- The GitLab Pages daemon
- Prerequisites
- Configuration
-
Advanced configuration
- Custom domains
- Custom domains with TLS support
- Custom domain verification
- Let’s Encrypt integration
- Access control
- Running behind a proxy
- Using a custom Certificate Authority (CA)
- Support mutual TLS when calling the GitLab API
- ZIP serving and cache configuration
- HTTP Strict Transport Security (HSTS) support
- Pages project redirects limits
- Use environment variables
- Activate verbose logging for daemon
- Propagating the correlation ID
- Change storage path
- Configure listener for reverse proxy requests
- Set global maximum size of each GitLab Pages site
- Set maximum size of each GitLab Pages site in a group
- Set maximum size of GitLab Pages site in a project
- Set maximum number of GitLab Pages custom domains for a project
- Configure the default expiry for parallel deployments
- Set maximum number of files per GitLab Pages website
- Running GitLab Pages on a separate server
- Domain source configuration
- Object storage settings
- Enable Pages network storage in multi-node environments
- ZIP storage
- Backup
- Security
- Related topics
GitLab Pages administration
GitLab Pages allows for hosting of static sites. It must be configured by an administrator. Separate user documentation is available.
The GitLab Pages daemon
GitLab Pages makes use of the GitLab Pages daemon, a basic HTTP server written in Go that can listen on an external IP address and provide support for custom domains and custom certificates. It supports dynamic certificates through Server Name Indication (SNI) and exposes pages using HTTP2 by default. You are encouraged to read its README to fully understand how it works.
In the case of custom domains (but not
wildcard domains), the Pages daemon needs to listen on
ports 80
and/or 443
. For that reason, there is some flexibility in the way
which you can set it up:
- Run the Pages daemon in the same server as GitLab, listening on a secondary IP.
- Run the Pages daemon in a separate server. In that case, the Pages path must also be present in the server that the Pages daemon is installed, so you must share it through the network.
- Run the Pages daemon in the same server as GitLab, listening on the same IP but on different ports. In that case, you must proxy the traffic with a load balancer. If you choose that route, you should use TCP load balancing for HTTPS. If you use TLS-termination (HTTPS-load balancing), the pages can’t be served with user-provided certificates. For HTTP it’s OK to use HTTP or TCP load balancing.
In this document, we proceed assuming the first option. If you are not supporting custom domains a secondary IP is not needed.
Prerequisites
Before proceeding with the Pages configuration, you must:
-
Have a domain for Pages that is not a subdomain of your GitLab instance domain.
GitLab domain Pages domain Does it work? example.com
example.io
Yes example.com
pages.example.com
No gitlab.example.com
pages.example.com
Yes - Configure a wildcard DNS record.
- Optional. Have a wildcard certificate for that domain if you decide to serve Pages under HTTPS.
- Optional but recommended. Enable instance runners so that your users don’t have to bring their own.
- For custom domains, have a secondary IP.
Add the domain to the Public Suffix List
The Public Suffix List is used by browsers to
decide how to treat subdomains. If your GitLab instance allows members of the
public to create GitLab Pages sites, it also allows those users to create
subdomains on the pages domain (example.io
). Adding the domain to the Public
Suffix List prevents browsers from accepting
supercookies,
among other things.
Follow these instructions to submit your
GitLab Pages subdomain. For instance, if your domain is example.io
, you should
request that example.io
is added to the Public Suffix List. GitLab.com
added gitlab.io
in 2016.
DNS configuration
GitLab Pages expect to run on their own virtual host. In your DNS server/provider
add a wildcard DNS A
record pointing to the
host that GitLab runs. For example, an entry would look like this:
*.example.io. 1800 IN A 192.0.2.1
*.example.io. 1800 IN AAAA 2001:db8::1
Where example.io
is the domain GitLab Pages is served from,
192.0.2.1
is the IPv4 address of your GitLab instance, and 2001:db8::1
is the
IPv6 address. If you don’t have IPv6, you can omit the AAAA
record.
For namespace in URL path, without wildcard DNS
- Introduced as an experiment in GitLab 16.7.
- Moved to beta in GitLab 16.11.
- Changed implementation from NGINX to the GitLab Pages codebase in GitLab 17.2.
- Generally available in GitLab 17.4.
If you need support for namespace in the URL path to remove the requirement for wildcard DNS:
- Enable the GitLab Pages flag for this feature by adding
gitlab_pages["namespace_in_path"] = true
to/etc/gitlab/gitlab.rb
. -
In your DNS provider, add entries for
example.io
. Replaceexample.io
with your domain name, and192.0.0.0
with the IPv4 version of your IP address. The entries look like this:example.io 1800 IN A 192.0.0.0
-
Optional. If your GitLab instance has an IPv6 address, add entries for it. Replace
example.io
with your domain name, and2001:db8::1
with the IPv6 version of your IP address. The entries look like this:example.io 1800 IN AAAA 2001:db8::1
This example contains the following:
-
example.io
: The domain GitLab Pages is served from.
DNS configuration for custom domains
If support for custom domains is needed, all subdomains of the Pages root domain should point to the
secondary IP (which is dedicated for the Pages daemon). Without this configuration, users can’t use
CNAME
records to point their custom domains to their GitLab Pages.
For example, an entry could look like this:
example.com 1800 IN A 192.0.2.1
*.example.io. 1800 IN A 192.0.2.2
This example contains the following:
-
example.com
: The GitLab domain. -
example.io
: The domain GitLab Pages is served from. -
192.0.2.1
: The primary IP of your GitLab instance. -
192.0.2.2
: The secondary IP, which is dedicated to GitLab Pages. It must be different than the primary IP.
Configuration
Depending on your needs, you can set up GitLab Pages in 4 different ways.
The following examples are listed from the easiest setup to the most advanced one.
Wildcard domains
Prerequisites:
URL scheme: http://<namespace>.example.io/<project_slug>
The following is the minimum setup that you can use Pages with. It is the base for all other setups as described below. NGINX proxies all requests to the daemon. The Pages daemon doesn’t listen to the outside world.
