OpenHome/venv/Lib/site-packages/sqlalchemy/dialects/postgresql/asyncpg.py

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# postgresql/asyncpg.py
# Copyright (C) 2005-2021 the SQLAlchemy authors and contributors <see AUTHORS
# file>
#
# This module is part of SQLAlchemy and is released under
# the MIT License: http://www.opensource.org/licenses/mit-license.php
r"""
.. dialect:: postgresql+asyncpg
:name: asyncpg
:dbapi: asyncpg
:connectstring: postgresql+asyncpg://user:password@host:port/dbname[?key=value&key=value...]
:url: https://magicstack.github.io/asyncpg/
The asyncpg dialect is SQLAlchemy's first Python asyncio dialect.
Using a special asyncio mediation layer, the asyncpg dialect is usable
as the backend for the :ref:`SQLAlchemy asyncio <asyncio_toplevel>`
extension package.
This dialect should normally be used only with the
:func:`_asyncio.create_async_engine` engine creation function::
from sqlalchemy.ext.asyncio import create_async_engine
engine = create_async_engine("postgresql+asyncpg://user:pass@hostname/dbname")
The dialect can also be run as a "synchronous" dialect within the
:func:`_sa.create_engine` function, which will pass "await" calls into
an ad-hoc event loop. This mode of operation is of **limited use**
and is for special testing scenarios only. The mode can be enabled by
adding the SQLAlchemy-specific flag ``async_fallback`` to the URL
in conjunction with :func:`_sa.create_engine`::
# for testing purposes only; do not use in production!
engine = create_engine("postgresql+asyncpg://user:pass@hostname/dbname?async_fallback=true")
.. versionadded:: 1.4
.. note::
By default asyncpg does not decode the ``json`` and ``jsonb`` types and
returns them as strings. SQLAlchemy sets default type decoder for ``json``
and ``jsonb`` types using the python builtin ``json.loads`` function.
The json implementation used can be changed by setting the attribute
``json_deserializer`` when creating the engine with
:func:`create_engine` or :func:`create_async_engine`.
.. _asyncpg_prepared_statement_cache:
Prepared Statement Cache
--------------------------
The asyncpg SQLAlchemy dialect makes use of ``asyncpg.connection.prepare()``
for all statements. The prepared statement objects are cached after
construction which appears to grant a 10% or more performance improvement for
statement invocation. The cache is on a per-DBAPI connection basis, which
means that the primary storage for prepared statements is within DBAPI
connections pooled within the connection pool. The size of this cache
defaults to 100 statements per DBAPI connection and may be adjusted using the
``prepared_statement_cache_size`` DBAPI argument (note that while this argument
is implemented by SQLAlchemy, it is part of the DBAPI emulation portion of the
asyncpg dialect, therefore is handled as a DBAPI argument, not a dialect
argument)::
engine = create_async_engine("postgresql+asyncpg://user:pass@hostname/dbname?prepared_statement_cache_size=500")
To disable the prepared statement cache, use a value of zero::
engine = create_async_engine("postgresql+asyncpg://user:pass@hostname/dbname?prepared_statement_cache_size=0")
.. versionadded:: 1.4.0b2 Added ``prepared_statement_cache_size`` for asyncpg.
.. warning:: The ``asyncpg`` database driver necessarily uses caches for
PostgreSQL type OIDs, which become stale when custom PostgreSQL datatypes
such as ``ENUM`` objects are changed via DDL operations. Additionally,
prepared statements themselves which are optionally cached by SQLAlchemy's
driver as described above may also become "stale" when DDL has been emitted
to the PostgreSQL database which modifies the tables or other objects
involved in a particular prepared statement.
The SQLAlchemy asyncpg dialect will invalidate these caches within its local
process when statements that represent DDL are emitted on a local
connection, but this is only controllable within a single Python process /
database engine. If DDL changes are made from other database engines
and/or processes, a running application may encounter asyncpg exceptions
``InvalidCachedStatementError`` and/or ``InternalServerError("cache lookup
failed for type <oid>")`` if it refers to pooled database connections which
operated upon the previous structures. The SQLAlchemy asyncpg dialect will
recover from these error cases when the driver raises these exceptions by
clearing its internal caches as well as those of the asyncpg driver in
response to them, but cannot prevent them from being raised in the first
place if the cached prepared statement or asyncpg type caches have gone
stale, nor can it retry the statement as the PostgreSQL transaction is
invalidated when these errors occur.
