- Reducing memory use
- Change the worker timeout
- Disable Puma clustered mode in memory-constrained environments
- Configuring Puma to listen over SSL
- Switch from Unicorn to Puma
- Troubleshooting Puma
- Related topics
Configure the bundled Puma instance of the GitLab package
Puma is a fast, multi-threaded, and highly concurrent HTTP 1.1 server for Ruby applications. It runs the core Rails application that provides the user-facing features of GitLab.
Reducing memory use
To reduce memory use, Puma forks worker processes. Each time a worker is created, it shares memory with the primary process. The worker uses additional memory only when it changes or adds to its memory pages. This can lead to Puma workers using more physical memory over time as workers handle additional web requests. The amount of memory used over time depends on the use of GitLab. The more features used by GitLab users, the higher the expected memory use over time.
To stop uncontrolled memory growth, the GitLab Rails application runs a supervision thread that automatically restarts workers if they exceed a given resident set size (RSS) threshold for a certain amount of time.
GitLab sets a default of 1200Mb
for the memory limit. To override the default value,
set per_worker_max_memory_mb
to the new RSS limit in megabytes:
-
Edit
/etc/gitlab/gitlab.rb
:puma['per_worker_max_memory_mb'] = 1024 # 1GB
-
Reconfigure GitLab:
sudo gitlab-ctl reconfigure
When workers are restarted, capacity to run GitLab is reduced for a short
period of time. Set per_worker_max_memory_mb
to a higher value if workers are replaced too often.
Worker count is calculated based on CPU cores. A small GitLab deployment with 4-8 workers may experience performance issues if workers are being restarted too often (once or more per minute).
A higher value of 1200
or more could be beneficial if the server has free memory.
Monitor worker restarts
GitLab emits log events if workers are restarted due to high memory use.
The following is an example of one of these log events in /var/log/gitlab/gitlab-rails/application_json.log
:
{
"severity": "WARN",
"time": "2023-01-04T09:45:16.173Z",
"correlation_id": null,
"pid": 2725,
"worker_id": "puma_0",
"memwd_handler_class": "Gitlab::Memory::Watchdog::PumaHandler",
"memwd_sleep_time_s": 5,
"memwd_rss_bytes": 1077682176,
"memwd_max_rss_bytes": 629145600,
"memwd_max_strikes": 5,
"memwd_cur_strikes": 6,
"message": "rss memory limit exceeded"
}
memwd_rss_bytes
is the actual amount of memory consumed, and memwd_max_rss_bytes
is the
RSS limit set through per_worker_max_memory_mb
.
Change the worker timeout
The default Puma timeout is 60 seconds.
puma['worker_timeout']
setting does not set the maximum request duration.To change the worker timeout to 600 seconds:
-
Edit
/etc/gitlab/gitlab.rb
:gitlab_rails['env'] = { 'GITLAB_RAILS_RACK_TIMEOUT' => 600 }
-
Reconfigure GitLab:
sudo gitlab-ctl reconfigure
Disable Puma clustered mode in memory-constrained environments
In a memory-constrained environment with less than 4 GB of RAM available, consider disabling Puma clustered mode.
Set the number of workers
to 0
to reduce memory usage by hundreds of MB:
-
Edit
/etc/gitlab/gitlab.rb
:puma['worker_processes'] = 0
-
Reconfigure GitLab:
sudo gitlab-ctl reconfigure
Unlike in a clustered mode, which is set up by default, only a single Puma process would serve the application. For details on Puma worker and thread settings, see the Puma requirements.
The downside of running Puma in this configuration is the reduced throughput, which can be considered a fair tradeoff in a memory-constrained environment.
Remember to have sufficient swap available to avoid out of memory (OOM) conditions. View the Memory requirements for details.
Puma single mode known issues
When running Puma in single mode, some features are not supported:
For more information, see epic 5303.
Configuring Puma to listen over SSL
Puma, when deployed with a Linux package installation, listens over a Unix socket by default. To configure Puma to listen over an HTTPS port instead, follow the steps below:
-
Generate an SSL certificate key-pair for the address where Puma will listen. For the example below, this is
127.0.0.1
.If using a self-signed certificate from a custom Certificate Authority (CA), follow the documentation to make them trusted by other GitLab components. -
Edit
/etc/gitlab/gitlab.rb
:puma['ssl_listen'] = '127.0.0.1' puma['ssl_port'] = 9111 puma['ssl_certificate'] = '<path_to_certificate>' puma['ssl_certificate_key'] = '<path_to_key>' # Disable UNIX socket puma['socket'] = ""
-
Reconfigure GitLab:
sudo gitlab-ctl reconfigure
Using an encrypted SSL key
- Introduced in GitLab 16.1.
