- Configure Host settings
- Configure Horizontal Pod Autoscaler settings
- Configure PodDisruptionBudget settings
- Configure CronJob settings
- Configure Ingress settings
- GitLab Version
- Adding suffix to all image tags
- Configure PostgreSQL settings
- Configure Redis settings
- Configure Registry settings
- Configure Gitaly settings
- Configure Praefect settings
- Configure MinIO settings
-
Configure appConfig settings
- General application settings
- Gravatar/Libravatar settings
- Hooking Analytics services to the GitLab instance
- Consolidated object storage
- Specify buckets
- LFS, Artifacts, Uploads, Packages, External MR diffs, and Dependency Proxy
- Incoming email settings
- KAS settings
- Suggested Reviewers settings
- LDAP
- DuoAuth
- Configure the Duo secret key
- OmniAuth
- Cron jobs related settings
- Sentry settings
gitlab_docs
settings- Smartcard Authentication settings
- Sidekiq routing rules settings
- Configure Rails settings
- Configure Workhorse settings
- Configure GitLab Shell
- Configure GitLab Pages
- Configure Webservice
- Custom Certificate Authorities
- Application Resource
- GitLab base image
- Service Accounts
- Annotations
- Node Selector
- Labels
- Tracing
- extraEnv
- extraEnvFrom
- Configure OAuth settings
- Kerberos
- Outgoing email
- Platform
- Affinity
- Pod Priority and Preemption
- Log rotation
Configure charts using globals
To reduce configuration duplication when installing our wrapper Helm chart, several
configuration settings are available to be set in the global
section of values.yaml
.
These global settings are used across several charts, while all other settings are scoped
within their chart. See the Helm documentation on globals
for more information on how the global variables work.
- Hosts
- Ingress
- GitLab Version
- PostgreSQL
- Redis
- Registry
- Gitaly
- Praefect
- MinIO
- appConfig
- Rails
- Workhorse
- GitLab Shell
- Pages
- Webservice
- Custom Certificate Authorities
- Application Resource
- GitLab base image
- Service Accounts
- Annotations
- Tracing
- extraEnv
- extraEnvFrom
- OAuth
- Kerberos
- Outgoing email
- Platform
- Affinity
- Pod priority and preemption
- Log rotation
Configure Host settings
The GitLab global host settings are located under the global.hosts
key.
global:
hosts:
domain: example.com
hostSuffix: staging
https: false
externalIP:
gitlab:
name: gitlab.example.com
https: false
registry:
name: registry.example.com
https: false
minio:
name: minio.example.com
https: false
smartcard:
name: smartcard.example.com
kas:
name: kas.example.com
pages:
name: pages.example.com
https: false
ssh: gitlab.example.com
Name | Type | Default | Description |
---|---|---|---|
domain | String | example.com | The base domain. GitLab and Registry will be exposed on the subdomain of this setting. This defaults to example.com , but is not used for hosts that have their name property configured. See the gitlab.name , minio.name , and registry.name sections below. |
externalIP | nil | Set the external IP address that will be claimed from the provider. This will be templated into the NGINX chart, in place of the more complex nginx.service.loadBalancerIP . | |
https | Boolean | true | If set to true, you will need to ensure the NGINX chart has access to the certificates. In cases where you have TLS-termination in front of your Ingresses, you probably want to look at global.ingress.tls.enabled . Set to false for external URLs to use http:// instead of https . |
hostSuffix | String | See Below. | |
gitlab.https | Boolean | false | If hosts.https or gitlab.https are true , the GitLab external URL will use https:// instead of http:// . |
gitlab.name | String | The hostname for GitLab. If set, this hostname is used, regardless of the global.hosts.domain and global.hosts.hostSuffix settings. | |
gitlab.hostnameOverride | String | Override the hostname used in Ingress configuration of the Webservice. Useful if GitLab has to be reachable behind a WAF that rewrites the Hostname to an internal hostname (e.g.: gitlab.example.com –> gitlab.cluster.local ). | |
gitlab.serviceName | String | webservice | The name of the service which is operating the GitLab server. The chart will template the hostname of the service (and current .Release.Name ) to create the proper internal serviceName. |
gitlab.servicePort | String | workhorse | The named port of the service where the GitLab server can be reached. |
keda.enabled | Boolean | false | Use KEDA ScaledObjects instead of HorizontalPodAutoscalers
|
minio.https | Boolean | false | If hosts.https or minio.https are true , the MinIO external URL will use https:// instead of http:// . |
minio.name | String | minio | The hostname for MinIO. If set, this hostname is used, regardless of the global.hosts.domain and global.hosts.hostSuffix settings. |
minio.serviceName | String | minio | The name of the service which is operating the MinIO server. The chart will template the hostname of the service (and current .Release.Name ) to create the proper internal serviceName. |
minio.servicePort | String | minio | The named port of the service where the MinIO server can be reached. |
registry.https | Boolean | false | If hosts.https or registry.https are true , the Registry external URL will use https:// instead of http:// . |
registry.name | String | registry | The hostname for Registry. If set, this hostname is used, regardless of the global.hosts.domain and global.hosts.hostSuffix settings. |
registry.serviceName | String | registry | The name of the service which is operating the Registry server. The chart will template the hostname of the service (and current .Release.Name ) to create the proper internal serviceName. |
registry.servicePort | String | registry | The named port of the service where the Registry server can be reached. |
smartcard.name | String | smartcard | The hostname for smartcard authentication. If set, this hostname is used, regardless of the global.hosts.domain and global.hosts.hostSuffix settings. |
kas.name | String | kas | The hostname for the KAS. If set, this hostname is used, regardless of the global.hosts.domain and global.hosts.hostSuffix settings. |
kas.https | Boolean | false | If hosts.https or kas.https are true , the KAS external URL will use wss:// instead of ws:// . |
pages.name | String | pages | The hostname for GitLab Pages. If set, this hostname is used, regardless of the global.hosts.domain and global.hosts.hostSuffix settings. |
pages.https | String | If global.pages.https or global.hosts.pages.https or global.hosts.https are true , then URL for GitLab Pages in the Project settings UI will use https:// instead of http:// . | |
ssh | String | The hostname for cloning repositories over SSH. If set, this hostname is used, regardless of the global.hosts.domain and global.hosts.hostSuffix settings. |
hostSuffix
The hostSuffix
is appended to the subdomain when assembling a hostname using the
base domain
, but is not used for hosts that have their own name
set.
Defaults to being unset. If set, the suffix is appended to the subdomain with a hyphen.
The example below would result in using external hostnames like gitlab-staging.example.com
and registry-staging.example.com
:
global:
hosts:
domain: example.com
hostSuffix: staging
Configure Horizontal Pod Autoscaler settings
The GitLab global host settings for HPA are located under the global.hpa
key:
Name | Type | Default | Description |
---|---|---|---|
apiVersion | String | API version to use in the HorizontalPodAutoscaler object definitions. |
Configure PodDisruptionBudget settings
The GitLab global host settings for PDB are located under the global.pdb
key:
Name | Type | Default | Description |
---|---|---|---|
apiVersion | String | API version to use in the PodDisruptionBudget object definitions. |
Configure CronJob settings
The GitLab global host settings for CronJobs are located under the global.batch.cronJob
key:
Name | Type | Default | Description |
---|---|---|---|
apiVersion | String | API version to use in the CronJob object definitions. |
Configure Ingress settings
The GitLab global host settings for Ingress are located under the global.ingress
key:
Name | Type | Default | Description |
---|---|---|---|
apiVersion | String | API version to use in the Ingress object definitions. | |
annotations.*annotation-key* | String | Where annotation-key is a string that will be used with the value as an annotation on every Ingress. For Example: global.ingress.annotations."nginx\.ingress\.kubernetes\.io/enable-access-log"=true . No global annotations are provided by default. | |
configureCertmanager | Boolean | true | See below. |
class | String | gitlab-nginx | Global setting that controls kubernetes.io/ingress.class annotation or spec.IngressClassName in Ingress resources. Set to none to disable, or "" for empty. Note: for none or "" , set nginx-ingress.enabled=false to prevent the charts from deploying unnecessary Ingress resources. |
enabled | Boolean | true | Global setting that controls whether to create Ingress objects for services that support them. |
tls.enabled | Boolean | true | When set to false , this disables TLS in GitLab. This is useful for cases in which you cannot use TLS termination of Ingresses, such as when you have a TLS-terminating proxy before the Ingress Controller. If you want to disable https completely, this should be set to false together with global.hosts.https . |
tls.secretName | String | The name of the Kubernetes TLS Secret that contains a wildcard certificate and key for the domain used in global.hosts.domain . | |
path | String | / | Default for path entries in Ingress objects
|
pathType | String | Prefix | A Path Type allows you to specify how a path should be matched. Our current default is Prefix but you can use ImplementationSpecific or Exact depending on your use case. |
provider | String | nginx | Global setting that defines the Ingress provider to use. nginx is used as the default provider. |
Sample configurations for various cloud providers can be found in the examples folder.
Ingress Path
This chart employs global.ingress.path
as a means to assist those users that need to alter the definition of path
entries for their Ingress objects.
Many users have no need for this setting, and should not configure it.
For those users who need to have their path
definitions end in /*
to match their load balancer / proxy behaviors, such as when using ingress.class: gce
in GCP,
ingress.class: alb
in AWS, or another such provider.
This setting ensures that all path
entries in Ingress resources throughout this chart are rendered with this.
The only exception is when populating the gitlab/webservice
deployments settings, where path
must be specified.
Cloud provider LoadBalancers
Various cloud providers’ LoadBalancer implementations have an impact on configuration of the Ingress resources and NGINX controller deployed as part of this chart. The next table provides examples.
