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# Copyright (c) 2009, 2024, Oracle and/or its affiliates.
#
# This program is free software; you can redistribute it and/or modify
# it under the terms of the GNU General Public License, version 2.0, as
# published by the Free Software Foundation.
#
# This program is designed to work with certain software (including
# but not limited to OpenSSL) that is licensed under separate terms,
# as designated in a particular file or component or in included license
# documentation. The authors of MySQL hereby grant you an
# additional permission to link the program and your derivative works
# with the separately licensed software that they have either included with
# the program or referenced in the documentation.
#
# Without limiting anything contained in the foregoing, this file,
# which is part of MySQL Connector/Python, is also subject to the
# Universal FOSS Exception, version 1.0, a copy of which can be found at
# http://oss.oracle.com/licenses/universal-foss-exception.
#
# This program is distributed in the hope that it will be useful, but
# WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
# See the GNU General Public License, version 2.0, for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software Foundation, Inc.,
# 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
# mypy: disable-error-code="arg-type,operator,attr-defined,assignment"
"""Implementing communication with MySQL servers."""
from __future__ import annotations
import datetime
import getpass
import os
import socket
import struct
import sys
import warnings
from decimal import Decimal
from io import IOBase
from typing import (
TYPE_CHECKING,
Any,
BinaryIO,
Dict,
Generator,
List,
Mapping,
Optional,
Sequence,
Tuple,
Type,
Union,
)
from . import version
from .abstracts import MySQLConnectionAbstract
from .authentication import MySQLAuthenticator, get_auth_plugin
from .constants import (
ClientFlag,
FieldType,
RefreshOption,
ServerCmd,
ServerFlag,
flag_is_set,
)
from .conversion import MySQLConverter
from .cursor import (
CursorBase,
MySQLCursor,
MySQLCursorBuffered,
MySQLCursorBufferedDict,
MySQLCursorBufferedNamedTuple,
MySQLCursorBufferedRaw,
MySQLCursorDict,
MySQLCursorNamedTuple,
MySQLCursorPrepared,
MySQLCursorPreparedDict,
MySQLCursorPreparedNamedTuple,
MySQLCursorPreparedRaw,
MySQLCursorRaw,
)
from .errors import (
DatabaseError,
Error,
InterfaceError,
InternalError,
NotSupportedError,
OperationalError,
ProgrammingError,
get_exception,
)
from .logger import logger
from .network import MySQLSocket, MySQLTCPSocket, MySQLUnixSocket
from .opentelemetry.constants import OTEL_ENABLED
from .opentelemetry.context_propagation import with_context_propagation
from .protocol import MySQLProtocol
from .types import (
BinaryProtocolType,
DescriptionType,
EofPacketType,
HandShakeType,
OkPacketType,
ResultType,
RowType,
StatsPacketType,
StrOrBytes,
)
from .utils import (
get_platform,
int1store,
int4store,
lc_int,
warn_ciphersuites_deprecated,
warn_tls_version_deprecated,
)
if TYPE_CHECKING:
from .abstracts import CMySQLPrepStmt
if OTEL_ENABLED:
from .opentelemetry.instrumentation import end_span, record_exception_event
class MySQLConnection(MySQLConnectionAbstract):
"""Connection to a MySQL Server"""
def __init__(self, **kwargs: Any) -> None:
self._protocol: Optional[MySQLProtocol] = None
self._socket: Optional[MySQLSocket] = None
self._handshake: Optional[HandShakeType] = None
super().__init__()
self._converter_class: Type[MySQLConverter] = MySQLConverter
self._client_flags: int = ClientFlag.get_default()
self._charset_id: int = 45
self._sql_mode: Optional[str] = None
self._time_zone: Optional[str] = None
self._autocommit: bool = False
self._user: str = ""
self._password: str = ""
self._database: str = ""
self._host: str = "127.0.0.1"
self._port: int = 3306
self._unix_socket: Optional[str] = None
self._client_host: str = ""
self._client_port: int = 0
self._ssl: Dict[str, Optional[Union[str, bool, List[str]]]] = {}
self._force_ipv6: bool = False
self._use_unicode: bool = True
self._get_warnings: bool = False
self._raise_on_warnings: bool = False
self._buffered: bool = False
self._unread_result: bool = False
self._have_next_result: bool = False
self._raw: bool = False
self._in_transaction: bool = False
self._prepared_statements: Any = None
self._ssl_active: bool = False
self._auth_plugin: Optional[str] = None
self._krb_service_principal: Optional[str] = None
self._pool_config_version: Any = None
self._query_attrs_supported: int = False
self._columns_desc: List[DescriptionType] = []
self._mfa_nfactor: int = 1
self._authenticator: MySQLAuthenticator = MySQLAuthenticator()
if kwargs:
try:
self.connect(**kwargs)
except Exception:
# Tidy-up underlying socket on failure
self.close()
self._socket = None
raise
def _add_default_conn_attrs(self) -> None:
"""Add the default connection attributes."""