""" # noqa
import collections
import decimal
import json as _py_json
import re
import time
from . import json
from .base import _DECIMAL_TYPES
from .base import _FLOAT_TYPES
from .base import _INT_TYPES
from .base import ENUM
from .base import INTERVAL
from .base import OID
from .base import PGCompiler
from .base import PGDialect
from .base import PGExecutionContext
from .base import PGIdentifierPreparer
from .base import REGCLASS
from .base import UUID
from ... import exc
from ... import pool
from ... import processors
from ... import util
from ...sql import sqltypes
from ...util.concurrency import asyncio
from ...util.concurrency import await_fallback
from ...util.concurrency import await_only
try:
from uuid import UUID as _python_UUID # noqa
except ImportError:
_python_UUID = None
class AsyncpgTime(sqltypes.Time):
def get_dbapi_type(self, dbapi):
return dbapi.TIME
class AsyncpgDate(sqltypes.Date):
def get_dbapi_type(self, dbapi):
return dbapi.DATE
class AsyncpgDateTime(sqltypes.DateTime):
def get_dbapi_type(self, dbapi):
if self.timezone:
return dbapi.TIMESTAMP_W_TZ
else:
return dbapi.TIMESTAMP
class AsyncpgBoolean(sqltypes.Boolean):
def get_dbapi_type(self, dbapi):
return dbapi.BOOLEAN
class AsyncPgInterval(INTERVAL):
def get_dbapi_type(self, dbapi):
return dbapi.INTERVAL
@classmethod
def adapt_emulated_to_native(cls, interval, **kw):
return AsyncPgInterval(precision=interval.second_precision)
class AsyncPgEnum(ENUM):
def get_dbapi_type(self, dbapi):
return dbapi.ENUM
class AsyncpgInteger(sqltypes.Integer):
def get_dbapi_type(self, dbapi):
return dbapi.INTEGER
class AsyncpgBigInteger(sqltypes.BigInteger):
def get_dbapi_type(self, dbapi):
return dbapi.BIGINTEGER
class AsyncpgJSON(json.JSON):
def get_dbapi_type(self, dbapi):
return dbapi.JSON
def result_processor(self, dialect, coltype):
return None
class AsyncpgJSONB(json.JSONB):
def get_dbapi_type(self, dbapi):
return dbapi.JSONB
def result_processor(self, dialect, coltype):
return None
class AsyncpgJSONIndexType(sqltypes.JSON.JSONIndexType):
def get_dbapi_type(self, dbapi):
raise NotImplementedError("should not be here")
class AsyncpgJSONIntIndexType(sqltypes.JSON.JSONIntIndexType):
def get_dbapi_type(self, dbapi):
return dbapi.INTEGER
class AsyncpgJSONStrIndexType(sqltypes.JSON.JSONStrIndexType):
def get_dbapi_type(self, dbapi):
return dbapi.STRING
class AsyncpgJSONPathType(json.JSONPathType):
def bind_processor(self, dialect):
def process(value):
assert isinstance(value, util.collections_abc.Sequence)
tokens = [util.text_type(elem) for elem in value]
return tokens
return process
class AsyncpgUUID(UUID):
def get_dbapi_type(self, dbapi):
return dbapi.UUID
def bind_processor(self, dialect):
if not self.as_uuid and dialect.use_native_uuid:
def process(value):
if value is not None:
value = _python_UUID(value)
return value
return process
def result_processor(self, dialect, coltype):
if not self.as_uuid and dialect.use_native_uuid:
def process(value):
if value is not None:
value = str(value)
return value
return process
class AsyncpgNumeric(sqltypes.Numeric):
def bind_processor(self, dialect):
return None
def result_processor(self, dialect, coltype):
if self.asdecimal:
if coltype in _FLOAT_TYPES:
return processors.to_decimal_processor_factory(
decimal.Decimal, self._effective_decimal_return_scale
)
elif coltype in _DECIMAL_TYPES or coltype in _INT_TYPES:
# pg8000 returns Decimal natively for 1700
return None
else:
raise exc.InvalidRequestError(
"Unknown PG numeric type: %d" % coltype
)
else:
if coltype in _FLOAT_TYPES:
# pg8000 returns float natively for 701
return None
elif coltype in _DECIMAL_TYPES or coltype in _INT_TYPES:
return processors.to_float
else:
raise exc.InvalidRequestError(
"Unknown PG numeric type: %d" % coltype
)
class AsyncpgREGCLASS(REGCLASS):
def get_dbapi_type(self, dbapi):
return dbapi.STRING
class AsyncpgOID(OID):
def get_dbapi_type(self, dbapi):
return dbapi.INTEGER
class PGExecutionContext_asyncpg(PGExecutionContext):
def handle_dbapi_exception(self, e):
if isinstance(
e,
(
self.dialect.dbapi.InvalidCachedStatementError,
self.dialect.dbapi.InternalServerError,
),
):
self.dialect._invalidate_schema_cache()
def pre_exec(self):
if self.isddl:
self.dialect._invalidate_schema_cache()
self.cursor._invalidate_schema_cache_asof = (
self.dialect._invalidate_schema_cache_asof
)
if not self.compiled:
