How to enable the module

The module can be enabled by applying ModuleConfig:

apiVersion: deckhouse.io/v1alpha1
kind: ModuleConfig
metadata:
  name: stronghold
spec:
  enabled: true

or by executing the command:

kubectl -n d8-system exec deploy/deckhouse -c deckhouse -it -- deckhouse-controller module enable stronghold

By default, the module will run in the Automatic mode with the Ingress inlet. In the current version, there are no other inlets and modes.

How to disable the module

You can disable a module by setting the enabled value in moduleconfig stronghold to false. Or by running the command:

kubectl -n d8-system exec deploy/deckhouse -c deckhouse -it -- deckhouse-controller module disable stronghold

ATTENTION!

When the module is disabled, all Stronghold containers will be deleted, as well as the stronghold-keys secret with root and unseal keys from the namespace d8-stronghold. In this case, the sevice data will not be deleted from the nodes. You can enable the module again and recreate a copy of the stronghold-keys secret in the d8-stronghold namespace, then access to the data will be restored.

If the old data is no longer needed, you must manually delete the /var/lib/deckhouse/stronghold directory on all master nodes of the cluster.

How to access the service

Access to the service is provided through inlets. Currently, only one inlet, Ingress, is available. The web interface address for Stronghold is formed as follows: in the template publicDomainTemplate of the Deckhouse global configuration parameter, the %s placeholder is replaced with stronghold keyword.

For example, if publicDomainTemplate is set to %s-kube.mycompany.tld, than the Stronghold web interface will be accessible at the address stronghold-kube.cmycompany.tld.

how to use Data Storage. Operating Modes

The data stored in Stronghold is encrypted. To decrypt the storage data, an encryption key is required. The encryption key is also stored with the data (as part of key bundles), but it is encrypted with another encryption key known as the root key.

To decrypt Stronghold data, it is necessary to decrypt the encryption key, which requires the root key. Unsealing the storage is the process of gaining access to this root key. The root key is stored along with all other storage data but is encrypted with another mechanism: the unseal key.

In the current version of the module, there is only the Automatic mode, in which the storage is automatically initialized during the first module launch. During the initialization process, the unlocking key and root token are both placed into the stronghold-keys secret in the d8-stronghold namespace in the Kubernetes cluster. After the initialization, the module automatically unseals the nodes of the Stronghold cluster. In the automatic mode, in the event of a restart of Stronghold nodes, the storage will also be automatically unsealed without manual intervention.

Access Management

The role named deckhouse_administrators is created after storage initialization using the Automatic mode of the Stronghold module. This role is granted access to the web interface through OIDC authentication via Dex. Additionally, the automatic connection of the current Deckhouse cluster to Stronghold is configured. This is necessary for the operation of the secrets-store-integration module.

To provide access to the users with the admins group membership (group membership is conveyed from the used IdP or LDAP via Dex), you need to specify this group in the administrators array in the ModuleConfig:

apiVersion: deckhouse.io/v1alpha1
kind: ModuleConfig
metadata:
  name: stronghold
spec:
  enabled: true
  version: 1
  settings:
    management:
      mode: Automatic
      administrators:
      - type: Group
        name: admins

To grant administrator rights to users with roles manager and securityoperator, you can use the following parameters in the ModuleConfig:

apiVersion: deckhouse.io/v1alpha1
kind: ModuleConfig
metadata:
  name: stronghold
spec:
  enabled: true
  version: 1
  settings:
    management:
      mode: Automatic
      administrators:
      - type: User
        name: manager@mycompany.tld
      - type: User
        name: securityoperator@mycompany.tld

If needed, you can create users in Stronghold with different access rights to secrets using the built-in storage mechanisms.

Running with a self-signed certificate

You need to create a CA, a certificate, and sign it with the created CA. If there is already a CA, you can sign the certificate using it. Note that you have to create a fullchain certificat.

The createCertificate.sh script below creates the proper certificate + key pair for the mycompany.tld domain (*.mycompany.tld) using openssl.

#!/bin/bash

set -e
caName="MyOrg-RootCA"            # CA name (CN)
publicDomain="mycompany.tld"     # Cluster domain name (see publicDomainTemplate)
certName="kubernetes"            # Cluster certificate name (CN)

mkdir -p "${caName}"
cd "${caName}"

[ ! -f "${caName}.key" ] && openssl genrsa -out "${caName}.key" 4096

[ ! -f "${caName}.crt" ] &&  openssl req -x509 -new -nodes -key "${caName}.key" -sha256 -days 1826 -out "${caName}.crt" \
   -subj "/CN=${caName}/O=MyOrganisation"

openssl req -new -nodes -out ${certName}.csr -newkey rsa:4096 -keyout "${certName}.key" \
  -subj "/CN=${certName}/O=MyOrganisation"

# v3 ext file
cat > "${certName}.v3.ext" << EOF
authorityKeyIdentifier=keyid,issuer
basicConstraints=CA:FALSE
keyUsage = digitalSignature, nonRepudiation, keyEncipherment, dataEncipherment
subjectAltName = @alt_names
[alt_names]
DNS.1 = ${publicDomain}
DNS.2 = *.${publicDomain}
EOF

openssl x509 -req -in "${certName}.csr" -CA "${caName}.crt" -CAkey "${caName}.key" -CAcreateserial -out "${certName}.crt" -days 730 -sha256 -extfile "${certName}.v3.ext"

cat "${certName}.crt" "${caName}.crt" > "${certName}_fullchain.crt"

You have to create a secret in the d8-system namespace using the generated kubernetes.key and kubernetes_fullchain.crt files:

kubectl -n d8-system create secret tls mycompany-wildcard-tls --cert=kubernetes_fullchain.crt --key=kubernetes.key

To use the created certificate in the cluster, you need to configure the global module as follows (use the kubectl edit mc global command):

apiVersion: deckhouse.io/v1alpha1
kind: ModuleConfig
metadata:
  name: global
spec:
  settings:
    modules:
      https:
        customCertificate:
          secretName: mycompany-wildcard-tls
        mode: CustomCertificate
      publicDomainTemplate: '%s.mycompany.tld'

If your domain fails to be resolved by DNS and you plan to use the hosts file, then for dex to work, you have to add the balancer address or the IP of the front node to the cluster DNS so that pods can access the dex.mycompany.tld domain by name.

Here is how you can retrieve the IP for the nginx-load-balancer ingress of the LoadBlancer type.

kubectl -n d8-ingress-nginx get svc nginx-load-balancer -o jsonpath='{ .spec.clusterIP }'

Suppose your address is 10.202.166.188, then kube-dns module-config will look as follows:

apiVersion: deckhouse.io/v1alpha1
kind: ModuleConfig
metadata:
  name: kube-dns
spec:
  version: 1
  enabled: true
  settings:
    hosts:
    - domain: dex.mycompany.tld
      ip: 10.202.166.188

Note that you have to configure the user-authn module by setting controlPlaneConfigurator.dexCAMode to FromIngressSecret. In this case, the CA will be retrieved from the chain we placed in the kubernetes_fullchain.crt file.

An example:

apiVersion: deckhouse.io/v1alpha1
kind: ModuleConfig
metadata:
  name: user-authn
spec:
  enabled: true
  settings:
    controlPlaneConfigurator:
      dexCAMode: FromIngressSecret
    ...

Now you can enable the stronghold module. It will automatically initialize and set up integration with dex.

kubectl -n d8-system exec deploy/deckhouse -c deckhouse -it -- deckhouse-controller module enable stronghold