platform = get_platform()
license_chunks = version.LICENSE.split(" ")
if license_chunks[0] == "GPLv2":
client_license = "GPL-2.0"
else:
client_license = "Commercial"
default_conn_attrs = {
"_pid": str(os.getpid()),
"_platform": platform["arch"],
"_source_host": socket.gethostname(),
"_client_name": "mysql-connector-python",
"_client_license": client_license,
"_client_version": ".".join([str(x) for x in version.VERSION[0:3]]),
"_os": platform["version"],
}
self._conn_attrs.update((default_conn_attrs))
def _do_handshake(self) -> None:
"""Get the handshake from the MySQL server"""
packet = bytes(self._socket.recv())
if packet[4] == 255:
raise get_exception(packet)
self._handshake = None
handshake = self._protocol.parse_handshake(packet)
server_version = handshake["server_version_original"]
self._server_version = self._check_server_version(
server_version
if isinstance(server_version, (str, bytes, bytearray))
else "Unknown"
)
self._character_set.set_mysql_version(self._server_version)
if not handshake["capabilities"] & ClientFlag.SSL:
if self._auth_plugin == "mysql_clear_password" and not self.is_secure:
raise InterfaceError(
"Clear password authentication is not supported over "
"insecure channels"
)
if self._ssl.get("verify_cert"):
raise InterfaceError(
"SSL is required but the server doesn't support it",
errno=2026,
)
self._client_flags &= ~ClientFlag.SSL
elif not self._ssl_disabled:
self._client_flags |= ClientFlag.SSL
if handshake["capabilities"] & ClientFlag.PLUGIN_AUTH:
self.set_client_flags([ClientFlag.PLUGIN_AUTH])
if handshake["capabilities"] & ClientFlag.CLIENT_QUERY_ATTRIBUTES:
self._query_attrs_supported = True
self.set_client_flags([ClientFlag.CLIENT_QUERY_ATTRIBUTES])
if handshake["capabilities"] & ClientFlag.MULTI_FACTOR_AUTHENTICATION:
self.set_client_flags([ClientFlag.MULTI_FACTOR_AUTHENTICATION])
self._handshake = handshake
def _do_auth(
self,
username: Optional[str] = None,
password: Optional[str] = None,
database: Optional[str] = None,
client_flags: int = 0,
charset: int = 45,
ssl_options: Optional[Dict[str, Optional[Union[str, bool, List[str]]]]] = None,
conn_attrs: Optional[Dict[str, str]] = None,
) -> bool:
"""Authenticate with the MySQL server
Authentication happens in two parts. We first send a response to the
handshake. The MySQL server will then send either an AuthSwitchRequest
or an error packet.
Raises NotSupportedError when we get the old, insecure password
reply back. Raises any error coming from MySQL.
"""
if (
self._auth_plugin.startswith("authentication_oci")
or (
self._auth_plugin.startswith("authentication_kerberos")
and os.name == "nt"
)
) and not username:
username = getpass.getuser()
logger.debug(
"MySQL user is empty, OS user: %s will be used for %s",
username,
self._auth_plugin,
)
if self._password1 and password != self._password1:
password = self._password1
self._ssl_active = False
if not self._ssl_disabled and (client_flags & ClientFlag.SSL):
self._authenticator.setup_ssl(
self._socket,
self.server_host,
ssl_options,
charset=charset,
client_flags=client_flags,
)
self._ssl_active = True
ok_pkt = self._authenticator.authenticate(
sock=self._socket,
handshake=self._handshake,
username=username,
password1=password,
password2=self._password2,
password3=self._password3,
database=database,
charset=charset,
client_flags=client_flags,
auth_plugin=self._auth_plugin,
auth_plugin_class=self._auth_plugin_class,
conn_attrs=conn_attrs,
krb_service_principal=self._krb_service_principal,
oci_config_file=self._oci_config_file,
oci_config_profile=self._oci_config_profile,
webauthn_callback=self._webauthn_callback,
)
self._handle_ok(ok_pkt)
if not (client_flags & ClientFlag.CONNECT_WITH_DB) and database:
self.cmd_init_db(database)
return True
def _get_connection(self) -> MySQLSocket:
"""Get connection based on configuration
This method will return the appropriated connection object using
the connection parameters.
Returns subclass of MySQLBaseSocket.
"""
conn = None
if self._unix_socket and os.name == "posix":
conn = MySQLUnixSocket(unix_socket=self.unix_socket)
else:
conn = MySQLTCPSocket(
host=self.server_host,
port=self.server_port,
force_ipv6=self._force_ipv6,
)
conn.set_connection_timeout(self._connection_timeout)
return conn
def _open_connection(self) -> None:
"""Open the connection to the MySQL server
This method sets up and opens the connection to the MySQL server.
Raises on errors.
"""
if self._auth_plugin == "authentication_kerberos_client" and not self._user:
cls = get_auth_plugin(self._auth_plugin, self._auth_plugin_class)
self._user = cls.get_user_from_credentials()
self._protocol = MySQLProtocol()
self._socket = self._get_connection()
try:
self._socket.open_connection()
# do initial handshake
self._do_handshake()
# start authentication negotiation
self._do_auth(
self._user,
self._password,
self._database,
self._client_flags,
self._charset_id,
self._ssl,
self._conn_attrs,
)
self.set_converter_class(self._converter_class)
if self._client_flags & ClientFlag.COMPRESS:
# update the network layer accordingly
self._socket.switch_to_compressed_mode()
self._socket.set_connection_timeout(None)
except Exception:
# close socket
self._socket.close_connection()
raise
if (
not self._ssl_disabled
and hasattr(self._socket.sock, "cipher")
and callable(self._socket.sock.cipher)
):
# Raise a deprecation warning if deprecated TLS version
# or cipher is being used.
# `cipher()` returns a three-value tuple containing the name
# of the cipher being used, the version of the SSL protocol
# that defines its use, and the number of secret bits being used.
cipher, tls_version, _ = self._socket.sock.cipher()
warn_tls_version_deprecated(tls_version)
warn_ciphersuites_deprecated(cipher, tls_version)
def shutdown(self) -> None:
"""Shut down connection to MySQL Server.