return
# we have to exclude ENUM because "enum" not really a "type"
# we can cast to, it has to be the name of the type itself.
# for now we just omit it from casting
self.exclude_set_input_sizes = {AsyncAdapt_asyncpg_dbapi.ENUM}
def create_server_side_cursor(self):
return self._dbapi_connection.cursor(server_side=True)
class PGCompiler_asyncpg(PGCompiler):
pass
class PGIdentifierPreparer_asyncpg(PGIdentifierPreparer):
pass
class AsyncAdapt_asyncpg_cursor:
__slots__ = (
"_adapt_connection",
"_connection",
"_rows",
"description",
"arraysize",
"rowcount",
"_inputsizes",
"_cursor",
"_invalidate_schema_cache_asof",
)
server_side = False
def __init__(self, adapt_connection):
self._adapt_connection = adapt_connection
self._connection = adapt_connection._connection
self._rows = []
self._cursor = None
self.description = None
self.arraysize = 1
self.rowcount = -1
self._inputsizes = None
self._invalidate_schema_cache_asof = 0
def close(self):
self._rows[:] = []
def _handle_exception(self, error):
self._adapt_connection._handle_exception(error)
def _parameter_placeholders(self, params):
if not self._inputsizes:
return tuple("$%d" % idx for idx, _ in enumerate(params, 1))
else:
return tuple(
"$%d::%s" % (idx, typ) if typ else "$%d" % idx
for idx, typ in enumerate(
(_pg_types.get(typ) for typ in self._inputsizes), 1
)
)
async def _prepare_and_execute(self, operation, parameters):
adapt_connection = self._adapt_connection
async with adapt_connection._execute_mutex:
if not adapt_connection._started:
await adapt_connection._start_transaction()
if parameters is not None:
operation = operation % self._parameter_placeholders(
parameters
)
else:
parameters = ()
try:
prepared_stmt, attributes = await adapt_connection._prepare(
operation, self._invalidate_schema_cache_asof
)
if attributes:
self.description = [
(
attr.name,
attr.type.oid,
None,
None,
None,
None,
None,
)
for attr in attributes
]
else:
self.description = None
if self.server_side:
self._cursor = await prepared_stmt.cursor(*parameters)
self.rowcount = -1
else:
self._rows = await prepared_stmt.fetch(*parameters)
status = prepared_stmt.get_statusmsg()
reg = re.match(
r"(?:UPDATE|DELETE|INSERT \d+) (\d+)", status
)
if reg:
self.rowcount = int(reg.group(1))
else:
self.rowcount = -1
except Exception as error:
self._handle_exception(error)
async def _executemany(self, operation, seq_of_parameters):
adapt_connection = self._adapt_connection
async with adapt_connection._execute_mutex:
await adapt_connection._check_type_cache_invalidation(
self._invalidate_schema_cache_asof
)
if not adapt_connection._started:
await adapt_connection._start_transaction()
operation = operation % self._parameter_placeholders(
seq_of_parameters[0]
)
try:
return await self._connection.executemany(
operation, seq_of_parameters
)
except Exception as error:
self._handle_exception(error)
def execute(self, operation, parameters=None):
self._adapt_connection.await_(
self._prepare_and_execute(operation, parameters)
)
def executemany(self, operation, seq_of_parameters):
return self._adapt_connection.await_(
self._executemany(operation, seq_of_parameters)
)
def setinputsizes(self, *inputsizes):
self._inputsizes = inputsizes
def __iter__(self):
while self._rows:
yield self._rows.pop(0)
def fetchone(self):