-
Set the external URL for GitLab Pages in
/etc/gitlab/gitlab.rb
:external_url "http://example.com" # external_url here is only for reference pages_external_url 'http://example.io' # Important: not a subdomain of external_url, so cannot be http://pages.example.com
Watch the video tutorial for this configuration.
Pages domain without wildcard DNS
- Introduced as an experiment in GitLab 16.7.
- Moved to beta in GitLab 16.11.
- Changed implementation from NGINX to the GitLab Pages codebase in GitLab 17.2.
- Generally available in GitLab 17.4.
This configuration is the minimum setup for GitLab Pages. It is the base for all other configurations. In this configuration, NGINX proxies all requests to the daemon, because the GitLab Pages daemon doesn’t listen to the outside world.
Prerequisites:
- You have configured DNS setup without a wildcard.
-
In
/etc/gitlab/gitlab.rb
, set the external URL for GitLab Pages, and enable the feature:# External_url here is only for reference external_url "http://example.com" pages_external_url 'http://example.io' # Set this flag to enable this feature gitlab_pages["namespace_in_path"] = true
The resulting URL scheme is http://example.io/<namespace>/<project_slug>
.
namespace_in_path
, existing GitLab Pages websites
are accessible only on domains without wildcard DNS.Wildcard domains with TLS support
Prerequisites:
- Wildcard DNS setup
- TLS certificate. Can be either Wildcard, or any other type meeting the requirements.
URL scheme: https://<namespace>.example.io/<project_slug>
NGINX proxies all requests to the daemon. Pages daemon doesn’t listen to the outside world.
- Place the wildcard TLS certificate for
*.example.io
and the key inside/etc/gitlab/ssl
. -
In
/etc/gitlab/gitlab.rb
specify the following configuration:external_url "https://example.com" # external_url here is only for reference pages_external_url 'https://example.io' # Important: not a subdomain of external_url, so cannot be https://pages.example.com pages_nginx['redirect_http_to_https'] = true
-
If you haven’t named your certificate and key
example.io.crt
andexample.io.key
, you must also add the full paths as shown below:pages_nginx['ssl_certificate'] = "/etc/gitlab/ssl/pages-nginx.crt" pages_nginx['ssl_certificate_key'] = "/etc/gitlab/ssl/pages-nginx.key"
- Reconfigure GitLab.
- If you’re using Pages Access Control, update the redirect URI in the GitLab Pages System OAuth application to use the HTTPS protocol.
gitlab_pages
section from /etc/gitlab/gitlab-secrets.json
,
then run gitlab-ctl reconfigure
. For more information, read
GitLab Pages does not regenerate OAuth.Pages domain with TLS support, without wildcard DNS
- Introduced as an experiment in GitLab 16.7.
- Moved to beta in GitLab 16.11.
- Changed implementation from NGINX to the GitLab Pages codebase in GitLab 17.2.
- Generally available in GitLab 17.4.
Prerequisites:
- You have configured DNS setup without a wildcard.
- You have a TLS certificate that covers your domain (like
example.io
).
In this configuration, NGINX proxies all requests to the daemon. The GitLab Pages daemon doesn’t listen to the outside world:
- Add your TLS certificate and key as mentioned in the prerequisites into
/etc/gitlab/ssl
. -
In
/etc/gitlab/gitlab.rb
, set the external URL for GitLab Pages, and enable the feature:# The external_url field is here only for reference. external_url "https://example.com" pages_external_url 'https://example.io' pages_nginx['redirect_http_to_https'] = true # Set this flag to enable this feature gitlab_pages["namespace_in_path"] = true
-
If your TLS certificate and key don’t match the name of your domain, like
example.io.crt
andexample.io.key
, add the full paths for the certificate and key files to/etc/gitlab/gitlab.rb
:pages_nginx['ssl_certificate'] = "/etc/gitlab/ssl/pages-nginx.crt" pages_nginx['ssl_certificate_key'] = "/etc/gitlab/ssl/pages-nginx.key"
-
If you’re using Pages Access Control, update the redirect URI in the GitLab Pages System OAuth application to use the HTTPS protocol.
GitLab Pages does not update the OAuth application, and the defaultauth_redirect_uri
is updated tohttps://example.io/projects/auth
. Before you reconfigure, remove thegitlab_pages
section from/etc/gitlab/gitlab-secrets.json
, then rungitlab-ctl reconfigure
. For more information, see GitLab Pages does not regenerate OAuth. - Reconfigure GitLab.
The resulting URL scheme is https://example.io/<namespace>/<project_slug>
.
namespace_in_path
, existing GitLab Pages websites
are accessible only on domains without wildcard DNS.Wildcard domains with TLS-terminating Load Balancer
Prerequisites:
URL scheme: https://<namespace>.example.io/<project_slug>
This setup is primarily intended to be used when installing a GitLab POC on Amazon Web Services. This includes a TLS-terminating classic load balancer that listens for HTTPS connections, manages TLS certificates, and forwards HTTP traffic to the instance.
-
In
/etc/gitlab/gitlab.rb
specify the following configuration:external_url "https://example.com" # external_url here is only for reference pages_external_url 'https://example.io' # Important: not a subdomain of external_url, so cannot be https://pages.example.com pages_nginx['enable'] = true pages_nginx['listen_port'] = 80 pages_nginx['listen_https'] = false pages_nginx['redirect_http_to_https'] = true
Global settings
Below is a table of all configuration settings known to Pages in a Linux package installation,
and what they do. These options can be adjusted in /etc/gitlab/gitlab.rb
,
and take effect after you reconfigure GitLab.
Most of these settings don’t have to be configured manually unless you need more granular
control over how the Pages daemon runs and serves content in your environment.