This method closes the socket. It raises no exceptions.
Unlike `disconnect()`, `shutdown()` closes the client connection without
attempting to send a QUIT command to the server first. Thus, it will not
block if the connection is disrupted for some reason such as network failure.
"""
if not self._socket:
return
try:
self._socket.shutdown()
except (AttributeError, Error):
pass # Getting an exception would mean we are disconnected.
def close(self) -> None:
"""Disconnect from the MySQL server"""
if self._span and self._span.is_recording():
record_exception_event(self._span, sys.exc_info()[1])
if not self._socket:
return
try:
self.cmd_quit()
except (AttributeError, Error):
pass # Getting an exception would mean we are disconnected.
try:
self._socket.close_connection()
except Exception as err:
if OTEL_ENABLED:
record_exception_event(self._span, err)
raise
finally:
if OTEL_ENABLED:
end_span(self._span)
self._handshake = None
disconnect = close
def _send_cmd(
self,
command: int,
argument: Optional[bytes] = None,
packet_number: int = 0,
packet: Optional[bytes] = None,
expect_response: bool = True,
compressed_packet_number: int = 0,
) -> Optional[bytearray]:
"""Send a command to the MySQL server
This method sends a command with an optional argument.
If packet is not None, it will be sent and the argument will be
ignored.
The packet_number is optional and should usually not be used.
Some commands might not result in the MySQL server returning
a response. If a command does not return anything, you should
set expect_response to False. The _send_cmd method will then
return None instead of a MySQL packet.
Returns a MySQL packet or None.
"""
self.handle_unread_result()
try:
self._socket.send(
self._protocol.make_command(command, packet or argument),
packet_number,
compressed_packet_number,
)
except AttributeError as err:
raise OperationalError("MySQL Connection not available") from err
return self._socket.recv() if expect_response else None
def _send_data(
self, data_file: BinaryIO, send_empty_packet: bool = False
) -> bytearray:
"""Send data to the MySQL server
This method accepts a file-like object and sends its data
as is to the MySQL server. If the send_empty_packet is
True, it will send an extra empty package (for example
when using LOAD LOCAL DATA INFILE).
Returns a MySQL packet.
"""
self.handle_unread_result()
if not hasattr(data_file, "read"):
raise ValueError("expecting a file-like object")
chunk_size = 131072 # 128 KB
try:
buf = data_file.read(chunk_size - 16)
while buf:
self._socket.send(buf)
buf = data_file.read(chunk_size - 16)
except AttributeError as err:
raise OperationalError("MySQL Connection not available") from err
if send_empty_packet:
try:
self._socket.send(b"")
except AttributeError as err:
raise OperationalError("MySQL Connection not available") from err
return self._socket.recv()
def _handle_server_status(self, flags: int) -> None:
"""Handle the server flags found in MySQL packets
This method handles the server flags send by MySQL OK and EOF
packets. It, for example, checks whether there exists more result
sets or whether there is an ongoing transaction.
"""
self._have_next_result = flag_is_set(ServerFlag.MORE_RESULTS_EXISTS, flags)
self._in_transaction = flag_is_set(ServerFlag.STATUS_IN_TRANS, flags)
@property
def in_transaction(self) -> bool:
"""MySQL session has started a transaction"""
return self._in_transaction
def _handle_ok(self, packet: bytes) -> OkPacketType:
"""Handle a MySQL OK packet
This method handles a MySQL OK packet. When the packet is found to
be an Error packet, an error will be raised. If the packet is neither
an OK or an Error packet, InterfaceError will be raised.
Returns a dict()
"""
if packet[4] == 0:
ok_pkt = self._protocol.parse_ok(packet)
self._handle_server_status(ok_pkt["status_flag"])
return ok_pkt
if packet[4] == 255:
raise get_exception(packet)
raise InterfaceError("Expected OK packet")
def _handle_eof(self, packet: bytes) -> EofPacketType:
"""Handle a MySQL EOF packet
This method handles a MySQL EOF packet. When the packet is found to
be an Error packet, an error will be raised. If the packet is neither
and OK or an Error packet, InterfaceError will be raised.
Returns a dict()
"""
if packet[4] == 254:
eof = self._protocol.parse_eof(packet)
self._handle_server_status(eof["status_flag"])
return eof
if packet[4] == 255:
raise get_exception(packet)
raise InterfaceError("Expected EOF packet")
def _handle_load_data_infile(self, filename: str) -> OkPacketType:
"""Handle a LOAD DATA INFILE LOCAL request"""
file_name = os.path.abspath(filename)
if os.path.islink(file_name):
raise OperationalError("Use of symbolic link is not allowed")
if not self._allow_local_infile and not self._allow_local_infile_in_path:
raise DatabaseError(
"LOAD DATA LOCAL INFILE file request rejected due to "
"restrictions on access."