if self._rows:
return self._rows.pop(0)
else:
return None
def fetchmany(self, size=None):
if size is None:
size = self.arraysize
retval = self._rows[0:size]
self._rows[:] = self._rows[size:]
return retval
def fetchall(self):
retval = self._rows[:]
self._rows[:] = []
return retval
class AsyncAdapt_asyncpg_ss_cursor(AsyncAdapt_asyncpg_cursor):
server_side = True
__slots__ = ("_rowbuffer",)
def __init__(self, adapt_connection):
super(AsyncAdapt_asyncpg_ss_cursor, self).__init__(adapt_connection)
self._rowbuffer = None
def close(self):
self._cursor = None
self._rowbuffer = None
def _buffer_rows(self):
new_rows = self._adapt_connection.await_(self._cursor.fetch(50))
self._rowbuffer = collections.deque(new_rows)
def __aiter__(self):
return self
async def __anext__(self):
if not self._rowbuffer:
self._buffer_rows()
while True:
while self._rowbuffer:
yield self._rowbuffer.popleft()
self._buffer_rows()
if not self._rowbuffer:
break
def fetchone(self):
if not self._rowbuffer:
self._buffer_rows()
if not self._rowbuffer:
return None
return self._rowbuffer.popleft()
def fetchmany(self, size=None):
if size is None:
return self.fetchall()
if not self._rowbuffer:
self._buffer_rows()
buf = list(self._rowbuffer)
lb = len(buf)
if size > lb:
buf.extend(
self._adapt_connection.await_(self._cursor.fetch(size - lb))
)
result = buf[0:size]
self._rowbuffer = collections.deque(buf[size:])
return result
def fetchall(self):
ret = list(self._rowbuffer) + list(
self._adapt_connection.await_(self._all())
)
self._rowbuffer.clear()
return ret
async def _all(self):
rows = []
# TODO: looks like we have to hand-roll some kind of batching here.
# hardcoding for the moment but this should be improved.
while True:
batch = await self._cursor.fetch(1000)
if batch:
rows.extend(batch)
continue
else:
break
return rows
def executemany(self, operation, seq_of_parameters):
raise NotImplementedError(
"server side cursor doesn't support executemany yet"
)
class AsyncAdapt_asyncpg_connection:
__slots__ = (
"dbapi",
"_connection",
"isolation_level",
"_isolation_setting",
"readonly",
"deferrable",
"_transaction",
"_started",
"_prepared_statement_cache",
"_invalidate_schema_cache_asof",
"_execute_mutex",
)
await_ = staticmethod(await_only)
def __init__(self, dbapi, connection, prepared_statement_cache_size=100):
self.dbapi = dbapi
self._connection = connection
self.isolation_level = self._isolation_setting = "read_committed"
self.readonly = False
self.deferrable = False
self._transaction = None
self._started = False
self._invalidate_schema_cache_asof = time.time()
self._execute_mutex = asyncio.Lock()
if prepared_statement_cache_size:
self._prepared_statement_cache = util.LRUCache(
prepared_statement_cache_size
)
else:
self._prepared_statement_cache = None
async def _check_type_cache_invalidation(self, invalidate_timestamp):
if invalidate_timestamp > self._invalidate_schema_cache_asof:
await self._connection.reload_schema_state()
self._invalidate_schema_cache_asof = invalidate_timestamp
async def _prepare(self, operation, invalidate_timestamp):
await self._check_type_cache_invalidation(invalidate_timestamp)
cache = self._prepared_statement_cache
if cache is None:
prepared_stmt = await self._connection.prepare(operation)
attributes = prepared_stmt.get_attributes()
