I have php script running as a cron job, extensively using third party code. Script itself has a few thousands LOC. Basically it's the data import / treatment script. (JSON to MySQL, but it also makes a lot of HTTP calls and some SOAP).

Now, performance is downgrading with the time. When testing with a few records (around 100), performance is ok, it is done in a 10-20 minutes. When running whole import (about 1600 records), mean time of import of one record grows steadily, and whole thing takes more than 24 hours, so at least 5 times longer than expected.

Memory seems not to be a problem, usage growing as it should, without unexpected peaks.

So, I need to debug it to find the bottleneck. It can be some problem with the script, underlying code base, php itself, database, os or network part. I am suspecting for now some kind of caching somewhere which is not behaving well with a near 100 % miss ratio.

I cannot use XDebug, profile file grows too fast to be treatable.

So question is: how can I debug this kind of script?

PHP version: 5.4.41 OS: Debian 7.8 I can have root privileges if necessary, and install the tools. But it's the production server and ideally debugging should not be too disrupting.

  • is there absolutely no ability to create a dev environment so that you can time each part and calculate how long it takes 1 record to run? Also, what time of the day are you running this? Is it starting in the middle of the day or middle of the night? – Cayce K Jul 22 '15 at 16:13

11 Answers 11


Profiling tool:

There is a PHP profiling tool called Blackfire which is currently in public beta. There is specific documentation on how to profile CLI applications. Once you collected the profile you can analyze the application control flow with time measurements in a nice UI: Blackfire tool

Memory consumption suspicious:

Memory seems not to be a problem, usage growing as it should, without unexpected peaks.

A growing memory usage actually sounds suspicious! If the current dataset does not depend on all previous datasets of the import, then a growing memory most probably means, that all imported datasets are kept in memory, which is bad. PHP may also frequently try to garbage collect, just to find out that there is nothing to remove from memory. Especially long running CLI tasks are affected, so be sure to read the blog post that discovered the behavior.

  • Well, that's interesting. I've tested short run (300 records of 1600), it takes less time (398 s. with gc vs 339 sec without gc) but memory usage skyrockets: 112 M with vs 572 M without gc. So seems that option without gc is no-go - I can not allow script to use 2.5 G of memory on 2G server. – ts. Jul 28 '15 at 16:40
  • As the memory usage skyrockets when GC is turned off, the GC seems to be freeing memory when turned on, which is a good sign - although not helpful. As a next step I'd suggest using the Blackfire profiler to pinpoint the suspicious parts in the script. There is a nice blog post by the Blackfire team, explaining how they used Blackfire to profile the memory/CPU usage of a CLI tool. Or is it not possible for you to use Blackfire on your server? – Fabian Keller Jul 28 '15 at 18:51

Yes its possible and You can use Kint (PHP Debugging Script)

What is it? Kint for PHP is a tool designed to present your debugging data in the absolutely best way possible.

In other words, it's var_dump() and debug_backtrace() on steroids. Easy to use, but powerful and customizable. An essential addition to your development toolbox.

Still lost? You use it to see what's inside variables.

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All the Best.... :)


There are three things that come to mind:

  1. Set up an IDE so you can debug the PHP script line by line
  2. Add some logging to the script
  3. Look for long running queries in MySQL

Debug option #2 is the easiest. Since this is running as a cron job, you add a bunch of echo's in your script:


function log_message($type, $message) {
    echo "[{strtoupper($type)}, {date('d-m-Y H:i:s')}] $message";

log_message('info', 'Import script started');

// ... the rest of your script

log_message('info', 'Import script finished');

Then pipe stdout to a log file in the cron job command.

01 04 * * * php /path/to/script.php >> /path/to/script.log

Now you can add log_message('info|warn|debug|error', 'Message here') all over the script and at least get an idea of where the performance issue lies.

Debug option #3 is just straight investigation work in MySQL. One of your queries might be taking a long time, and it might show up in a long running query utility for MySQL.


Use strace to see what the program is basically doing from the system perspective. Is it hanging in IO operations etc.? strace should be the first thing you try when encountering performance problems with whatever kind of Linux application. Nobody can hide from it! ;)

If you should find out that the program hangs in network related calls like connect, readfrom and friends, meaning the network communication does hang at some point while connecting or waiting for responses than you can use tcpdump to analyze this.

Using the above methods you should be able to find out most common performance problems. Note that you can even attach to a running task with strace using -p PID.

If the above methods doesn't help, I would profile the script using xdebug. You can analyse the profiler output using tools like KCachegrind


Although it is not stipulated, and if my guess is correct you seem to be dealing with records one at a time, but in one big cron.

i.e. Grab a record#1, munge it somehow, add value to it, reformat it then save it, then move to record#2

I would consider breaking the big cron down. ie

Cron#1: grab all the records, and cache all the salient data locally (to that server). Set a flag if this stage is achieved.