)
if not self._allow_local_infile and self._allow_local_infile_in_path:
# validate filename is inside of allow_local_infile_in_path path.
infile_path = os.path.abspath(self._allow_local_infile_in_path)
c_path = None
try:
c_path = os.path.commonpath([infile_path, file_name])
except ValueError as err:
err_msg = (
"{} while loading file `{}` and path `{}` given"
" in allow_local_infile_in_path"
)
raise InterfaceError(
err_msg.format(str(err), file_name, infile_path)
) from err
if c_path != infile_path:
err_msg = (
"The file `{}` is not found in the given "
"allow_local_infile_in_path {}"
)
raise DatabaseError(err_msg.format(file_name, infile_path))
try:
data_file = open(file_name, "rb") # pylint: disable=consider-using-with
return self._handle_ok(self._send_data(data_file, send_empty_packet=True))
except IOError:
# Send a empty packet to cancel the operation
try:
self._socket.send(b"")
except AttributeError as err:
raise OperationalError("MySQL Connection not available") from err
raise InterfaceError(f"File '{file_name}' could not be read") from None
finally:
try:
data_file.close()
except (IOError, NameError):
pass
def _handle_result(self, packet: bytes) -> ResultType:
"""Handle a MySQL Result
This method handles a MySQL result, for example, after sending the
query command. OK and EOF packets will be handled and returned. If
the packet is an Error packet, an Error-exception will be
raised.
The dictionary returned of:
- columns: column information
- eof: the EOF-packet information
Returns a dict()
"""
if not packet or len(packet) < 4:
raise InterfaceError("Empty response")
if packet[4] == 0:
return self._handle_ok(packet)
if packet[4] == 251:
filename = packet[5:].decode()
return self._handle_load_data_infile(filename)
if packet[4] == 254:
return self._handle_eof(packet)
if packet[4] == 255:
raise get_exception(packet)
# We have a text result set
column_count = self._protocol.parse_column_count(packet)
if not column_count or not isinstance(column_count, int):
raise InterfaceError("Illegal result set")
self._columns_desc = [
None,
] * column_count
for i in range(0, column_count):
self._columns_desc[i] = self._protocol.parse_column(
self._socket.recv(), self.python_charset
)
eof = self._handle_eof(self._socket.recv())
self.unread_result = True
return {"columns": self._columns_desc, "eof": eof}
def get_row(
self,
binary: bool = False,
columns: Optional[List[DescriptionType]] = None,
raw: Optional[bool] = None,
prep_stmt: Optional[CMySQLPrepStmt] = None,
) -> Tuple[Optional[RowType], Optional[EofPacketType]]:
"""Get the next rows returned by the MySQL server
This method gets one row from the result set after sending, for
example, the query command. The result is a tuple consisting of the
row and the EOF packet.
If no row was available in the result set, the row data will be None.
Returns a tuple.
"""
(rows, eof) = self.get_rows(count=1, binary=binary, columns=columns, raw=raw)
if rows:
return (rows[0], eof)
return (None, eof)
def get_rows(
self,
count: Optional[int] = None,
binary: bool = False,
columns: Optional[List[DescriptionType]] = None,
raw: Optional[bool] = None,
prep_stmt: Optional[CMySQLPrepStmt] = None,
) -> Tuple[List[RowType], Optional[EofPacketType]]:
"""Get all rows returned by the MySQL server
This method gets all rows returned by the MySQL server after sending,
for example, the query command. The result is a tuple consisting of
a list of rows and the EOF packet.
Returns a tuple()
"""
if raw is None:
raw = self._raw
if not self.unread_result:
raise InternalError("No result set available")
rows: Tuple[List[Tuple], Optional[EofPacketType]] = ([], None)
try:
if binary:
charset = self.charset
if charset == "utf8mb4":
charset = "utf8"
rows = self._protocol.read_binary_result(
self._socket, columns, count, charset
)
else:
rows = self._protocol.read_text_result(
self._socket, self._server_version, count=count
)
except Error as err:
self.unread_result = False
raise err
rows, eof_p = rows
if (
not (binary or raw)
and self._columns_desc is not None
and rows
and hasattr(self, "converter")
):
row_to_python = self.converter.row_to_python
rows = [row_to_python(row, self._columns_desc) for row in rows]
if eof_p is not None:
self._handle_server_status(
eof_p["status_flag"]
if "status_flag" in eof_p
else eof_p["server_status"]
)
self.unread_result = False
return rows, eof_p
def consume_results(self) -> None:
"""Consume results"""
if self.unread_result:
self.get_rows()
def cmd_init_db(self, database: str) -> OkPacketType:
"""Change the current database
This method changes the current (default) database by sending the
INIT_DB command. The result is a dictionary containing the OK packet
information.
Returns a dict()
"""
return self._handle_ok(
self._send_cmd(ServerCmd.INIT_DB, database.encode("utf-8"))
)
@with_context_propagation
def cmd_query(
self,
query: StrOrBytes,
raw: bool = False,
buffered: bool = False,
raw_as_string: bool = False,
) -> ResultType:
"""Send a query to the MySQL server
This method send the query to the MySQL server and returns the result.
If there was a text result, a tuple will be returned consisting of
the number of columns and a list containing information about these
columns.
When the query doesn't return a text result, the OK or EOF packet
information as dictionary will be returned. In case the result was
an error, exception Error will be raised.
