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Azure KeyVault

Shubhendu edited this page May 26, 2023 · 9 revisions

This guide shows how to setup a KES server that uses Azure KeyVault as a persistent key store:

                         ╔══════════════════════════════════════════════╗
┌────────────┐           ║  ┌────────────┐          ┌────────────────┐  ║
│ KES Client ├───────────╫──┤ KES Server ├──────────┤ Azure KeyVault │  ║
└────────────┘           ║  └────────────┘          └────────────────┘  ║
                         ╚══════════════════════════════════════════════╝

Azure KeyVault

Azure KeyVault is a managed KMS that provides a secret store that can be used by KES.

An external application, i.e. KES, that wants to store and access secrets in Azure KeyVault, has to be registered in Azure Active Directory and needs client credentials.

1. Active Directory Service

First navigate to your Active Directory service.

Step 1

2. Register KES App

Then go to App registrations and register a new application for KES.

Step 2

Now, you can give the application a name - e.g. KES-Demo and register it. Once completed, Azure will show you some details about your newly registered application.

Step 3

Some important fields are:

  • The application or client ID
  • The directory or tenant ID
  • The client credentials

The application directory ID will be UUIDs - like c3b7badf-cd2b-4297-bece-4de5f2e575f6. However, there should be no client credentials, yet. So, we need to create a client secret for your KES server.

3. Create Client Secret

Here, we select a client secret that we can give a name - e.g. KES-Demo - and select an expiry - e.g. 12 months:

Step 5

Once completed, Azure will should a new secret with the chosen description and expiry. Make sure to copy the secret value. It may not be shown to you again. This secret value will be required later by KES to authenticate to Azure KeyVault.

4. Application Summary

After navigating back to the application overview, Azure will show that the application now has one secret.

Step 6

At this point you should have the following information about your Azure application:

  • The application / client ID. Here, c3b7badf-cd2b-4297-bece-4de5f2e575f6.
  • The directory / tenant ID. Here, 41a37d4e-b3c4-49f4-b330-1114fb0271c8.
  • The value of the newly created secret. Here, -.j4XP6Sa7E39.KWn-SL~Dgbz~H-H-TPxT.
5. Navigate to KeyVault Policy Tab

Now, we can define which KeyVault API operations our external application (KES server) can perform. Therefore, navigate to the Access policies tab of your KeyVault instance and add a new access policy.

Step 7

6. Create KeyVault Policy

Here, we specify which KeyVault API your application has access to. Select the following five Secret permissions:

Step 8

7. Assign Policy to Principal

Finally, we have to select a principal or an authorized application. The principal can either be the application itself - then no authorized application has to be selected. Alternatively, we can select a user or group as principal and select our newly registered KES Azure application as authorized application.

Here, we just set the principal. Therefore, we just search for the name of our application (KES-Demo), or insert the application UUID.

Step 6

8. Policy Summary

Once added, Azure shows a new access policy associated to our registered KES application.

Step 6

Make sure you hit Save before navigating elsewhere.

KES Server Setup

1. Generate KES Server Private Key & Certificate

First, we need to generate a TLS private key and certificate for our KES server. A KES server can only be run with TLS - since secure-by-default. Here we use self-signed certificates for simplicity.

The following command generates a new TLS private key (private.key) and a self-signed X.509 certificate (public.crt) issued for the IP 127.0.0.1 and DNS name localhost:

$ kes identity new --ip "127.0.0.1" localhost

  Private key:  private.key
  Certificate:  public.crt
  Identity:     2e897f99a779cf5dd147e58de0fe55a494f546f4dcae8bc9e5426d2b5cd35680

If you already have a TLS private key & certificate - e.g. from a WebPKI or internal CA - you can use them instead. Remember to adjust the tls config section later on.

