The PHP documentation is pretty clear on how to get a backtrace in PHP, but some of the explanations are confusing and seem focused on mod_php, instead of PHP-FPM. So here’s the steps you can take to enable core dumps in PHP-FPM pools.

Enable core dumps on Linux

Chances are, your current Linux config doesn’t support core dumps yet. You can enable them and set the location where the kernel will dump the core files.

$ echo '/tmp/coredump-%e.%p' > /proc/sys/kernel/core_pattern

You can use many different kinds of core dump variables for the filename, such as;

%% a single % character %c core file size soft resource limit of crashing process (since Linux 2.6.24) %d dump mode—same as value returned by prctl(2) PR_GET_DUMPABLE (since Linux 3.7) %e executable filename (without path prefix) %E pathname of executable, with slashes ('/') replaced by exclamation marks ('!') (since Linux 3.0). %g (numeric) real GID of dumped process %h hostname (same as nodename returned by uname(2)) %p PID of dumped process, as seen in the PID namespace in which the process resides %P PID of dumped process, as seen in the initial PID namespace (since Linux 3.12) %s number of signal causing dump %t time of dump, expressed as seconds since the Epoch, 1970-01-01 00:00:00 +0000 (UTC) %u (numeric) real UID of dumped process

The example above will use the executable name (%e) and the pidfile (%p) in the filename. It’ll dump in /tmp , as that will be writable to any kind of user.

Now that your kernel knows where to save the core dumps, it’s time to change PHP-FPM.

Enable PHP-FPM core dumps per pool

To enable a core dump on a SIGSEGV, you can enable the rlimit_core option per PHP-FPM pool. Open your pool configuration and add the following.

rlimit_core = unlimited

Restart your PHP-FPM daemon ( service php-fpm restart ) to activate the config. Next time a SIGSEGV happens, your PHP-FPM logs will show you some more information.

WARNING: [pool poolname] child 20076 exited on signal 11 (SIGSEGV - core dumped) after 8.775895 seconds from start

You can find the core-dump in /tmp/coredump*.

$ ls /tmp/coredump* -rw------- 1 user group 220M /tmp/coredump-php-fpm.2393

The filename shows the program (php-fpm) and the PID (2393).

Reading the core dumps

This is one part that the PHP docs are pretty clear about, so just a copy paste with modified/updated paths.

First, you need gdb installed ( yum install gdb ) to get the backtraces. You then start the gdb binary like gdb $program-path $coredump-path . Since our program is php-fpm, which resides in /usr/sbin/php-fpm , we call the gdb binary like this.

$ gdb /usr/sbin/php-fpm /tmp/coredump-php-fpm.2393 (gdb loading all symbols ... ) ... Reading symbols from /usr/lib64/php/modules/memcache.so...(no debugging symbols found)...done. Loaded symbols for /usr/lib64/php/modules/memcache.so ... (gdb) bt #0 0x00007f8a8b6d7c37 in mmc_value_handler_multi () from /usr/lib64/php/modules/memcache.so #1 0x00007f8a8b6db9ad in mmc_unpack_value () from /usr/lib64/php/modules/memcache.so #2 0x00007f8a8b6e0637 in ?? () from /usr/lib64/php/modules/memcache.so #3 0x00007f8a8b6dd55b in mmc_pool_select () from /usr/lib64/php/modules/memcache.so #4 0x00007f8a8b6ddcc8 in mmc_pool_run () from /usr/lib64/php/modules/memcache.so #5 0x00007f8a8b6d7e92 in ?? () from /usr/lib64/php/modules/memcache.so #6 0x00007f8a8ac335cf in nr_php_curl_setopt () at /home/hudson/slave-workspace/workspace/PHP_Release_Agent/label/centos5-64-nrcamp/agent/php_curl.c:202 #7 0x0000000002b14fe0 in ?? () #8 0x0000000000000000 in ?? ()

The bt command will show you the PHP backtrace on the moment of the core dump. To exit gdb, just type quit .

There are other good-to-know gdb commands too, for instance – from your gdb shell (which you started above), type the following:

$ gdb /usr/sbin/php-fpm /tmp/coredump-php-fpm.2393 (gdb) print (char *)(executor_globals.function_state_ptr->function)->common.function_name There is no member named function_state_ptr. (gdb) print (char *)executor_globals.active_op_array->function_name $1 = 0x7f97a47a6670 "_drupal_error_handler_real" (gdb) print (char *)executor_globals.active_op_array->filename $2 = 0x7f97a47a4458 "/var/www/vhosts/site.tld/htdocs/includes/errors.inc"

In summary:

first print: can tell you which function call in PHP’s user-land caused the error

second print: can tell you which method got called that caused the error

third print: can tell you which PHP file called that method/function that caused the segfault

Not all data is always available, but it can help narrow down your search.

You can dive even further into each line of the stacktrace. The number in front of each line is a frame number. You can access them like this. In this example, I’ll explore frame 11.

(gdb) frame 11 #11 0x00007f97c3ee4f43 in zend_call_function (fci=fci@entry=0x7fff44686280, fci_cache=<optimized out>, fci_cache@entry=0x0) at /usr/src/debug/php-5.6.16/Zend/zend_execute_API.c:829 829 zend_execute(EG(active_op_array) TSRMLS_CC); (gdb) info frame Stack level 11, frame at 0x7fff44686280: rip = 0x7f97c3ee4f43 in zend_call_function (/usr/src/debug/php-5.6.16/Zend/zend_execute_API.c:829); saved rip 0x7f97c3ee513f called by frame at 0x7fff446862e0, caller of frame at 0x7fff44686140 ... (gdb) info locals i = <optimized out> execute_data = {opline = 0x0, function_state = {function = 0x7f97c5709f40, arguments = 0x7f97c3c3a1c0}, op_array = 0x0, object = 0x0, symbol_table = 0x7f97a2b14880, ... args = {{gp_offset = 16, fp_offset = 48, overflow_arg_area = 0x7fff44686520, reg_save_area = 0x7fff44686430}} usr_copy = {{gp_offset = 40, fp_offset = 48, overflow_arg_area = 0x7fff44686520, reg_save_area = 0x7fff44686430}} params = 0x7f97c6494518 error_filename = 0x7f97a6152318 "/var/www/vhosts/drupal.hotelgiftbox.com/htdocs/sites/all/modules/contrib/mailmime/mailmime.inc" (gdb) info args fci = 0x7fff44686280 fci_cache = <optimized out>

The last line, info args , tells you which arguments were passed to this call. The info locals tells you which local variables were in use. You can inspect both, so for the info args we can look at the ‘fci’ or ‘fci_cache’ variables, for info locals we can look at ‘execute_data’, ‘i’ etc.

First, check which data type they are.

(gdb) ptype i type = unsigned int (gdb) ptype execute_data type = struct _zend_execute_data { struct _zend_op *opline; zend_function_state function_state; zend_op_array *op_array; zval *object; HashTable *symbol_table; struct _zend_execute_data *prev_execute_data; zval *old_error_reporting; zend_bool nested; zval **original_return_value; zend_class_entry *current_scope; zend_class_entry *current_called_scope; zval *current_this; struct _zend_op *fast_ret; zval *delayed_exception; call_slot *call_slots; call_slot *call; }

This tells us that ‘i’ is an unsigned integer and that ‘execute_data’ is a struct. To see the value of each variables, print them.

(gdb) print i $1 = 1

These commands get you a long way: you can investigate each frame, show the arguments and local values, and inspect the value of each variable.

It’s time consuming tedious work, but it can get you to the fix.