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· 5 min read
Scotti Woolery-Price

Note - this article was originally posted as a Thalesgroup blog on August 3, 2023 under the title "Cloud Key Management Solution for Azure, Azure Stack and M365." The video was added for this post.

Uncover Your Cybersecurity Blind Spots

Cybersecurity is a strategic risk that should be managed at the highest levels of an organization. In fact, the World Economic Forum’s Global Risk Report 2023 again ranked wide-spread cybercrime as a top-ten critical global threat. Of all the potential global risks to economies and societies including natural disasters, geopolitical conflict, energy supply, global debt and rising inflation, widespread cybercrime ranks #8 on both short term and long-term outlooks.

Ranking in the top ten critical global threats is eye-opening! To help mitigate the risk and unshroud organizational blind spots, today’s enterprises must look for leading-edge solutions that help with data governance and compliance.

Thales Solutions for Microsoft Azure, Azure Stack and M365

You can simplify the way your organization discovers, protects, and controls your sensitive data. With our platform, Thales has integrated the CipherTrust Cloud Key Management (CCKM) solution with Microsoft Azure, Azure Stack and Microsoft 365.

CCKM reduces your operational burden and increases efficiency. CCKM manages and synchronizes native keys, even if you have already created thousands of native cloud keys at your cloud provider. CCKM can help customers demonstrate compliance with internal, industry and national regulatory requirements so that you have the confidence to unblock sensitive workloads that may be stuck on-premises and move them to Azure.

CCKM Benefits:

  • Simplify compliance by taking control of your encryption keys and your data
  • Achieve cost savings using automated key lifecycle management
  • Single pane of glass to help eliminate security holes introduced by human error -- set policies to be applied consistently wherever data is stored
  • Support strategies for workload portability to increase operational resilience as part of a robust business continuity and disaster recovery plan
  • Support all major public clouds
  • Flexible deployment options: on-premises, hybrid cloud, and as a Service

“Thales is a global Microsoft partner focused on delivering solutions for Azure Cloud, Azure Stack and M365, on-premises storage systems, intelligent edge appliances, and cloud-based Microsoft Azure Services. They are working to help customers transform their businesses to drive digital transformation for people, organizations, and industries worldwide. CipherTrust Cloud Key Management has been verified against Microsoft key products, is available on the Azure Marketplace and is simple to adopt for Azure customers.” – David Nunez Tejerina, Principal Product Manager, Microsoft

Bring Your Own Key

With Thales’ Bring Your Own Key (BYOK) functionality, customers can maintain control of sensitive data using external key management services ensuring full encryption capabilities, key lifecycle management, and centralized key management across clouds, regions, accounts, subscriptions, projects, applications, org ids and more. CCKM helps manage native Azure keys, Standard/Premium Key Vaults as well as Managed HSM pools, in addition to BYOK. CipherTrust Manager as well as Luna Network HSM can be used as a key source.

Single Pane of Glass, Single Vendor

According to the Thales 2023 Data Threat Report, 93% of organizations use four or more key management solutions (includes enterprise key manager vendors and cloud provider key managers). CCKM manages all of your encryption keys across clouds and services with a single pane of glass from a trusted vendor.

CCKM integrated with Microsoft Azure, Azure Stack and Microsoft 365 increases efficiency by reducing the operational burden. Giving customers lifecycle control, centralized management within and among clouds, and unparalleled visibility of cloud encryption keys reduces key management complexity and operational costs. Thousands of keys and native key stores are difficult to manage manually, and organizations may be stretched to consistently apply key lifecycle management policies such as rotation, backup and role-based access management across their entire digital estate -- leading to security holes and failed audits. 99% of data breaches occur because of human error. You can shrink the threat surface introduced by human error when you use centralized automated key lifecycle management provided by CCKM.

Multi-Cloud Support

Organizations with multi-cloud are struggling to protect their sensitive data, because while cloud delivers a multitude of benefits these can often be offset by a multitude of challenges. It can also be very time consuming to manage the different native stores and native key management tools across different clouds and on-premises since there is no industry standard. Based on customer testimonials, CCKM can provide a 30x savings in time and cost in managing thousands of native key stores across hybrid multi-cloud environments which can free up IT teams to focus on other urgent business priorities. Operational Sovereignty

CCKM helps organizations to control their digital sovereignty across major public and government clouds including Microsoft Azure, Azure Government, Amazon Web Services, Google Cloud, Oracle Cloud, Salesforce and SAP. The solution enables you to run in different environments to support a strong business continuity plan. CCKM can provide an organization with a holistic view of where all key workloads and sensitive data are located.

Free Trial Try Data Protection On Demand - 30-Day Free Evaluation!

