Consul
Vault as the Secrets Backend - Data Integration
This topic describes how to configure Vault and Consul in order to share secrets for use within Consul.
Prerequisites
Before you set up the data integration between Vault and Consul on Kubernetes, read and complete the steps in the Systems Integration section of Vault as a Secrets Backend.
General integration steps
For each secret you want to store in Vault, you must complete two multi-step procedures.
Complete the following steps once:
- Store the secret in Vault.
- Create a Vault policy that authorizes the desired level of access to the secret.
Repeat the following steps for each datacenter in the cluster:
- Create Vault Kubernetes auth roles that link the policy to each Consul on Kubernetes service account that requires access.
- Update the Consul on Kubernetes Helm chart.
Secrets-to-service account mapping
At the most basic level, the goal of this configuration is to authorize a Consul on Kubernetes service account to access a secret in Vault.
The following table associates Vault secrets and the Consul on Kubernetes service accounts that require access.
(NOTE: Consul components
refers to all other services and jobs that are not Consul servers or clients.
It includes things like terminating gateways, ingress gateways, etc.)
Primary datacenter
Secondary datacenters
The mapping for secondary data centers is similar with the following differences:
- There is no use of bootstrap token because ACLs would have been bootstrapped in the primary datacenter.
- ACL Partition token is mapped to both the
server-acl-init
job and thepartition-init
job service accounts. - ACL Replication token is mapped to both the
server-acl-init
job and Consul service accounts.
Combining policies within roles
As you can see in the table above, depending upon your needs, a Consul on Kubernetes service account could have the need to request more than one secret. In these cases, you will want to create one role for the Consul on Kubernetes service account that is mapped to multiple policies, each of which allows it access to a given secret.
For example, if your Consul on Kubernetes servers need access to Consul Server TLS credentials and an Enterprise license:
Create a policy for each secret.
Consul Server TLS credentials
ca-policy.hcl
path "pki/cert/ca" { capabilities = ["read"] }
$ vault policy write ca-policy ca-policy.hcl
Enterprise License
license-policy.hcl
path "secret/data/consul/license" { capabilities = ["read"] }
$ vault policy write license-policy license-policy.hcl
Create one role that maps the Consul on Kubernetes service account to the 3 policies.
$ vault write auth/kubernetes/role/consul-server \ bound_service_account_names=<Consul server service account> \ bound_service_account_namespaces=<Consul installation namespace> \ policies=ca-policy,license-policy \ ttl=1h
Detailed data integration guides
The following secrets can be stored in Vault KV secrets engine, which is meant to handle arbitrary secrets:
- ACL Bootstrap token
- ACL Partition token
- ACL Replication token
- Enterprise license
- Gossip encryption key
- Snapshot Agent config
The following TLS certificates and keys can generated and managed by Vault the Vault PKI Engine, which is meant to handle things like certificate expiration and rotation:
- Server TLS credentials
- Service Mesh and Consul client TLS credentials
- Vault as the Webhook Certificate Provider for Consul Controller and Connect Inject on Kubernetes
Secrets-to-service account mapping
Read through the detailed data integration guides that are pertinent to your environment.