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Support > Technical Documents > Document Types > Tips > SQL Anywhere INSIDER April 2010  
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April 2010 Edition

How to Eliminate Deadlocks from your Database

This document discusses how to identify and how to deal with deadlocks in a relational database. The term ‘deadlock’ refers to what is known as a ‘cyclical deadlock’: a situation wherein two or more competing transactions are blocking each other on the same resource (usually table or row lock) and thus since neither are able to proceed, one of them must be terminated by the server.

Depending on the situation, there might be a couple different approaches to resolving deadlocks in the database. Each approach is based on the information available, individual’s experience or the preference. Some administrators might be more comfortable modifying database schema, others would rather change SQL code or server/connection options.

The difficulty with deadlocks is that they rarely occur in test or QA environments, therefore they are harder to discover early in the development cycle. They typically occur under heavy production load, where it’s harder to debug and not always possible to make any code changes.

So what to do when a deadlock happens on your database. Here are 3 steps:

  • Log deadlock information
  • Determine what tables and SQL commands are involved
  • Decide what ‘technique’ to use to resolve it

Note that although in this example SQL Anywhere is used as the database server, in principle similar techniques could be applied on all other relational database systems including ASE, MS SQL server, Oracle etc.

How Do I know that my application is suffering from deadlocks?

Deadlocks could be sporadic: happen once and then never again, or repeatable: happen at a certain time of the day, during one specific report/procedure call. One needs to develop a judgment to know which ones to ignore and which ones to pay attention to. It is important to mention that the sole reason for their occurrence lies in the application and database design.

If your application occasionally behaves abnormally, e.g. most of the time everything works perfectly but sometimes, even though nothing has changed, transactions are rolledback, scripts are failing etc., or your application is simply returning the following error:

SQLCODE=-306, ODBC 3 State="40001"

then, it’s time to perform some quick analysis and verify what is causing deadlocks in your database.
Logging Deadlocks Information - Version 10,11.

Starting in version 9.0.2 ASA provides deadlock logging capabilities that  allows users to captures valuable information needed for deadlock resolution. Deadlock logging is not turned on by default. An administrator needs to enable this either through ‘Sybase Central’ or dbisql. In addition to deadlock logging  the user should also turn the database option ‘RememberLastStatement’ on in order to track down which SQL statement is being executed during deadlocks.

In order to turn required options on, from dbisql run the following:

// make sure default blocking_timeout has not been modified
SET OPTION PUBLIC.blocking_timeout = 0;
// set server option to remember LastStatement
SET OPTION PUBLIC.rememberlaststatement = 'On';
// remember information about deadlocks
SET OPTION PUBLIC.log_deadlocks='On';

 

Once the required options are set the server will temporarily keep all of the information in memory until a restart or it is manually cleared.

Deadlock Example

In order to capture a simple deadlock use the following example. Open 2 dbisql windows (‘Connection 1’ and ‘Connection 2’) and connect to the demo11 database. From ‘Connection 1’ run the following, it will create deadlock_example table and 2 procedures that are updating and selecting from it:

//SA 11 create sample table
CREATE TABLE IF NOT EXISTS deadlock_example
(
    pk INT NOT NULL PRIMARY KEY,
    s1 VARCHAR(30) NOT NULL
);

CREATE TABLE IF NOT EXISTS deadlock_example
(
    pk INT NOT NULL PRIMARY KEY,
    s1 VARCHAR(30) NOT NULL
);

 

CREATE OR REPLACE PROCEDURE proc1()
BEGIN        //make sure isolation leve is set to 1 (read committed)
        SET TEMPORARY OPTION isolation_level = 1;
        //clean the table first
        DELETE deadlock_example ;
        //populate sample table with 2 rows
        INSERT INTO deadlock_example (pk, s1) VALUES(1, 'initial 1');
        INSERT INTO deadlock_example (pk, s1) VALUES(2,'initial 2');
        COMMIT;
       