Setting | Description |
---|---|
pages_external_url
|
The URL where GitLab Pages is accessible, including protocol (HTTP / HTTPS). If https:// is used, additional configuration is required. See Wildcard domains with TLS support and Custom domains with TLS support for details.
|
gitlab_pages[]
|
|
access_control
|
Whether to enable access control. |
api_secret_key
|
Full path to file with secret key used to authenticate with the GitLab API. Auto-generated when left unset. |
artifacts_server
|
Enable viewing artifacts in GitLab Pages. |
artifacts_server_timeout
|
Timeout (in seconds) for a proxied request to the artifacts server. |
artifacts_server_url
|
API URL to proxy artifact requests to. Defaults to GitLab external URL + /api/v4 , for example https://gitlab.com/api/v4 . When running a separate Pages server, this URL must point to the main GitLab server’s API.
|
auth_redirect_uri
|
Callback URL for authenticating with GitLab. URL should be subdomain of pages_external_url + /auth . Defaults to project’s subdomain of pages_external_url + /auth , for example https://projects.example.io/auth . When namespace_in_path is enabled, defaults to pages_external_url + /projects/auth , for example https://example.io/projects/auth .
|
auth_secret
|
Secret key for signing authentication requests. Leave blank to pull automatically from GitLab during OAuth registration. |
client_cert
|
Client certificate used for mutual TLS with the GitLab API. See Support mutual TLS when calling the GitLab API for details. |
client_key
|
Client key used for mutual TLS with the GitLab API. See Support mutual TLS when calling the GitLab API for details. |
client_ca_certs
|
Root CA certificates used to sign client certificate used for mutual TLS with the GitLab API. See Support mutual TLS when calling the GitLab API for details. |
dir
|
Working directory for configuration and secrets files. |
enable
|
Enable or disable GitLab Pages on the current system. |
external_http
|
Configure Pages to bind to one or more secondary IP addresses, serving HTTP requests. Multiple addresses can be given as an array, along with exact ports, for example ['1.2.3.4', '1.2.3.5:8063'] . Sets value for listen_http . If running GitLab Pages behind a reverse proxy with TLS termination, specify listen_proxy instead of external_http .
|
external_https
|
Configure Pages to bind to one or more secondary IP addresses, serving HTTPS requests. Multiple addresses can be given as an array, along with exact ports, for example ['1.2.3.4', '1.2.3.5:8063'] . Sets value for listen_https .
|
server_shutdown_timeout
|
GitLab Pages server shutdown timeout in seconds (default: 30s ).
|
gitlab_client_http_timeout
|
GitLab API HTTP client connection timeout in seconds (default: 10s ).
|
gitlab_client_jwt_expiry
|
JWT Token expiry time in seconds (default: 30s ).
|
gitlab_cache_expiry
|
The maximum time a domain’s configuration is stored in the cache (default: 600s ).
|
gitlab_cache_refresh
|
The interval at which a domain’s configuration is set to be due to refresh (default: 60s ).
|
gitlab_cache_cleanup
|
The interval at which expired items are removed from the cache (default: 60s ).
|
gitlab_retrieval_timeout
|
The maximum time to wait for a response from the GitLab API per request (default: 30s ).
|
gitlab_retrieval_interval
|
The interval to wait before retrying to resolve a domain’s configuration via the GitLab API (default: 1s ).
|
gitlab_retrieval_retries
|
The maximum number of times to retry to resolve a domain’s configuration via the API (default: 3). |
domain_config_source
|
This parameter was removed in 14.0, on earlier versions it can be used to enable and test API domain configuration source |
gitlab_id
|
The OAuth application public ID. Leave blank to automatically fill when Pages authenticates with GitLab. |
gitlab_secret
|
The OAuth application secret. Leave blank to automatically fill when Pages authenticates with GitLab. |
auth_scope
|
The OAuth application scope to use for authentication. Must match GitLab Pages OAuth application settings. Leave blank to use api scope by default.
|
auth_timeout
|
GitLab application client timeout for authentication in seconds (default: 5s ). A value of 0 means no timeout.
|
auth_cookie_session_timeout
|
Authentication cookie session timeout in seconds (default: 10m ). A value of 0 means the cookie is deleted after the browser session ends.
|
gitlab_server
|
Server to use for authentication when access control is enabled; defaults to GitLab external_url .
|
headers
|
Specify any additional http headers that should be sent to the client with each response. Multiple headers can be given as an array, header and value as one string, for example ['my-header: myvalue', 'my-other-header: my-other-value']
|
enable_disk
|
Allows the GitLab Pages daemon to serve content from disk. Shall be disabled if shared disk storage isn’t available. |
insecure_ciphers
|
Use default list of cipher suites, may contain insecure ones like 3DES and RC4. |
internal_gitlab_server
|
Internal GitLab server address used exclusively for API requests. Useful if you want to send that traffic over an internal load balancer. Defaults to GitLab external_url .
|
listen_proxy
|
The addresses to listen on for reverse-proxy requests. Pages binds to these addresses’ network sockets and receives incoming requests from them. Sets the value of proxy_pass in $nginx-dir/conf/gitlab-pages.conf .
|
log_directory
|
Absolute path to a log directory. |
log_format
|
The log output format: text or json .
|
log_verbose
|
Verbose logging, true/false. |
namespace_in_path
|
(Beta) Enable or disable namespace in the URL path to support without wildcard DNS setup. Default: false .
|
propagate_correlation_id
|
Set to true (false by default) to re-use existing Correlation ID from the incoming request header X-Request-ID if present. If a reverse proxy sets this header, the value is propagated in the request chain.
|
max_connections
|
Limit on the number of concurrent connections to the HTTP, HTTPS or proxy listeners. |
max_uri_length
|
The maximum length of URIs accepted by GitLab Pages. Set to 0 for unlimited length. |
metrics_address
|
The address to listen on for metrics requests. |
redirect_http
|
Redirect pages from HTTP to HTTPS, true/false. |
redirects_max_config_size
|
The maximum size of the _redirects file, in bytes (default: 65536).
|
redirects_max_path_segments
|
The maximum number of path segments allowed in _redirects rules URLs (default: 25).
