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I will have an event with 3k users on an app (php base).
I launch several instances in the cloud and install LAMP on it.[to make load test and choose on for the event]
On Ubuntu 18
I enable mpm_event and php7.4-fpm, (which seems to be the better configuration for high traffic with apache and php app).
I use this post which explain how tune your conf.
Like this :
Here apache2 mpm event conf :
<IfModule mpm_*_module>
ServerLimit (Total RAM - Memory used for Linux, DB, etc.) / process size
StartServers (Number of Cores)
MinSpareThreads 25
MaxSpareThreads 75
ThreadLimit 64
ThreadsPerChild 25
MaxRequestWorkers (Total RAM - Memory used for Linux, DB, etc.) / process size
MaxConnectionsPerChild 1000
</IfModule>
Here php7.4-fpm :
pm = dynamic
pm.max_children (total RAM - (DB etc) / process size)
pm.start_servers (cpu cores * 4)
pm.min_spare_servers (cpu cores * 2)
pm.max_spare_servers (cpu cores * 4)
pm.max_requests 1000
My goal is : even if I rely of these method, I would saw some metric like :
- –> You have too many thread (from apache worker or from phpfpm) unused open
- –> All your thread (from apache worker or from phpfpm) are already busy and use
I already test: htop, glance, vmstat, sar to check io, cpu, ram but even with that it’s not clear to me :
Does my configuration is good for this machine with this load or should I increase/decrease something?
Then I could be sure these configuration are good and start other subject : CDN, cache …
How do you manage this ?
thanks by advance,
2
Answers
No tool will give you that kind of metric because the best configuration depends greatly on your php scripts. If you have 4 cores and each request consumes 100% of one core for 1 second, the server will handle 4 request per second in the best case regardless of your mpm and php configuration. The type of hardware you have is also important. Some CPUs perform multiple times better than others.
Since you are using php_fpm, the apache mpm configuration will have little effect on performance. You just need to make sure the server doesn’t crash with too many requests and have more apache threads than php processes. Note that the RAM is not the only thing that can make a server unreachable. Trying to execute more process than the CPU can handle will increase the load and the number of context switches, decrease the CPU cache efficiency and result in even lower performance.
The ideal number of php processes depends on how your scripts use CPU and other resources. If each script uses 50% of the time with I/O operations for example, 2 processes per core may be ideal. Assuming that those I/O operations can be done in parallel without blocking each other.
You’ll also need to take into account the amount of resources used by other processes such as the DB. SQL databases can easily use more resources than the php scripts themselves.
Spare ServersandSpare Threadsare the number of processes/threads that can be idle waiting for work. Creating threads takes time, so it’s better to have them ready when a request arrives. The downside is that those threads will consume resources such as RAM even when idle, so you’ll want to keep just enough of them alive. Both apache and php_fpm will handle this automatically. The number of idle threads will be reduced and increased as needed, but remain between the minimum and maximum values set in the configuration. Note that not all apache threads will serve php files as some requests may be fetching static files, therefore you should always have more apache threads than php processes.Start ServerandStart Threadsrepresents just the number of processes/threads created during the startup. This have almost no effect on performance since the number of threads will be immediately increased or reduced to fit the values ofSpare Threads.MaxConnectionsPerChildandmax_requestsare just the maximum amount of requests executed during the process/thread life. Unless you have memory leaks, you won’t need to tune those values.As you noted, this depends on your script(s). We have this dynamically adjusted in our deploy scripts based on the server(s) being rolled up.
The following script is based on running Apache, on Centos, on AWS infrastructure but could easily be adapted to what you are using.
Basically:
Primary Source / Based on:
Steps:
You need to know how many processes can run on your machine. So calculate the process size of your main CPU/memory drivers is necessary.
Here you can see that there are 15 httpd processes, consuming a total of 43MiB, so each Apache process is using roughly 3MiB of RAM.
The php-fpm process will use about 7.6MiB.
To be safe though, reserve 15% of memory for all other processes (in my case ~1.2GiB) and round up apache process size to 3MiB.
To be safe though, reserve 1 GiB for all other processes and round up php process size to 8MiB.