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In my application, I have two queries that occur from time to time (from different processes), that cause a deadlock.

Query #1

UPDATE tblA, tblB SET tblA.varcharfield=tblB.varcharfield WHERE tblA.varcharfield IS NULL AND [a few other conditions];

Query #2

INSERT INTO tmp_tbl SELECT * FROM tblA WHERE [various conditions];

Both of these queries take a significant time, as these tables have millions of rows. When query #2 is running, it seems that tblA is locked in mode S. It seems that query #1 requires an X lock. Since this is incompatible with an S lock, query #1 waits for up to 30 seconds, at which point I get a deadlock:

Serialization failure: 1213 Deadlock found when trying to get lock; try restarting transaction

Based on what I've read in the documentation, I think I have a couple options:

  1. Set an index on tblA.varcharfield. Unfortunately, I think that this would require a very large index to store the field of varchar(512). (See edit below... this didn't work.)
  2. Disable locking with SET SESSION TRANSACTION ISOLATION LEVEL READ UNCOMMITTED; . I don't understand the implications of this, and am worried about corrupt data. I don't use explicit transactions in my application currently, but I might at some point in the future.
  3. Split my time-consuming queries into small pieces so that they can queue and run in MySQL without reaching the 30-second timeout. This wouldn't really fix the heart of the issue, and I am concerned that when my database servers get busy that the problem will occur again.
  4. Simply retrying queries over and over again... not an option I am hoping for.

How should I proceed? Are there alternate methods I should consider?

EDIT: I have tried setting an index on varcharfield, but the table is still locking. I suspect that the locking happens when the UPDATE portion is actually executing. Are there other suggestions to get around this problem?

share|improve this question

A. If we assume that indexing varcharField takes a lot of disk space and adding new column will not hit you hard I can suggest the following approach:

  1. create new field with datatype "tinyint"
  2. index it.
  3. this field will store 0 if varcharField is null and 1 - otherwise.
  4. rewrite the first query to do update relying on new field. In this case it will not cause entire table locking.

Hope it helps.

share|improve this answer
Thank you for your suggestion. I have tried using an index, as suggested by Darhazer, but to no avail. I suspect that the UPDATE has to run before my SELECT will be allowed to run. Do you have any other advice? – Brad Oct 30 '11 at 19:18
If it's still a problem could you please put the result of show innodb status, section "deadlocks" – ravnur Oct 31 '11 at 8:15
Thank you for your help. I solved the problem by explicitly locking the tables. Unfortunately, I think the deadlock must have been caused by other parts of the query that I can't divulge due to NDA. My simplification of the query in question was not adequate. I do thank you for your help though, in solving this problem. – Brad Nov 5 '11 at 18:12

You can index only part of the varchar column, it will still work, and will require less space. Just specify index size:

CREATE INDEX someindex ON sometable (varcharcolumn(32))
share|improve this answer
Thanks for the advice. I tried this last night, but am still getting the deadlock. I've ran EXPLAIN on the SELECT queries, and they are all using indices as expected. I suspect that the UPDATE has to run before my SELECT will work at all. – Brad Oct 30 '11 at 19:17
@Brad can you add the explains to the question? I would like to take a look at them – Maxim Krizhanovsky Oct 31 '11 at 7:14
I greatly appreciate your help. I was able to get around this problem by locking the tables explicitly. I think the problem was part of the query that I can't divulge due to NDA, and my simplification in my question didn't not adequately show the issue. Thanks again for your assistance though! – Brad Nov 5 '11 at 18:11
up vote 0 down vote accepted

I was able to solve the issue by adding explicit LOCK TABLE statements around both queries. This turned out to be a better solution, since each query affects so many records, and that both of these are background processes. They now wait on each other.

While this is an okay solution for me, it obviously isn't the answer for everyone. Locking with WRITE means that you cannot READ. Only a READ lock will allow others to READ.

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