Cron #2: Now you have the data you need, munge and add value, cache that output. Set a flag if this stage is achieved.

Cron #3: Reformat that data and store it. Delete all the files.

This kind of "divide and conquer" will ease your debugging woes, and lead to a better understanding of what is actually going on, and as a bonus give you the opportunity to rerun say, cron 2.

I've had to do this many times, and for me logging is the key to identifying weaknesses in your code, identify poor assumptions about data quality, and can hint at where latency is causing a problem.


I've run into strange slowdowns when doing network heavy efforts in the past. Basically, what I found was that during manual testing the system was very fast but when left to run unattended it would not get as much done as I had hoped.

In my case the issue I found was that I had default network timeouts in place and many web requests would simply time out.

In general, though not an external tool, you can use the difference between two microtime(TRUE) requests to time sections of code. To keep the logging small set a flag limit and only test the time if the flag has not been decremented down to zero after reducing for each such event. You can have individual flags for individual code segments or even for different time limits within a code segment.

$flag['name'] = 10;  // How many times to fire
$slow['name'] = 0.5; // How long in seconds before it's a problem?

$start = microtime(TRUE);
$used  = microtime(TRUE) - $start;
if ( $flag['name'] && used >= $slow['name'] )

If you output what URL, or other data/event took to long to process, then you can dig into that particular item later to see if you can find out how it is causing trouble in your code.

Of course, this assumes that individual items are causing your problem and not simply a general slowdown over time.


I (now) see it's a production server. This makes editing the code less enjoyable. You'd probably want to make integrating with the code a minimal process having the testing logic and possibly supported tags/flags and quantities in an external file.

// Do stuff to be checked for speed here

For maximum robustness the methods/functions would have to ensure they handled unknown tags, missing parameters, and so forth.


xdebug_print_function_stack is an option, but what you can also do is to create a "function trace".There are three output formats. One is meant as a human readable trace, another one is more suited for computer programs as it is easier to parse, and the last one uses HTML for formatting the trace


Okay, basically you have two possibilities - it's either the ineffective PHP code or ineffective MySQL code. Judging by what you say, it's probably inserting into indexed table a lot of records separately, which causes the insertion time to skyrocket. You should either disable indexes and rebuild them after insertion, or optimize the insertion code.

But, about the tools.

You can configure the system to automatically log slow MySQL queries: https://dev.mysql.com/doc/refman/5.1/en/slow-query-log.html

You can also do the same with PHP scripts, but you need a PHP-FPM environment (and you probably have Apache). https://rtcamp.com/tutorials/php/fpm-slow-log/

These tools are very powerful and versatile.

P.S. 10-20 minutes for 100 records seems like A LOT.

  • But will not php slow-log grow as xdebug profile file adnd be completly unusable ? PS. Most of records expands to a few hundreds of sub-records, with possible HTTP requests to gather external informations; but it's a lot, I agree. – ts. Jul 20 '15 at 8:25
  • It will have the useful information of all the slow queries. It's up to you to analyze. Of course, to prevent it overgrowing - the proper log rotation should be set up. – Samvel Avanesov Jul 20 '15 at 8:29
  • 1
    I don't know, it's not me ;). I am regarding now if I can use fpm slow log ... – ts. Jul 20 '15 at 9:13
  • 1
    I also wonder. No reason to down-vote here. Plus 1 ! – hek2mgl Jul 22 '15 at 13:44

You can use https://github.com/jmartin82/phplapse to record the application activity for determinate time.

For example start recording after n iterations with:


And stop it in next iteration with:


With this process you was created a snapshot of execution when all seems works slow.

(I'm the author of project, don't hesitate to contact with me to improve the functionality)


I have a similar thing running each night (a cron job to update my database). I have found the most reliable way to debug is to set up a log table in the database and regularly insert / update a json string containing a multi-dimensional array with info about each record and whatever useful info you want to know about each record. This way if your cron job does not finish you still have detailed information about where it got up to and what happened along the way. Then you can write a simple page to pull out the json string, turn it back into an array and print useful data onto the page including timing and passed tests etc. When you see something as an issue you can concentrate on putting more info from that area into the json string.


Regular "top" command can show you, if CPU usage by php or mysql is bottleneck. If not, then delays may be caused by http calls.

If CPU usage by mysqld is low, but constant, then it may be disk usage bottleneck.

Also, you can check your bandwidth usage by installing and using "speedometer", or other tools.

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