Production Configuration💣
Gatekeeper💣
The gatekeeper values
section should resemble below when deploying to production.
# OPA Gatekeeper
#
gatekeeper:
# -- Toggle deployment of OPA Gatekeeper.
enabled: true
git:
repo: https://repo1.dso.mil/platform-one/big-bang/apps/core/policy.git
path: "./chart"
tag: "3.5.1-bb.2"
# -- Flux reconciliation overrides specifically for the OPA Gatekeeper Package
flux: {}
# -- Values to passthrough to the gatekeeper chart: https://repo1.dso.mil/platform-one/big-bang/apps/core/policy.git
values:
violations:
allowedDockerRegistries:
match:
excludedNamespaces:
- kube-system # ignored as the kubernetes distro cannot be controlled
# -- Post Renderers. See docs/postrenders.md
postRenderers: []
To validate it was deployed correctly on your cluster run the following command:
kubectl get k8sallowedrepos.constraints.gatekeeper.sh/allowed-docker-registries -o yaml
You should only see kube-system
under excludedNamespaces
section.
Output:
name: allowed-docker-registries
resourceVersion: "10390"
uid: b51b3887-3cf8-4495-b37e-fb8ef31755db
spec:
enforcementAction: deny
match:
excludedNamespaces:
- kube-system
kinds:
- apiGroups:
- ""
kinds:
- Pod
parameters:
exemptContainers: []
repos:
- registry1.dso.mil
- registry.dso.mil
Gitlab💣
This section provides suggested settings for Gitlab operational/production environments.
Use external database service💣
For production deployments you must externalize the database service. BigBang will pass through the most common value overrides to the Gitlab Package chart.
Disable the internal postgres by configuring an external database in the BigBang values.
addons:
gitlab:
database:
host:
port:
database:
username:
password:
Use external object storage💣
For production deployments you must externalize object storage service. BigBang will pass through the most common value overrides to the Gitlab Package chart.
Disable the internal MinIO instance by configuring an external object storage service.
addons:
gitlab:
objectStorage:
type:
endpoint:
region:
accessKey:
accessSecret:
bucketPrefix:
iamProfile:
Flux settings💣
Large Gitlab installations should increase the Gitlab specific HelmRelease timeout value to around 30m to 45m and the Gitlab specific HelmRelease retries value should be adjusted to around 8 to 10.
addons:
gitlab:
flux:
timeout: 30m
upgrade:
remediation:
retries: 8
Kubernetes resource request/limit settings💣
K8s resource requests/limits for webservice and gitaly workloads should be increased from the defaults. Gitlab engineers state predicting Gitaly’s resource consumption is very difficult, and will require testing to find the applicable limits/requests for each individual installation. See this Gitlab Epic for more information. See the gitlab/docs/k8s-resources.md for a list of all possible configuration values. Use BigBang values overrides to change the Gitlab resource settings.
Recommended starting point:
addons:
gitlab:
values:
gitlab:
webservice:
resources:
limits:
cpu: 2
memory: 4G
requests:
cpu: 2
memory: 4G
gitaly:
resources:
limits:
cpu: 2
memory: 4G
requests:
cpu: 2
memory: 4G
Backup and rename gitlab-rails-secret💣
An operational deployment of Gitlab should backup and re-create the Gitlab Rails Encryption information as a secret with a different name as documented here. Using a custom secret name can help prevent accidental overwriting. The existing secret can be copied and modified with a different name and is recommended to be stored in your environments GitOps configuration as a SOPS encrypted secret.
kubectl get secret/gitlab-rails-secret -n gitlab -o yaml > gitlab-rails-custom-secret.yaml
Edit the file and change the name of the secret. Example:
apiVersion: v1
kind: Secret
metadata:
name: gitlab-rails-custom-secret
Use GitOps configuration as code (CaC) and commit the custom rails secret to your GitOps repository. You should SOPs encrypt the custom rails secret keys in the GitOps repository to preserve security.
To make the secret creation easier, BigBang has a value addons.gitlab.railsSecret
where a chomp modifier can be used to have the data from the gitlab-rails-secret
placed into a secret as part of the umbrella:
addons:
gitlab:
...
railsSecret: |
production:
secret_key_base: XXXXXX
otp_key_base: XXXXXX
...
This railsSecret
value should be committed to a SOPs encrypted values file as the data is very sensitive.
Once the secret is pushed up to GitOps, the following Gitlab helm chart value global.railsSecrets.secret
can be overridden to point to the custom rails secret or if using the railsSecret
value BigBang will auto point to the secret it controls via the value above.
addons:
gitlab:
values:
global:
railsSecrets:
secret: gitlab-rails-custom-secret
The custom rails secret should be backed up somewhere secure outside the cluster if not included in your GitOps code repository.