|
redirects_max_rule_count
|
The maximum number of rules allowed in _redirects (default: 1000).
|
sentry_dsn
|
The address for sending Sentry crash reporting to. |
sentry_enabled
|
Enable reporting and logging with Sentry, true/false. |
sentry_environment
|
The environment for Sentry crash reporting. |
status_uri
|
The URL path for a status page, for example, /@status .
|
tls_max_version
|
Specifies the maximum TLS version (“tls1.2” or “tls1.3”). |
tls_min_version
|
Specifies the minimum TLS version (“tls1.2” or “tls1.3”). |
use_http2
|
Enable HTTP2 support. |
gitlab_pages['env'][]
|
|
http_proxy
|
Configure GitLab Pages to use an HTTP Proxy to mediate traffic between Pages and GitLab. Sets an environment variable http_proxy when starting Pages daemon.
|
gitlab_rails[]
|
|
pages_domain_verification_cron_worker
|
Schedule for verifying custom GitLab Pages domains. |
pages_domain_ssl_renewal_cron_worker
|
Schedule for obtaining and renewing SSL certificates through Let’s Encrypt for GitLab Pages domains. |
pages_domain_removal_cron_worker
|
Schedule for removing unverified custom GitLab Pages domains. |
pages_path
|
The directory on disk where pages are stored, defaults to GITLAB-RAILS/shared/pages .
|
pages_nginx[]
|
|
enable
|
Include a virtual host server{} block for Pages inside NGINX. Needed for NGINX to proxy traffic back to the Pages daemon. Set to false if the Pages daemon should directly receive all requests, for example, when using custom domains.
|
FF_CONFIGURABLE_ROOT_DIR
|
Feature flag to customize the default folder (enabled by default). |
FF_ENABLE_PLACEHOLDERS
|
Feature flag for rewrites (enabled by default). See Rewrites for more information. |
rate_limit_source_ip
|
Rate limit per source IP in number of requests per second. Set to 0 to disable this feature.
|
rate_limit_source_ip_burst
|
Rate limit per source IP maximum burst allowed per second. |
rate_limit_domain
|
Rate limit per domain in number of requests per second. Set to 0 to disable this feature.
|
rate_limit_domain_burst
|
Rate limit per domain maximum burst allowed per second. |
rate_limit_tls_source_ip
|
Rate limit per source IP in number of TLS connections per second. Set to 0 to disable this feature.
|
rate_limit_tls_source_ip_burst
|
Rate limit per source IP maximum TLS connections burst allowed per second. |
rate_limit_tls_domain
|
Rate limit per domain in number of TLS connections per second. Set to 0 to disable this feature.
|
rate_limit_tls_domain_burst
|
Rate limit per domain maximum TLS connections burst allowed per second. |
rate_limit_subnets_allow_list
|
Allow list with the IP ranges (subnets) that should bypass all rate limits. For example, ['1.2.3.4/24', '2001:db8::1/32'] . Introduced in GitLab 17.3.
|
server_read_timeout
|
Maximum duration to read the request headers and body. For no timeout, set to 0 or a negative value. Default: 5s
|
server_read_header_timeout
|
Maximum duration to read the request headers. For no timeout, set to 0 or a negative value. Default: 1s
|
server_write_timeout
|
Maximum duration to write all files in the response. Larger files require more time. For no timeout, set to 0 or a negative value. Default: 0
|
server_keep_alive
|
The Keep-Alive period for network connections accepted by this listener. If 0 , Keep-Alive is enabled if supported by the protocol and operating system. If negative, Keep-Alive is disabled. Default: 15s
|
Advanced configuration
In addition to the wildcard domains, you can also have the option to configure GitLab Pages to work with custom domains. Again, there are two options here: support custom domains with and without TLS certificates. The easiest setup is that without TLS certificates. In either case, you need a secondary IP. If you have IPv6 as well as IPv4 addresses, you can use them both.
Custom domains
Prerequisites:
- Wildcard DNS setup
- Secondary IP
URL scheme: http://<namespace>.example.io/<project_slug>
and http://custom-domain.com
In that case, the Pages daemon is running, NGINX still proxies requests to the daemon but the daemon is also able to receive requests from the outside world. Custom domains are supported, but no TLS.
-
In
/etc/gitlab/gitlab.rb
specify the following configuration:external_url "http://example.com" # external_url here is only for reference pages_external_url 'http://example.io' # Important: not a subdomain of external_url, so cannot be http://pages.example.com nginx['listen_addresses'] = ['192.0.2.1'] # The primary IP of the GitLab instance pages_nginx['enable'] = false gitlab_pages['external_http'] = ['192.0.2.2:80', '[2001:db8::2]:80'] # The secondary IPs for the GitLab Pages daemon
If you don’t have IPv6, you can omit the IPv6 address.
Custom domains with TLS support
Prerequisites:
- Wildcard DNS setup
- TLS certificate. Can be either Wildcard, or any other type meeting the requirements.
- Secondary IP
URL scheme: https://<namespace>.example.io/<project_slug>
and https://custom-domain.com
In that case, the Pages daemon is running, NGINX still proxies requests to the daemon but the daemon is also able to receive requests from the outside world. Custom domains and TLS are supported.
- Place the wildcard TLS certificate for
*.example.io
and the key inside/etc/gitlab/ssl
. -
In
/etc/gitlab/gitlab.rb
specify the following configuration:external_url "https://example.com" # external_url here is only for reference pages_external_url 'https://example.io' # Important: not a subdomain of external_url, so cannot be https://pages.example.com nginx['listen_addresses'] = ['192.0.2.1'] # The primary IP of the GitLab instance pages_nginx['enable'] = false gitlab_pages['external_http'] = ['192.0.2.2:80', '[2001:db8::2]:80'] # The secondary IPs for the GitLab Pages daemon gitlab_pages['external_https'] = ['192.0.2.2:443', '[2001:db8::2]:443'] # The secondary IPs for the GitLab Pages daemon # Redirect pages from HTTP to HTTPS gitlab_pages['redirect_http'] = true
If you don’t have IPv6, you can omit the IPv6 address.
