Azure credential management with Vault
Dynamic secrets are a core feature in Vault. A class of dynamic secrets is on-demand, revocable, time-limited access credentials for cloud providers. For example, the Dynamic Secrets getting started tutorial demonstrated the AWS secrets engine to dynamically generate AWS credentials (access key ID and secret access key).
Challenge
To consume Azure services (e.g. Azure Kubernetes service), the client must have valid Azure credentials. Azure uses service principal to authenticate its users. An Azure service principal is an identity created for use with applications, hosted services, and automated tools to access Azure resources. So each new application adds operational overhead as more service principals are required.
Solution
Automate the process by integrating your applications with Vault's Azure secrets engine. The applications ask Vault for Azure credential with a time-to-live (TTL) enforcing its validity so that the credentials are automatically revoked when they are no longer used.
Benefits
Each app instance can request unique, short-lived credentials. Unique credentials ensures isolated, auditable access and enable revocation of a single client. While short-lived reduces the time frame in which they are valid.
Note
This tutorial demonstrates the use of azure secrets engine to dynamically generate azure credentials.
Personas
The end-to-end scenario described in this tutorial involves two personas:
Prerequisites
This tutorial assumes the following:
- You have a Microsoft Azure account
- Vault installed
Policy requirements
Each persona requires a different set of capabilities. These are expressed in policies. If you are not familiar with policies, complete the policies tutorial.
The admin tasks require these capabilities.
# Mount secrets enginespath "sys/mounts/*" { capabilities = [ "create", "read", "update", "delete", "list" ]} # Configure the azure secrets engine and create rolespath "azure/*" { capabilities = [ "create", "read", "update", "delete", "list" ]} # Write ACL policiespath "sys/policies/acl/*" { capabilities = [ "create", "read", "update", "delete", "list" ]} # Manage tokens for verificationpath "auth/token/create" { capabilities = [ "create", "read", "update", "delete", "list", "sudo" ]}
The apps tasks require these capabilities.
path "azure/creds/edu-app" { capabilities = [ "read" ]}
Lab setup
Open a new terminal window and start a Vault dev server with
root
as the root token.$ vault server -dev -dev-root-token-id root
The Vault dev server defaults to running at
127.0.0.1:8200
. The server is initialized and unsealed.Insecure operation
Do not run a Vault dev server in production. This approach starts a Vault server with an in-memory database and runs in an insecure way.
Export an environment variable for the
vault
CLI to address the Vault server.$ export VAULT_ADDR=http://127.0.0.1:8200
Export an environment variable for the
vault
CLI to authenticate with the Vault server.$ export VAULT_TOKEN=root
Note
For these tasks, you can use Vault's root token. However, it is recommended that root tokens are only used for enough initial setup or in emergencies. As a best practice, use an authentication method or token that meets the policy requirements.
The Vault server is ready.
Create an Azure service principal and resource group
(Persona: admin)
To delegate the credential generation task to Vault, you need to give Vault privileged Azure credentials to perform the task. The following demonstrates the creation of a service principal.
Production
The service principal should be dedicated to the Vault secrets engine.
Invoking the rotate-root
command will delete the existing client secret
and generate a new secret known only to Vault.
Note
Refer to the online Azure documentation for more details.
Launch the Microsoft Azure Portal and sign in.
Select Azure Active Directory and select Properties.
Copy the Tenant ID.
In a terminal, set the variable
TENANT_ID
to the Tenant ID.$ export TENANT_ID=<Tenant ID>
From the side navigation, select App registrations.
Select New registrations.
Enter a desired name in the Name field (e.g.
vault-education
).Click Register.
Copy the Application (client) ID.
In a terminal, set the variable
CLIENT_ID
to the Application (client) ID.$ export CLIENT_ID=<Client ID>
From the side navigation, select Certificate & secrets.
Under the Client secrets, click New client secret.
Enter a description in the Description field.
Click Add.
Copy the client secret value.
In a terminal, set the variable
CLIENT_SECRET
to the client secret value.$ export CLIENT_SECRET=<Client secret>
From the side navigation, click API permissions.
Under Configured permissions, click Add a permission.