Provider | Layer | Example snippet |
---|---|---|
AWS | 4 | aws/elb-layer4-loadbalancer |
AWS | 7 | aws/elb-layer7-loadbalancer |
AWS | 7 | aws/alb-full |
global.ingress.configureCertmanager
Global setting that controls the automatic configuration of cert-manager
for Ingress objects. If true
, relies on certmanager-issuer.email
being set.
If false
and global.ingress.tls.secretName
is not set, this will activate automatic
self-signed certificate generation, which creates a wildcard certificate for all
Ingress objects.
If you wish to use an external cert-manager
, you must provide the following:
gitlab.webservice.ingress.tls.secretName
registry.ingress.tls.secretName
minio.ingress.tls.secretName
global.ingress.annotations
GitLab Version
The GitLab version used in the default image tag for the charts can be changed using
the global.gitlabVersion
key:
--set global.gitlabVersion=11.0.1
This impacts the default image tag used in the webservice
, sidekiq
, and migration
charts. Note that the gitaly
, gitlab-shell
and gitlab-runner
image tags should
be separately updated to versions compatible with the GitLab version.
Adding suffix to all image tags
If you wish to add a suffix to the name of all images used in the Helm chart, you can use the global.image.tagSuffix
key.
An example of this use case might be if you wish to use fips compliant container images from GitLab, which are all built
with the -fips
extension to the image tag.
--set global.image.tagSuffix="-fips"
Configure PostgreSQL settings
The GitLab global PostgreSQL settings are located under the global.psql
key.
global:
psql:
host: psql.example.com
# serviceName: pgbouncer
port: 5432
database: gitlabhq_production
username: gitlab
applicationName:
preparedStatements: false
databaseTasks: true
connectTimeout:
keepalives:
keepalivesIdle:
keepalivesInterval:
keepalivesCount:
tcpUserTimeout:
password:
useSecret: true
secret: gitlab-postgres
key: psql-password
file:
Name | Type | Default | Description |
---|---|---|---|
host | String | The hostname of the PostgreSQL server with the database to use. This can be omitted if using PostgreSQL deployed by this chart. | |
serviceName | String | The name of the service which is operating the PostgreSQL database. If this is present, and host is not, the chart will template the hostname of the service in place of the host value. | |
database | String | gitlabhq_production | The name of the database to use on the PostgreSQL server. |
password.useSecret | Boolean | true | Controls whether the password for PostgreSQL is read from a secret or file. |
password.file | String | Defines the path to the file that contains the password for PostgreSQL. Ignored if password.useSecret is true | |
password.key | String | The password.key attribute for PostgreSQL defines the name of the key in the secret (below) that contains the password. Ignored if password.useSecret is false. | |
password.secret | String | The password.secret attribute for PostgreSQL defines the name of the Kubernetes Secret to pull from. Ignored if password.useSecret is false. | |
port | Integer | 5432 | The port on which to connect to the PostgreSQL server. |
username | String | gitlab | The username with which to authenticate to the database. |
preparedStatements | Boolean | false | If prepared statements should be used when communicating with the PostgreSQL server. |
databaseTasks | Boolean | true | If GitLab should perform database tasks for a given database. Automatically disabled when sharing host/port/database match main . |
connectTimeout | Integer | The number of seconds to wait for a database connection. | |
keepalives | Integer | Controls whether client-side TCP keepalives are used (1, meaning on, 0, meaning off). | |
keepalivesIdle | Integer | The number of seconds of inactivity after which TCP should send a keepalive message to the server. A value of zero uses the system default. | |
keepalivesInterval | Integer | The number of seconds after which a TCP keepalive message that is not acknowledged by the server should be retransmitted. A value of zero uses the system default. | |
keepalivesCount | Integer | The number of TCP keepalives that can be lost before the client’s connection to the server is considered dead. A value of zero uses the system default. | |
tcpUserTimeout | Integer | The number of milliseconds that transmitted data may remain unacknowledged before a connection is forcibly closed. A value of zero uses the system default. | |
applicationName | String | The name of the application connecting to the database. Set to a blank string ("" ) to disable. By default, this will be set to the name of the running process (e.g. sidekiq , puma ). | |
ci.enabled | Boolean | Not defined | Enables two database connections. |
PostgreSQL per chart
In some complex deployments, it may be desired to configure different parts of
this chart with different configurations for PostgreSQL. As of v4.2.0
, all
properties available within global.psql
can be set on a per-chart basis,
for example gitlab.sidekiq.psql
. The local settings will override global values
when supplied, inheriting any not present from global.psql
, with the exception
of psql.load_balancing
.
PostgreSQL load balancing will never inherit from the global, by design.
PostgreSQL SSL
If you want to connect GitLab with a PostgreSQL database over mutual TLS, create a secret
containing the client key, client certificate and server certificate authority as different
secret keys. Then describe the secret’s structure using the global.psql.ssl
mapping.
global:
psql:
ssl:
secret: db-example-ssl-secrets # Name of the secret
clientCertificate: cert.pem # Secret key storing the certificate
clientKey: key.pem # Secret key of the certificate's key
serverCA: server-ca.pem # Secret key containing the CA for the database server
Name | Type | Default | Description |
---|---|---|---|
secret | String | Name of the Kubernetes Secret containing the following keys | |
clientCertificate | String | Name of the key within the Secret containing the client certificate. | |
clientKey | String | Name of the key within the Secret containing the client certificate’s key file. | |
serverCA | String | Name of the key within the Secret containing the certificate authority for the server. |
You may also need to set extraEnv
values to export environment values to point to the correct keys.
global:
extraEnv:
PGSSLCERT: '/etc/gitlab/postgres/ssl/client-certificate.pem'
PGSSLKEY: '/etc/gitlab/postgres/ssl/client-key.pem'
PGSSLROOTCERT: '/etc/gitlab/postgres/ssl/server-ca.pem'
PostgreSQL load balancing
This feature requires the use of an external PostgreSQL, as this chart does not deploy PostgreSQL in an HA fashion.
The Rails components in GitLab have the ability to make use of PostgreSQL clusters to load balance read-only queries.
This feature can be configured in two fashions:
- Using a static lists of hostnames for the secondaries.
- Using a DNS based service discovery mechanism.
Configuration with a static list of is straight forward:
global:
psql:
host: primary.database
load_balancing:
hosts:
- secondary-1.database
- secondary-2.database
Configuration of service discovery can be more complex. For a complete details of this configuration, the parameters and their associated behaviors, see Service Discovery in the GitLab Administration documentation.
global:
psql:
host: primary.database
load_balancing:
discover:
record: secondary.postgresql.service.consul
# record_type: A
# nameserver: localhost
# port: 8600
# interval: 60
# disconnect_timeout: 120
# use_tcp: false
# max_replica_pools: 30
Further tuning is also available, in regards to the
handling of stale reads.
The GitLab Administration documentation covers these items in detail,
and those properties can be added directly under load_balancing
.
global:
psql:
load_balancing:
max_replication_difference: # See documentation
max_replication_lag_time: # See documentation
replica_check_interval: # See documentation
Configure multiple database connections
The gitlab:db:decomposition:connection_status
Rake task was introduced in GitLab 15.11.
In GitLab 16.0, GitLab defaults to using two database connections that point to the same PostgreSQL database.
If you wish to switch back to single database connection, set the ci.enabled
key to false
:
global:
psql:
ci:
enabled: false
Configure Redis settings
The GitLab global Redis settings are located under the global.redis
key.
By default we use an single, non-replicated Redis instance. If a highly available Redis is required, we recommend using an external Redis instance.
You can bring an external Redis instance by setting redis.install=false
, and
following our advanced documentation for
configuration.
global:
redis:
host: redis.example.com
serviceName: redis
port: 6379
auth:
enabled: true
secret: gitlab-redis
key: redis-password
scheme:
Name | Type | Default | Description |
---|---|---|---|
host | String | The hostname of the Redis server with the database to use. This can be omitted in lieu of serviceName . | |
serviceName | String | redis | The name of the service which is operating the Redis database. If this is present, and host is not, the chart will template the hostname of the service (and current .Release.Name ) in place of the host value. This is convenient when using Redis as a part of the overall GitLab chart. |
port | Integer | 6379 | The port on which to connect to the Redis server. |
user | String | The user used to authenticate against Redis (Redis 6.0+). | |
auth.enabled | Boolean | true | The auth.enabled provides a toggle for using a password with the Redis instance. |
auth.key | String | The auth.key attribute for Redis defines the name of the key in the secret (below) that contains the password. | |
auth.secret | String | The auth.secret attribute for Redis defines the name of the Kubernetes Secret to pull from. | |
scheme | String | redis | The URI scheme to be used to generate Redis URLs. Valid values are redis , rediss , and tcp . If using rediss (SSL encrypted connection) scheme, the certificate used by the server should be a part of the system’s trusted chains. This can be done by adding them to the custom certificate authorities list. |
Configure Redis chart-specific settings
Settings to configure the Redis chart
directly are located under the redis
key:
redis:
install: true
image:
registry: registry.example.com
repository: example/redis
tag: x.y.z
Refer to the full list of settings for more information.
Redis Sentinel support
The current Redis Sentinel support only supports Sentinels that have
been deployed separately from the GitLab chart. As a result, the Redis
deployment through the GitLab chart should be disabled with redis.install=false
.
The Kubernetes Secret containing the Redis password will need to be manually created
before deploying the GitLab chart.
The installation of an HA Redis cluster from the GitLab chart does not support using sentinels. If sentinel support is desired, a Redis cluster needs to be created separately from the GitLab chart install. This can be done inside or outside the Kubernetes cluster.
