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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?

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3 Answers 3

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.

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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))
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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 –  Darhazer 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.

http://dev.mysql.com/doc/refman/5.0/en/lock-tables.html

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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