dbapi_conn.autocommit = False with conn.begin(): existing_isolation = conn.exec_driver_sql( "show transaction isolation level" ).scalar() eq_(existing_isolation.upper(), "SERIALIZABLE") txid1 = conn.exec_driver_sql("select txid_current()").scalar() txid2 = conn.exec_driver_sql("select txid_current()").scalar() eq_(txid1, txid2) @testing.combinations((True,), (False,), argnames="pre_ping") def test_readonly_flag_connection(self, testing_engine, pre_ping): if pre_ping: engine = testing_engine(options={"pool_pre_ping": True}) else: engine = testing_engine() for i in range(2): with engine.connect() as conn: # asyncpg requires serializable for readonly.. conn = conn.execution_options( isolation_level="SERIALIZABLE", postgresql_readonly=True ) conn.execute(text("select 1")).scalar() dbapi_conn = conn.connection.dbapi_connection cursor = dbapi_conn.cursor() cursor.execute("show transaction_read_only") val = cursor.fetchone()[0] cursor.close() eq_(val, "on") is_true(testing.db.dialect.get_readonly(dbapi_conn)) cursor = dbapi_conn.cursor() try: cursor.execute("show transaction_read_only") val = cursor.fetchone()[0] finally: cursor.close() dbapi_conn.rollback() eq_(val, "off") @testing.combinations((True,), (False,), argnames="pre_ping") def test_deferrable_flag_connection(self, testing_engine, pre_ping): if pre_ping: engine = testing_engine(options={"pool_pre_ping": True}) else: engine = testing_engine() for i in range(2): with engine.connect() as conn: # asyncpg but not for deferrable? which the PG docs actually # state. weird conn = conn.execution_options( isolation_level="SERIALIZABLE", postgresql_deferrable=True ) conn.execute(text("Select 1")).scalar() dbapi_conn = conn.connection.dbapi_connection cursor = dbapi_conn.cursor() cursor.execute("show transaction_deferrable") val = cursor.fetchone()[0] cursor.close() eq_(val, "on") is_true(testing.db.dialect.get_deferrable(dbapi_conn)) cursor = dbapi_conn.cursor() try: cursor.execute("show transaction_deferrable") val = cursor.fetchone()[0] finally: cursor.close() dbapi_conn.rollback() eq_(val, "off") @testing.combinations((True,), (False,), argnames="pre_ping") def test_readonly_flag_engine(self, testing_engine, pre_ping): engine = testing_engine( options={ "execution_options": dict( isolation_level="SERIALIZABLE", postgresql_readonly=True ), "pool_pre_ping": pre_ping, } ) for i in range(2): with engine.connect() as conn: conn.execute(text("select 1")).scalar() dbapi_conn = conn.connection.dbapi_connection cursor = dbapi_conn.cursor() cursor.execute("show transaction_read_only") val = cursor.fetchone()[0] cursor.close() eq_(val, "on") cursor = dbapi_conn.cursor() try: cursor.execute("show transaction_read_only") val = cursor.fetchone()[0] finally: cursor.close() dbapi_conn.rollback() eq_(val, "off") @testing.combinations((True,), (False,), argnames="autocommit") def test_autocommit_pre_ping(self, testing_engine, autocommit): engine = testing_engine( options={ "isolation_level": "AUTOCOMMIT" if autocommit else "SERIALIZABLE", "pool_pre_ping": True, } ) for i in range(4): with engine.connect() as conn: conn.execute(text("select 1")).scalar() dbapi_conn = conn.connection.dbapi_connection eq_(dbapi_conn.autocommit, autocommit) def test_deferrable_flag_engine(self): engine = engines.testing_engine( options={ "execution_options": dict( isolation_level="SERIALIZABLE", postgresql_deferrable=True ) } ) for i in range(2): with engine.connect() as conn: # asyncpg but not for deferrable? which the PG docs actually # state. weird dbapi_conn = conn.connection.dbapi_connection cursor = dbapi_conn.cursor() cursor.execute("show transaction_deferrable") val = cursor.fetchone()[0] cursor.close() eq_(val, "on") cursor = dbapi_conn.cursor() try: cursor.execute("show transaction_deferrable") val = cursor.fetchone()[0] finally: cursor.close() dbapi_conn.rollback() eq_(val, "off") @testing.requires.psycopg2_compatibility def test_psycopg2_non_standard_err(self): # note that psycopg2 is sometimes called psycopg2cffi # depending on platform psycopg2 = testing.db.dialect.dbapi TransactionRollbackError = __import__( "%s.extensions" % psycopg2.