My Python program queries a set of tables in a MySQL DB, sleeps for 30 seconds, then queries them again, etc. The tables in question are continuously updated by a third-party, and (obviously) I would like to see the new results every 30 seconds.

Let's say my query looks like this:

"select * from A where A.key > %d" % maxValueOfKeyFromLastQuery

Regularly I will see that my program stops finding new results after one or two iterations, even though new rows are present in the tables. I know new rows are present in the tables because I can see them when I issue the identical query from interactive mysql (i.e. not from Python).

I found that the problem goes away in Python if I terminate my connection to the database after each query and then establish a new one for the next query.

I thought maybe this could be a server-side caching issue as discussed here: Explicit disable MySQL query cache in some parts of program


  1. When I check the interactive mysql shell, it says that caching is on. (So if this is a caching problem, how come the interactive shell doesn't suffer from it?)

  2. If I explicitly execute SET SESSION query_cache_type = OFF from within my Python program, the problem still occurs.

Creating a new DB connection for each query is the only way I've been able to make the problem go away.

How can I get my queries from Python to see the new results that I know are there?

  • 1
    You should not use the % format operator in queries. Use %s for all placeholders (no matter what their type is) and pass a tuple/list with the values so they can be sanitized properly. Commented May 9, 2011 at 23:01
  • 1
    Just a guess: Make sure that your queries that read from the db are not isolated from other changes by a transaction. I.e. create a new transaction before each read.
    – jsw
    Commented May 9, 2011 at 23:14
  • 3
    @ThiefMaster: %d is actually okay in queries, because it forces the substitution to be an integer, which cannot be used for SQL injection attacks.
    – Jonathan
    Commented May 10, 2011 at 14:37

4 Answers 4


This website and this website contain information on the same problem. In order to keep your tables up to date, you must commit your transactions. Use db.commit() to do this.

As mentioned by the post below me, you can remove the need for this by enabling auto-commit. this can be done by running db.autocommit(True)

Also, auto-commit is enabled in the interactive shell, so this explains why you didn't have the problem there.

  • Thanks for the tip! This was exactly the problem. I'm too used to Oracle, I suppose. :)
    – dg99
    Commented May 10, 2011 at 14:28
  • 2
    I also benefited from this. But could you care to explain why autocommit helps SELECT statements? My source (in dev) is PHPMyAdmin which always returns the updated results. But my Python program did not, until enabling the autocommit. Commented Oct 12, 2011 at 5:25
  • 3
    I have the same issue as @aitchnyu, my python process only does selects. I have a completely other process doing the writing, I put the commit() right after the execute() and before the fetchall() and it works. This is cool, but why do you do commit() on read statements?
    – Landon
    Commented Nov 16, 2012 at 1:03
  • 3
    @aitchnyu @Landon Although it seems strange, the InnoDB transaction model causes even SELECT statements to be isolated from changes made to the db. So if you don't terminate an old transaction (either with explicit commit or by having autocommit on) your next query will use the same view of the db that was present when your first query ran. See also ...
    – dg99
    Commented Oct 31, 2013 at 18:43

You may want to check the transaction isolation level of your database. The behavior you describe is what you may expect if it is set to REPEATABLE-READ. You may want to change it to READ-COMMITTED.

Since the original poster of the problem mentions that he is merely querying the database, it cannot be a commit that was forgotten. Inserting a commit seems to be a workaround though since it causes a new transaction to begin; and a new snapshot may need to be established. Still, having to insert a commit before every select doesn't sound like good programming practices to me.

There is no python code to show since the solution lies in correctly configuring the database.

DO check MySQL documentation at http://dev.mysql.com/doc/refman/5.5/en/set-transaction.html.

This is the default isolation level for InnoDB. For consistent reads, there is an important difference from the READ COMMITTED isolation level: All consistent reads within the same transaction read the snapshot established by the first read. This convention means that if you issue several plain (nonlocking) SELECT statements within the same transaction, these SELECT statements are consistent also with respect to each other. See Section, “Consistent Nonlocking Reads”.

A somewhat Oracle-like isolation level with respect to consistent (nonlocking) reads: Each consistent read, even within the same transaction, sets and reads its own fresh snapshot. See Section, “Consistent Nonlocking Reads”.

Checking the configured isolation level:

>mysql > SELECT @@GLOBAL.tx_isolation, @@tx_isolation;
| @@GLOBAL.tx_isolation | @@tx_isolation  |
1 row in set (0.01 sec)

Setting the transaction isolation level to READ-COMMITTED

mysql> SET GLOBAL tx_isolation='READ-COMMITTED';
Query OK, 0 rows affected (0.00 sec)

mysql> SET SESSION tx_isolation='READ-COMMITTED';
Query OK, 0 rows affected (0.00 sec)

mysql> SELECT @@GLOBAL.tx_isolation, @@tx_isolation;
| @@GLOBAL.tx_isolation | @@tx_isolation |
1 row in set (0.01 sec)


And run the application again …

  • Check MySQL manual for behavior of transaction isolation level.
    – GuruMatics
    Commented Apr 23, 2013 at 9:28

You can enable auto-commit automatically in MySQLdb! Try the following:

conn = MySQLdb.Connect("host", "user", "password")

This gives you the same behavior that you are used to in the interactive shell.

  • also, there is a keyword parameter 'autocommit' Commented Feb 4, 2016 at 16:32

I can not say exactly why this issue occurs but I have tested 3 solutions that solved the problem

  1. Create a new mysql connection (and a new cursor) before running each query

    cnx = mysql.connector.connect(**config2)
    csr = cnx.cursor(named_tuple=True, buffered=True)

I am not sure this is recommended practice but it solves the problem

  1. Commit - either by setting autocommit to true or by manually committing after each query
  2. Understand that the problem only occurs with transaction storage engines, so if it is not important to use transactional, you can set the table you are querying to a non transactional type like MyISAM - probably the easiest option

I didn't add setting the transactional isolation level to READ COMMITED because I haven't tried it and someone else claimed it didn't work for him

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