-
If you haven’t named your certificate
example.io.crt
and your keyexample.io.key
, then you need to also add the full paths as shown below:gitlab_pages['cert'] = "/etc/gitlab/ssl/example.io.crt" gitlab_pages['cert_key'] = "/etc/gitlab/ssl/example.io.key"
- Reconfigure GitLab.
- If you’re using Pages Access Control, update the redirect URI in the GitLab Pages System OAuth application to use the HTTPS protocol.
Custom domain verification
To prevent malicious users from hijacking domains that don’t belong to them, GitLab supports custom domain verification. When adding a custom domain, users are required to prove they own it by adding a GitLab-controlled verification code to the DNS records for that domain.
If your user base is private or otherwise trusted, you can disable the verification requirement:
- On the left sidebar, at the bottom, select Admin.
- Select Settings > Preferences.
- Expand Pages.
- Clear the Require users to prove ownership of custom domains checkbox. This setting is enabled by default.
Let’s Encrypt integration
GitLab Pages’ Let’s Encrypt integration allows users to add Let’s Encrypt SSL certificates for GitLab Pages sites served under a custom domain.
To enable it:
- Choose an email address on which you want to receive notifications about expiring domains.
- On the left sidebar, at the bottom, select Admin.
- Select Settings > Preferences.
- Expand Pages.
- Enter the email address for receiving notifications and accept the Terms of Service for Let’s Encrypt.
- Select Save changes.
Access control
GitLab Pages access control can be configured per-project, and allows access to a Pages site to be controlled based on a user’s membership to that project.
Access control works by registering the Pages daemon as an OAuth application with GitLab. Whenever a request to access a private Pages site is made by an unauthenticated user, the Pages daemon redirects the user to GitLab. If authentication is successful, the user is redirected back to Pages with a token, which is persisted in a cookie. The cookies are signed with a secret key, so tampering can be detected.
Each request to view a resource in a private site is authenticated by Pages using that token. For each request it receives, it makes a request to the GitLab API to check that the user is authorized to read that site.
Pages access control is disabled by default. To enable it:
-
Enable it in
/etc/gitlab/gitlab.rb
:gitlab_pages['access_control'] = true
- Reconfigure GitLab.
- Users can now configure it in their projects’ settings.
Using Pages with reduced authentication scope
By default, the Pages daemon uses the api
scope to authenticate. You can configure this. For
example, this reduces the scope to read_api
in /etc/gitlab/gitlab.rb
:
gitlab_pages['auth_scope'] = 'read_api'
The scope to use for authentication must match the GitLab Pages OAuth application settings. Users of pre-existing applications must modify the GitLab Pages OAuth application. Follow these steps to do this:
- Enable access control.
- On the left sidebar, at the bottom, select Admin.
- Select Applications.
- Expand GitLab Pages.
- Clear the
api
scope’s checkbox and select the desired scope’s checkbox (for example,read_api
). - Select Save changes.
Disable public access to all Pages sites
You can enforce Access Control for all GitLab Pages websites hosted on your GitLab instance. By doing so, only authenticated users have access to them. This setting overrides Access Control set by users in individual projects.
This can be helpful to restrict information published with Pages websites to the users of your instance only. To do that:
- On the left sidebar, at the bottom, select Admin.
- Select Settings > Preferences.
- Expand Pages.
- Select the Disable public access to Pages sites checkbox.
- Select Save changes.
Running behind a proxy
Like the rest of GitLab, Pages can be used in those environments where external internet connectivity is gated by a proxy. To use a proxy for GitLab Pages:
-
Configure in
/etc/gitlab/gitlab.rb
:gitlab_pages['env']['http_proxy'] = 'http://example:8080'
-
Reconfigure GitLab for the changes to take effect.
Using a custom Certificate Authority (CA)
When using certificates issued by a custom CA, Access Control and the online view of HTML job artifacts fails to work if the custom CA is not recognized.
This usually results in this error:
Post /oauth/token: x509: certificate signed by unknown authority
.
For Linux package installations, this is fixed by installing a custom CA.
For self-compiled installations, this can be fixed by installing the custom Certificate Authority (CA) in the system certificate store.
Support mutual TLS when calling the GitLab API
- Introduced in GitLab 17.1.
Prerequisites:
- Your instance must use the Linux package installation method.
If GitLab is configured to require mutual TLS, you must add client certificates to your GitLab Pages configuration.
Certificates have these requirements:
- The certificate must specify the hostname or IP address as a Subject Alternative Name.
- The full certificate chain is required, including the end-user certificate, intermediate certificates, and the root certificate, in that order.
The certificate’s Common Name field is ignored.
To configure the certificates in your GitLab Pages server:
-
On the GitLab Pages nodes, create the
/etc/gitlab/ssl
directory and copy your key and full certificate chain there:sudo mkdir -p /etc/gitlab/ssl sudo chmod 755 /etc/gitlab/ssl sudo cp key.pem cert.pem /etc/gitlab/ssl/ sudo chmod 644 key.pem cert.pem
-
Edit
/etc/gitlab/gitlab.rb
:gitlab_pages['client_cert'] = ['/etc/gitlab/ssl/cert.pem'] gitlab_pages['client_key'] = ['/etc/gitlab/ssl/key.pem']
-
If you used a custom Certificate Authority (CA), you must copy the root CA certificate to
/etc/gitlab/ssl
and edit/etc/gitlab/gitlab.rb
:gitlab_pages['client_ca_certs'] = ['/etc/gitlab/ssl/ca.pem']
File paths for multiple custom Certificate Authority (CA)s are separated by commas.
- If you have a multi-node GitLab Pages installation, repeat these steps in all the nodes.
- Save a copy of the full certificate chain files in the
/etc/gitlab/trusted-certs
directory on all your GitLab Nodes.