The Azure Secrets Engine documentation lists the Azure permissions need to be assigned.
Click Microsoft Graph.
Select Application permissions.
Add the following permissions.
Permission Name Type Application.ReadWrite.OwnedBy Application GroupMember.ReadWrite.All Application Note
If you plan to use the rotate root credentials API, you'll need to change
Application.ReadWrite.OwnedBy
toApplication.ReadWrite.All
.Click Add permissions.
Click Grant admin consent for azure to grant the permissions.
Click Yes to confirm consent.
Navigate to the Subscriptions blade.
Click the name of your subscription.
Copy the Subscription ID.
In a terminal, set the variable
SUBSCRIPTION_ID
to the Subscription ID.$ export SUBSCRIPTION_ID=<Subscription ID>
From the side navigation, click Access control (IAM).
Click Add > Add a role assignment.
Select
User Access Administrator
and click Next.Click Select members.
Enter your application name or application id in the Select field.
Click the application when it is displayed which will add the application to the Selected members list.
Click Select.
Click Review + assign, and then Review + assign gain.
The application is created with the correct permissions and you have these identifiers and credentials:
- Tenant ID
- Client ID
- Client Secret
- Subscription ID
Resource Group
The secrets engine generates credentials within an Azure resource group.
Navigate to the Resource groups blade.
Click Create.
Choose the subscription from the Subscription select field.
Enter
vault-education
in the Resource group field.Click Review + create.
The view changes to display the review page.
Click Create.
The resource group vault-education
is created.
Configure Vault
With the necessary resources configured in Azure, you can configure the Azure secrets engine to dynamically generate Azure service principals.
Enable the Azure secrets engine
Enable the azure secrets engine at its default path.
$ vault secrets enable azure
The secrets engine is enabled at the path azure/
. To enable the secrets engine
at a different path requires that you use the -path
parameter and the desired
path.
Configure the Azure secrets engine
(Persona: admin)
The Azure secrets engine requires the credentials you generated in the create an Azure service principal and resource group step to communicate with Azure and generate service principals.
Verify that your Azure subscription ID, client ID, client ID, and tenant ID are stored as environment variables.
$ echo $SUBSCRIPTION_ID; echo $CLIENT_ID; echo $CLIENT_SECRET; echo $TENANT_ID
If any of those variables are missing their value, refer to the previous step and set them before proceeding.
Configure the Azure secrets engine with the Azure credentials.
$ vault write azure/config \ subscription_id=$SUBSCRIPTION_ID \ client_id=$CLIENT_ID \ client_secret=$CLIENT_SECRET \ tenant_id=$TENANT_ID \ use_microsoft_graph_api=true
Create a role
(Persona: admin)
A Vault role lets you configure either an existing service principal or a set of Azure roles.
Create a Vault role named, edu-app
mapped to the Azure role named,
Contributor
in the vault-education
resource group.
$ vault write azure/roles/edu-app ttl=1h azure_roles=-<<EOF [ { "role_name": "Contributor", "scope": "/subscriptions/$SUBSCRIPTION_ID/resourceGroups/vault-education" } ]EOF
The role named edu-app
is created.
Request Azure credentials
The role generates credentials with a time-to-live (TTL) of 1 hour and max TTL of 24 hours.
Read credentials from the
edu-app
azure role.$ vault read azure/creds/edu-app
Example output:
Key Value--- -----lease_id azure/creds/edu-app/EA2uTB98qAPR2BRSaasnmnjalease_duration 1hlease_renewable trueclient_id 074421c4-60b7-477c-9c5f-07e0925ba6a6client_secret Vw17Q~3u3ZRRUd.M4pP-Bl487.i4Fe1~jLpLT
The results display the credentials, its TTL, and the lease ID.
For applications (apps persona) to request credentials, it requires a Vault policy that grants access to this role. Define a policy named
apps
.$ vault policy write apps - <<EOFpath "azure/creds/edu-app" { capabilities = [ "read" ]}EOF
The apps policy grants the
read
capability for requests to the pathazure/creds/edu-app
.Create a variable named
APPS_TOKEN
to capture the token created with theapps
policy attached.$ APPS_TOKEN=$(vault token create -policy=apps -field=token)
Note
AppRole Pull Authentication tutorial demonstrates a more sophisticated way of generating a token for your apps.