For more information see the Product Brief and Solution Brief.

· 2 min read
Hal Yaman (B.Sc)

Note - this article was originally posted on Hal's blog on March 21, 2023 under the title "Thales CipherTrust & Active Directory."

Into Image Why should you integrate Thales CipherTrust with your Microsoft Active Directory? What are the benefits of integration, and how is it done? Does Thales CipherTrust Manager (CTM) replace your Active Directory Group policy?

In the previous blog post, we went through the deployment of the CipherTrust Manager in our VMware environment. In today’s post, we will focus our discussion on how to integrate the newly provisioned OVA with the company Active Directory, a necessary step for activities we will discuss in our future posts.

The Why

To streamline the management of your company’s security requirements, and to easily manage your access and control of the company files and directories, it is a good idea to integrate CTM with Active Directory as a source of user management. By doing this, you can assign your policies more easily by basing them on the company AD Users and Groups.

The How

Now let’s focus on the fun technical part, the integration. The first step before we start the configuration is to get some information from AD; so, let’s run the following PowerShell command to retrieve the necessary information for our configuration: Get ADuser

The output will be as shown below:

AD Info

After you have retrieved the above information, we are ready to head back to our CTM and browse to: Access Management -> LDAP. From the top right corner, select “+ Add LDAP“:


On the pop-up config windows, provide the following information:

  • Connection Name: any
  • Server URL: your AD IP/DNS name
  • Bind DN: CN=Administrator,CN=Users,DC=oasis,DC=org
  • Server Bind Password: account password
  • Rood DN: DC=oasis,DC=org
  • User login name attribute: sAMAccountName AD_Bind-1

After you have tested the configurations to be correct and are ready to accept it, click on the “Add LDAP” button at the bottom right corner.


Today’s blog is very important; this post is setting the foundation for our next exciting topic, Thales Transparent Encryption feature. As you may have noticed, to integrate the CTM with AD is a very simple, but important operation. Next week, we going to use the configuration setup today to access and encrypt the company’s critical data.

· 8 min read
Hal Yaman (B.Sc)

Note - this article was originally posted on Hal's blog on March 24, 2023 under the title "CipherTrust Transparent Encryption."

In many organisations, IT departments are sometimes required to delegate some of their responsibilities to other teams, but at the same time, also required to keep control of the company security. Wait! In the world of security, can data security become a delegated responsibility? If that is a yes, then how?

Five years ago, I was pulled into the DevOps team culture and mindset. Since then, I have been lucky enough to manage the building of several DevOps teams. One of the many attributes of the DevOps culture is their autonomy. DevOps teams build in a way that can execute a task from end to end. The teams build up while working through the requirements and functions of the project or product, and with this knowledge, go on to find the most effective way of breaking the silos encountered by traditional teams.


The previous paragraph described DevOps as being about speed of delivery and autonomy, which also requires the team to access resources that are not always managed within the team; Active Directory, file shares, and so on are examples of these resources. So, how can you keep your DevOps team focused, but not affect the company processes?


Let’s put the DevOps information above into context using a real scenario I came across last week with one of the teams I help to build two years ago.

Company A was working on a confidential application for a client; the client was concerned that a breach of their code data would expose their intellectual property to competitors, or would become general knowledge.

The client asked that the following hierarchy be implemented to help mitigate their risk:

  • Each Team has it own encrypted directory
  • Only the specific team can access and read the code
  • Admin can manage the files within all the directories, but cannot read the code

The Challenge

From those requirements, Company A faces the following challenges:

  • How to implement access management and encryption at the same time
  • How to avoid disruption of the DevOps team concept
  • Delegate security manageability to the DevOps team without affecting the wider company policy


Access management can be controlled using the company Active Directory; but doing so will complicate the workflow of the DevOps team and will slow the delivery. At the same time, Active Directory and Group Policies do not offer encryption, so the IT department turned to Thales CipherTrust Manager to solve this challenge.


To achieve all the security requirements, Company A decided to use CipherTrust Manager with the Transparent Encryption feature. Using Transparent Encryption Live Data Transformation (LDT), Company A can delegate the code data management to the DevOps team, but at the same time, encrypt the data and also keep Admin in control of managing and backing up the code files without compromising security.

So let’s learn how company A uses CipherTrust Manager to keep each team in control.

CipherTrust User and Domain

To delegate responsibilities, the Company A IT team was looking for a multi-tenanted system that can help the department to easily create and assign multiple teams to manage their own security requirements, while remaining isolated from each other. This requirement can be met with Thales CTM by creating a Domain to allow the DevOps team to manage their access control and security needs.