return prepared_stmt, attributes
# asyncpg uses a type cache for the "attributes" which seems to go
# stale independently of the PreparedStatement itself, so place that
# collection in the cache as well.
if operation in cache:
prepared_stmt, attributes, cached_timestamp = cache[operation]
# preparedstatements themselves also go stale for certain DDL
# changes such as size of a VARCHAR changing, so there is also
# a cross-connection invalidation timestamp
if cached_timestamp > invalidate_timestamp:
return prepared_stmt, attributes
prepared_stmt = await self._connection.prepare(operation)
attributes = prepared_stmt.get_attributes()
cache[operation] = (prepared_stmt, attributes, time.time())
return prepared_stmt, attributes
def _handle_exception(self, error):
if self._connection.is_closed():
self._transaction = None
self._started = False
if not isinstance(error, AsyncAdapt_asyncpg_dbapi.Error):
exception_mapping = self.dbapi._asyncpg_error_translate
for super_ in type(error).__mro__:
if super_ in exception_mapping:
translated_error = exception_mapping[super_](
"%s: %s" % (type(error), error)
)
translated_error.pgcode = (
translated_error.sqlstate
) = getattr(error, "sqlstate", None)
raise translated_error from error
else:
raise error
else:
raise error
@property
def autocommit(self):
return self.isolation_level == "autocommit"
@autocommit.setter
def autocommit(self, value):
if value:
self.isolation_level = "autocommit"
else:
self.isolation_level = self._isolation_setting
def set_isolation_level(self, level):
if self._started:
self.rollback()
self.isolation_level = self._isolation_setting = level
async def _start_transaction(self):
if self.isolation_level == "autocommit":
return
try:
self._transaction = self._connection.transaction(
isolation=self.isolation_level,
readonly=self.readonly,
deferrable=self.deferrable,
)
await self._transaction.start()
except Exception as error:
self._handle_exception(error)
else:
self._started = True
def cursor(self, server_side=False):
if server_side:
return AsyncAdapt_asyncpg_ss_cursor(self)
else:
return AsyncAdapt_asyncpg_cursor(self)
def rollback(self):
if self._started:
try:
self.await_(self._transaction.rollback())
except Exception as error:
self._handle_exception(error)
finally:
self._transaction = None
self._started = False
def commit(self):
if self._started:
try:
self.await_(self._transaction.commit())
except Exception as error:
self._handle_exception(error)
finally:
self._transaction = None
self._started = False
def close(self):
self.rollback()
self.await_(self._connection.close())
class AsyncAdaptFallback_asyncpg_connection(AsyncAdapt_asyncpg_connection):
__slots__ = ()
await_ = staticmethod(await_fallback)
class AsyncAdapt_asyncpg_dbapi:
def __init__(self, asyncpg):
self.asyncpg = asyncpg
self.paramstyle = "format"
def connect(self, *arg, **kw):
async_fallback = kw.pop("async_fallback", False)
prepared_statement_cache_size = kw.pop(
"prepared_statement_cache_size", 100
)
if util.asbool(async_fallback):
return AsyncAdaptFallback_asyncpg_connection(
self,
await_fallback(self.asyncpg.connect(*arg, **kw)),
prepared_statement_cache_size=prepared_statement_cache_size,
)
else:
return AsyncAdapt_asyncpg_connection(
self,
await_only(self.asyncpg.connect(*arg, **kw)),
prepared_statement_cache_size=prepared_statement_cache_size,
)
class Error(Exception):
pass
class Warning(Exception): # noqa
pass
class InterfaceError(Error):
pass
class DatabaseError(Error):
pass
class InternalError(DatabaseError):
pass
class OperationalError(DatabaseError):
pass
class ProgrammingError(DatabaseError):
