Each MySQL version is tested on many platforms before it is released. This does not mean that there are no bugs in MySQL, but if there are bugs, they should be very few and can be hard to find. If you have a problem, it always helps if you try to find out exactly what crashes your system, because you have a much better chance of getting the problem fixed quickly.
First, you should try to find out whether the problem is that the mysqld server dies or whether your problem has to do with your client. You can check how long your mysqld server has been up by executing mysqladmin version. If mysqld has died and restarted, you may find the reason by looking in the server's error log. See Section 5.2.2, “The Error Log”.
On some systems, you can find in the error log a stack trace
of where mysqld died that you can resolve
resolve_stack_dump program. See
Section 22.4, “Debugging and Porting MySQL”. Note that the variable values
written in the error log may not always be 100% correct.
Many server crashes are caused by corrupted data files or
index files. MySQL updates the files on disk with the
write() system call after every SQL
statement and before the client is notified about the result.
(This is not true if you are running with
--delay-key-write, in which
case data files are written but not index files.) This means
that data file contents are safe even if
mysqld crashes, because the operating
system ensures that the unflushed data is written to disk. You
can force MySQL to flush everything to disk after every SQL
statement by starting mysqld with the
The preceding means that normally you should not get corrupted tables unless one of the following happens:
The MySQL server or the server host was killed in the middle of an update.
You have found a bug in mysqld that caused it to die in the middle of an update.
Some external program is manipulating data files or index files at the same time as mysqld without locking the table properly.
You are running many mysqld servers
using the same data directory on a system that does not
support good file system locks (normally handled by the
lockd lock manager), or you are running
multiple servers with external locking disabled.
You have a crashed data file or index file that contains very corrupt data that confused mysqld.
You have found a bug in the data storage code. This isn't
likely, but it is at least possible. In this case, you can
try to change the storage engine to another engine by
ALTER TABLE on a
repaired copy of the table.
Because it is very difficult to know why something is crashing, first try to check whether things that work for others crash for you. Try the following things:
Stop the mysqld server with
mysqladmin shutdown, run
myisamchk --silent --force */*.MYI from
the data directory to check all
tables, and restart mysqld. This
ensures that you are running from a clean state. See
Chapter 5, MySQL Server Administration.
Start mysqld with the general query log enabled (see Section 5.2.3, “The General Query Log”). Then try to determine from the information written to the log whether some specific query kills the server. About 95% of all bugs are related to a particular query. Normally, this is one of the last queries in the log file just before the server restarts. See Section 5.2.3, “The General Query Log”. If you can repeatedly kill MySQL with a specific query, even when you have checked all tables just before issuing it, then you have isolated the bug and should submit a bug report for it. See Section 1.7, “How to Report Bugs or Problems”.
Try to make a test case that we can use to repeat the problem. See Section 22.4, “Debugging and Porting MySQL”.
Try running the tests in the
mysql-test directory and the MySQL
benchmarks. See Section 22.1.2, “The MySQL Test Suite”. They
test MySQL rather well. You can also add code to the
benchmarks that simulates your application. The benchmarks
are in the
sql-bench directory in a
source distribution or, for a binary distribution, in the
sql-bench directory under your MySQL
fork_big.pl script. (It is
located in the
tests directory of
Configuring MySQL for debugging makes it much easier to
gather information about possible errors if something goes
wrong. Reconfigure MySQL with the
-DWITH_DEBUG=1 option to
CMake and then recompile. See
Section 22.4, “Debugging and Porting MySQL”.
Make sure that you have applied the latest patches for your operating system.
option to mysqld. On some systems, the
lockd lock manager does not work
option tells mysqld not to use external
locking. (This means that you cannot run two
mysqld servers on the same data
directory and that you must be careful if you use
myisamchk. Nevertheless, it may be
instructive to try the option as a test.)
If mysqld appears to be running but not responding, try mysqladmin -u root processlist. Sometimes mysqld is not hung even though it seems unresponsive. The problem may be that all connections are in use, or there may be some internal lock problem. mysqladmin -u root processlist usually is able to make a connection even in these cases, and can provide useful information about the current number of connections and their status.
Try the following:
Run your test scripts.
Print the backtrace and the local variables at the three lowest levels. In gdb, you can do this with the following commands when mysqld has crashed inside gdb:
backtrace info local up info local up info local
With gdb, you can also examine
which threads exist with
threads and switch to a specific thread with
N is the thread ID.
Try to simulate your application with a Perl script to force MySQL to crash or misbehave.
Send a normal bug report. See Section 1.7, “How to Report Bugs or Problems”. Be even more detailed than usual. Because MySQL works for many people, the crash might result from something that exists only on your computer (for example, an error that is related to your particular system libraries).
If you have a problem with tables containing
dynamic-length rows and you are using only
VARCHAR columns (not
TEXT columns), you can try
to change all
ALTER TABLE. This forces
MySQL to use fixed-size rows. Fixed-size rows take a
little extra space, but are much more tolerant to
The current dynamic row code has been in use for several years with very few problems, but dynamic-length rows are by nature more prone to errors, so it may be a good idea to try this strategy to see whether it helps.
Consider the possibility of hardware faults when diagnosing problems. Defective hardware can be the cause of data corruption. Pay particular attention to your memory and disk subsystems when troubleshooting hardware.
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