Returns a tuple()
"""
if not isinstance(query, bytearray):
if isinstance(query, str):
query = query.encode("utf-8")
query = bytearray(query)
# Prepare query attrs
charset = self.charset if self.charset != "utf8mb4" else "utf8"
packet = bytearray()
if not self._query_attrs_supported and self._query_attrs:
warnings.warn(
"This version of the server does not support Query Attributes",
category=Warning,
)
if self._client_flags & ClientFlag.CLIENT_QUERY_ATTRIBUTES:
names = []
types = []
values: List[bytes] = []
null_bitmap = [0] * ((len(self._query_attrs) + 7) // 8)
for pos, attr_tuple in enumerate(self._query_attrs.items()):
value = attr_tuple[1]
flags = 0
if value is None:
null_bitmap[(pos // 8)] |= 1 << (pos % 8)
types.append(int1store(FieldType.NULL) + int1store(flags))
continue
if isinstance(value, int):
(
packed,
field_type,
flags,
) = self._protocol.prepare_binary_integer(value)
values.append(packed)
elif isinstance(value, str):
value = value.encode(charset)
values.append(lc_int(len(value)) + value)
field_type = FieldType.STRING
elif isinstance(value, bytes):
values.append(lc_int(len(value)) + value)
field_type = FieldType.STRING
elif isinstance(value, Decimal):
values.append(
lc_int(len(str(value).encode(charset)))
+ str(value).encode(charset)
)
field_type = FieldType.DECIMAL
elif isinstance(value, float):
values.append(struct.pack("<d", value))
field_type = FieldType.DOUBLE
elif isinstance(value, (datetime.datetime, datetime.date)):
(
packed,
field_type,
) = self._protocol.prepare_binary_timestamp(value)
values.append(packed)
elif isinstance(value, (datetime.timedelta, datetime.time)):
(packed, field_type) = self._protocol.prepare_binary_time(value)
values.append(packed)
else:
raise ProgrammingError(
"MySQL binary protocol can not handle "
f"'{value.__class__.__name__}' objects"
)
types.append(int1store(field_type) + int1store(flags))
name = attr_tuple[0].encode(charset)
names.append(lc_int(len(name)) + name)
# int<lenenc> parameter_count Number of parameters
packet.extend(lc_int(len(self._query_attrs)))
# int<lenenc> parameter_set_count Number of parameter sets.
# Currently always 1
packet.extend(lc_int(1))
if values:
packet.extend(
b"".join([struct.pack("B", bit) for bit in null_bitmap])
+ int1store(1)
)
for _type, name in zip(types, names):
packet.extend(_type)
packet.extend(name)
for value in values:
packet.extend(value)
packet.extend(query)
query = bytes(packet)
try:
result = self._handle_result(self._send_cmd(ServerCmd.QUERY, query))
except ProgrammingError as err:
if err.errno == 3948 and "Loading local data is disabled" in err.msg:
err_msg = (
"LOAD DATA LOCAL INFILE file request rejected due "
"to restrictions on access."
)
raise DatabaseError(err_msg) from err
raise
if self._have_next_result:
raise InterfaceError(
"Use cmd_query_iter for statements with multiple queries."
)
return result
def cmd_query_iter(
self, statements: StrOrBytes
) -> Generator[ResultType, None, None]:
"""Send one or more statements to the MySQL server
Similar to the cmd_query method, but instead returns a generator
object to iterate through results. It sends the statements to the
MySQL server and through the iterator you can get the results.
statement = 'SELECT 1; INSERT INTO t1 VALUES (); SELECT 2'
for result in cnx.cmd_query(statement, iterate=True):
if 'columns' in result:
columns = result['columns']
rows = cnx.get_rows()
else:
# do something useful with INSERT result
Returns a generator.
"""
packet = bytearray()
if not isinstance(statements, bytearray):
if isinstance(statements, str):
statements = statements.encode("utf8")
statements = bytearray(statements)
if self._client_flags & ClientFlag.CLIENT_QUERY_ATTRIBUTES:
# int<lenenc> parameter_count Number of parameters
packet.extend(lc_int(0))
# int<lenenc> parameter_set_count Number of parameter sets.
# Currently always 1
packet.extend(lc_int(1))
packet.extend(statements)
query = bytes(packet)
# Handle the first query result
yield self._handle_result(self._send_cmd(ServerCmd.QUERY, query))
# Handle next results, if any
while self._have_next_result:
self.handle_unread_result()
yield self._handle_result(self._socket.recv())
def cmd_refresh(self, options: int) -> OkPacketType:
"""Send the Refresh command to the MySQL server
This method sends the Refresh command to the MySQL server. The options
argument should be a bitwise value using constants.RefreshOption.
Usage example:
RefreshOption = mysql.connector.RefreshOption
refresh = RefreshOption.LOG | RefreshOption.THREADS
cnx.cmd_refresh(refresh)
"""
if not options & (
RefreshOption.GRANT
| RefreshOption.LOG
| RefreshOption.TABLES
| RefreshOption.HOST
| RefreshOption.STATUS
| RefreshOption.REPLICA
):
raise ValueError("Invalid command REFRESH option")
if options & RefreshOption.GRANT:
res = self.cmd_query("FLUSH PRIVILEGES")
if options & RefreshOption.LOG:
res = self.cmd_query("FLUSH LOGS")
if options & RefreshOption.TABLES:
res = self.cmd_query("FLUSH TABLES")
if options & RefreshOption.HOST:
res = self.cmd_query("TRUNCATE TABLE performance_schema.host_cache")
if options & RefreshOption.STATUS:
res = self.cmd_query("FLUSH STATUS")
if options & RefreshOption.REPLICA:
res = self.cmd_query(
"RESET SLAVE" if self._server_version < (8, 0, 22) else "RESET REPLICA"
)
return res
def cmd_quit(self) -> bytes:
"""Close the current connection with the server
This method sends the `QUIT` command to the MySQL server, closing the
current connection. Since there is no response from the MySQL server,
the packet that was sent is returned.
