pgadmin4/web/pgadmin/utils/driver/abstract.py

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##########################################################################
#
# pgAdmin 4 - PostgreSQL Tools
#
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# Copyright (C) 2013 - 2017, The pgAdmin Development Team
# This software is released under the PostgreSQL Licence
#
##########################################################################
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"""Implement the Base class for Driver and Connection"""
from abc import ABCMeta, abstractmethod, abstractproperty
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import six
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from .registry import DriverRegistry
@six.add_metaclass(DriverRegistry)
class BaseDriver(object):
"""
class BaseDriver(object):
This is a base class for different server types.
Inherit this class to implement different type of database driver
implementation.
(For PostgreSQL/EDB Postgres Advanced Server, we will be using psycopg2)
Abstract Properties:
-------- ----------
* Version (string):
Current version string for the database server
Abstract Methods:
-------- -------
* get_connection(*args, **kwargs)
- It should return a Connection class object, which may/may not be
connected to the database server.
* release_connection(*args, **kwargs)
- Implement the connection release logic
* gc()
- Implement this function to release the connections assigned in the
session, which has not been pinged from more than the idle timeout
configuration.
"""
@abstractproperty
def Version(cls):
pass
@abstractmethod
def get_connection(self, *args, **kwargs):
pass
@abstractmethod
def release_connection(self, *args, **kwargs):
pass
@abstractmethod
def gc(self):
pass
@six.add_metaclass(ABCMeta)
class BaseConnection(object):
"""
class BaseConnection(object)
It is a base class for database connection. A different connection
drive must implement this to expose abstract methods for this server.
General idea is to create a wrapper around the actual driver
implementation. It will be instantiated by the driver factory
basically. And, they should not be instantiated directly.
Abstract Methods:
-------- -------
* connect(**kwargs)
- Define this method to connect the server using that particular driver
implementation.
* execute_scalar(query, params, formatted_exception_msg)
- Implement this method to execute the given query and returns single
datum result.
* execute_async(query, params, formatted_exception_msg)
- Implement this method to execute the given query asynchronously and returns result.
* execute_void(query, params, formatted_exception_msg)
- Implement this method to execute the given query with no result.
* execute_2darray(query, params, formatted_exception_msg)
- Implement this method to execute the given query and returns the result
as a 2 dimensional array.
* execute_dict(query, params, formatted_exception_msg)
- Implement this method to execute the given query and returns the result
as an array of dict (column name -> value) format.
* connected()
- Implement this method to get the status of the connection. It should
return True for connected, otherwise False
* reset()
- Implement this method to reconnect the database server (if possible)
* transaction_status()
- Implement this method to get the transaction status for this
connection. Range of return values different for each driver type.
* ping()
- Implement this method to ping the server. There are times, a connection
has been lost, but - the connection driver does not know about it. This
can be helpful to figure out the actual reason for query failure.
* _release()
- Implement this method to release the connection object. This should not
be directly called using the connection object itself.
NOTE: Please use BaseDriver.release_connection(...) for releasing the
connection object for better memory management, and connection pool
management.
* _wait(conn)
- Implement this method to wait for asynchronous connection to finish the
execution, hence - it must be a blocking call.
* _wait_timeout(conn, time)
- Implement this method to wait for asynchronous connection with timeout.
This must be a non blocking call.
* poll(formatted_exception_msg)
- Implement this method to poll the data of query running on asynchronous
connection.
* cancel_transaction(conn_id, did=None)
- Implement this method to cancel the running transaction.
* messages()
- Implement this method to return the list of the messages/notices from
the database server.
* rows_affected()
- Implement this method to get the rows affected by the last command
executed on the server.
"""
ASYNC_OK = 1
ASYNC_READ_TIMEOUT = 2
ASYNC_WRITE_TIMEOUT = 3
ASYNC_NOT_CONNECTED = 4
ASYNC_EXECUTION_ABORTED = 5
@abstractmethod
def connect(self, **kwargs):
pass
@abstractmethod
def execute_scalar(self, query, params=None, formatted_exception_msg=False):
pass
@abstractmethod
def execute_async(self, query, params=None, formatted_exception_msg=True):
pass
@abstractmethod
def execute_void(self, query, params=None, formatted_exception_msg=False):
pass
@abstractmethod
def execute_2darray(self, query, params=None, formatted_exception_msg=False):
pass
@abstractmethod
def execute_dict(self, query, params=None, formatted_exception_msg=False):
pass
@abstractmethod
def connected(self):
pass
@abstractmethod
def reset(self):
pass
@abstractmethod
def transaction_status(self):
pass
@abstractmethod
def ping(self):
pass
@abstractmethod
def _release(self):
pass
@abstractmethod
def _wait(self, conn):
pass
@abstractmethod
def _wait_timeout(self, conn, time):
pass
@abstractmethod
def poll(self, formatted_exception_msg=True):
pass
@abstractmethod
def status_message(self):
pass
@abstractmethod
def rows_affected(self):
pass
@abstractmethod
def cancel_transaction(self, conn_id, did=None):
pass