I am trying to write a multi-threaded Python application in which a single SQlite connection is shared among threads. I am unable to get this to work. The real application is a cherrypy web server, but the following simple code demonstrates my problem.

What change or changes to I need to make to run the sample code, below, successfully?

When I run this program with THREAD_COUNT set to 1 it works fine and my database is updated as I expect (that is, letter "X" is added to the text value in the SectorGroup column).

When I run it with THREAD_COUNT set to anything higher than 1, all threads but 1 terminate prematurely with SQLite related exceptions. Different threads throw different exceptions (with no discernible pattern) including:

OperationalError: cannot start a transaction within a transaction 

(occurs on the UPDATE statement)

OperationalError: cannot commit - no transaction is active 

(occurs on the .commit() call)

InterfaceError: Error binding parameter 0 - probably unsupported type. 

(occurs on the UPDATE and the SELECT statements)

IndexError: tuple index out of range

(this one has me completely puzzled, it occurs on the statement group = rows[0][0] or '', but only when multiple threads are running)

Here is the code:

CONNECTION = sqlite3.connect('./database/mydb', detect_types=sqlite3.PARSE_DECLTYPES, check_same_thread = False)
CONNECTION.row_factory = sqlite3.Row

def commands(start_id):

    # loop over 100 records, read the SectorGroup column, and write it back with "X" appended.
    for inv_id in range(start_id, start_id + 100):

        rows = CONNECTION.execute('SELECT SectorGroup FROM Investment WHERE InvestmentID = ?;', [inv_id]).fetchall()
        if rows:
            group = rows[0][0] or ''
            msg = '{} inv {} = {}'.format(current_thread().name, inv_id, group)
            print msg
            CONNECTION.execute('UPDATE Investment SET SectorGroup = ? WHERE InvestmentID = ?;', [group + 'X', inv_id])

        CONNECTION.commit()

if __name__ == '__main__':

    THREAD_COUNT = 10

    for i in range(THREAD_COUNT):
        t = Thread(target=commands, args=(i*100,))
        t.start()
  • 2
    Why do they need to share a connection? This seems like a bad idea. – ebarr Mar 30 '14 at 2:36
  • 2
    Did you read docs.python.org/2/library/sqlite3.html#multithreading? Just create a connection per thread instead. – Martijn Pieters Mar 30 '14 at 2:58
  • Basically, you need to do your own locking if you share the connection between threads; see bugs.python.org/issue16509 for a hint in that direction. You'd be better of using SQLAlchemy and let it handle pooling(it adds an efficient statement-of-work queuing system as well). – Martijn Pieters Mar 30 '14 at 3:05
  • @MartijnPieters - No, I completely missed that little note at the bottom of the SQLite page. I mistakenly assumed that the existence of check_same_thread in the sqlite3 python module along with the default compilation option of serialized in SQLite made this possible. Please convert your comment to an answer so that I can mark it correct for the next person who comes along. – Larry Lustig Mar 30 '14 at 3:25
up vote 13 down vote accepted

It's not safe to share a connection between threads; at the very least you need to use a lock to serialize access. Do also read http://docs.python.org/2/library/sqlite3.html#multithreading as older SQLite versions have more issues still.

The check_same_thread option appears deliberately under-documented in that respect, see http://bugs.python.org/issue16509.

You could use a connection per thread instead, or look to SQLAlchemy for a connection pool (and a very efficient statement-of-work and queuing system to boot).

  • Thanks, I've converted to connection per thread. That caused the testing code for my application (the real one, not the sample code) to terminate threads early with Database is locked even though I have no lengthy write operations. However, extending the database timeout setting seems to have fixed that without any visible harm to performance. Thanks! – Larry Lustig Mar 30 '14 at 3:33
  • 1
    Extending the database timeout was not the solution. I still had a few cross-thread uses of connection objects. Once I got rid of those and was very careful to always call .close() on every connection once I was done with it (include in threads that only read from the database) then I was able to set the timeout back to the default and reliably run the application under heavy load. – Larry Lustig Mar 31 '14 at 20:24

I ran into the SqLite threading problem when writing a simple WSGI server for fun and learning. WSGI is multi-threaded by nature when running under Apache. The following code seems to work for me:

import sqlite3
import threading

class LockableCursor:
    def __init__ (self, cursor):
        self.cursor = cursor
        self.lock = threading.Lock ()

    def execute (self, arg0, arg1 = None):
        self.lock.acquire ()

        try:
            self.cursor.execute (arg1 if arg1 else arg0)

            if arg1:
                if arg0 == 'all':
                    result = self.cursor.fetchall ()
                elif arg0 == 'one':
                    result = self.cursor.fetchone ()
        except Exception as exception:
            raise exception

        finally:
            self.lock.release ()
            if arg1:
                return result

def dictFactory (cursor, row):
    aDict = {}
    for iField, field in enumerate (cursor.description):
        aDict [field [0]] = row [iField]
    return aDict

class Db:
    def __init__ (self, app):
        self.app = app

    def connect (self):
        self.connection = sqlite3.connect (self.app.dbFileName, check_same_thread = False, isolation_level = None)  # Will create db if nonexistent
        self.connection.row_factory = dictFactory
        self.cs = LockableCursor (self.connection.cursor ())

Example of use:

if not ok and self.user:    # Not logged out
    # Get role data for any later use
    userIdsRoleIds = self.cs.execute ('all', 'SELECT role_id FROM users_roles WHERE user_id == {}'.format (self.user ['id']))

    for userIdRoleId in userIdsRoleIds:
        self.userRoles.append (self.cs.execute ('one', 'SELECT name FROM roles WHERE id == {}'.format (userIdRoleId ['role_id'])))

Another example:

self.cs.execute ('CREATE TABLE users (id INTEGER PRIMARY KEY, email_address, password, token)')         
self.cs.execute ('INSERT INTO users (email_address, password) VALUES ("{}", "{}")'.format (self.app.defaultUserEmailAddress, self.app.defaultUserPassword))

# Create roles table and insert default role
self.cs.execute ('CREATE TABLE roles (id INTEGER PRIMARY KEY, name)')
self.cs.execute ('INSERT INTO roles (name) VALUES ("{}")'.format (self.app.defaultRoleName))

# Create users_roles table and assign default role to default user
self.cs.execute ('CREATE TABLE users_roles (id INTEGER PRIMARY KEY, user_id, role_id)') 

defaultUserId = self.cs.execute ('one', 'SELECT id FROM users WHERE email_address = "{}"'.format (self.app.defaultUserEmailAddress)) ['id']         
defaultRoleId = self.cs.execute ('one', 'SELECT id FROM roles WHERE name = "{}"'.format (self.app.defaultRoleName)) ['id']

self.cs.execute ('INSERT INTO users_roles (user_id, role_id) VALUES ({}, {})'.format (defaultUserId, defaultRoleId))

Complete program using this construction downloadable at: http://www.josmith.org/

N.B. The code above is experimental, there may be (fundamental) issues when using this with (many) concurrent requests (e.g. as part of a WSGI server). Performance is not critical for my application. The simplest thing probably would have been to just use MySql, but I like to experiment a little, and the zero installation thing about SqLite appealed to me. If anyone thinks the code above is fundamentally flawed, please react, as my purpose is to learn. If not, I hope this is useful for others.

I'm guessing here, but it looks like the reason why you are doing this is a performance concern.

Python threads aren't performant in any meaningful way for this use case. Instead, use sqlite transactions, which are super fast.

If you do all your updates in a transaction, you'll find an order of magnitude speedup.

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