Returns a str()
"""
self.handle_unread_result()
packet = self._protocol.make_command(ServerCmd.QUIT)
self._socket.send(packet, 0, 0)
return packet
def cmd_shutdown(self, shutdown_type: Optional[int] = None) -> None:
"""Shut down the MySQL Server
This method sends the SHUTDOWN command to the MySQL server.
The `shutdown_type` is not used, and it's kept for backward compatibility.
"""
self.cmd_query("SHUTDOWN")
def cmd_statistics(self) -> StatsPacketType:
"""Send the statistics command to the MySQL Server
This method sends the STATISTICS command to the MySQL server. The
result is a dictionary with various statistical information.
Returns a dict()
"""
self.handle_unread_result()
packet = self._protocol.make_command(ServerCmd.STATISTICS)
self._socket.send(packet, 0, 0)
return self._protocol.parse_statistics(self._socket.recv())
def cmd_process_kill(self, mysql_pid: int) -> OkPacketType:
"""Kill a MySQL process
This method send the PROCESS_KILL command to the server along with
the process ID. The result is a dictionary with the OK packet
information.
"""
if not isinstance(mysql_pid, int):
raise ValueError("MySQL PID must be int")
return self.cmd_query(f"KILL {mysql_pid}")
def cmd_debug(self) -> EofPacketType:
"""Send the DEBUG command
This method sends the DEBUG command to the MySQL server, which
requires the MySQL user to have SUPER privilege. The output will go
to the MySQL server error log and the result of this method is a
dictionary with EOF packet information.
Returns a dict()
"""
return self._handle_eof(self._send_cmd(ServerCmd.DEBUG))
def cmd_ping(self) -> OkPacketType:
"""Send the PING command
This method sends the PING command to the MySQL server. It is used to
check if the the connection is still valid. The result of this
method is dictionary with OK packet information.
Returns a dict()
"""
return self._handle_ok(self._send_cmd(ServerCmd.PING))
def cmd_change_user(
self,
username: str = "",
password: str = "",
database: str = "",
charset: int = 45,
password1: str = "",
password2: str = "",
password3: str = "",
oci_config_file: str = "",
oci_config_profile: str = "",
) -> Optional[OkPacketType]:
"""Change the current logged in user
This method allows to change the current logged in user information.
The result is a dictionary with OK packet information.
Returns a dict()
"""
if not isinstance(charset, int):
raise ValueError("charset must be an integer")
if charset < 0:
raise ValueError("charset should be either zero or a postive integer")
self._mfa_nfactor = 1
self._user = username
self._password = password
self._password1 = password1
self._password2 = password2
self._password3 = password3
if self._password1 and password != self._password1:
password = self._password1
self.handle_unread_result()
if self._compress:
raise NotSupportedError("Change user is not supported with compression")
if oci_config_file:
self._oci_config_file = oci_config_file
self._oci_config_profile = oci_config_profile
ok_pkt = self._authenticator.authenticate(
sock=self._socket,
handshake=self._handshake,
username=self._user,
password1=password,
password2=self._password2,
password3=self._password3,
database=database,
charset=charset,
client_flags=self._client_flags,
auth_plugin=self._auth_plugin,
auth_plugin_class=self._auth_plugin_class,
conn_attrs=self._conn_attrs,
is_change_user_request=True,
krb_service_principal=self._krb_service_principal,
oci_config_file=self._oci_config_file,
oci_config_profile=self._oci_config_profile,
webauthn_callback=self._webauthn_callback,
)
if not (self._client_flags & ClientFlag.CONNECT_WITH_DB) and database:
self.cmd_init_db(database)
self._charset_id = charset
self._post_connection()
# return ok_pkt
return self._handle_ok(ok_pkt)
@property
def database(self) -> str:
"""Get the current database"""
return self.info_query("SELECT DATABASE()")[0] # type: ignore[return-value]
@database.setter
def database(self, value: str) -> None:
"""Set the current database"""
self.cmd_init_db(value)
def is_connected(self) -> bool:
"""Reports whether the connection to MySQL Server is available
This method checks whether the connection to MySQL is available.
It is similar to ping(), but unlike the ping()-method, either True
or False is returned and no exception is raised.
Returns True or False.
"""
try:
self.cmd_ping()
except Error:
return False # This method does not raise
return True
def set_allow_local_infile_in_path(self, path: str) -> None:
"""Set the path that user can upload files.
Args:
path (str): Path that user can upload files.
"""
self._allow_local_infile_in_path = path
def reset_session(
self,
user_variables: Optional[Dict[str, Any]] = None,
session_variables: Optional[Dict[str, Any]] = None,
) -> None:
"""Clears the current active session
This method resets the session state, if the MySQL server is 5.7.3
or later active session will be reset without re-authenticating.
For other server versions session will be reset by re-authenticating.
It is possible to provide a sequence of variables and their values to
be set after clearing the session. This is possible for both user
defined variables and session variables.
This method takes two arguments user_variables and session_variables
which are dictionaries.
Raises OperationalError if not connected, InternalError if there are
unread results and InterfaceError on errors.
