I am doing a very simple update on a table, which also triggers a really simple trigger, and it gives me the error

#1436 - Thread stack overrun:  6136 bytes used of a 131072 byte stack, and 128000 bytes needed.

The query I execute:

UPDATE field_values SET value = 'asaf' WHERE field_values.id =1

The value field is a text field. So in theory it could become quiet big. Which is not the case in this situation.

The trigger that's getting executed is:

    CREATE TRIGGER field_value_update_trigger BEFORE UPDATE ON community_fields_values
      INSERT INTO user_field_log (user_id, field_id, value) VALUES (NEW.user_id, NEW.field_id, NEW.value);

Why is this error showing? It's not like there is any heavy query involved. Also note that the database is almost empty, just 2 rows in community_fields_values and no rows in the user_field_log

MySQL version: 5.1.44

  • can you post the entire trigger code please
    – Jon Black
    Commented Jan 11, 2012 at 15:59
  • @f00 I added the entire trigger
    – Rene Pot
    Commented Jan 12, 2012 at 8:16
  • @jan I added the version in the topic
    – Rene Pot
    Commented Jan 16, 2012 at 12:55

2 Answers 2


1436 - Thread stack overrun: 6136 bytes used of a 131072 byte stack, and 128000 bytes needed.

The error 1436 corresponds to ER_STACK_OVERRUN_NEED_MORE in the mysql 5.1 code :

malff@linux-8edv:include> pwd
malff@linux-8edv:include> grep 1436 mysqld_error.h

The code printing the error seen is in sql/sql_parse.cc, function check_stack_overrun() :

bool check_stack_overrun(THD *thd, long margin,
                         uchar *buf __attribute__((unused)))
  long stack_used;
  DBUG_ASSERT(thd == current_thd);
  if ((stack_used=used_stack(thd->thread_stack,(char*) &stack_used)) >=
      (long) (my_thread_stack_size - margin))
    char ebuff[MYSQL_ERRMSG_SIZE];
    my_snprintf(ebuff, sizeof(ebuff), ER(ER_STACK_OVERRUN_NEED_MORE),
                stack_used, my_thread_stack_size, margin);

From the values seen, margin is 128000, and my_thread_stack_size is 131072.

The only call to check_stack_overrun() that tries to reserve 128000 bytes is from:

sp_head::execute(THD *thd)
  /* Use some extra margin for possible SP recursion and functions */
  if (check_stack_overrun(thd, 8 * STACK_MIN_SIZE, (uchar*)&old_packet))

The value of STACK_MIN_SIZE is 16000:

malff@linux-8edv:sql> pwd
malff@linux-8edv:sql> grep STACK_MIN_SIZE *.h
mysql_priv.h:#define STACK_MIN_SIZE          16000   // Abort if less stack during eval.

So far, everything works as expected for the server:

  • the code executes a trigger, which is implemented with sp_head::execute.
  • the MySQL runtime checks that there is at least 128000 bytes on the stack
  • this check fails (rightly so), and the trigger execution ends with an error.

The amount of stack needed by the MySQL trigger execution does not depends on the trigger complexity itself, or the content / structure of the tables involved.

What the real question is, I guess, why is the thread_stack only at 128K (131072).

The server variable named 'thread_stack' is implemented in C as 'my_thread_stack_size' in sql/mysqld.cc :

  {"thread_stack", OPT_THREAD_STACK,
   "The stack size for each thread.", &my_thread_stack_size,
   &my_thread_stack_size, 0, GET_ULONG, REQUIRED_ARG,DEFAULT_THREAD_STACK,
   1024L*128L, ULONG_MAX, 0, 1024, 0},

1024L*128L is the minimum value for this parameter. The default value is DEFAULT_THREAD_STACK, which is defined in include/my_pthread.h:

  MySQL can survive with 32K, but some glibc libraries require > 128K stack
  To resolve hostnames. Also recursive stored procedures needs stack.
#define DEFAULT_THREAD_STACK    (256*1024L)
#define DEFAULT_THREAD_STACK    (192*1024)

So, by default, the stack size should be 192K (32bits) or 256K (64bits architectures).

First, check how the mysqld binary was compiled, to see what is the default value:

malff@linux-8edv:sql> pwd
malff@linux-8edv:sql> ./mysqld --no-defaults --verbose --help | grep thread_stack
  --thread_stack=#    The stack size for each thread.
thread_stack                      262144

On my system, I got 256K on a 64 bits platform.

If there are different values, maybe someone build the server with different compiling options, such as -DDEFAULT_THREAD_STACK (or just modified the source) ... I would question where the binary is coming from in that case.