Puma supports the use of an encrypted private SSL key, which can be decrypted at runtime. The following instructions illustrate how to configure this:
-
Encrypt the key with a password if it is not already:
openssl rsa -aes256 -in /path/to/ssl-key.pem -out /path/to/encrypted-ssl-key.pem
Enter in a password twice to write the encrypted file. In this example, we use
some-password-here
. -
Create a script or executable that prints the password. For example, create a basic script in
/var/opt/gitlab/gitlab-rails/etc/puma-ssl-key-password
that echoes the password:#!/bin/sh echo some-password-here
Note that in production, you should avoid storing the password on disk and use a secure mechanism for retrieving a password, such as Vault. For example, the script might look like:
#!/bin/sh export VAULT_ADDR=http://vault-password-distribution-point:8200 export VAULT_TOKEN=<some token> echo "$(vault kv get -mount=secret puma-ssl-password)"
-
Ensure the Puma process has sufficient permissions to execute the script and to read the encrypted key:
chown git:git /var/opt/gitlab/gitlab-rails/etc/puma-ssl-key-password chmod 770 /var/opt/gitlab/gitlab-rails/etc/puma-ssl-key-password chmod 660 /path/to/encrypted-ssl-key.pem
-
Edit
/etc/gitlab/gitlab.rb
, and replacepuma['ssl_certificate_key']
with the encrypted key and specifypuma['ssl_key_password_command]
:puma['ssl_certificate_key'] = '/path/to/encrypted-ssl-key.pem' puma['ssl_key_password_command'] = '/var/opt/gitlab/gitlab-rails/etc/puma-ssl-key-password'
-
Reconfigure GitLab:
sudo gitlab-ctl reconfigure
-
If GitLab comes up successfully, you should be able to remove the unencrypted SSL key that was stored on the GitLab instance.
Switch from Unicorn to Puma
webservice
chart documentation.Puma is the default web server and Unicorn is no longer supported.
Puma has a multi-thread architecture that uses less memory than a multi-process application server like Unicorn. On GitLab.com, we saw a 40% reduction in memory consumption. Most Rails application requests usually include a proportion of I/O wait time.
During I/O wait time, MRI Ruby releases the GVL to other threads. Multi-threaded Puma can therefore still serve more requests than a single process.
When switching to Puma, any Unicorn server configuration will not carry over automatically, due to differences between the two application servers.
To switch from Unicorn to Puma:
- Determine suitable Puma worker and thread settings.
-
Convert any custom Unicorn settings to Puma in
/etc/gitlab/gitlab.rb
.The table below summarizes which Unicorn configuration keys correspond to those in Puma when using the Linux package, and which ones have no corresponding counterpart.
Unicorn Puma unicorn['enable']
puma['enable']
unicorn['worker_timeout']
puma['worker_timeout']
unicorn['worker_processes']
puma['worker_processes']
Not applicable puma['ha']
Not applicable puma['min_threads']
Not applicable puma['max_threads']
unicorn['listen']
puma['listen']
unicorn['port']
puma['port']
unicorn['socket']
puma['socket']
unicorn['pidfile']
puma['pidfile']
unicorn['tcp_nopush']
Not applicable unicorn['backlog_socket']
Not applicable unicorn['somaxconn']
puma['somaxconn']
Not applicable puma['state_path']
unicorn['log_directory']
puma['log_directory']
unicorn['worker_memory_limit_min']
Not applicable unicorn['worker_memory_limit_max']
puma['per_worker_max_memory_mb']
unicorn['exporter_enabled']
puma['exporter_enabled']
unicorn['exporter_address']
puma['exporter_address']
unicorn['exporter_port']
puma['exporter_port']
-
Reconfigure GitLab:
sudo gitlab-ctl reconfigure
- Optional. For multi-node deployments, configure the load balancer to use the readiness check.