"""
if not self.is_connected():
raise OperationalError("MySQL Connection not available.")
if not self.cmd_reset_connection():
try:
self.cmd_change_user(
self._user,
self._password,
self._database,
self._charset_id,
self._password1,
self._password2,
self._password3,
self._oci_config_file,
self._oci_config_profile,
)
except ProgrammingError:
self.reconnect()
cur = self.cursor()
if user_variables:
for key, value in user_variables.items():
cur.execute(f"SET @`{key}` = %s", (value,))
if session_variables:
for key, value in session_variables.items():
cur.execute(f"SET SESSION `{key}` = %s", (value,))
def ping(self, reconnect: bool = False, attempts: int = 1, delay: int = 0) -> None:
"""Check availability of the MySQL server
When reconnect is set to True, one or more attempts are made to try
to reconnect to the MySQL server using the reconnect()-method.
delay is the number of seconds to wait between each retry.
When the connection is not available, an InterfaceError is raised. Use
the is_connected()-method if you just want to check the connection
without raising an error.
Raises InterfaceError on errors.
"""
try:
self.cmd_ping()
except Error as err:
if reconnect:
self.reconnect(attempts=attempts, delay=delay)
else:
raise InterfaceError("Connection to MySQL is not available") from err
@property
def connection_id(self) -> Optional[int]:
"""MySQL connection ID"""
if self._handshake:
return self._handshake.get("server_threadid") # type: ignore[return-value]
return None
def cursor(
self,
buffered: Optional[bool] = None,
raw: Optional[bool] = None,
prepared: Optional[bool] = None,
cursor_class: Optional[Type[MySQLCursor]] = None, # type: ignore[override]
dictionary: Optional[bool] = None,
named_tuple: Optional[bool] = None,
) -> MySQLCursor:
"""Instantiates and returns a cursor
By default, MySQLCursor is returned. Depending on the options
while connecting, a buffered and/or raw cursor is instantiated
instead. Also depending upon the cursor options, rows can be
returned as dictionary or named tuple.
Dictionary and namedtuple based cursors are available with buffered
output but not raw.
It is possible to also give a custom cursor through the
cursor_class parameter, but it needs to be a subclass of
mysql.connector.cursor.CursorBase.
Raises ProgrammingError when cursor_class is not a subclass of
CursorBase. Raises ValueError when cursor is not available.
Returns a cursor-object
"""
self.handle_unread_result()
if not self.is_connected():
raise OperationalError("MySQL Connection not available")
if cursor_class is not None:
if not issubclass(cursor_class, CursorBase):
raise ProgrammingError(
"Cursor class needs be to subclass of cursor.CursorBase"
)
return (cursor_class)(self)
buffered = buffered if buffered is not None else self._buffered
raw = raw if raw is not None else self._raw
cursor_type = 0
if buffered is True:
cursor_type |= 1
if raw is True:
cursor_type |= 2
if dictionary is True:
cursor_type |= 4
if named_tuple is True:
cursor_type |= 8
if prepared is True:
cursor_type |= 16
types = {
0: MySQLCursor, # 0
1: MySQLCursorBuffered,
2: MySQLCursorRaw,
3: MySQLCursorBufferedRaw,
4: MySQLCursorDict,
5: MySQLCursorBufferedDict,
8: MySQLCursorNamedTuple,
9: MySQLCursorBufferedNamedTuple,
16: MySQLCursorPrepared,
18: MySQLCursorPreparedRaw,
20: MySQLCursorPreparedDict,
24: MySQLCursorPreparedNamedTuple,
}
try:
return (types[cursor_type])(self)
except KeyError:
args = ("buffered", "raw", "dictionary", "named_tuple", "prepared")
raise ValueError(
"Cursor not available with given criteria: "
+ ", ".join([args[i] for i in range(5) if cursor_type & (1 << i) != 0])
) from None
def commit(self) -> None:
"""Commit current transaction"""
self._execute_query("COMMIT")
def rollback(self) -> None:
"""Rollback current transaction"""
if self.unread_result:
self.get_rows()
self._execute_query("ROLLBACK")
def _execute_query(self, query: str) -> None:
"""Execute a query
This method simply calls cmd_query() after checking for unread
result. If there are still unread result, an InterfaceError
is raised. Otherwise whatever cmd_query() returns is returned.
Returns a dict()
"""
self.handle_unread_result()
self.cmd_query(query)
def info_query(self, query: str) -> Optional[RowType]:
"""Send a query which only returns 1 row"""
cursor = self.cursor(buffered=True)
cursor.execute(query)
return cursor.fetchone()
def _handle_binary_ok(self, packet: bytes) -> Dict[str, int]:
"""Handle a MySQL Binary Protocol OK packet
This method handles a MySQL Binary Protocol OK packet. When the
packet is found to be an Error packet, an error will be raised. If
the packet is neither an OK or an Error packet, InterfaceError
will be raised.
Returns a dict()
"""
if packet[4] == 0:
return self._protocol.parse_binary_prepare_ok(packet)
if packet[4] == 255:
raise get_exception(packet)
raise InterfaceError("Expected Binary OK packet")
def _handle_binary_result(
self, packet: bytes
) -> Union[OkPacketType, Tuple[int, List[DescriptionType], EofPacketType]]:
"""Handle a MySQL Result
This method handles a MySQL result, for example, after sending the
query command. OK and EOF packets will be handled and returned. If
the packet is an Error packet, an Error exception will be raised.
The tuple returned by this method consist of:
- the number of columns in the result,
- a list of tuples with information about the columns,
- the EOF packet information as a dictionary.