An issue to track the supporting of sentinels in a GitLab deployed Redis cluster has been created for tracking purposes.
redis:
install: false
global:
redis:
host: redis.example.com
serviceName: redis
port: 6379
sentinels:
- host: sentinel1.example.com
port: 26379
- host: sentinel2.exeample.com
port: 26379
auth:
enabled: true
secret: gitlab-redis
key: redis-password
Name | Type | Default | Description |
---|---|---|---|
host | String | The host attribute needs to be set to the cluster name as specified in the sentinel.conf . | |
sentinels.[].host | String | The hostname of Redis Sentinel server for a Redis HA setup. | |
sentinels.[].port | Integer | 26379 | The port on which to connect to the Redis Sentinel server. |
All the prior Redis attributes in the general configure Redis settings continue to apply with the Sentinel support unless re-specified in the table above.
Multiple Redis support
The GitLab chart includes support for running with separate Redis instances for different persistence classes, currently:
Instance | Purpose |
---|---|
cache | Store cached data |
queues | Store Sidekiq background jobs |
sharedState | Store various persistent data such as distributed locks |
actioncable | Pub/Sub queue backend for ActionCable |
traceChunks | Store job traces temporarily |
rateLimiting | Store rate-limiting usage for RackAttack and Application Limits |
sessions | Store user session data |
repositoryCache | Store repository related data |
workhorse | Pub/sub queue backend for Workhorse |
Any number of the instances may be specified. Any instances not specified
will be handled by the primary Redis instance specified
by global.redis.host
or use the deployed Redis instance from the chart.
For example:
redis:
install: false
global:
redis:
host: redis.example
port: 6379
auth:
enabled: true
secret: redis-secret
key: redis-password
cache:
host: cache.redis.example
port: 6379
password:
enabled: true
secret: cache-secret
key: cache-password
sharedState:
host: shared.redis.example
port: 6379
password:
enabled: true
secret: shared-secret
key: shared-password
queues:
host: queues.redis.example
port: 6379
password:
enabled: true
secret: queues-secret
key: queues-password
actioncable:
host: cable.redis.example
port: 6379
password:
enabled: true
secret: cable-secret
key: cable-password
traceChunks:
host: traceChunks.redis.example
port: 6379
password:
enabled: true
secret: traceChunks-secret
key: traceChunks-password
rateLimiting:
host: rateLimiting.redis.example
port: 6379
password:
enabled: true
secret: rateLimiting-secret
key: rateLimiting-password
sessions:
host: sessions.redis.example
port: 6379
password:
enabled: true
secret: sessions-secret
key: sessions-password
repositoryCache:
host: repositoryCache.redis.example
port: 6379
password:
enabled: true
secret: repositoryCache-secret
key: repositoryCache-password
workhorse:
host: workhorse.redis.example
port: 6379
password:
enabled: true
secret: workhorse-secret
key: workhorse-password
The following table describes the attributes for each dictionary of the Redis instances.
Name | Type | Default | Description |
---|---|---|---|
.host | String | The hostname of the Redis server with the database to use. | |
.port | Integer | 6379 | The port on which to connect to the Redis server. |
.password.enabled | Boolean | true | The password.enabled provides a toggle for using a password with the Redis instance. |
.password.key | String | The password.key attribute for Redis defines the name of the key in the secret (below) that contains the password. | |
.password.secret | String | The password.secret attribute for Redis defines the name of the Kubernetes Secret to pull from. |
The primary Redis definition is required as there are additional persistence classes that have not been separated.
Each instance definition may also use Redis Sentinel support. Sentinel configurations are not shared and needs to be specified for each instance that uses Sentinels. Please refer to the Sentinel configuration for the attributes that are used to configure Sentinel servers.
Specify secure Redis scheme (SSL)
To connect to Redis with SSL:
- Update your configuration to use the
rediss
(doubles
) scheme parameter. -
In your configuration, set
authClients
tofalse
:global: redis: scheme: rediss redis: tls: enabled: true authClients: false
This configuration is required because Redis defaults to mutual TLS, which not all chart components support.
- Follow Bitnami’s steps to enable TLS. Make sure the chart components trust the certificate authority used to create Redis certificates.
- Optional. If you use a custom certificate authority, see the Custom Certificate Authorities global configuration.
Password-less Redis Servers
Some Redis services such as Google Cloud Memorystore do not make use of passwords and the associated AUTH
command. The use and requirement for a password can be disabled via the following configuration setting:
global:
redis:
auth:
enabled: false
host: ${REDIS_PRIVATE_IP}
redis:
enabled: false
Configure Registry settings
The global Registry settings are located under the global.registry
key.
global:
registry:
bucket: registry
certificate:
httpSecret:
notificationSecret:
notifications: {}
## Settings used by other services, referencing registry:
enabled: true
host:
api:
protocol: http
serviceName: registry
port: 5000
tokenIssuer: gitlab-issuer
For more details on bucket
, certificate
, httpSecret
, and notificationSecret
settings, see the documentation within the registry chart.
For details on enabled
, host
, api
and tokenIssuer
see documentation for command line options and webcervice
host
is used to override autogenerated external registry hostname reference.
notifications
This setting is used to configure Registry notifications. It takes in a map (following upstream specification), but with an added feature of providing sensitive headers as Kubernetes secrets. For example, consider the following snippet where the Authorization header contains sensitive data while other headers contain regular data:
global:
registry:
notifications:
events:
includereferences: true
endpoints:
- name: CustomListener
url: https://mycustomlistener.com
timeout: 500mx
threshold: 5
backoff: 1s
headers:
X-Random-Config: [plain direct]
Authorization:
secret: registry-authorization-header
key: password
In this example, the header X-Random-Config
is a regular header and its value
can be provided in plaintext in the values.yaml
file or via --set
flag.
However, the header Authorization
is a sensitive one, so mounting it from a
Kubernetes secret is preferred. For details regarding the structure of the
secret, refer the secrets documentation
Configure Gitaly settings
The global Gitaly settings are located under the global.gitaly
key.
global:
gitaly:
internal:
names:
- default
- default2
external:
- name: node1
hostname: node1.example.com
port: 8075
authToken:
secret: gitaly-secret
key: token
tls:
enabled: true
secretName: gitlab-gitaly-tls
Gitaly hosts
Gitaly is a service that provides high-level RPC access to Git repositories, which handles all Git calls made by GitLab.
Administrators can chose to use Gitaly nodes in the following ways:
-
Internal to the chart, as part of a
StatefulSet
via the Gitaly chart. - External to the chart, as external pets.
- Mixed environment using both internal and external nodes.
See Repository Storage Paths documentation for details on managing which nodes will be used for new projects.
If gitaly.host
is provided, gitaly.internal
and gitaly.external
properties will be ignored.
See the deprecated Gitaly settings.
The Gitaly authentication token is expected to be identical for all Gitaly services at this time, internal or external. Ensure these are aligned. See issue #1992 for further details.
Internal
The internal
key currently consists of only one key, names
, which is a list of
storage names
to be managed by the chart. For each listed name, in logical order, one pod will
be spawned, named ${releaseName}-gitaly-${ordinal}
, where ordinal
is the index
within the names
list. If dynamic provisioning is enabled, the PersistentVolumeClaim
will match.
This list defaults to ['default']
, which provides for 1 pod related to one
storage path.
Manual scaling of this item is required, by adding or removing entries in
gitaly.internal.names
. When scaling down, any repository that has not been moved
to another node will become unavailable. Since the Gitaly chart is a StatefulSet
,
dynamically provisioned disks will not be reclaimed. This means the data disks
will persist, and the data on them can be accessed when the set is scaled up again
by re-adding a node to the names
list.
A sample configuration of multiple internal nodes can be found in the examples folder.
External
The external
key provides a configuration for Gitaly nodes external to the cluster.
Each item of this list has 3 keys:
-
name
: The name of the storage. An entry withname: default
is required. -
hostname
: The host of Gitaly services. -
port
: (optional) The port number to reach the host on. Defaults to8075
. -
tlsEnabled
: (optional) Overrideglobal.gitaly.tls.enabled
for this particular entry.
We provide an advanced configuration guide for using an external Gitaly service. You can also find sample configuration of multiple external services in the examples folder.
You may use an external Praefect to provide highly available Gitaly services. Configuration of the two is interchangeable, as from the viewpoint of the clients, there is no difference.
Mixed
It is possible to use both internal and external Gitaly nodes, but be aware that:
- There must always be a node named
default
, which Internal provides by default. - External nodes will be populated first, then Internal.
A sample configuration of mixed internal and external nodes can be found in the examples folder.
authToken
The authToken
attribute for Gitaly has two sub keys:
-
secret
defines the name of the KubernetesSecret
to pull from. -
key
defines the name of the key in the above secret that contains the authToken.
All Gitaly nodes must share the same authentication token.
Deprecated Gitaly settings
Name | Type | Default | Description |
---|---|---|---|
host (deprecated)
| String | The hostname of the Gitaly server to use. This can be omitted in lieu of serviceName . If this setting is used, it will override any values of internal or external . | |
port (deprecated)
| Integer | 8075 | The port on which to connect to the Gitaly server. |
serviceName (deprecated)
| String | The name of the service which is operating the Gitaly server. If this is present, and host is not, the chart will template the hostname of the service (and current .Release.Name ) in place of the host value. This is convenient when using Gitaly as a part of the overall GitLab chart. |
TLS settings
Configuring Gitaly to serve via TLS is detailed in the Gitaly chart’s documentation.
Configure Praefect settings
The global Praefect settings are located under the global.praefect
key.
Praefect is disabled by default. When enabled with no extra settings, 3 Gitaly replicas will be created, and the Praefect database will need to be manually created on the default PostgreSQL instance.
Enable Praefect
To enable Praefect with default settings, set global.praefect.enabled=true
.
See the Praefect documentation for details on how to operate a Gitaly cluster using Praefect.
