Skip to content

Azure Dedicated HSM

This tutorial uses Azure Dedicated HSM — a FIPS 140-2 Level 3 certified implementation based on the Gemalto SafeNet Luna a790.


Before you start

Make sure you have:


1. Create, assign, and initialize a new partition

The first step is creating an HSM partition, which can be thought of as an independent logical HSM within your Azure Dedicated HSM device.

vm$ ssh tenantadmin@hsm
[local_host] lunash:>hsm login
Please enter the HSM Administrators' password:
> ********
'hsm login' successful.
Command Result : 0 (Success)
[local_host] lunash:>partition create -partition KeylessSSL
Type 'proceed' to create the partition, or
'quit' to quit now.
> proceed
'partition create' successful.
Command Result : 0 (Success)

Next, the partition needs to be assigned to the client, in this case your key server.

Terminal window
[local_host] lunash:>client assignpartition -client azure-keyless -partition KeylessSSL
'client assignPartition' successful.
Command Result : 0 (Success)

After the partition has been assigned, run lunacm from your virtual server and initialize the partition.

vm$ lunacm
lunacm (64-bit) v7.2.0-220. Copyright (c) 2018 SafeNet. All rights reserved.
Available HSMs:
Slot Id -> 0
Label ->
Serial Number -> XXXXXXXXXXXXX
Model -> LunaSA 7.2.0
Firmware Version -> 7.0.3
Configuration -> Luna User Partition With SO (PW) Signing With Cloning Mode
Slot Description -> Net Token Slot
Current Slot Id: 0
lunacm:>partition init -label KeylessSSL -domain cloudflare
Enter password for Partition SO: ********
Re-enter password for Partition SO: ********
You are about to initialize the partition.
All contents of the partition will be destroyed.
Are you sure you wish to continue?
Type 'proceed' to continue, or 'quit' to quit now ->proceed
Command Result : No Error

2. Generate a RSA key pair and certificate signing request (CSR)

Before running the commands below, check with your information security and/or cryptography team to confirm the approved key creation procedures for your organization.

# cmu generatekeypair -keyType=RSA -modulusBits=2048 -publicExponent=65537 -sign=1 -verify=1 -labelpublic=myrsakey -labelprivate=myrsakey -keygenmech=1
Please enter password for token in slot 0 : ********
# cmu list
Please enter password for token in slot 0 : ********
handle=51 label=myrsakey
handle=48 label=myrsakey

Using the key created in the previous step, generate a CSR that can be sent to a publicly trusted Certificate Authority (CA) for signing.

# cmu requestCertificate -c="US" -o="Example, Inc." -cn="azure-dedicatedhsm.example.com" -s="California" -l="San Francisco" -publichandle=48 -privatehandle=51 -outputfile="rsa.csr" -sha256withrsa
Please enter password for token in slot 0 : ********
Using "CKM_SHA256_RSA_PKCS" Mechanism

3. Obtain and upload a signed certificate from your Certificate Authority (CA)

Provide the CSR created in the previous step to your organization's preferred CA, demonstrate control of your domain as requested, and then download the signed SSL certificates. Follow the instructions provided in Upload Keyless SSL Certificates.


4. Modify your gokeyless config file and restart the service

Lastly, we need to modify the configuration file that the key server will read on startup. Be sure to change the object=mykey and pin-value=username:password values to match the key label you provided and CU user you created.

Open /etc/keyless/gokeyless.yaml and immediately after:

private_key_stores:
- dir: /etc/keyless/keys

add:

- uri: pkcs11:token=KeylessSSL;object=myrsakey?module-path=/usr/safenet/lunaclient/lib/libCryptoki2_64.so&pin-value=password&max-sessions=1

With the config file saved, restart gokeyless and verify it started successfully.

Terminal window
sudo systemctl restart gokeyless.service
sudo systemctl status gokeyless.service -l