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A writeup about how traffic filtering can be solved in a modern way with Azure attribute-based access control (Azure ABAC)

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Traffic filtering with Azure attribute-based access control (Azure ABAC)

CC BY-NC-SA 4.0 GitHub commit activity

Attribute-based access control (ABAC) is an authorization system that defines access based on attributes associated with security principals, resources, and the environment of an access request.

The ability to leverage environment attributes of an access request went GA in April 2024 and provides the Is private link, Private endpoint, Subnet and UTC now attributes on some storage roles. With the use of the Private endpoint attribute, we can control if our Entra ID role assignment is allowed by checking if the Private Endpoint resource ID matches the one we require. This opens doors for modern ways of looking at network security.

Let's assume you want to give a resource, for instance a Synapse workspace identity, the Storage Blob Data Reader role on a specific blob in a storage account. In a traditional way, we would isolate that blob into a container, and assign the role to the container. For secure networking, the traditional way would be to create an isolated storage account, just for that source, and filter traffic with Azure network security groups or firewall rules. With Azure ABAC, we can completely overhaul these concepts with the introduction of the following attribute conditions:

  • @Resource[Microsoft.Storage/storageAccounts:name] StringEquals 'yourStorageAccount' to verify which storage account is allowed.
  • @Environment[Microsoft.Network/privateEndpoints] StringEqualsIgnoreCase 'allowedPrivateEndpointId' to verify which network connection is allowed.
  • @Resource[Microsoft.Storage/storageAccounts/blobServices/containers/blobs:isCurrentVersion] BoolEquals true to only allow reading the current version of a blob.
  • @Resource[Microsoft.Storage/storageAccounts/blobServices/containers/metadata:myKey] StringEqualsIgnoreCase 'myValue' to only allow containers with metadata key myKey and value myValue.

By using a combination of these conditions, we can assign roles on a higher level, let's say subscription or even Management Group level. Not only does this reduce the amount of role assignments, it also simplifies the assignment model. Giving out permissions in a pure ABAC way might result in a day-to-day process of assigning the right metadata keys to give certain entities the right access.

It could even be made more flexible on a network level, by checking the subscription and resource group part of the private endpoint id:

  • @Environment[Microsoft.Network/privateEndpoints] StringStartsWith '/subscriptions/92b2afd7-e3db-4660-90c5-0da4aebf53d4/ to allow all private endpoints originating from subscription with id 92b2afd7-e3db-4660-90c5-0da4aebf53d4.

  • @Environment[Microsoft.Network/privateEndpoints] StringStartsWith '/subscriptions/92b2afd7-e3db-4660-90c5-0da4aebf53d4/resourceGroups/rg-0102/ to allow all private endpoints originating from subscription with id 92b2afd7-e3db-4660-90c5-0da4aebf53d4 and resource group rg-0102.

Using network conditions like this creates an architecture where the attributes are replacing the network rules. We can even differentiate between our own tenant endpoints and other tenant endpoints, resulting in a finer grained cross-tenant security model.

The ABAC model as described earlier looks like this visualized:

flowchart TD

subgraph eid["Entra ID"]
    synapseid["Fabric identity"]
end 

    subgraph Microsoft Fabric
        we["Synapse Pipeline"]

        subgraph mvn[Managed Virtual Network]
            mpe[Managed <br> Private Endpoint] 
        end
    end

    we -- reads storage, with identity --> synapseid

subgraph Management Group

    ra["Storage Blob Data Reader - Conditional assignment"]

    subgraph sa["Storage Account 'One'"]
        subgraph c1["Container 'Foo'"]
            blob["blob 'contoso.json'"]
        end
        subgraph c2["Container 'Bar'"]
            blob2["blob 'guanchen.json'"]
        end
    end

end

synapseid -- is assigned to role --> ra

ra -- account name eq. --> sa
ra -- blob <br> version eq. --> blob2
ra -- private endpoint id eq. --> mpe
ra -- container <br> tag eq. --> c2
Loading

Note: It is assumed in this diagram that the Managed Private Endpoint is connected to - and approved in - the storage account.

ABAC Bicep module

To see ABAC in action, the IaC way, the provided ABAC Bicep module in this repo implements various condition expressions and condition actions for the Microsoft.Authorization/roleAssignments resource on a storage account.

License

This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

CC BY-NC-SA 4.0

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A writeup about how traffic filtering can be solved in a modern way with Azure attribute-based access control (Azure ABAC)

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