Global settings for Praefect
global:
praefect:
enabled: false
virtualStorages:
- name: default
gitalyReplicas: 3
maxUnavailable: 1
dbSecret: {}
psql: {}
Name | Type | Default | Description |
---|---|---|---|
enabled | Boolean | false | Whether or not to enable Praefect |
virtualStorages | List | See multiple virtual storages above. | The list of desired virtual storages (each backed by a Gitaly StatefulSet) |
dbSecret.secret | String | The name of the secret to use for authenticating with the database | |
dbSecret.key | String | The name of the key in dbSecret.secret to use | |
psql.host | String | The hostname of the database server to use (when using an external database) | |
psql.port | String | The port number of the database server (when using an external database) | |
psql.user | String | praefect | The database user to use |
psql.dbName | String | praefect | The name of the database to use |
Configure MinIO settings
The GitLab global MinIO settings are located under the global.minio
key. For more
details on these settings, see the documentation within the MinIO chart.
global:
minio:
enabled: true
credentials: {}
Configure appConfig settings
The Webservice, Sidekiq, and
Gitaly charts share multiple settings, which are configured
with the global.appConfig
key.
global:
appConfig:
# cdnHost:
contentSecurityPolicy:
enabled: false
report_only: true
# directives: {}
enableUsagePing: true
enableSeatLink: true
enableImpersonation: true
applicationSettingsCacheSeconds: 60
usernameChangingEnabled: true
issueClosingPattern:
defaultTheme:
defaultProjectsFeatures:
issues: true
mergeRequests: true
wiki: true
snippets: true
builds: true
containerRegistry: true
webhookTimeout:
gravatar:
plainUrl:
sslUrl:
extra:
googleAnalyticsId:
matomoUrl:
matomoSiteId:
matomoDisableCookies:
oneTrustId:
googleTagManagerNonceId:
bizible:
object_store:
enabled: false
proxy_download: true
storage_options: {}
connection: {}
lfs:
enabled: true
proxy_download: true
bucket: git-lfs
connection: {}
artifacts:
enabled: true
proxy_download: true
bucket: gitlab-artifacts
connection: {}
uploads:
enabled: true
proxy_download: true
bucket: gitlab-uploads
connection: {}
packages:
enabled: true
proxy_download: true
bucket: gitlab-packages
connection: {}
externalDiffs:
enabled:
when:
proxy_download: true
bucket: gitlab-mr-diffs
connection: {}
terraformState:
enabled: false
bucket: gitlab-terraform-state
connection: {}
ciSecureFiles:
enabled: false
bucket: gitlab-ci-secure-files
connection: {}
dependencyProxy:
enabled: false
bucket: gitlab-dependency-proxy
connection: {}
backups:
bucket: gitlab-backups
microsoft_graph_mailer:
enabled: false
user_id: "YOUR-USER-ID"
tenant: "YOUR-TENANT-ID"
client_id: "YOUR-CLIENT-ID"
client_secret:
secret:
key: secret
azure_ad_endpoint: "https://login.microsoftonline.com"
graph_endpoint: "https://graph.microsoft.com"
incomingEmail:
enabled: false
address: ""
host: "imap.gmail.com"
port: 993
ssl: true
startTls: false
user: ""
password:
secret:
key: password
mailbox: inbox
idleTimeout: 60
inboxMethod: "imap"
clientSecret:
key: secret
pollInterval: 60
deliveryMethod: webhook
authToken: {}
serviceDeskEmail:
enabled: false
address: ""
host: "imap.gmail.com"
port: 993
ssl: true
startTls: false
user: ""
password:
secret:
key: password
mailbox: inbox
idleTimeout: 60
inboxMethod: "imap"
clientSecret:
key: secret
pollInterval: 60
deliveryMethod: webhook
authToken: {}
cron_jobs: {}
sentry:
enabled: false
dsn:
clientside_dsn:
environment:
gitlab_docs:
enabled: false
host: ""
smartcard:
enabled: false
CASecret:
clientCertificateRequiredHost:
sidekiq:
routingRules: []
General application settings
The appConfig
settings that can be used to tweak the general properties of the Rails
application are described below:
Name | Type | Default | Description |
---|---|---|---|
cdnHost | String | (empty) | Sets a base URL for a CDN to serve static assets (for example, https://mycdnsubdomain.fictional-cdn.com ). |
contentSecurityPolicy | Struct | See below. | |
enableUsagePing | Boolean | true | A flag to disable the usage ping support. |
enableSeatLink | Boolean | true | A flag to disable the seat link support. |
enableImpersonation | nil | A flag to disable user impersonation by Administrators. | |
applicationSettingsCacheSeconds | Integer | 60 | An interval value (in seconds) to invalidate the application settings cache. |
usernameChangingEnabled | Boolean | true | A flag to decide if users are allowed to change their username. |
issueClosingPattern | String | (empty) | Pattern to close issues automatically. |
defaultTheme | Integer | Numeric ID of the default theme for the GitLab instance. It takes a number, denoting the ID of the theme. | |
defaultProjectsFeatures.*feature* | Boolean | true | See below. |
webhookTimeout | Integer | (empty) | Waiting time in seconds before a hook is deemed to have failed. |
graphQlTimeout | Integer | (empty) | Time in seconds the Rails has to complete a GraphQL request. |
Content Security Policy
Setting a Content Security Policy (CSP) can help thwart JavaScript cross-site scripting (XSS) attacks. See GitLab documentation for configuration details. Content Security Policy Documentation
GitLab automatically provides secure default values for the CSP.
global:
appConfig:
contentSecurityPolicy:
enabled: true
report_only: false
To add a custom CSP:
global:
appConfig:
contentSecurityPolicy:
enabled: true
report_only: false
directives:
default_src: "'self'"
script_src: "'self' 'unsafe-inline' 'unsafe-eval' https://www.recaptcha.net https://apis.google.com"
frame_ancestors: "'self'"
frame_src: "'self' https://www.recaptcha.net/ https://content.googleapis.com https://content-compute.googleapis.com https://content-cloudbilling.googleapis.com https://content-cloudresourcemanager.googleapis.com"
img_src: "* data: blob:"
style_src: "'self' 'unsafe-inline'"
Improperly configuring the CSP rules could prevent GitLab from working properly.
Before rolling out a policy, you may also want to change report_only
to true
to
test the configuration.
defaultProjectsFeatures
Flags to decide if new projects should be created with the respective features by
default. All flags default to true
.
defaultProjectsFeatures:
issues: true
mergeRequests: true
wiki: true
snippets: true
builds: true
containerRegistry: true
Gravatar/Libravatar settings
By default, the charts work with Gravatar avatar service available at gravatar.com. However, a custom Libravatar service can also be used if needed:
Name | Type | Default | Description |
---|---|---|---|
gravatar.plainURL | String | (empty) | HTTP URL to Libravatar instance (instead of using gravatar.com). |
gravatar.sslUrl | String | (empty) | HTTPS URL to Libravatar instance (instead of using gravatar.com). |
Hooking Analytics services to the GitLab instance
Settings to configure Analytics services like Google Analytics and Matomo are defined
under the extra
key below appConfig
:
Name | Type | Default | Description |
---|---|---|---|
extra.googleAnalyticsId | String | (empty) | Tracking ID for Google Analytics. |
extra.matomoSiteId | String | (empty) | Matomo Site ID. |
extra.matomoUrl | String | (empty) | Matomo URL. |
extra.matomoDisableCookies | Boolean | (empty) | Disable Matomo cookies (corresponds to disableCookies in the Matomo script) |
extra.oneTrustId | String | (empty) | OneTrust ID. |
extra.googleTagManagerNonceId | String | (empty) | Google Tag Manager ID. |
extra.bizible | Boolean | false | Set to true to enable Bizible script |
Consolidated object storage
In addition to the following section that describes how to configure individual settings
for object storage, we’ve added a consolidated object storage configuration to ease the use
of shared configuration for these items. Making use of object_store
, you can configure a
connection
once, and it will be used for any and all object storage backed features that
are not individually configured with a connection
property.
enabled: true
proxy_download: true
storage_options:
connection:
secret:
key:
Name | Type | Default | Description |
---|---|---|---|
enabled | Boolean | false | Enable the use of consolidated object storage. |
proxy_download | Boolean | true | Enable proxy of all downloads via GitLab, in place of direct downloads from the bucket . |
storage_options | String | {} | See below. |
connection | String | {} | See below. |
The property structure is shared, and all properties here can be overridden by the individual
items below. The connection
property structure is identical.
Notice: The bucket
, enabled
, and proxy_download
properties are the only properties that must be
configured on a per-item level (global.appConfig.artifacts.bucket
, …) if you wish to
deviate from the default values.
When using the AWS
provider for the connection (which is any
S3 compatible provider such as the included MinIO), GitLab Workhorse can offload
all storage related uploads. This will automatically be enabled for you, when
using this consolidated configuration.
Specify buckets
Each object type should be stored in different buckets. By default, GitLab uses these bucket names for each type:
Object type | Bucket Name |
---|---|
CI artifacts | gitlab-artifacts |
Git LFS | git-lfs |
Packages | gitlab-packages |
Uploads | gitlab-uploads |
External merge request diffs | gitlab-mr-diffs |
Terraform State | gitlab-terraform-state |
CI Secure Files | gitlab-ci-secure-files |
Dependency Proxy | gitlab-dependency-proxy |
Pages | gitlab-pages |
You can use these defaults or configure the bucket names:
--set global.appConfig.artifacts.bucket=<BUCKET NAME> \
--set global.appConfig.lfs.bucket=<BUCKET NAME> \
--set global.appConfig.packages.bucket=<BUCKET NAME> \
--set global.appConfig.uploads.bucket=<BUCKET NAME> \
--set global.appConfig.externalDiffs.bucket=<BUCKET NAME> \
--set global.appConfig.terraformState.bucket=<BUCKET NAME> \
--set global.appConfig.ciSecureFiles.bucket=<BUCKET NAME> \
--set global.appConfig.dependencyProxy.bucket=<BUCKET NAME>
storage_options
Introduced in GitLab 13.4.