To create a Domain, you first create a user by browsing to “Access Management -> Users -> Add User“: Add_User

After you have added the user, apply the user to CTE Admins and Clients by going to Edit/view the user. Under Groups, Search CTE and add to Admin/Client: CTE_Groups

The next step is to browse to “Admin Settings -> Domains” and click “Add Domain“:

  • Name: DevOps
  • Admins: devops (the user you just created)
  • Choose the default CA
  • Save Add_Domain

Now you are ready to logout and then login with the user you just created. After logging in again, change the domain to the new domain at the top right corner – Switch Domains: Switch_Domains

Create a Key

To be able to encrypt the data, we must create a key. Creating a key is very simple with CipherTrust Manager, all you need is to browse to the keys at the left menu and press the “Add key“. The next step is to provide a Key name: for example we will create a key name: LDT_Key and then press”Add Key” to save it.

At the next window, expand the “Key Access” option. On the search bar, type “CTE” with show all groups, then tick the check boxes for all the Admins and Clients permissions. Press Update: Key_Access

Next, browse to “Key Labels -> CTE“. Choose CBC from the drop down menu”. Press Update: Key_Label

Install the Transparent Encryption Agent

To be able to install and use the Transparent Encryption feature, you must install an agent. The first step is to create a “Registration Token“; this will be used during the agent installation to add the agent to the CipherTrust Manager. To create the Token, browse to “Access Management -> Registration Tokens” and click on “Add Registration Token” and complete the following entries:

  • Provide a Name Prefix: on my case DevOps_token
  • Local CA: choose the default
  • Create a token: Base64 Create_Token

Copy the token; then go to your Windows or Linux machine to run the agent installation. During the installation, you will be asked to provide:

  • Componant to register: File System
  • CipherTrust Manager IP/Hostname
  • Enable LDT Feature (FS agent only)
  • Token

After the installation is completed and you have successfully rebooted, you will be able to see the registered client on your CipherTrust Manager under: Transparent Encryption -> Clients: CTE_Client

Creating Policies:

After deploying the agent and connecting it to the CTM, we can focus on creating our polices. As we have four different teams in our example, lets create four policies as shown below:

  • DevOps_Admin_Team: Access and manage files and directories but can read files content
  • DevOps_Dev_Team: access only Development directory
  • DevOps_Ops_Policy: access only operation directory
  • DevOps_QA_Team: access only QA diretory

Let’s create first policy, the DevOps_Admin_Team policy by browsing to “Transparent Encryption -> Policies -> Create policy“:

  • Name: DevOps_Admin_Team
  • Policy Type: Live Data Transformation
  • Security Rules: + Create Security Rule
    • User Set – Select – Create User Set:
      • Name: Admin_Team
      • Create User
        • Agent – select Agent
        • User Type: LDAP
        • Member Choice: User or Group (on my case I choose group)
        • gname: group name
      • Note: repeat the above steps to create all the users for each group (i.e: Admin, Dev, Ops and QA team. on each time you need to create a policy you can easily choose the appropriate group or user)
    • Action – Select
      • All_Ops
    • Effect – Select
      • select permit
      • ApplyKey only of other group but not Admin group as the admin will not be able to unencrypt the data so a key not required
  • Key Rules: Create key Rule
    • Current Key Name: Select – “clear_key”
    • Tranformation Key Name: Select – LTD_Key
    • Add
  • Next – Confirmation – Save

Note: repeat the above steps for all the groups

Create GuardPoint

Our last step is to apply these policies to our folders or client. In this example, I will be using a Windows client. So let’s get started:

As we have different teams and policies, each with different access, we must create a different client GuardPoint. Browse to Transparent Encryption -> Clients. Choose the client – “Create GuardPoint“:

  • Select Policy: choose DevOps_QA_Team
  • Path: browse to the QA directory and select “select Path”
  • Create

Note: repeat for each team and select the appropriate directory Create_GuardPoint

After all the directories are assigned to a group – on each GuardPoint – press the policy name and add the right action for each team as shown below; for example:

  • Development_Team can access, and apply key
  • Operation_Team no access
  • Admin_Team access but no key DevOps_Permission_Group

Note: repeat for all other GuardPoints


After Following the steps described above, you can check that your new configuration works by accessing your Windows machine with a different user; for example, QA, dev, ops or admin, then check to see if you can access or read the files. The above steps are a little involved, more than Active Directory Group Policies; but with CipherTrust you also get the encryption aspect with a full and controlled separation of responsibilities.

Company A was able to achieve their client’s security request; but at the same time, did not affect the team processes, autonomy, and control. At both levels, Company A IT and DevOps, it was a win – win situation.