Second, check my.cnf for default values provided in the configuration file itself. A line setting a value to thread_stack explicitly (and with a low value) would definitively cause the error seen.

Last, check the server log file for an error such as this (see sql/mysqld.cc) :

sql_print_warning("Asked for %lu thread stack, but got %ld",
                  my_thread_stack_size, (long) stack_size);

The server code calls:

  • pthread_attr_setstacksize() to set the stack size
  • pthread_attr_getstacksize() to verify how much stack a thread really have and complains in the log if the pthread library used less.

Long story short, the error is seen because the thread_stack is too small compared to the default values shipped with the server. This can happen:

  • when doing custom builds of the server, with different compiling options
  • when changing the default value in the my.cnf file
  • if something went wrong in the pthread library itself (in theory from reading the code, I never have seen it myself).

I hope this answer the question.

Regards, -- Marc Alff

Update (2014-03-11), to make the "how to fix" more obvious.

What is going on, in all likelihood, is that the default value for thread_stack file was changed in the my.cnf file.

How to fix it is trivial then, find where thread_stack is set in the my.cnf file, and either remove the setting (trusting the server code to provide a decent default value, so this does not happen again next time) or increase the stack size.

Update (2021-04-28), check where the thread_stack comes from:

Use table performance_schema.variables_info to find out where a given variable comes from.

mysql> select * from variables_info where VARIABLE_NAME = 'thread_stack';
| thread_stack  | COMPILED        |               | 131072    | 18446744073709550592 | NULL     | NULL     | NULL     |
1 row in set (0.01 sec)

Here the default is the factory value (compiled in the mysqld binary).

Another example:

mysql> select * from variables_info where VARIABLE_NAME = 'thread_stack';
| VARIABLE_NAME | VARIABLE_SOURCE | VARIABLE_PATH                                                  | MIN_VALUE | MAX_VALUE            | SET_TIME | SET_USER | SET_HOST |
| thread_stack  | EXPLICIT        | /home/malff/CODE/GIT/GIT_TRUNK/build-dbg/mysql-test/var/my.cnf | 131072    | 18446744073709550592 | NULL     | NULL     | NULL     |
1 row in set (0.00 sec)

Here the thread_stack is set in the my.cnf file reported.



  • 13
    This greatly explains the "what´s going on here". However, it obfuscates the "how to fix" part. Commented Mar 7, 2014 at 11:46
  • I also got the 131072 byte stack on an EL6 (CentOS6) system (64-bits). Excellent answer, though my vote goes for the other post that gives a short and concise solution to the problem :-) POST-EDIT: found that someone actually had hard-coded thread_stack = 128k in the config. Probably it's been standing there for more than a decade :-)
    – tobixen
    Commented Jan 12, 2016 at 12:55
  • @tobixen, thanks for the comments. Personally, I like my answer better (biased of course), especially for the last part : "remove the setting ... so this does not happen again next time". It might (have to wait another decade to find out) be a better solution.
    – Marc Alff
    Commented Jan 12, 2016 at 15:56
  • I'm wondering a bit if the 128k setting came from the RHEL6 mysql package, because I can't find it in our puppet repository. If so, this may be a "bug" that should be reported to RedHat, but I don't feel motivated to follow up on it now.
    – tobixen
    Commented Jan 12, 2016 at 16:15
  • 1
    @mr.loop, table performance_schema.variables_info will show where a system variable value comes from, see updated answer.
    – Marc Alff
    Commented Apr 28, 2021 at 13:12

Although not a solution, but a quick fix could be to increase the thread_stack size by incrementing it in your my.cnf:

thread_stack = 256K

As user "foo" pointed out, posting the whole trigger code might be more helpful in order to detect the real problem.

  • Perfect for single-use procedures you just need to make a complex modification and forget about.
    – kaay
    Commented Feb 15, 2013 at 14:41
  • 8
    Actually, this is the solution -- trigger complexity and thread stack size aren't particularly related to each other, and when your thread stack is too small, you make it bigger. Anything below 256K on a 64-bit system is too small. Commented Oct 19, 2013 at 14:39
  • This worked for me, if you are having problems finding the my.cnf file, use 'Show Variables' to get your mysql basdir and will point you in the right direction. File might also be called my.ini. You need to stop and start the task/service so this update takes effect. Commented May 29, 2018 at 13:42
  • it works for me, thanks. I set it to 10M in my.ini - I found the my.ini file checking mysql service properties from services.msc command in Win+R for windows os Commented Mar 14, 2023 at 15:00

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