The storage_options
are used to configure
S3 Server Side Encryption.
Setting a default encryption on an S3 bucket is the easiest way to
enable encryption, but you may want to
set a bucket policy to ensure only encrypted objects are uploaded.
To do this, you must configure GitLab to send the proper encryption headers
in the storage_options
configuration section:
Setting | Description |
---|---|
server_side_encryption | Encryption mode (AES256 or aws:kms ) |
server_side_encryption_kms_key_id | Amazon Resource Name. Only needed when aws:kms is used in server_side_encryption . See the Amazon documentation on using KMS encryption
|
Example:
enabled: true
proxy_download: true
connection:
secret: gitlab-rails-storage
key: connection
storage_options:
server_side_encryption: aws:kms
server_side_encryption_kms_key_id: arn:aws:kms:us-west-2:111122223333:key/1234abcd-12ab-34cd-56ef-1234567890ab
LFS, Artifacts, Uploads, Packages, External MR diffs, and Dependency Proxy
Details on these settings are below. Documentation is not repeated individually,
as they are structurally identical aside from the default value of the bucket
property.
enabled: true
proxy_download: true
bucket:
connection:
secret:
key:
Name | Type | Default | Description |
---|---|---|---|
enabled | Boolean | Defaults to true for LFS, artifacts, uploads, and packages | Enable the use of these features with object storage. |
proxy_download | Boolean | true | Enable proxy of all downloads via GitLab, in place of direct downloads from the bucket . |
bucket | String | Various | Name of the bucket to use from object storage provider. Default will be git-lfs , gitlab-artifacts , gitlab-uploads , or gitlab-packages , depending on the service. |
connection | String | {} | See below. |
connection
The connection
property has been transitioned to a Kubernetes Secret. The contents
of this secret should be a YAML formatted file. Defaults to {}
and will be ignored
if global.minio.enabled
is true
.
This property has two sub-keys: secret
and key
.
-
secret
is the name of a Kubernetes Secret. This value is required to use external object storage. -
key
is the name of the key in the secret which houses the YAML block. Defaults toconnection
.
Valid configuration keys can be found in the GitLab Job Artifacts Administration documentation. This matches to Fog, and is different between provider modules.
Examples for AWS and Google
providers can be found in examples/objectstorage
.
Once a YAML file containing the contents of the connection
has been created, use
this file to create the secret in Kubernetes.
kubectl create secret generic gitlab-rails-storage \
--from-file=connection=rails.yaml
when (only for External MR Diffs)
externalDiffs
setting has an additional key when
to
conditionally store specific diffs on object storage.
This setting is left empty by default in the charts, for a default value to be
assigned by the Rails code.
cdn (only for CI Artifacts)
artifacts
setting has an additional key cdn
to configure Google CDN in front of a Google Cloud Storage bucket.
Incoming email settings
The incoming email settings are explained in the command line options page.
KAS settings
Custom secret
One can optionally customize the KAS secret
name as well as key
, either by
using Helm’s --set variable
option:
--set global.appConfig.gitlab_kas.secret=custom-secret-name \
--set global.appConfig.gitlab_kas.key=custom-secret-key \
or by configuring your values.yaml
:
global:
appConfig:
gitlab_kas:
secret: "custom-secret-name"
key: "custom-secret-key"
If you’d like to customize the secret value, refer to the secrets documentation.
Custom URLs
The URLs used for KAS by the GitLab backend can be customized
using Helm’s --set variable
option:
--set global.appConfig.gitlab_kas.externalUrl="wss://custom-kas-url.example.com" \
--set global.appConfig.gitlab_kas.internalUrl="grpc://custom-internal-url" \
or by configuring your values.yaml
:
global:
appConfig:
gitlab_kas:
externalUrl: "wss://custom-kas-url.example.com"
internalUrl: "grpc://custom-internal-url"
External KAS
The GitLab backend can be made aware of an external KAS server (i.e. not
managed by the chart) by explicitly enabling it and configuring the required
URLs. You can do so using Helm’s --set variable
option:
--set global.appConfig.gitlab_kas.enabled=true \
--set global.appConfig.gitlab_kas.externalUrl="wss://custom-kas-url.example.com" \
--set global.appConfig.gitlab_kas.internalUrl="grpc://custom-internal-url" \
or by configuring your values.yaml
:
global:
appConfig:
gitlab_kas:
enabled: true
externalUrl: "wss://custom-kas-url.example.com"
internalUrl: "grpc://custom-internal-url"
TLS settings
KAS supports TLS communication between its kas
pods and other GitLab chart components.
Prerequisites:
- Use GitLab 15.5.1 or later.
You can set your GitLab version with
global.gitlabVersion: <version>
. If you need to force an image update after an initial deployment, also setglobal.image.pullPolicy: Always
. -
Create the certificate authority and certificates that your
kas
pods will trust.
To configure kas
to use the certificates you created, set the following values.
Value | Description |
---|---|
global.kas.tls.enabled | Mounts the certificates volume and enables TLS communication to kas endpoints. |
global.kas.tls.secretName | Specifies which Kubernetes TLS secret stores your certificates. |
global.kas.tls.caSecretName | Specifies which Kubernetes TLS secret stores your custom CA. |
For example, you could use the following in your values.yaml
file to deploy your chart:
.internal-ca: &internal-ca gitlab-internal-tls-ca # The secret name you used to share your TLS CA.
.internal-tls: &internal-tls gitlab-internal-tls # The secret name you used to share your TLS certificate.
global:
certificates:
customCAs:
- secret: *internal-ca
hosts:
domain: gitlab.example.com # Your gitlab domain
kas:
tls:
enabled: true
secretName: *internal-tls
caSecretName: *internal-ca
Suggested Reviewers settings
One can optionally customize the Suggested Reviewers secret
name as well as
key
, either by using Helm’s --set variable
option:
--set global.appConfig.suggested_reviewers.secret=custom-secret-name \
--set global.appConfig.suggested_reviewers.key=custom-secret-key \
or by configuring your values.yaml
:
global:
appConfig:
suggested_reviewers:
secret: "custom-secret-name"
key: "custom-secret-key"
If you’d like to customize the secret value, refer to the secrets documentation.
LDAP
The ldap.servers
setting allows for the configuration of LDAP
user authentication. It is presented as a map, which will be translated into the appropriate
LDAP servers configuration in gitlab.yml
, as with an installation from source.
Configuring passwords can be done by supplying a secret
which holds the password.
This password will then be injected into the GitLab configuration at runtime.
An example configuration snippet:
ldap:
preventSignin: false
servers:
# 'main' is the GitLab 'provider ID' of this LDAP server
main:
label: 'LDAP'
host: '_your_ldap_server'
port: 636
uid: 'sAMAccountName'
bind_dn: 'cn=administrator,cn=Users,dc=domain,dc=net'
base: 'dc=domain,dc=net'
password:
secret: my-ldap-password-secret
key: the-key-containing-the-password
Example --set
configuration items, when using the global chart:
--set global.appConfig.ldap.servers.main.label='LDAP' \
--set global.appConfig.ldap.servers.main.host='your_ldap_server' \
--set global.appConfig.ldap.servers.main.port='636' \
--set global.appConfig.ldap.servers.main.uid='sAMAccountName' \
--set global.appConfig.ldap.servers.main.bind_dn='cn=administrator\,cn=Users\,dc=domain\,dc=net' \
--set global.appConfig.ldap.servers.main.base='dc=domain\,dc=net' \
--set global.appConfig.ldap.servers.main.password.secret='my-ldap-password-secret' \
--set global.appConfig.ldap.servers.main.password.key='the-key-containing-the-password'
--set
items. Be sure to escape commas in values such as bind_dn
:
--set global.appConfig.ldap.servers.main.bind_dn='cn=administrator\,cn=Users\,dc=domain\,dc=net'
.Disable LDAP web sign in
It can be useful to prevent using LDAP credentials through the web UI when an alternative such as SAML is preferred. This allows LDAP to be used for group sync, while also allowing your SAML identity provider to handle additional checks like custom 2FA.
When LDAP web sign in is disabled, users will not see a LDAP tab on the sign in page. This does not disable using LDAP credentials for Git access.
To disable the use of LDAP for web sign-in, set global.appConfig.ldap.preventSignin: true
.
Using a custom CA or self signed LDAP certificates
If the LDAP server uses a custom CA or self-signed certificate, you must:
-
Ensure that the custom CA/Self-Signed certificate is created as a Secret or ConfigMap in the cluster/namespace:
# Secret kubectl -n gitlab create secret generic my-custom-ca-secret --from-file=unique_name.crt=my-custom-ca.pem # ConfigMap kubectl -n gitlab create configmap my-custom-ca-configmap --from-file=unique_name.crt=my-custom-ca.pem
-
Then, specify:
# Configure a custom CA from a Secret --set global.certificates.customCAs[0].secret=my-custom-ca-secret # Or from a ConfigMap --set global.certificates.customCAs[0].configMap=my-custom-ca-configmap # Configure the LDAP integration to trust the custom CA --set global.appConfig.ldap.servers.main.ca_file=/etc/ssl/certs/unique_name.pem
This ensures that the CA certificate is mounted in the relevant pods at /etc/ssl/certs/unique_name.pem
and specifies its use in the LDAP configuration.
/etc/ssl/certs/
is not prefixed with ca-cert-
anymore.
This was the old behavior due to the use of Alpine for the container that prepared the certificate secrets
for deployed pods. The gitlab-base
container is now used for this operation, which is based on Debian.See Custom Certificate Authorities for more info.