        //update the table, which creates read lock on the row
        UPDATE deadlock_example SET s1 = 'deadlock 1' where pk = 1;
        WAITFOR DELAY '00:00:10';
        SELECT * FROM deadlock_example WHERE pk = 2;
        COMMIT;
END;

 

CREATE OR REPLACE PROCEDURE proc2()
BEGIN
        //make sure you are in isolation level 1
        SET TEMPORARY OPTION isolation_level = 1;
     
        //lock row with pk = 2
        UPDATE deadlock_example SET s1='deadlock 2' where pk=2;

        //try to read row with pk = 1
        SELECT * FROM deadlock_example where pk = 1;
        COMMIT;
END;

 

Just like in a real environment, this example shows how much a deadlock is a timing depended event. ‘WAITFOR DELAY’ call simulates long running transaction on the database,during which ‘deadlock_example’ rows are  locked.

Now, from ‘Connection 1’ run:

CALL proc1();

and, then quickly, (< 10 seconds) from ‘Connection 2’

CALL proc2();

 

Shortly after you execute proc2(), an error will occur, and when you click on ‘Show Details’ you should see following message, showing that a deadlock has been detected.

TechTips_Feb2010_clip_image002.jpg

Analyzing deadlock information:

To view deadlock information SQL Anywhere provides the ‘sa_report_deadlocks() ‘ system stored procedure.

Sample output from dbisql call

SELECT * FROM  sa_report_deadlocks();

snapshotId,snapshotAt,waiter,who,what,object_id,record_id,owner,is_victim,rollback_operation_count
1,'2010-04-15 10:48:21.171',4,'DBA','call proc2()',3420,47906818,3,false,1
1,'2010-04-15 10:48:21.171',3,'DBA','call proc1()',3420,47906819,4,true,1

In version 11, other than the information from ‘sa_report_deadlocks()’ it provides a nice visual representation of deadlocks in Sybase Central. Just click on the database icon and then choose the ‘Deadlocks’ tab on the right.

Version 11
TechTips_Feb2010_clip_image004.jpg

As per deadlock definition there needs to be at least 2 different transactions involved for a deadlock to happen. The likelihood of a deadlock to appear increases with the duration of a transaction and the number of tables (locks) involved. In other words, in order to eliminate them it is important to keep transactions short, and the number of tables /locks accessed during the transaction small.

Very often, long running transactions are caused by poorly written queries or bad indexes. In many cases, speeding them up would not only fix the performance bottleneck but also resolve deadlocks.

The main idea to resolve deadlocks is to change the locking behavior of one of the transactions involved, so it still produces the same results, but behaves different as far as locking is concerned.

Changing locking behavior could be done in a couple of different ways for example:

  • modifying existing SQL code (e.g. changing isolation level NOLOCK hint, reordering statements )
  • modifying existing databases schema (modifying, adding, removing indexes)

Depending on the environment different solutions could be applied. In situations where SQL code is embedded within a compiled application, the only option might be to change the schema (e.g adding a new index to speedup the transaction). On other systems, where changing SQL is not a problem, a simple rewrite of a stored procedure may be a way to go.

In the example above, decreasing the number of seconds in a WAITFOR command, or changing the isolation level to ‘0’ (e.g. using ‘WITH (NOLOCK) hint) e.g.

SELECT * FROM deadlock_example WITH (NOLOCK) WHERE pk = 2

will either make the deadlock less likely to appear or remove it completely.

Summary

There are a number of things that need to be done in order to avoid deadlocks on the database:

  • Logging deadlock information
  • Identifying SQL involved
  • Making sure queries are optimized for performance
  • Keeping transactions short
  • Revising your general performance

It is important to remember that deadlocks are just symptoms of poor database design, poor SQL coding or other problems that are hiding in the system. Addressing deadlock issues will not only make an application more stable, but it may also improve overall database performance.


 

DOCUMENT ATTRIBUTES
Last Revised: Apr 22, 2010
Product: SQL Anywhere
Technical Topics: SQL Anywhere
  
Business or Technical: Technical
Content Id: 1069382
Infotype: Tips
 
 
 

 
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