Read credentials from the
edu-app
azure role with theAPPS_TOKEN
.$ VAULT_TOKEN=$APPS_TOKEN vault read azure/creds/edu-app
Example output:
Key Value--- -----lease_id azure/creds/edu-app/W24u6d77acJbBzzf02iq6YHdlease_duration 1hlease_renewable trueclient_id b43b4e84-5568-4efd-8ba5-cbd40936ba12client_secret iXK7Q~mFGn-MJjcXhGbevQCQPRhB2Hkg1QGAq
The results display the credentials, its TTL, and the lease ID. The credentials
for this application (service principal) in the Azure Portal searching by its
client_id
.
Note
Re-run the command and notice that the role returns a new set of credentials. This means that each app instance acquires a unique set of Azure credentials.
Manage leases
(Persona: admin)
The credentials are managed by the lease ID and remain valid for the lease duration (TTL) or until revoked. Once revoked the credentials are no longer valid.
List the existing leases.
$ vault list sys/leases/lookup/azure/creds/edu-app
Example output:
Keys----o2F4EA3hU8Fpjgc39XyQpjtUfRFeCtlMnoPqelTrjf5j5kGA
All valid leases for Azure credentials are displayed.
Create a variable that stores the first lease ID.
$ LEASE_ID=$(vault list -format=json sys/leases/lookup/azure/creds/edu-app | jq -r ".[0]")
Renew a lease
If you need to extend the use of the generated Azure credentials, you can renew the lease by passing its lease ID.
$ vault lease renew azure/creds/edu-app/$LEASE_ID
Example output:
Key Value--- -----lease_id azure/creds/edu-app/EA2uTB98qAPR2BRSaasnmnjalease_duration 1hlease_renewable true
The TTL of the renewed lease is set to 1h
.
Revoke the leases
When the Azure credentials are no longer needed, you can revoke the lease without waiting for its expiration.
Revoke the least associated with the $LEASE_ID environment variable.
$ vault lease revoke azure/creds/edu-app/$LEASE_ID All revocation operations queued successfully!
List the existing leases.
$ vault list sys/leases/lookup/azure/creds/edu-app fRFeCtlMnoPqelTrjf5j5kGA
The first lease is no longer valid.
Read new credentials from the
edu-app
role.$ vault read azure/creds/edu-app
Revoke all the leases with the prefix
azure/creds/edu-app
.$ vault lease revoke -prefix azure/creds/edu-app
The
prefix
flag matches all valid leases with the path prefix ofazure/creds/edu-app
.List the existing leases.
$ vault list sys/leases/lookup/azure/creds/edu-appNo value found at sys/leases/lookup/azure/creds/edu-app
All the leases with this path as a prefix have been revoked.
Clean up
The Azure credentials created to configure the secrets engine should be deleted if they are no longer required.
Launch the Microsoft Azure Portal and sign in.
Navigate to Azure Active Directory.
From the side navigation, select App registrations.
Click the vault-education application (or whatever the name you set for the application).
From the application overview, click delete.
Select Yes to delete the application. The application is deleted.
Navigate to Resource groups.
Click the vault-education resource group.
From the resource group overview, click Delete resource group.
Enter
vault-education
in theTYPE THE RESOURCE GROUP NAME:
field.Click Delete. The resource group is deleted.
Stop the Vault server
Unset the
VAULT_TOKEN
environment variable.$ unset VAULT_TOKEN
Unset the
VAULT_ADDR
environment variable.$ unset VAULT_ADDR
If you are running Vault locally in
dev
mode, stop the Vault dev server by pressing Ctrl+C where the server is running. Or, execute the following command.$ pgrep -f vault | xargs kill
Help and Reference
You enabled and configured the Azure secrets engine. Learn more by exploring the documentation or API documentation.
Azure Key Vault can auto-unseal the Vault server. Learn this through this Azure Key Vault Auto-unseal & Dynamic Secrets with HashiCorp Vault demonstration.