DuoAuth
Use these settings to enable two-factor authentication (2FA) with Duo.
global:
appConfig:
duoAuth:
enabled:
hostname:
integrationKey:
secretKey:
# secret:
# key:
Name | Type | Default | Description |
---|---|---|---|
enabled | Boolean | false | Enable or disable the integration with Duo |
hostname | String | Duo API hostname | |
integrationKey | String | Duo API integration key | |
secretKey | Duo API secret key that must be configured with the name of secret and key name |
Configure the Duo secret key
To configure Duo auth integration in the GitLab Helm chart you must provide a secret in the global.appConfig.duoAuth.secretKey.secret
setting containing Duo auth secret_key value.
To create a Kubernetes secret object to store your Duo account secretKey
, from the command line, run:
kubectl create secret generic <secret_object_name> --from-literal=secretKey=<duo_secret_key_value>
OmniAuth
GitLab can leverage OmniAuth to allow users to sign in using Twitter, GitHub, Google, and other popular services. Expanded documentation can be found in the OmniAuth documentation for GitLab.
omniauth:
enabled: false
autoSignInWithProvider:
syncProfileFromProvider: []
syncProfileAttributes: ['email']
allowSingleSignOn: ['saml']
blockAutoCreatedUsers: true
autoLinkLdapUser: false
autoLinkSamlUser: false
autoLinkUser: ['saml']
externalProviders: []
allowBypassTwoFactor: []
providers: []
# - secret: gitlab-google-oauth2
# key: provider
# - name: group_saml
Name | Type | Default | Description |
---|---|---|---|
allowBypassTwoFactor | Allows users to log in with the specified providers without two factor authentication. Can be set to true , false , or an array of providers. See Bypassing two factor authentication. | ||
allowSingleSignOn | Array | ['saml'] | Enable the automatic creation of accounts when signing in with OmniAuth. Input the name of the OmniAuth Provider. |
autoLinkLdapUser | Boolean | false | Can be used if you have LDAP / ActiveDirectory integration enabled. When enabled, users automatically created through OmniAuth will be linked to their LDAP entry as well. |
autoLinkSamlUser | Boolean | false | Can be used if you have SAML integration enabled. When enabled, users automatically created through OmniAuth will be linked to their SAML entry as well. |
autoLinkUser | Allows users authenticating via an OmniAuth provider to be automatically linked to a current GitLab user if their emails match. Can be set to true , false , or an array of providers. | ||
autoSignInWithProvider | nil | Single provider name allowed to automatically sign in. This should match the name of the provider, such as saml or google_oauth2 . | |
blockAutoCreatedUsers | Boolean | true | If true auto created users will be blocked by default and will have to be unblocked by an administrator before they are able to sign in. |
enabled | Boolean | false | Enable / disable the use of OmniAuth with GitLab. |
externalProviders | [] | You can define which OmniAuth providers you want to be external , so that all users creating accounts, or logging in via these providers will be unable to access internal projects. You will need to use the full name of the provider, like google_oauth2 for Google. See Configure OmniAuth Providers as External. | |
providers | [] | See below. | |
syncProfileAttributes | ['email'] | List of profile attributes to sync from the provider upon login. See Keep OmniAuth user profiles up to date for options. | |
syncProfileFromProvider | [] | List of provider names that GitLab should automatically sync profile information from. Entries should match the name of the provider, such as saml or google_oauth2 . See Keep OmniAuth user profiles up to date. |
providers
providers
is presented as an array of maps that are used to populate gitlab.yml
as when installed from source. See GitLab documentation for the available selection
of Supported Providers.
Defaults to []
.
This property has two sub-keys: secret
and key
:
-
secret
: (required) The name of a KubernetesSecret
containing the provider block. -
key
: (optional) The name of the key in theSecret
containing the provider block. Defaults toprovider
Alternatively, if the provider has no other configuration than its name, you may
use a second form with only a ‘name’ attribute, and optionally a label
or
icon
attribute. The eligible providers are:
The Secret
for these entries contains YAML or JSON formatted blocks, as described
in OmniAuth Providers. To
create this secret, follow the appropriate instructions for retrieval of these items,
and create a YAML or JSON file.
Example of configuration of Google OAuth2:
name: google_oauth2
label: Google
app_id: 'APP ID'
app_secret: 'APP SECRET'
args:
access_type: offline
approval_prompt: ''
SAML configuration example:
name: saml
label: 'SAML'
args:
assertion_consumer_service_url: 'https://gitlab.example.com/users/auth/saml/callback'
idp_cert_fingerprint: 'xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx:xx'
idp_sso_target_url: 'https://SAML_IDP/app/xxxxxxxxx/xxxxxxxxx/sso/saml'
issuer: 'https://gitlab.example.com'
name_identifier_format: 'urn:oasis:names:tc:SAML:2.0:nameid-format:transient'
Microsoft Azure OAuth 2.0 OmniAuth provider configuration example:
name: azure_activedirectory_v2
label: Azure
args:
client_id: '<CLIENT_ID>'
client_secret: '<CLIENT_SECRET>'
tenant_id: '<TENANT_ID>'
This content can be saved as provider.yaml
, and then a secret created from it:
kubectl create secret generic -n NAMESPACE SECRET_NAME --from-file=provider=provider.yaml
Once created, the providers
are enabled by providing the maps in configuration, as
shown below:
omniauth:
providers:
- secret: gitlab-google-oauth2
- secret: azure_activedirectory_v2
- secret: gitlab-azure-oauth2
- secret: gitlab-cas3
Group SAML configuration example:
omniauth:
providers:
- name: group_saml
Example configuration --set
items, when using the global chart:
--set global.appConfig.omniauth.providers[0].secret=gitlab-google-oauth2 \
Due to the complexity of using --set
arguments, a user may wish to use a YAML snippet,
passed to helm
with -f omniauth.yaml
.
Cron jobs related settings
Sidekiq includes maintenance jobs that can be configured to run on a periodic
basis using cron style schedules. A few examples are included below. See the
cron_jobs
and ee_cron_jobs
sections in the sample gitlab.yml
for more job examples.
These settings are shared between Sidekiq, Webservice (for showing tooltips in UI) and Toolbox (for debugging purposes) pods.
global:
appConfig:
cron_jobs:
stuck_ci_jobs_worker:
cron: "0 * * * *"
pipeline_schedule_worker:
cron: "19 * * * *"
expire_build_artifacts_worker:
cron: "*/7 * * * *"
Sentry settings
Use these settings to enable GitLab error reporting with Sentry.
global:
appConfig:
sentry:
enabled:
dsn:
clientside_dsn:
environment:
Name | Type | Default | Description |
---|---|---|---|
enabled | Boolean | false | Enable or Disable the integration |
dsn | String | Sentry DSN for backend errors | |
clientside_dsn | String | Sentry DSN for front-end errors | |
environment | String | See Sentry environments |
gitlab_docs
settings
Use these settings to enable gitlab_docs
.
global:
appConfig:
gitlab_docs:
enabled:
host:
Name | Type | Default | Description |
---|---|---|---|
enabled | Boolean | false | Enable or Disable the gitlab_docs
|
host | String | ”” | docs host |
Smartcard Authentication settings
global:
appConfig:
smartcard:
enabled: false
CASecret:
clientCertificateRequiredHost:
sanExtensions: false
requiredForGitAccess: false
Name | Type | Default | Description |
---|---|---|---|
enabled | Boolean | false | Enable or Disable smartcard authentication |
CASecret | String | Name of the secret containing the CA certificate | |
clientCertificateRequiredHost | String | Hostname to use for smartcard authentication. By default, the provided or computed smartcard hostname is used. | |
sanExtensions | Boolean | false | Enable the use of SAN extensions to match users with certificates. |
requiredForGitAccess | Boolean | false | Require browser session with smartcard sign-in for Git access. |
Sidekiq routing rules settings
GitLab supports routing a job from a worker to a desired queue before it is scheduled. Sidekiq clients match a job against a configured list of routing rules. Rules are evaluated from first to last, and as soon as a match for a given worker is found, the processing for that worker is stopped (first match wins). If the worker doesn’t match any rule, it falls back the queue name generated from the worker name.
By default, the routing rules are not configured (or denoted with an empty array), all the jobs are routed to the queue generated from the worker name.
The routing rules list is an ordered array of tuples of query and corresponding queue:
- The query is following the worker matching query syntax.
- The
<queue_name>
must match a valid Sidekiq queue namesidekiq.pods[].queues
defined undersidekiq.pods
. If the queue name isnil
, or an empty string, the worker is routed to the queue generated by the name of the worker instead.
The query supports wildcard matching *
, which matches all workers. As a
result, the wildcard query must stay at the end of the list or the later rules
are ignored:
global:
appConfig:
sidekiq:
routingRules:
- ["resource_boundary=cpu", "cpu-boundary"]
- ["feature_category=pages", null]
- ["feature_category=search", "search"]
- ["feature_category=memory|resource_boundary=memory", "memory-bound"]
- ["*", "default"]
Configure Rails settings
A large portion of the GitLab suite is based upon Rails. As such, many containers within this project operate with this stack. These settings apply to all of those containers, and provide an easy access method to setting them globally versus individually.
global:
rails:
bootsnap:
enabled: true
Configure Workhorse settings
Several components of the GitLab suite speak to the APIs via GitLab Workhorse. This is currently a part of the Webservice chart. These settings are consumed by all charts that need to contact GitLab Workhorse, providing an easy access to set them globally vs individually.
global:
workhorse:
serviceName: webservice-default
host: api.example.com
port: 8181
Name | Type | Default | Description |
---|---|---|---|
serviceName | String | webservice-default | Name of service to direct internal API traffic to. Do not include the Release name, as it will be templated in. Should match an entry in gitlab.webservice.deployments . See gitlab/webservice chart
|
scheme | String | http | Scheme of the API endpoint |
host | String | Fully qualified hostname or IP address of an API endpoint. Overrides the presence of serviceName . | |
port | Integer | 8181 | Port number of associated API server. |
tls.enabled | Boolean | false | When set to true , enables TLS support for Workhorse. |
Bootsnap Cache
Our Rails codebase makes use of Shopify’s Bootsnap Gem. Settings here are used to configure that behavior.
bootsnap.enabled
controls the activation of this feature. It defaults to true
.