2. Generate Client Credentials

The client application needs some credentials to access the KES server. The following command generates a new TLS private/public key pair:

$ kes identity new --key=client.key --cert=client.crt MyApp

  Private key:  client.key
  Certificate:  client.crt
  Identity:     02ef5321ca409dbc7b10e7e8ee44d1c3b91e4bf6e2198befdebee6312745267b

The identity 02ef5321ca409dbc7b10e7e8ee44d1c3b91e4bf6e2198befdebee6312745267b is an unique fingerprint of the public key in client.crt and you can re-compute it anytime:

$ kes identity of client.crt

  Identity:  02ef5321ca409dbc7b10e7e8ee44d1c3b91e4bf6e2198befdebee6312745267b
3. Configure KES Server

Next, we can create the KES server configuration file: config.yml. Please, make sure that the identity in the policy section matches your client.crt identity.

address: 0.0.0.0:7373 # Listen on all network interfaces on port 7373

admin:
  identity: disabled  # We disable the admin identity since we don't need it in this guide 
   
tls:
  key: private.key    # The KES server TLS private key
  cert: public.crt    # The KES server TLS certificate
   
policy:
  my-app: 
    allow:
    - /v1/key/create/my-key*
    - /v1/key/generate/my-key*
    - /v1/key/decrypt/my-key*
    identities:
    - 02ef5321ca409dbc7b10e7e8ee44d1c3b91e4bf6e2198befdebee6312745267b # Use the identity of your client.crt
   
keystore:
     azure:
       keyvault:
         endpoint: "https://kes-test-1.vault.azure.net"    # Use your KeyVault instance endpoint.
         credentials:
           tenant_id: ""      # The ID of the tenant the client belongs to - e.g: "41a37d4e-b3c4-49f4-b330-1114fb0271c8".
           client_id: ""      # The ID of the client                       - e.g: "c3b7badf-cd2b-4297-bece-4de5f2e575f6".
           client_secret: ""  # The value of the client secret             - e.g: "-.j4XP6Sa7E39.KWn-SL~Dgbz~H-H-TPxT".
4. Start KES Server

Now, we can start a KES server instance:

$ kes server --config config.yml --auth off

On linux, KES can use the mlock syscall to prevent the OS from writing in-memory data to disk (swapping). This prevents leaking senstive data accidentality. The following command allows KES to use the mlock syscall without running with root privileges:

$ sudo setcap cap_ipc_lock=+ep $(readlink -f $(which kes))

Then, we can start a KES server instance with memory protection:

$ kes server --config config.yml --auth off --mlock

KES CLI Access

1. Set KES_SERVER Endpoint

The KES CLI needs to know to which server it should talk to:

$ export KES_SERVER=https://127.0.0.1:7373
2. Use Client Credentials

Further, the KES CLI needs some access credentials to talk to a KES server:

$ export KES_CLIENT_CERT=client.crt
$ export KES_CLIENT_KEY=client.key
3. Perform Operations

Now, we can perform any API operation that is allowed based on the policy we assigned above. For example we can create a key:

$ kes key create my-key-1

Then, we can use that key to generate a new data encryption key:

$ kes key dek my-key-1
{
  plaintext : UGgcVBgyQYwxKzve7UJNV5x8aTiPJFoR+s828reNjh0=
  ciphertext: eyJhZWFkIjoiQUVTLTI1Ni1HQ00tSE1BQy1TSEEtMjU2IiwiaWQiOiIxMTc1ZjJjNDMyMjNjNjNmNjY1MDk5ZDExNmU3Yzc4NCIsIml2IjoiVHBtbHpWTDh5a2t4VVREV1RSTU5Tdz09Iiwibm9uY2UiOiJkeGl0R3A3bFB6S21rTE5HIiwiYnl0ZXMiOiJaaWdobEZrTUFuVVBWSG0wZDhSYUNBY3pnRWRsQzJqWFhCK1YxaWl2MXdnYjhBRytuTWx0Y3BGK0RtV1VoNkZaIn0=
}

References

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