Configure a multi-project setup


This tutorial describes how to use Binary Authorization in a multi-project configuration. For a simpler single-project configuration, see Get started using the Google Cloud CLI (GKE).

To establish separation of duties, you can setup Binary Authorization in a multiple-project configuration. The purpose of each project is discussed later in this tutorial.

Objectives

In this tutorial, you perform the following tasks:

  1. Set up a different project for deployment (GKE), attestor, and attestation management, to support separation of duties.

  2. Configure the default rule of your Binary Authorization policy to require attestations.

  3. Create Public-Key Infrastructure (X.509) (PKIX) key pair to sign, and later verify, the attestation.

  4. Create an attestor that the Binary Authorization enforcer uses to verify the attestation.

  5. Sign an example image, creating an attestation.

  6. Test the policy by deploying the example image.

You must configure each project's appropriate access control through Identity and Access Management (IAM).

For additional security, you can use VPC Service Controls to help protect the resources you create in this tutorial. For more information, see Securing with VPC Service Controls.

Costs

In this document, you use the following billable components of Google Cloud:

To generate a cost estimate based on your projected usage, use the pricing calculator. New Google Cloud users might be eligible for a free trial.

Before you begin

  1. Sign in to your Google Cloud account. If you're new to Google Cloud, create an account to evaluate how our products perform in real-world scenarios. New customers also get $300 in free credits to run, test, and deploy workloads.
  2. In the Google Cloud console, on the project selector page, select or create a Google Cloud project.

    Go to project selector

  3. Make sure that billing is enabled for your Google Cloud project.

  4. Install the Google Cloud CLI.
  5. To initialize the gcloud CLI, run the following command:

    gcloud init
  6. In the Google Cloud console, on the project selector page, select or create a Google Cloud project.

    Go to project selector

  7. Make sure that billing is enabled for your Google Cloud project.

  8. Install the Google Cloud CLI.
  9. To initialize the gcloud CLI, run the following command:

    gcloud init
  10. Install kubectl for interacting with GKE.

Set up the deployer project

The deployer project manages the Google Kubernetes Engine (GKE) clusters, where you deploy images, and the Binary Authorization policy that Binary Authorization enforces at deploy time. You can have more than one deployer project, depending on the size, complexity, and other requirements of your environment.

To set up the deployer project:

  1. Create the project and enable billing in Google Cloud console if you have not already done so.

  2. Identity and Access Management note: The deployer project contains your GKE cluster. The Identity and Access Management configuration for this project should reflect that.

  3. Set environment variables to store the Google Cloud project and number:

    DEPLOYER_PROJECT_ID=DEPLOYER_PROJECT_ID
    

    Replace DEPLOYER_PROJECT_ID with the Google Cloud project ID.

    DEPLOYER_PROJECT_NUMBER=$(gcloud projects describe "${DEPLOYER_PROJECT_ID}" \
        --format="value(projectNumber)")
    
  4. Enable APIs:

    Container Registry

    gcloud --project=${DEPLOYER_PROJECT_ID} \
      services enable\
      container.googleapis.com\
      containerregistry.googleapis.com\
      binaryauthorization.googleapis.com
    

    Artifact Registry

    gcloud --project=${DEPLOYER_PROJECT_ID} \
      services enable\
      container.googleapis.com\
      artifactregistry.googleapis.com\
      binaryauthorization.googleapis.com
    
  5. Get the deployer project service account name:

    DEPLOYER_SERVICE_ACCOUNT="service-${DEPLOYER_PROJECT_NUMBER}@gcp-sa-binaryauthorization.iam.gserviceaccount.com"
    

    You use the service account name in a later step when you configure permissions on the Artifact Analysis note associated with your attestor.

Set up the attestor project

An attestor project stores the attestors that can verify that an image is ready for deployment. Often, you have a single attestor project that acts as a centralized store for information about trusted parties in the authorization process. This allows you to centrally manage security keys required to verify the identity of attestors and to restrict access to only those parties who administer them.

To set up the attestor project:

  1. Create the project and enable billing in Google Cloud console if you have not already done so.

  2. Identity and Access Management note: Because the this project contains your attestors, only security personnel should have write access.

  3. Set environment variables to store the project ID and number:

    ATTESTOR_PROJECT_ID=ATTESTOR_PROJECT_ID
    

    Replace ATTESTOR_PROJECT_ID with the attestor project ID.

    ATTESTOR_PROJECT_NUMBER=$(gcloud projects describe "${ATTESTOR_PROJECT_ID}" \
        --format="value(projectNumber)")
    
  4. Enable the Artifact Analysis and Binary Authorization APIs:

    gcloud services --project=${ATTESTOR_PROJECT_ID} \
        enable containeranalysis.googleapis.com \
        binaryauthorization.googleapis.com
    
  5. Get the attestor project service account name:

    ATTESTOR_SERVICE_ACCOUNT="service-${ATTESTOR_PROJECT_NUMBER}@gcp-sa-binaryauthorization.iam.gserviceaccount.com"
    

    You use the service account name in a later step when you configure permissions on the Artifact Analysis note associated with your attestor.