Testing showed that enabling Bootsnap resulted in overall application performance boost. When a pre-compiled cache is available, some application containers see gains in excess of 33%. At this time, GitLab does not ship this pre-compiled cache with their containers, resulting in a gain of “only” 14%. There is a cost to this gain without the pre-compiled cache present, resulting in an intense spike of small IO at initial startup of each Pod. Due to this, we’ve exposed a method of disabling the use of Bootsnap in environments where this would be an issue.
When possible, we recommend leaving this enabled.
Configure GitLab Shell
There are several items for the global configuration of GitLab Shell chart.
global:
shell:
port:
authToken: {}
hostKeys: {}
tcp:
proxyProtocol: false
Name | Type | Default | Description |
---|---|---|---|
port | Integer | 22 | See port below for specific documentation. |
authToken | See authToken in the GitLab Shell chart specific documentation. | ||
hostKeys | See hostKeys in the GitLab Shell chart specific documentation. | ||
tcp.proxyProtocol | Boolean | false | See TCP proxy protocol below for specific documentation. |
Port
You can control the port used by the Ingress to pass SSH traffic, as well as the port used
in SSH URLs provided from GitLab via global.shell.port
. This is reflected in the
port on which the service listens, as well as the SSH clone URLs provided in project UI.
global:
shell:
port: 32022
You can combine global.shell.port
and nginx-ingress.controller.service.type=NodePort
to set a NodePort for the NGINX controller Service object. Note that if
nginx-ingress.controller.service.nodePorts.gitlab-shell
is set, it will
override global.shell.port
when setting the NodePort for NGINX.
global:
shell:
port: 32022
nginx-ingress:
controller:
service:
type: NodePort
TCP proxy protocol
You can enable handling proxy protocol on the SSH Ingress to properly handle a connection from an upstream proxy that adds the proxy protocol header. By doing so, this will prevent SSH from receiving the additional headers and not break SSH.
One common environment where one needs to enable handling of proxy protocol is when using AWS with an ELB handling the inbound connections to the cluster. You can consult the AWS layer 4 loadbalancer example to properly set it up.
global:
shell:
tcp:
proxyProtocol: true # default false
Configure GitLab Pages
The global GitLab Pages settings that are used by other charts are documented
under the global.pages
key.
global:
pages:
enabled:
accessControl:
path:
host:
port:
https:
externalHttp:
externalHttps:
artifactsServer:
objectStore:
enabled:
bucket:
proxy_download: true
connection: {}
secret:
key:
localStore:
enabled: false
path:
apiSecret: {}
secret:
key:
Name | Type | Default | Description |
---|---|---|---|
enabled | Boolean | False | Decides whether to install GitLab Pages chart in the cluster |
accessControl | Boolean | False | Enables GitLab Pages Access Control |
path | String | /srv/gitlab/shared/pages | Path where Pages deployment related files to be stored. Note: Unused by default, since object storage is used. |
host | String | Pages root domain. | |
port | String | Port to be used to construct Pages URLs in UI. If left unset, default value of 80 or 443 is set based on HTTPS situation of Pages. | |
https | Boolean | True | Whether GitLab UI should show HTTPS URLs for Pages or not. Has precedence over global.hosts.pages.https and global.hosts.https . Set to True by default. |
externalHttp | List | [] | List of IP addresses through which HTTP requests reach Pages daemon. For supporting custom domains. |
externalHttps | List | [] | List of IP addresses through which HTTPS requests reach Pages daemon. For supporting custom domains. |
artifactsServer | Boolean | True | Enable viewing artifacts in GitLab Pages. |
objectStore.enabled | Boolean | True | Enable using object storage for Pages. |
objectStore.bucket | String | gitlab-pages | Bucket to be used to store content related to Pages |
objectStore.connection.secret | String | Secret containing connection details for object storage. | |
objectStore.connection.key | String | Key within the connection secret where connection details are stored. | |
localStore.enabled | Boolean | False | Enable using local storage for content related to Pages (as opposed to objectStore) |
localStore.path | String | /srv/gitlab/shared/pages | Path where pages files will be stored; only used if localStore is set to true. |
apiSecret.secret | String | Secret containing 32 bit API key in Base64 encoded form. | |
apiSecret.key | String | Key within the API key secret where the API key is stored. |
Configure Webservice
The global Webservice settings (that are used by other charts also) are located
under the global.webservice
key.
global:
webservice:
workerTimeout: 60
workerTimeout
Configure the request timeout (in seconds) after which a Webservice worker process is killed by the Webservice master process. The default value is 60 seconds.
The global.webservice.workerTimeout
setting does not affect the maximum request duration. To set the maximum request duration, set the following environment variables:
gitlab:
webservice:
workerTimeout: 60
extraEnv:
GITLAB_RAILS_RACK_TIMEOUT: "60"
GITLAB_RAILS_WAIT_TIMEOUT: "90"
Custom Certificate Authorities
requirements.yaml
.Some users may need to add custom certificate authorities, such as when using internally issued SSL certificates for TLS services. To provide this functionality, we provide a mechanism for injecting these custom root certificate authorities into the application through Secrets or ConfigMaps.
To create a Secret or ConfigMap:
# Create a Secret from a certificate file
kubectl create secret generic secret-custom-ca --from-file=unique_name.crt=/path/to/cert
# Create a ConfigMap from a certificate file
kubectl create configmap cm-custom-ca --from-file=unique_name.crt=/path/to/cert
To configure a Secret or ConfigMap, or both, specify them in globals:
global:
certificates:
customCAs:
- secret: secret-custom-CAs # Mount all keys of a Secret
- secret: secret-custom-CAs # Mount only the specified keys of a Secret
keys:
- unique_name.crt
- configMap: cm-custom-CAs # Mount all keys of a ConfigMap
- configMap: cm-custom-CAs # Mount only the specified keys of a ConfigMap
keys:
- unique_name_1.crt
- unique_name_2.crt
.crt
extension in the Secret’s key name is important for the
Debian update-ca-certificates package.
This step ensures that the custom CA file is mounted with that extension and is processed
in the Certificates initContainers.
Previously, when the certificates helper image was Alpine-based, the file extension was not actually required
even though the documentation
says that it is.
The UBI-based update-ca-trust
utility does not seem to have the same requirement.You can provide any number of Secrets or ConfigMaps, each containing any number of keys that hold
PEM-encoded CA certificates. These are configured as entries under global.certificates.customCAs
.
All keys are mounted unless keys:
is provided with a list of specific keys to be mounted. All mounted keys across all Secrets and ConfigMaps must be unique.
The Secrets and ConfigMaps can be named in any fashion, but they must not contain key names that collide.
Application Resource
GitLab can optionally include an Application resource,
which can be created to identify the GitLab application within the cluster. Requires the
Application CRD,
version v1beta1
, to already be deployed to the cluster.
To enable, set global.application.create
to true
:
global:
application:
create: true
Some environments, such as Google GKE Marketplace, do not allow the creation of ClusterRole resources. Set the following values to disable ClusterRole components in the Application Custom Resource Definition as well as the relevant charts packaged with Cloud Native GitLab.
global:
application:
allowClusterRoles: false
nginx:
controller:
scope:
enabled: true
gitlab-runner:
rbac:
clusterWideAccess: false
certmanager:
install: false
GitLab base image
GitLab Helm chart uses a common GitLab base image for various initialization tasks. This image support UBI builds and shares layers with other images. It replaces the now deprecated busybox image.
busybox
configuration fallback will eventually be removed.
Please migrate your settings to global.gitlabBase
.Service Accounts
GitLab Helm charts allow for the pods to run using custom Service Accounts.
This is configured with the following settings in global.serviceAccount
:
global:
serviceAccount:
enabled: false
create: true
annotations: {}
## Name to be used for serviceAccount, otherwise defaults to chart fullname
# name:
- Setting
global.serviceAccount.enabled
controls reference to a ServiceAccount for each component viaspec.serviceAccountName
. - Setting
global.serviceAccount.create
controls ServiceAccount object creation via Helm. - Setting
global.serviceAccount.name
controls the ServiceAccount object name and the name referenced by each component.
global.serviceAccount.create=true
with global.serviceAccount.name
, as it instructs the charts
to create multiple ServiceAccount objects with the same name. Instead, use global.serviceAccount.create=false
if specifying
a global name.Annotations
Custom annotations can be applied to Deployment, Service, and Ingress objects.
global:
deployment:
annotations:
environment: production
service:
annotations:
environment: production
ingress:
annotations:
environment: production
Node Selector
Custom nodeSelector
s can be applied to all components globally. Any global defaults
can also be overridden on each subchart individually.
global:
nodeSelector:
disktype: ssd
Note: charts that are maintained externally do not respect the
global.nodeSelector
at this time and may need to be configured separately based on available chart values. This includes Prometheus, cert-manager, Redis, etc.