ZIP serving and cache configuration
GitLab Pages can serve content from ZIP archives through object storage (an issue exists for supporting disk storage as well). It uses an in-memory cache to increase the performance when serving content from a ZIP archive. You can modify the cache behavior by changing the following configuration flags.
Setting | Description |
---|---|
zip_cache_expiration
|
The cache expiration interval of ZIP archives. Must be greater than zero to avoid serving stale content. Default is 60s .
|
zip_cache_cleanup
|
The interval at which archives are cleaned from memory if they have already expired. Default is 30s .
|
zip_cache_refresh
|
The time interval in which an archive is extended in memory if accessed before zip_cache_expiration . This works together with zip_cache_expiration to determine if an archive is extended in memory. See the example below for important details. Default is 30s .
|
zip_open_timeout
|
The maximum time allowed to open a ZIP archive. Increase this time for big archives or slow network connections, as doing so may affect the latency of serving Pages. Default is 30 s. |
zip_http_client_timeout
|
The maximum time for the ZIP HTTP client. Default is 30m .
|
ZIP cache refresh example
Archives are refreshed in the cache (extending the time they are held in memory) if they’re accessed
before zip_cache_expiration
, and the time left before expiring is less than or equal to
zip_cache_refresh
. For example, if archive.zip
is accessed at time 0s
, it expires in 60s
(the
default for zip_cache_expiration
). In the example below, if the archive is opened again after 15s
it is not refreshed because the time left for expiry (45s
) is greater than zip_cache_refresh
(default 30s
). However, if the archive is accessed again after 45s
(from the first time it was
opened) it’s refreshed. This extends the time the archive remains in memory from
45s + zip_cache_expiration (60s)
, for a total of 105s
.
After an archive reaches zip_cache_expiration
, it’s marked as expired and removed on the next
zip_cache_cleanup
interval.
HTTP Strict Transport Security (HSTS) support
HTTP Strict Transport Security (HSTS) can be enabled through the gitlab_pages['headers']
configuration option. HSTS informs browsers that the website they are visiting should always provide its content over HTTPS to ensure that attackers cannot force subsequent connections to happen unencrypted. It can also improve loading speed of pages as it prevents browsers from attempting to connect over an unencrypted HTTP channel before being redirected to HTTPS.
gitlab_pages['headers'] = ['Strict-Transport-Security: max-age=63072000']
Pages project redirects limits
- Introduced in GitLab 15.2.
GitLab Pages comes with a set of default limits for the _redirects
file
to minimize the impact on performance. You can configure these limits if you’d like to increase or decrease the limits.
gitlab_pages['redirects_max_config_size'] = 131072
gitlab_pages['redirects_max_path_segments'] = 50
gitlab_pages['redirects_max_rule_count'] = 2000
Use environment variables
You can pass an environment variable to the Pages daemon (for example, to enable or disable a feature flag).
To disable the configurable directory feature:
-
Edit
/etc/gitlab/gitlab.rb
:gitlab_pages['env'] = { 'FF_CONFIGURABLE_ROOT_DIR' => "false" }
-
Save the file and reconfigure GitLab:
sudo gitlab-ctl reconfigure
Activate verbose logging for daemon
Follow the steps below to configure verbose logging of GitLab Pages daemon.
-
By default the daemon only logs with
INFO
level. If you wish to make it log events with levelDEBUG
you must configure this in/etc/gitlab/gitlab.rb
:gitlab_pages['log_verbose'] = true
Propagating the correlation ID
Setting the propagate_correlation_id
to true allows installations behind a reverse proxy to generate
and set a correlation ID to requests sent to GitLab Pages. When a reverse proxy sets the header value X-Request-ID
,
the value propagates in the request chain.
Users can find the correlation ID in the logs.
To enable the propagation of the correlation ID:
-
Set the parameter to true in
/etc/gitlab/gitlab.rb
:gitlab_pages['propagate_correlation_id'] = true
Change storage path
Follow the steps below to change the default path where GitLab Pages’ contents are stored.
-
Pages are stored by default in
/var/opt/gitlab/gitlab-rails/shared/pages
. If you wish to store them in another location you must set it up in/etc/gitlab/gitlab.rb
:gitlab_rails['pages_path'] = "/mnt/storage/pages"
Configure listener for reverse proxy requests
Follow the steps below to configure the proxy listener of GitLab Pages.
-
By default the listener is configured to listen for requests on
localhost:8090
.If you wish to disable it you must configure this in
/etc/gitlab/gitlab.rb
:gitlab_pages['listen_proxy'] = nil
If you wish to make it listen on a different port you must configure this also in
/etc/gitlab/gitlab.rb
:gitlab_pages['listen_proxy'] = "localhost:10080"
Set global maximum size of each GitLab Pages site
Prerequisites:
- You must have administrator access to the instance.
To set the global maximum pages size for a project:
- On the left sidebar, at the bottom, select Admin.
- Select Settings > Preferences.
- Expand Pages.
- In Maximum size of pages, enter a value. The default is
100
. - Select Save changes.
Set maximum size of each GitLab Pages site in a group
Prerequisites:
- You must have administrator access to the instance.
To set the maximum size of each GitLab Pages site in a group, overriding the inherited setting:
- On the left sidebar, select Search or go to and find your group.
- Select Settings > General.
- Expand Pages.
- Enter a value under Maximum size in MB.
- Select Save changes.
Set maximum size of GitLab Pages site in a project
Prerequisites:
- You must have administrator access to the instance.
To set the maximum size of GitLab Pages site in a project, overriding the inherited setting:
- On the left sidebar, select Search or go to and find your project.
- Select Deploy > Pages.
- In Maximum size of pages, enter the size in MB.
- Select Save changes.
Set maximum number of GitLab Pages custom domains for a project
Prerequisites:
- You must have administrator access to the instance.
To set the maximum number of GitLab Pages custom domains for a project:
- On the left sidebar, at the bottom, select Admin.
- Select Settings > Preferences.
- Expand Pages.
- Enter a value for Maximum number of custom domains per project. Use
0
for unlimited domains. - Select Save changes.