__name__ ).extensions.TransactionRollbackError exception = exc.DBAPIError.instance( "some statement", {}, TransactionRollbackError("foo"), psycopg2.Error, ) assert isinstance(exception, exc.OperationalError) @testing.requires.no_coverage @testing.requires.psycopg2_compatibility def test_notice_logging(self): log = logging.getLogger("sqlalchemy.dialects.postgresql") buf = logging.handlers.BufferingHandler(100) lev = log.level log.addHandler(buf) log.setLevel(logging.INFO) try: conn = testing.db.connect() trans = conn.begin() try: conn.exec_driver_sql( """ CREATE OR REPLACE FUNCTION note(message varchar) RETURNS integer AS $$ BEGIN RAISE NOTICE 'notice: %%', message; RETURN NULL; END; $$ LANGUAGE plpgsql; """ ) conn.exec_driver_sql("SELECT note('hi there')") conn.exec_driver_sql("SELECT note('another note')") finally: trans.rollback() finally: log.removeHandler(buf) log.setLevel(lev) msgs = " ".join(b.msg for b in buf.buffer) eq_regex( msgs, "NOTICE: notice: hi there(\nCONTEXT: .*?)? " "NOTICE: notice: another note(\nCONTEXT: .*?)?", ) @testing.requires.psycopg2_or_pg8000_compatibility @engines.close_open_connections def test_client_encoding(self): c = testing.db.connect() current_encoding = c.exec_driver_sql( "show client_encoding" ).fetchone()[0] c.close() # attempt to use an encoding that's not # already set if current_encoding == "UTF8": test_encoding = "LATIN1" else: test_encoding = "UTF8" e = engines.testing_engine(options={"client_encoding": test_encoding}) c = e.connect() new_encoding = c.exec_driver_sql("show client_encoding").fetchone()[0] eq_(new_encoding, test_encoding) @testing.requires.psycopg2_or_pg8000_compatibility @engines.close_open_connections def test_autocommit_isolation_level(self): c = testing.db.connect().execution_options( isolation_level="AUTOCOMMIT" ) # If we're really in autocommit mode then we'll get an error saying # that the prepared transaction doesn't exist. Otherwise, we'd # get an error saying that the command can't be run within a # transaction. assert_raises_message( exc.ProgrammingError, 'prepared transaction with identifier "gilberte" does not exist', c.exec_driver_sql, "commit prepared 'gilberte'", ) def test_extract(self, connection): fivedaysago = connection.execute( select(func.now().op("at time zone")("UTC")) ).scalar() - datetime.timedelta(days=5) for field, exp in ( ("year", fivedaysago.year), ("month", fivedaysago.month), ("day", fivedaysago.day), ): r = connection.execute( select( extract( field, func.now().op("at time zone")("UTC") + datetime.timedelta(days=-5), ) ) ).scalar() eq_(r, exp) @testing.provide_metadata def test_checksfor_sequence(self, connection): meta1 = self.metadata seq = Sequence("fooseq") t = Table("mytable", meta1, Column("col1", Integer, seq)) seq.drop(connection) connection.execute(text("CREATE SEQUENCE fooseq")) t.create(connection, checkfirst=True) @testing.provide_metadata def test_schema_roundtrips(self, connection): meta = self.metadata users = Table( "users", meta, Column("id", Integer, primary_key=True), Column("name", String(50)), schema="test_schema", ) users.create(connection) connection.execute(users.insert(), dict(id=1, name="name1")) connection.execute(users.insert(), dict(id=2, name="name2")) connection.execute(users.insert(), dict(id=3, name="name3")) connection.execute(users.insert(), dict(id=4, name="name4")) eq_( connection.execute( users.select().where(users.c.name == "name2") ).fetchall(), [(2, "name2")], ) eq_( connection.execute( users.select() .set_label_style(LABEL_STYLE_TABLENAME_PLUS_COL) .where(users.c.name == "name2") ).fetchall(), [(2, "name2")], ) connection.execute(users.delete().where(users.c.id == 3)) eq_( connection.execute( users.select().where(users.c.name == "name3") ).fetchall(), [], ) connection.execute( users.update().where(users.c.name == "name4"), dict(name="newname") ) eq_( connection.execute( users.select() .set_label_style(LABEL_STYLE_TABLENAME_PLUS_COL) .where(users.c.id == 4) ).fetchall(), [(4, "newname")], ) def test_quoted_name_bindparam_ok(self): from sqlalchemy.sql.elements import quoted_name with testing.db.connect() as conn: eq_( conn.scalar( select( cast( literal(quoted_name("some_name", False)), String, ) ) ), "some_name", ) @testing.provide_metadata def test_preexecute_passivedefault(self, connection): """test that when we get a primary key column back from reflecting a table which has a default value on it, we pre- execute that DefaultClause upon insert.""" meta = self.metadata connection.execute( text( """ CREATE TABLE speedy_users ( speedy_user_id SERIAL PRIMARY KEY, user_name VARCHAR NOT NULL, user_password VARCHAR NOT NULL ); """ ) ) t = Table("speedy_users", meta, autoload_with=connection) r = connection.execute( t.insert(), dict(user_name="user", user_password="lala") ) eq_(r.inserted_primary_key, (1,)) result = connection.execute(t.select()).fetchall() assert result == [(1, "user", "lala")] connection.execute(text("DROP TABLE speedy_users")) @testing.requires.psycopg2_or_pg8000_compatibility def test_numeric_raise(self, connection): stmt = text("select cast('hi' as char) as hi").columns(hi=Numeric) assert_raises(exc.InvalidRequestError, connection.execute, stmt) @testing.only_on("postgresql+psycopg2") def test_serial_integer(self): class BITD(TypeDecorator): impl = Integer cache_ok = True def load_dialect_impl(self, dialect): if dialect.name == "postgresql": return BigInteger() else: return Integer() for version, type_, expected in [ (None, Integer, "SERIAL"), (None, BigInteger, "BIGSERIAL"), ((9, 1), SmallInteger, "SMALLINT"), ((9, 2), SmallInteger, "SMALLSERIAL"), (None, postgresql.INTEGER, "SERIAL"), (None, postgresql.BIGINT, "BIGSERIAL"), ( None, Integer().with_variant(BigInteger(), "postgresql"), "BIGSERIAL", ), ( None, Integer().with_variant(postgresql.BIGINT, "postgresql"), "BIGSERIAL", ), ( (9, 2), Integer().with_variant(SmallInteger, "postgresql"), "SMALLSERIAL", ), (None, BITD(), "BIGSERIAL"), ]: m = MetaData() t = Table("t", m, Column("c", type_, primary_key=True)) if version: dialect = testing.db.dialect.__class__() dialect._get_server_version_info = mock.Mock( return_value=version ) dialect.initialize(testing.db.connect()) else: dialect = testing.db.dialect ddl_compiler = dialect.ddl_compiler(dialect, schema.CreateTable(t)) eq_( ddl_compiler.get_column_specification(t.c.c), "c %s NOT NULL" % expected, ) @testing.requires.psycopg2_compatibility def test_initial_transaction_state(self): from psycopg2.extensions import STATUS_IN_TRANSACTION engine = engines.testing_engine() with engine.connect() as conn: ne_(conn.connection.status, STATUS_IN_TRANSACTION) class AutocommitTextTest(test_deprecations.AutocommitTextTest): __only_on__ = "postgresql" def test_grant(self): self._test_keyword("GRANT USAGE ON SCHEMA fooschema TO foorole") def test_import_foreign_schema(self): self._test_keyword("IMPORT FOREIGN SCHEMA foob") def test_refresh_view(self): self._test_keyword("REFRESH MATERIALIZED VIEW fooview") def test_revoke(self): self._test_keyword("REVOKE USAGE ON SCHEMA fooschema FROM foorole") def test_truncate(self): self._test_keyword("TRUNCATE footable")