Labels
Common Labels
Labels can be applied to nearly all objects that are created by various objects
by using the configuration common.labels
. This can be applied under the
global
key, or under a specific charts’ configuration. Example:
global:
common:
labels:
environment: production
gitlab:
gitlab-shell:
common:
labels:
foo: bar
With the above example configuration, nearly all components deployed by the Helm
chart will be provided the label set environment: production
. All components
of the GitLab Shell chart will receive the label set foo: bar
. Some charts
allow for additional nesting. For example, the Sidekiq and Webservices charts
allow for additional deployments depending on your configuration needs:
gitlab:
sidekiq:
pods:
- name: pod-0
common:
labels:
baz: bat
In the above example, all components associated with the pod-0
Sidekiq
deployment will also recieve the label set baz: bat
. Refer to the Sidekiq and
Webservice charts for additional details.
Some charts that we depend on are excluded from this label configuration. Only the GitLab component sub-charts will receive these extra labels.
Pod
Custom labels can be applied to various Deployments and Jobs. These labels are
supplementary to existing or preconfigured labels constructed by this Helm
chart. These supplementary labels will not be utilized for matchSelectors
.
global:
pod:
labels:
environment: production
Service
Custom labels can be applied to services. These labels are supplementary to existing or preconfigured labels constructed by this Helm chart.
global:
service:
labels:
environment: production
Tracing
GitLab Helm charts support tracing, and you can configure it with:
global:
tracing:
connection:
string: 'opentracing://jaeger?http_endpoint=http%3A%2F%2Fjaeger.example.com%3A14268%2Fapi%2Ftraces&sampler=const&sampler_param=1'
urlTemplate: 'http://jaeger-ui.example.com/search?service={{ service }}&tags=%7B"correlation_id"%3A"{{ correlation_id }}"%7D'
-
global.tracing.connection.string
is used to configure where tracing spans would be sent. You can read more about that in GitLab tracing documentation -
global.tracing.urlTemplate
is used as a template for tracing info URL rendering in GitLab performance bar.
extraEnv
extraEnv
allows you to expose additional environment variables in all containers in the pods
that are deployed via GitLab charts (charts/gitlab/charts
). Extra environment variables set at
the global level will be merged into those provided at the chart level, with precedence given
to those provided at the chart level.
Below is an example use of extraEnv
:
global:
extraEnv:
SOME_KEY: some_value
SOME_OTHER_KEY: some_other_value
extraEnvFrom
extraEnvFrom
allows to expose additional environment variables from other data sources in all
containers in the pods. Extra environment variables can be set up at global
level (global.extraEnvFrom
)
and on a sub-chart level (<subchart_name>.extraEnvFrom
).
The Sidekiq and Webservice charts support additional local overrides. See their documentation for more details.
Below is an example use of extraEnvFrom
:
global:
extraEnvFrom:
MY_NODE_NAME:
fieldRef:
fieldPath: spec.nodeName
MY_CPU_REQUEST:
resourceFieldRef:
containerName: test-container
resource: requests.cpu
gitlab:
kas:
extraEnvFrom:
CONFIG_STRING:
configMapKeyRef:
name: useful-config
key: some-string
# optional: boolean
secretKeyRef
, configMapKeyRef
, etc.Configure OAuth settings
OAuth integration is configured out-of-the box for services which support it.
The services specified in global.oauth
are automatically registered as OAuth
client applications in GitLab during deployment. By default this list includes
GitLab Pages, if access control is enabled.
global:
oauth:
gitlab-pages: {}
# secret
# appid
# appsecret
# redirectUri
# authScope
Name | Type | Default | Description |
---|---|---|---|
secret | String | Name of the secret with OAuth credentials for the service. | |
appIdKey | String | Key in the secret under which App ID of service is stored. Default value being set is appid . | |
appSecretKey | String | Key in the secret under which App Secret of service is stored. Default value being set is appsecret . | |
redirectUri | String | URI to which user should be redirected after successful authorization. | |
authScope | String | api | Scope used for authentication with GitLab API. |
Check the secrets documentation for more details on the secret.
Kerberos
To configure the Kerberos integration in the GitLab Helm chart, you must provide a secret in the global.appConfig.kerberos.keytab.secret
setting containing a Kerberos keytab with a service principal for your GitLab host. Your Kerberos administrators can help with creating a keytab file if you don’t have one.
You can create a secret using the following snippet (assuming that you are installing the chart in the gitlab
namespace and gitlab.keytab
is the keytab file containing the service principal):
kubectl create secret generic gitlab-kerberos-keytab --namespace=gitlab --from-file=keytab=./gitlab.keytab
Kerberos integration for Git is enabled by setting global.appConfig.kerberos.enabled=true
. This will also add the kerberos
provider to the list of enabled OmniAuth providers for ticket-based authentication in the browser.
If left as false
the Helm chart will still mount the keytab
in the toolbox, Sidekiq, and webservice Pods, which can be used with manually configured OmniAuth settings for Kerberos.
You can provide a Kerberos client configuration in global.appConfig.kerberos.krb5Config
.
global:
appConfig:
kerberos:
enabled: true
keytab:
secret: gitlab-kerberos-keytab
key: keytab
servicePrincipalName: ""
krb5Config: |
[libdefaults]
default_realm = EXAMPLE.COM
dedicatedPort:
enabled: false
port: 8443
https: true
simpleLdapLinkingAllowedRealms:
- example.com
Check the Kerberos documentation for more details.
Dedicated port for Kerberos
GitLab supports the use of a dedicated port for Kerberos negotiation when using the HTTP protocol for Git operations to workaround a limitation in Git falling back to Basic Authentication when presented with the negotiate
headers in the authentication exchange.
Use of the dedicated port is currently required when using GitLab CI/CD - as the GitLab Runner helper relies on in-URL credentials to clone from GitLab.
This can be enabled with the global.appConfig.kerberos.dedicatedPort
settings:
global:
appConfig:
kerberos:
[...]
dedicatedPort:
enabled: true
port: 8443
https: true
This enables an additional clone URL in the GitLab UI that is dedicated for Kerberos negotiation. The https: true
setting is for URL generation only, and doesn’t expose any additional TLS configuration. TLS is terminated and configured in the Ingress for GitLab.
nginx-ingress
Helm chart - specifying a dedicatedPort
will not currently expose the port for use in the chart’s nginx-ingress
controller. Cluster operators will need to expose this port themselves. Follow this charts issue for more details and potential workarounds.LDAP custom allowed realms
The global.appConfig.kerberos.simpleLdapLinkingAllowedRealms
can be used to specify a set of domains used to link LDAP and Kerberos identities together when a user’s LDAP DN does not match the user’s Kerberos realm. See the Custom allowed realms section in the Kerberos integration documentation for additional details.
Outgoing email
Outgoing email configuration is available via global.smtp.*
, global.appConfig.microsoft_graph_mailer.*
and global.email.*
.
global:
email:
display_name: 'GitLab'
from: 'gitlab@example.com'
reply_to: 'noreply@example.com'
smtp:
enabled: true
address: 'smtp.example.com'
tls: true
authentication: 'plain'
user_name: 'example'
password:
secret: 'smtp-password'
key: 'password'
appConfig:
microsoft_graph_mailer:
enabled: false
user_id: "YOUR-USER-ID"
tenant: "YOUR-TENANT-ID"
client_id: "YOUR-CLIENT-ID"
client_secret:
secret:
key: secret
azure_ad_endpoint: "https://login.microsoftonline.com"
graph_endpoint: "https://graph.microsoft.com"
More information on the available configuration options is available in the outgoing email documentation.
More detailed examples can be found in the Linux package SMTP settings documentation.
Platform
The platform
key is reserved for specific features targeting a specific
platform like GKE or EKS.
Affinity
Affinity configuration is available via global.antiAffinity
and global.affinity
.
Affinity allows you to constrain which nodes your pod is eligible to be scheduled on, based on node labels or labels of pods that are already running on a node. This allow spread pods across the cluster or select specific nodes, ensuring more resilience in case of a failing node.
global:
antiAffinity: soft
affinity:
podAntiAffinity:
topologyKey: "kubernetes.io/hostname"
Name | Type | Default | Description |
---|---|---|---|
antiAffinity | String | soft | Pod anti-affinity to apply on pods. |
affinity.podAntiAffinity.topologyKey | String | kubernetes.io/hostname | Pod anti-affinity topology key. |
-
global.antiAffinity
can take two values:-
soft
: Define apreferredDuringSchedulingIgnoredDuringExecution
anti-affinity where the Kubernetes scheduler will try to enforce the rule but will not guarantee the result. -
hard
: Defined arequiredDuringSchedulingIgnoredDuringExecution
anti-affinity where the rule must be met for a pod to be scheduled onto a node.
-
-
global.affinity.podAntiAffinity.topologyKey
define a node attribute used two divide them into logical zone. Most commontopologyKey
values are :kubernetes.io/hostname
topology.kubernetes.io/zone
topology.kubernetes.io/region
Kubernetes references on Inter-pod affinity and anti-affinity
Pod Priority and Preemption
Pod priorities can be configured either via global.priorityClassName
or per sub-chart via priorityClassName
.
Setting pod priority allows you to tell the scheduler to evict lower priority pods to make scheduling of pendings pods possible.
global:
priorityClassName: system-cluster-critical
Name | Type | Default | Description |
---|---|---|---|
priorityClassName | String | Priority class assigned to pods. |
Log rotation
Introduced in GitLab 15.6.
By default, the GitLab Helm chart does not rotate logs. This can cause ephemeral storage issues for containers that run for a long time.
To enable log rotation, set the GITLAB_LOGGER_TRUNCATE_LOGS
environment variable to true. You can also configure the log rotation frequency and the maximum log size by setting the GITLAB_LOGGER_TRUNCATE_INTERVAL
and GITLAB_LOGGER_MAX_FILESIZE
environment variables, respectively:
global:
extraEnv:
GITLAB_LOGGER_TRUNCATE_LOGS: true
GITLAB_LOGGER_TRUNCATE_INTERVAL: 300
GITLAB_LOGGER_MAX_FILESIZE: 1000