Configure the default expiry for parallel deployments
- Introduced in GitLab 17.4.
Prerequisites:
- You must have administrator access to the instance.
To configure the default duration for the instance after which parallel deployments are deleted:
- On the left sidebar, at the bottom, select Admin.
- Select Settings > Preferences.
- Expand Pages.
- Enter a value for Default expiration for parallel deployments in seconds.
Use
0
if parallel deployments should not expire by default. - Select Save changes.
Set maximum number of files per GitLab Pages website
The total number of file entries (including directories and symlinks) is limited to 200,000
per GitLab Pages website.
You can update the limit in your self-managed instance using the GitLab Rails console.
For more information, see GitLab application limits.
Running GitLab Pages on a separate server
You can run the GitLab Pages daemon on a separate server to decrease the load on your main application server. This configuration does not support mutual TLS (mTLS). See the corresponding feature proposal for more information.
To configure GitLab Pages on a separate server:
gitlab-secrets.json
file. This file contains secrets that control
database encryption. Proceed with caution.-
Optionally, to enable access control, add the following to
/etc/gitlab/gitlab.rb
and reconfigure the GitLab server:gitlab_pages['access_control'] = true
If you plan to use GitLab Pages with access control, you must enable it on the first GitLab server before copyinggitlab-secrets.json
. Enabling access control generates a new OAuth application, and information about it propagates togitlab-secrets.json
. If it’s not done in the correct order, you may face issues with access control. -
Create a backup of the secrets file on the GitLab server:
cp /etc/gitlab/gitlab-secrets.json /etc/gitlab/gitlab-secrets.json.bak
-
On the GitLab server, to enable Pages, add the following to
/etc/gitlab/gitlab.rb
:pages_external_url "http://<pages_server_URL>"
- Set up object storage by either:
-
Reconfigure the GitLab server for the changes to take effect. The
gitlab-secrets.json
file is now updated with the new configuration. -
Set up a new server. This becomes the Pages server.
-
On the Pages server, install GitLab by using the Linux package and modify
/etc/gitlab/gitlab.rb
to include:roles ['pages_role'] pages_external_url "http://<pages_server_URL>" gitlab_pages['gitlab_server'] = 'http://<gitlab_server_IP_or_URL>' ## If access control was enabled on step 3 gitlab_pages['access_control'] = true
-
If you have custom UID/GID settings on the GitLab server, add them to the Pages server
/etc/gitlab/gitlab.rb
as well, otherwise running agitlab-ctl reconfigure
on the GitLab server can change file ownership and cause Pages requests to fail. -
Create a backup of the secrets file on the Pages server:
cp /etc/gitlab/gitlab-secrets.json /etc/gitlab/gitlab-secrets.json.bak
-
Copy the
/etc/gitlab/gitlab-secrets.json
file from the GitLab server to the Pages server.# On the GitLab server cp /etc/gitlab/gitlab-secrets.json /mnt/pages/gitlab-secrets.json # On the Pages server mv /var/opt/gitlab/gitlab-rails/shared/pages/gitlab-secrets.json /etc/gitlab/gitlab-secrets.json
-
Reconfigure the Pages server for the changes to take effect.
-
On the GitLab server, make the following changes to
/etc/gitlab/gitlab.rb
:pages_external_url "http://<pages_server_URL>" gitlab_pages['enable'] = false pages_nginx['enable'] = false
- Reconfigure the GitLab server for the changes to take effect.
It’s possible to run GitLab Pages on multiple servers if you wish to distribute the load. You can do this through standard load balancing practices such as configuring your DNS server to return multiple IPs for your Pages server, or configuring a load balancer to work at the IP level. If you wish to set up GitLab Pages on multiple servers, perform the above procedure for each Pages server.
Domain source configuration
When GitLab Pages daemon serves pages requests it firstly needs to identify which project should be used to serve the requested URL and how its content is stored.
By default, GitLab Pages uses the internal GitLab API every time a new domain is requested. Pages fails to start if it can’t connect to the API. The domain information is also cached by the Pages daemon to speed up subsequent requests.
For common issues, see troubleshooting.
For more details see this blog post.
GitLab API cache configuration
API-based configuration uses a caching mechanism to improve performance and reliability of serving Pages. The cache behavior can be modified by changing the cache settings, however, the recommended values are set for you and should only be modified if needed. Incorrect configuration of these values may result in intermittent or persistent errors, or the Pages Daemon serving old content.
300ms
, 1.5h
or 2h45m
.
Valid time units are ns
, us
(or µs
), ms
, s
, m
, h
.Examples:
- Increasing
gitlab_cache_expiry
allows items to exist in the cache longer. This setting might be useful if the communication between GitLab Pages and GitLab Rails is not stable. - Increasing
gitlab_cache_refresh
reduces the frequency at which GitLab Pages requests a domain’s configuration from GitLab Rails. This setting might be useful GitLab Pages generates too many requests to GitLab API and content does not change frequently. - Decreasing
gitlab_cache_cleanup
removes expired items from the cache more frequently, reducing the memory usage of your Pages node. - Decreasing
gitlab_retrieval_timeout
allows you to stop the request to GitLab Rails more quickly. Increasing it allows more time to receive a response from the API, useful in slow networking environments. - Decreasing
gitlab_retrieval_interval
makes requests to the API more frequently, only when there is an error response from the API, for example a connection timeout. - Decreasing
gitlab_retrieval_retries
reduces the number of times a domain’s configuration is tried to be resolved automatically before reporting an error.
Object storage settings
The following object storage settings are:
- Nested under
pages:
and thenobject_store:
on self-compiled installations. - Prefixed by
pages_object_store_
on Linux package installations.
Setting | Description | Default |
---|---|---|
enabled
|
Whether object storage is enabled. |
false
|
remote_directory
|
The name of the bucket where Pages site content is stored. | |
connection
|
Various connection options described below. |
S3-compatible connection settings
You should use the consolidated object storage settings.
See the available connection settings for different providers.