Returns tuple() or dict()
"""
if not packet or len(packet) < 4:
raise InterfaceError("Empty response")
if packet[4] == 0:
return self._handle_ok(packet)
if packet[4] == 254:
return self._handle_eof(packet)
if packet[4] == 255:
raise get_exception(packet)
# We have a binary result set
column_count = self._protocol.parse_column_count(packet)
if not column_count or not isinstance(column_count, int):
raise InterfaceError("Illegal result set.")
columns: List[DescriptionType] = [None] * column_count
for i in range(0, column_count):
columns[i] = self._protocol.parse_column(
self._socket.recv(), self.python_charset
)
eof = self._handle_eof(self._socket.recv())
return (column_count, columns, eof)
def cmd_stmt_fetch(self, statement_id: int, rows: int = 1) -> None:
"""Fetch a MySQL statement Result Set
This method will send the FETCH command to MySQL together with the
given statement id and the number of rows to fetch.
"""
packet = self._protocol.make_stmt_fetch(statement_id, rows)
self.unread_result = False
self._send_cmd(ServerCmd.STMT_FETCH, packet, expect_response=False)
self.unread_result = True
def cmd_stmt_prepare(
self, statement: bytes
) -> Mapping[str, Union[int, List[DescriptionType]]]:
"""Prepare a MySQL statement
This method will send the PREPARE command to MySQL together with the
given statement.
Returns a dict()
"""
packet = self._send_cmd(ServerCmd.STMT_PREPARE, statement)
result = self._handle_binary_ok(packet)
result["columns"] = []
result["parameters"] = []
if result["num_params"] > 0:
for _ in range(0, result["num_params"]):
result["parameters"].append(
self._protocol.parse_column(
self._socket.recv(), self.python_charset
)
)
self._handle_eof(self._socket.recv())
if result["num_columns"] > 0:
for _ in range(0, result["num_columns"]):
result["columns"].append(
self._protocol.parse_column(
self._socket.recv(), self.python_charset
)
)
self._handle_eof(self._socket.recv())
return result
@with_context_propagation
def cmd_stmt_execute(
self,
statement_id: int,
data: Sequence[BinaryProtocolType] = (),
parameters: Sequence = (),
flags: int = 0,
) -> Union[OkPacketType, Tuple[int, List[DescriptionType], EofPacketType]]:
"""Execute a prepared MySQL statement"""
parameters = list(parameters)
long_data_used = {}
if data:
for param_id, _ in enumerate(parameters):
if isinstance(data[param_id], IOBase):
binary = True
try:
binary = "b" not in data[param_id].mode # type: ignore[union-attr]
except AttributeError:
pass
self.cmd_stmt_send_long_data(statement_id, param_id, data[param_id])
long_data_used[param_id] = (binary,)
if not self._query_attrs_supported and self._query_attrs:
warnings.warn(
"This version of the server does not support Query Attributes",
category=Warning,
)
if self._client_flags & ClientFlag.CLIENT_QUERY_ATTRIBUTES:
execute_packet = self._protocol.make_stmt_execute(
statement_id,
data,
tuple(parameters),
flags,
long_data_used,
self.charset,
self.query_attrs,
self._converter_str_fallback,
)
else:
execute_packet = self._protocol.make_stmt_execute(
statement_id,
data,
tuple(parameters),
flags,
long_data_used,
self.charset,
converter_str_fallback=self._converter_str_fallback,
)
packet = self._send_cmd(ServerCmd.STMT_EXECUTE, packet=execute_packet)
result = self._handle_binary_result(packet)
return result
def cmd_stmt_close(self, statement_id: int) -> None: # type: ignore[override]
"""Deallocate a prepared MySQL statement
This method deallocates the prepared statement using the
statement_id. Note that the MySQL server does not return
anything.
"""
self._send_cmd(
ServerCmd.STMT_CLOSE,
int4store(statement_id),
expect_response=False,
)
def cmd_stmt_send_long_data(
self, statement_id: int, param_id: int, data: BinaryIO # type: ignore[override]
) -> int:
"""Send data for a column
This methods send data for a column (for example BLOB) for statement
identified by statement_id. The param_id indicate which parameter
the data belongs too.
The data argument should be a file-like object.
Since MySQL does not send anything back, no error is raised. When
the MySQL server is not reachable, an OperationalError is raised.
cmd_stmt_send_long_data should be called before cmd_stmt_execute.
The total bytes send is returned.
Returns int.
"""
chunk_size = 131072 # 128 KB
total_sent = 0
try:
buf = data.read(chunk_size)
while buf:
packet = self._protocol.prepare_stmt_send_long_data(
statement_id, param_id, buf
)
self._send_cmd(
ServerCmd.STMT_SEND_LONG_DATA,
packet=packet,
expect_response=False,
)
total_sent += len(buf)
buf = data.read(chunk_size)
except AttributeError as err:
raise OperationalError("MySQL Connection not available") from err
return total_sent
def cmd_stmt_reset(self, statement_id: int) -> None: # type: ignore[override]
"""Reset data for prepared statement sent as long data
The result is a dictionary with OK packet information.
Returns a dict()
"""
self._handle_ok(self._send_cmd(ServerCmd.STMT_RESET, int4store(statement_id)))
def cmd_reset_connection(self) -> bool:
"""Resets the session state without re-authenticating
Reset command only works on MySQL server 5.7.3 or later.
The result is True for a successful reset otherwise False.
Returns bool
"""
try:
self._handle_ok(self._send_cmd(ServerCmd.RESET_CONNECTION))
self._post_connection()
return True
except (NotSupportedError, OperationalError):
return False
def handle_unread_result(self) -> None:
"""Check whether there is an unread result"""
if self.can_consume_results:
self.consume_results()
elif self.unread_result:
raise InternalError("Unread result found")