If the Kubernetes gitlab-rails-secret happens to get overwritten Gitlab will no longer be able to access the encrypted data in the database.
You will get errors like this in the logs.
OpenSSL::Cipher::CipherError ()
Many things break when this happens and the recovery is ugly with serious user impacts.
At a minimum an operational deployment of Gitlab should export and save the gitlab-rails-secret somewhere secure outside the cluster.
kubectl get secret/gitlab-rails-secret -n gitlab -o yaml > cya.yaml
Vault💣
This section provides suggested settings for Vault operational/production environments. Vault is a large complicated application and has many options that cannot adequately be covered here. Vault has significant security risks if not properly configured and administrated. Please consult the upstream Vault documentation as the ultimate authority. The following is an example operational/production config using a passthrough istio ingress gateway, high availability, auto-unseal, and raft for distributed filesystem persistence. Consult the BigBang Vault Package helm repo /docs/production.md for more information.
istio:
enabled: true
ingressGateways:
passthrough-ingressgateway:
type: "LoadBalancer"
# nodePortBase: 30200
gateways:
passthrough:
ingressGateway: "passthrough-ingressgateway"
hosts:
- "*.{{ .Values.domain }}"
tls:
mode: "PASSTHROUGH"
addons:
vault:
enabled: true
ingress:
gateway: "passthrough"
# provide the Vault TLS cert and key. BigBang will create the secret and volumemount for you
# Leave blank to create your own secret and provide values for your own volume and volumemount
key: |
-----BEGIN PRIVATE KEY-----
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
-----END PRIVATE KEY-----
cert: |
-----BEGIN CERTIFICATE-----
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
-----END CERTIFICATE-----
values:
# disable autoInit. It should not be used for operations.
autoInit:
enabled: false
global:
# this is a double negative. Put "false" to enable TLS for passthrough ingress
tlsDisable: false
injector:
extraEnvironmentVars:
AGENT_INJECT_VAULT_ADDR: "https://vault.bigbang.dev"
server:
# Increase default resources
resources:
requests:
memory: 8Gi
cpu: 2000m
limits:
memory: 8Gi
cpu: 2000m
# disable the Vault provided ingress so that Istio ingress can be used.
ingress:
enabled: false
# Extra environment variable to support high availability
extraEnvironmentVars:
# the istio gateway domain
VAULT_API_ADDR: https://vault.bigbang.dev
VAULT_SKIP_VERIFY: "true"
VAULT_LOG_FORMAT: "json"
VAULT_LICENSE: "your-license-key-goes-here"
ha:
# enable high availability.
enabled: true
replicas: 3
# raft is the license free most simple solution for a distributed filesystem
raft:
enabled: true
setNodeId: true
# these values should be encrypted to prevent the kms_key_id from being revealed
config: |
ui = true
listener "tcp" {
tls_disable = false
address = "[::]:8200"
cluster_address = "[::]:8201"
tls_cert_file = "/vault/tls/tls.crt"
tls_key_file = "/vault/tls/tls.key"
telemetry {
unauthenticated_metrics_access = true
}
}
storage "raft" {
path = "/vault/data"
retry_join {
leader_api_addr = "https://vault-vault-0.vault-vault-internal:8200"
leader_client_cert_file = "/vault/tls/tls.crt"
leader_client_key_file = "/vault/tls/tls.key"
leader_tls_servername = "vault.bigbang.dev"
}
retry_join {
leader_api_addr = "https://vault-vault-1.vault-vault-internal:8200"
leader_client_cert_file = "/vault/tls/tls.crt"
leader_client_key_file = "/vault/tls/tls.key"
leader_tls_servername = "vault.bigbang.dev"
}
retry_join {
leader_api_addr = "https://vault-vault-2.vault-vault-internal:8200"
leader_client_cert_file = "/vault/tls/tls.crt"
leader_client_key_file = "/vault/tls/tls.key"
leader_tls_servername = "vault.bigbang.dev"
}
}
seal "awskms" {
region = "us-gov-west-1"
kms_key_id = "your-kms-key-goes-here"
endpoint = "https://kms.us-gov-west-1.amazonaws.com"
}
telemetry {
prometheus_retention_time = "24h"
disable_hostname = true
}
service_registration "kubernetes" {}
Keycloak💣
See the production configuration example.
High Availability (HA)💣
Each package in Big Bang includes documentation of its own High Availability configuration independently in Package Architecture.