Migrate Pages deployments to object storage
Existing Pages deployment objects (zip archives) can be stored in either:
- Local storage
- Object storage
Migrate your existing Pages deployments from local storage to object storage:
sudo gitlab-rake gitlab:pages:deployments:migrate_to_object_storage
You can track progress and verify that all Pages deployments migrated successfully using the PostgreSQL console:
-
sudo gitlab-rails dbconsole --database main
for Linux package installations. -
sudo -u git -H psql -d gitlabhq_production
for self-compiled installations.
Verify objectstg
below (where store=2
) has count of all Pages deployments:
gitlabhq_production=# SELECT count(*) AS total, sum(case when file_store = '1' then 1 else 0 end) AS filesystem, sum(case when file_store = '2' then 1 else 0 end) AS objectstg FROM pages_deployments;
total | filesystem | objectstg
------+------------+-----------
10 | 0 | 10
After verifying everything is working correctly, disable Pages local storage.
Rolling Pages deployments back to local storage
After the migration to object storage is performed, you can choose to move your Pages deployments back to local storage:
sudo gitlab-rake gitlab:pages:deployments:migrate_to_local
Disable Pages local storage
If you use object storage, you can disable local storage to avoid unnecessary disk usage/writes:
-
Edit
/etc/gitlab/gitlab.rb
:gitlab_rails['pages_local_store_enabled'] = false
-
Reconfigure GitLab for the changes to take effect.
Enable Pages network storage in multi-node environments
Object storage is the preferred configuration for most environments. However, if your requirements call for network storage and you want to configure Pages to run on a separate server, you should:
- Ensure the shared storage volume you intend to use is already mounted and available on both the primary server and your intended Pages server.
-
Update the
/etc/gitlab/gitlab.rb
of each node to include:gitlab_pages['enable_disk'] = true gitlab_rails['pages_path'] = "/var/opt/gitlab/gitlab-rails/shared/pages" # Path to your network storage
- Switch over Pages to your separate server.
After you successfully configure Pages on your separate server, only that server needs access to the shared storage volume. Consider keeping the shared storage volume mounted on your primary server, in case you must migrate back to a single-node environment.
ZIP storage
The underlying storage format of GitLab Pages is a single ZIP archive per project.
These ZIP archives can be stored either locally on disk storage or on object storage if it is configured.
The ZIP archives are stored every time pages site is updated.
Backup
GitLab Pages are part of the regular backup, so there is no separate backup to configure.
Security
You should strongly consider running GitLab Pages under a different hostname than GitLab to prevent XSS attacks.
Rate limits
- Changed in GitLab 17.3: You can exclude subnets from Pages rate limits.
You can enforce rate limits to help minimize the risk of a Denial of Service (DoS) attack. GitLab Pages uses a token bucket algorithm to enforce rate limiting. By default, requests or TLS connections that exceed the specified limits are reported and rejected.
GitLab Pages supports the following types of rate limiting:
- Per
source_ip
. It limits how many requests or TLS connections are allowed from the single client IP address. - Per
domain
. It limits how many requests or TLS connections are allowed per domain hosted on GitLab Pages. It can be a custom domain likeexample.com
, or group domain likegroup.gitlab.io
.
HTTP request-based rate limits are enforced using the following:
-
rate_limit_source_ip
: Sets the maximum threshold in number of requests per client IP per second. Set to 0 to disable this feature. -
rate_limit_source_ip_burst
: Sets the maximum threshold of number of requests allowed in an initial outburst of requests per client IP. For example, when you load a web page that loads a number of resources at the same time. -
rate_limit_domain
: Sets the maximum threshold in number of requests per hosted pages domain per second. Set to 0 to disable this feature. -
rate_limit_domain_burst
: Sets the maximum threshold of number of requests allowed in an initial outburst of requests per hosted pages domain.
TLS connection-based rate limits are enforced using the following:
-
rate_limit_tls_source_ip
: Sets the maximum threshold in number of TLS connections per client IP per second. Set to 0 to disable this feature. -
rate_limit_tls_source_ip_burst
: Sets the maximum threshold of number of TLS connections allowed in an initial outburst of TLS connections per client IP. For example, when you load a web page from different web browsers at the same time. -
rate_limit_tls_domain
: Sets the maximum threshold in number of TLS connections per hosted pages domain per second. Set to 0 to disable this feature. -
rate_limit_tls_domain_burst
: Sets the maximum threshold of number of TLS connections allowed in an initial outburst of TLS connections per hosted pages domain.
To allow certain IP ranges (subnets) to bypass all rate limits:
-
rate_limit_subnets_allow_list
: Sets the allow list with the IP ranges (subnets) that should bypass all rate limits. For example,['1.2.3.4/24', '2001:db8::1/32']
. Charts example is available.
An IPv6 address receives a large prefix in the 128-bit address space. The prefix is typically at least size /64. Because of the large number of possible addresses, if the client’s IP address is IPv6, the limit is applied to the IPv6 prefix with a length of 64, rather than the entire IPv6 address.
Enable HTTP requests rate limits by source-IP
-
Set rate limits in
/etc/gitlab/gitlab.rb
:gitlab_pages['rate_limit_source_ip'] = 20.0 gitlab_pages['rate_limit_source_ip_burst'] = 600
Enable HTTP requests rate limits by domain
-
Set rate limits in
/etc/gitlab/gitlab.rb
:gitlab_pages['rate_limit_domain'] = 1000 gitlab_pages['rate_limit_domain_burst'] = 5000
Enable TLS connections rate limits by source-IP
-
Set rate limits in
/etc/gitlab/gitlab.rb
:gitlab_pages['rate_limit_tls_source_ip'] = 20.0 gitlab_pages['rate_limit_tls_source_ip_burst'] = 600
Enable TLS connections rate limits by domain
-
Set rate limits in
/etc/gitlab/gitlab.rb
:gitlab_pages['rate_limit_tls_domain'] = 1000 gitlab_pages['rate_limit_tls_domain_burst'] = 5000