pass
class IntegrityError(DatabaseError):
pass
class DataError(DatabaseError):
pass
class NotSupportedError(DatabaseError):
pass
class InternalServerError(InternalError):
pass
class InvalidCachedStatementError(NotSupportedError):
def __init__(self, message):
super(
AsyncAdapt_asyncpg_dbapi.InvalidCachedStatementError, self
).__init__(
message + " (SQLAlchemy asyncpg dialect will now invalidate "
"all prepared caches in response to this exception)",
)
@util.memoized_property
def _asyncpg_error_translate(self):
import asyncpg
return {
asyncpg.exceptions.IntegrityConstraintViolationError: self.IntegrityError, # noqa: E501
asyncpg.exceptions.PostgresError: self.Error,
asyncpg.exceptions.SyntaxOrAccessError: self.ProgrammingError,
asyncpg.exceptions.InterfaceError: self.InterfaceError,
asyncpg.exceptions.InvalidCachedStatementError: self.InvalidCachedStatementError, # noqa: E501
asyncpg.exceptions.InternalServerError: self.InternalServerError,
}
def Binary(self, value):
return value
STRING = util.symbol("STRING")
TIMESTAMP = util.symbol("TIMESTAMP")
TIMESTAMP_W_TZ = util.symbol("TIMESTAMP_W_TZ")
TIME = util.symbol("TIME")
DATE = util.symbol("DATE")
INTERVAL = util.symbol("INTERVAL")
NUMBER = util.symbol("NUMBER")
FLOAT = util.symbol("FLOAT")
BOOLEAN = util.symbol("BOOLEAN")
INTEGER = util.symbol("INTEGER")
BIGINTEGER = util.symbol("BIGINTEGER")
BYTES = util.symbol("BYTES")
DECIMAL = util.symbol("DECIMAL")
JSON = util.symbol("JSON")
JSONB = util.symbol("JSONB")
ENUM = util.symbol("ENUM")
UUID = util.symbol("UUID")
BYTEA = util.symbol("BYTEA")
DATETIME = TIMESTAMP
BINARY = BYTEA
_pg_types = {
AsyncAdapt_asyncpg_dbapi.STRING: "varchar",
AsyncAdapt_asyncpg_dbapi.TIMESTAMP: "timestamp",
AsyncAdapt_asyncpg_dbapi.TIMESTAMP_W_TZ: "timestamp with time zone",
AsyncAdapt_asyncpg_dbapi.DATE: "date",
AsyncAdapt_asyncpg_dbapi.TIME: "time",
AsyncAdapt_asyncpg_dbapi.INTERVAL: "interval",
AsyncAdapt_asyncpg_dbapi.NUMBER: "numeric",
AsyncAdapt_asyncpg_dbapi.FLOAT: "float",
AsyncAdapt_asyncpg_dbapi.BOOLEAN: "bool",
AsyncAdapt_asyncpg_dbapi.INTEGER: "integer",
AsyncAdapt_asyncpg_dbapi.BIGINTEGER: "bigint",
AsyncAdapt_asyncpg_dbapi.BYTES: "bytes",
AsyncAdapt_asyncpg_dbapi.DECIMAL: "decimal",
AsyncAdapt_asyncpg_dbapi.JSON: "json",
AsyncAdapt_asyncpg_dbapi.JSONB: "jsonb",
AsyncAdapt_asyncpg_dbapi.ENUM: "enum",
AsyncAdapt_asyncpg_dbapi.UUID: "uuid",
AsyncAdapt_asyncpg_dbapi.BYTEA: "bytea",
}
class PGDialect_asyncpg(PGDialect):
driver = "asyncpg"
supports_statement_cache = True
supports_unicode_statements = True
supports_server_side_cursors = True
supports_unicode_binds = True
default_paramstyle = "format"
supports_sane_multi_rowcount = False
execution_ctx_cls = PGExecutionContext_asyncpg
statement_compiler = PGCompiler_asyncpg
preparer = PGIdentifierPreparer_asyncpg
use_setinputsizes = True
use_native_uuid = True
colspecs = util.update_copy(
PGDialect.colspecs,
{
sqltypes.Time: AsyncpgTime,
sqltypes.Date: AsyncpgDate,
sqltypes.DateTime: AsyncpgDateTime,
sqltypes.Interval: AsyncPgInterval,
INTERVAL: AsyncPgInterval,
UUID: AsyncpgUUID,
sqltypes.Boolean: AsyncpgBoolean,
sqltypes.Integer: AsyncpgInteger,
sqltypes.BigInteger: AsyncpgBigInteger,
sqltypes.Numeric: AsyncpgNumeric,
sqltypes.JSON: AsyncpgJSON,
json.JSONB: AsyncpgJSONB,
sqltypes.JSON.JSONPathType: AsyncpgJSONPathType,
sqltypes.JSON.JSONIndexType: AsyncpgJSONIndexType,
sqltypes.JSON.JSONIntIndexType: AsyncpgJSONIntIndexType,
sqltypes.JSON.JSONStrIndexType: AsyncpgJSONStrIndexType,
sqltypes.Enum: AsyncPgEnum,
OID: AsyncpgOID,
REGCLASS: AsyncpgREGCLASS,
},