Troubleshooting Puma
502 Gateway Timeout after Puma spins at 100% CPU
This error occurs when the Web server times out (default: 60 s) after not hearing back from the Puma worker. If the CPU spins to 100% while this is in progress, there may be something taking longer than it should.
To fix this issue, we first need to figure out what is happening. The following tips are only recommended if you do not mind users being affected by downtime. Otherwise, skip to the next section.
- Load the problematic URL
- Run
sudo gdb -p <PID>
to attach to the Puma process. -
In the GDB window, type:
call (void) rb_backtrace()
-
This forces the process to generate a Ruby backtrace. Check
/var/log/gitlab/puma/puma_stderr.log
for the backtrace. For example, you may see:from /opt/gitlab/embedded/service/gitlab-rails/lib/gitlab/metrics/sampler.rb:33:in `block in start' from /opt/gitlab/embedded/service/gitlab-rails/lib/gitlab/metrics/sampler.rb:33:in `loop' from /opt/gitlab/embedded/service/gitlab-rails/lib/gitlab/metrics/sampler.rb:36:in `block (2 levels) in start' from /opt/gitlab/embedded/service/gitlab-rails/lib/gitlab/metrics/sampler.rb:44:in `sample' from /opt/gitlab/embedded/service/gitlab-rails/lib/gitlab/metrics/sampler.rb:68:in `sample_objects' from /opt/gitlab/embedded/service/gitlab-rails/lib/gitlab/metrics/sampler.rb:68:in `each_with_object' from /opt/gitlab/embedded/service/gitlab-rails/lib/gitlab/metrics/sampler.rb:68:in `each' from /opt/gitlab/embedded/service/gitlab-rails/lib/gitlab/metrics/sampler.rb:69:in `block in sample_objects' from /opt/gitlab/embedded/service/gitlab-rails/lib/gitlab/metrics/sampler.rb:69:in `name'
-
To see the current threads, run:
thread apply all bt
-
Once you’re done debugging with
gdb
, be sure to detach from the process and exit:detach exit
GDB reports an error if the Puma process terminates before you can run these commands.
To buy more time, you can always raise the
Puma worker timeout. For Linux package installation users, you can edit /etc/gitlab/gitlab.rb
and
increase it from 60 seconds to 600:
gitlab_rails['env'] = {
'GITLAB_RAILS_RACK_TIMEOUT' => 600
}
For self-compiled installations, set the environment variable. Refer to Puma Worker timeout.
Reconfigure GitLab for the changes to take effect.
Troubleshooting without affecting other users
The previous section attached to a running Puma process, which may have undesirable effects on users trying to access GitLab during this time. If you are concerned about affecting others during a production system, you can run a separate Rails process to debug the issue:
- Sign in to your GitLab account.
- Copy the URL that is causing problems (for example,
https://gitlab.com/ABC
). - Create a personal access token for your user (User Settings -> Access tokens).
- Bring up the GitLab Rails console.
-
At the Rails console, run:
app.get '<URL FROM STEP 2>/?private_token=<TOKEN FROM STEP 3>'
For example:
app.get 'https://gitlab.com/gitlab-org/gitlab-foss/-/issues/1?private_token=123456'
- In a new window, run
top
. It should show this Ruby process using 100% CPU. Write down the PID. - Follow step 2 from the previous section on using GDB.
GitLab: API is not accessible
This often occurs when GitLab Shell attempts to request authorization via the
internal API (for example, http://localhost:8080/api/v4/internal/allowed
), and
something in the check fails. There are many reasons why this may happen:
- Timeout connecting to a database (for example, PostgreSQL or Redis)
- Error in Git hooks or push rules
- Error accessing the repository (for example, stale NFS handles)
To diagnose this problem, try to reproduce the problem and then see if there
is a Puma worker that is spinning via top
. Try to use the gdb
techniques above. In addition, using strace
may help isolate issues:
strace -ttTfyyy -s 1024 -p <PID of puma worker> -o /tmp/puma.txt
If you cannot isolate which Puma worker is the issue, try to run strace
on all the Puma workers to see where the
/internal/allowed
endpoint gets stuck:
ps auwx | grep puma | awk '{ print " -p " $2}' | xargs strace -ttTfyyy -s 1024 -o /tmp/puma.txt
The output in /tmp/puma.txt
may help diagnose the root cause.