)
is_async = True
_invalidate_schema_cache_asof = 0
def _invalidate_schema_cache(self):
self._invalidate_schema_cache_asof = time.time()
@util.memoized_property
def _dbapi_version(self):
if self.dbapi and hasattr(self.dbapi, "__version__"):
return tuple(
[
int(x)
for x in re.findall(
r"(\d+)(?:[-\.]?|$)", self.dbapi.__version__
)
]
)
else:
return (99, 99, 99)
@classmethod
def dbapi(cls):
return AsyncAdapt_asyncpg_dbapi(__import__("asyncpg"))
@util.memoized_property
def _isolation_lookup(self):
return {
"AUTOCOMMIT": "autocommit",
"READ COMMITTED": "read_committed",
"REPEATABLE READ": "repeatable_read",
"SERIALIZABLE": "serializable",
}
def set_isolation_level(self, connection, level):
try:
level = self._isolation_lookup[level.replace("_", " ")]
except KeyError as err:
util.raise_(
exc.ArgumentError(
"Invalid value '%s' for isolation_level. "
"Valid isolation levels for %s are %s"
% (level, self.name, ", ".join(self._isolation_lookup))
),
replace_context=err,
)
connection.set_isolation_level(level)
def set_readonly(self, connection, value):
connection.readonly = value
def get_readonly(self, connection):
return connection.readonly
def set_deferrable(self, connection, value):
connection.deferrable = value
def get_deferrable(self, connection):
return connection.deferrable
def create_connect_args(self, url):
opts = url.translate_connect_args(username="user")
opts.update(url.query)
util.coerce_kw_type(opts, "prepared_statement_cache_size", int)
util.coerce_kw_type(opts, "port", int)
return ([], opts)
@classmethod
def get_pool_class(cls, url):
async_fallback = url.query.get("async_fallback", False)
if util.asbool(async_fallback):
return pool.FallbackAsyncAdaptedQueuePool
else:
return pool.AsyncAdaptedQueuePool
def is_disconnect(self, e, connection, cursor):
if connection:
return connection._connection.is_closed()
else:
return isinstance(
e, self.dbapi.InterfaceError
) and "connection is closed" in str(e)
def do_set_input_sizes(self, cursor, list_of_tuples, context):
if self.positional:
cursor.setinputsizes(
*[dbtype for key, dbtype, sqltype in list_of_tuples]
)
else:
cursor.setinputsizes(
**{
key: dbtype
for key, dbtype, sqltype in list_of_tuples
if dbtype
}
)
def on_connect(self):
super_connect = super(PGDialect_asyncpg, self).on_connect()
def _jsonb_encoder(str_value):
# \x01 is the prefix for jsonb used by PostgreSQL.
# asyncpg requires it when format='binary'
return b"\x01" + str_value.encode()
deserializer = self._json_deserializer or _py_json.loads
def _json_decoder(bin_value):
return deserializer(bin_value.decode())
def _jsonb_decoder(bin_value):
# the byte is the \x01 prefix for jsonb used by PostgreSQL.
# asyncpg returns it when format='binary'
return deserializer(bin_value[1:].decode())
async def _setup_type_codecs(conn):
"""set up type decoders at the asyncpg level.
these are set_type_codec() calls to normalize
There was a tentative decoder for the "char" datatype here
to have it return strings however this type is actually a binary
type that other drivers are likely mis-interpreting.
See https://github.com/MagicStack/asyncpg/issues/623 for reference
on why it's set up this way.
"""
await conn._connection.set_type_codec(
"json",
encoder=str.encode,
decoder=_json_decoder,
schema="pg_catalog",
format="binary",
)
await conn._connection.set_type_codec(
"jsonb",
encoder=_jsonb_encoder,
decoder=_jsonb_decoder,
schema="pg_catalog",
format="binary",
)
def connect(conn):
conn.await_(_setup_type_codecs(conn))
if super_connect is not None:
super_connect(conn)
return connect
dialect = PGDialect_asyncpg