Set up the attestations project

An attestation project is one that stores attestations that attestors make when they verify an image. A separate attestation project allows you to organize and inspect statements about software readiness more easily.

  1. Create the project and enable billing in Google Cloud console if you have not already done so.

  2. Identity and Access Management note: All roles involved in binary authorization should have read access to the Artifact Analysis Notes and Occurrences in this project, however only attestation managers need to have write access.

  3. Set an environment variable to store the project name:

    ATTESTATION_PROJECT_ID=ATTESTATION_PROJECT_ID
    

    Replace ATTESTATION_PROJECT_ID with the attestation project ID.

  4. Enable the Artifact Analysis and Binary Authorization APIs:

    gcloud services --project=${ATTESTATION_PROJECT_ID} \
        enable containeranalysis.googleapis.com \
        binaryauthorization.googleapis.com
    

Create a cluster

Now you can create a GKE cluster in the deployer project. This is the cluster where you want your deployed container images to run. When you create the cluster, you pass the --binauthz-evaluation-mode=PROJECT_SINGLETON_POLICY_ENFORCE flag to the gcloud container clusters create command.

To create the cluster:

gcloud --project=${DEPLOYER_PROJECT_ID} \
    container clusters create \
    --binauthz-evaluation-mode=PROJECT_SINGLETON_POLICY_ENFORCE \
    --zone us-central1-a \
    test-cluster

Here, you create a cluster named test-cluster in the GKE zone us-central1-a.

You must also update the local kubeconfig file for your kubectl installation. This provides the credentials and endpoint information required to access the cluster in GKE.

To update the local kubeconfig file:

gcloud --project=${DEPLOYER_PROJECT_ID} \
    container clusters get-credentials \
    --zone us-central1-a \
    test-cluster

Create an attestor

An attestor is a party that is responsible for attesting that a required process has completed before a container image can be deployed. This party can be a human user or, more often, a machine process like a build and test system, or your continuous integration (CI) and deployment (CD) pipelines. You create attestors in your attestor project.

Creating an attestor requires you to:

  • Create a note in Artifact Analysis to store trusted metadata used in the authorization process
  • Create the attestor itself in the attestor project and associate the note you created
  • Add an IAM role binding for the deployer project service account to the attestor
  • Set permissions on the Artifact Analysis note

For this tutorial, you have one attestor named test-attestor and a Container Analysis note named test-attestor-note. In a real-world scenario, you can have any number of attestors, each one representing a party that participates in the authorization process for the image.

Create the Artifact Analysis note

  1. Set variables that store the name of your attestor and Artifact Analysis note:

    ATTESTOR_NAME=test-attestor
    NOTE_ID=test-attestor-note
    

    Replace:

    • test-attestor: attestor name of your choice.
    • test-attestor-note: attestor note name of your choice.
  2. Create a JSON file in /tmp/note_payload.json that describes the Container Analysis note:

    cat > /tmp/note_payload.json << EOM
    {
      "name": "projects/${ATTESTOR_PROJECT_ID}/notes/${NOTE_ID}",
      "attestation": {
        "hint": {
          "human_readable_name": "Attestor Note"
        }
      }
    }
    EOM
    
  3. Create the note by sending an HTTP request to the Artifact Analysis REST API:

    curl -X POST \
        -H "Content-Type: application/json" \
        -H "Authorization: Bearer $(gcloud auth print-access-token)"  \
        --data-binary @/tmp/note_payload.json  \
        "https://containeranalysis.googleapis.com/v1/projects/${ATTESTOR_PROJECT_ID}/notes/?noteId=${NOTE_ID}"
    
  4. Verify that the note was created:

    curl \
    -H "Authorization: Bearer $(gcloud auth print-access-token)" \
    "https://containeranalysis.googleapis.com/v1/projects/${ATTESTOR_PROJECT_ID}/notes/${NOTE_ID}"
    

Create the attestor

Now, you can create the attestor:

  1. Create the attestor in Binary Authorization:

    gcloud --project=${ATTESTOR_PROJECT_ID} \
        container binauthz attestors create ${ATTESTOR_NAME} \
        --attestation-authority-note=${NOTE_ID} \
        --attestation-authority-note-project=${ATTESTOR_PROJECT_ID}
    
  2. Verify that the attestor was created:

    gcloud --project=${ATTESTOR_PROJECT_ID} \
        container binauthz attestors list
    

The attestor you created is not yet usable without an associated PKIX key pair, which you create below.

Add an IAM role binding for the deployer project

You must add an IAM role binding for the deployer project to the attestor. This is used by Binary Authorization when it evaluates a policy to determine whether the project has permissions to access any associated attestations.

To add the IAM role binding:

gcloud --project ${ATTESTOR_PROJECT_ID} \
    container binauthz attestors add-iam-policy-binding \
    "projects/${ATTESTOR_PROJECT_ID}/attestors/${ATTESTOR_NAME}" \
    --member="serviceAccount:${DEPLOYER_SERVICE_ACCOUNT}" \
    --role=roles/binaryauthorization.attestorsVerifier

Set permissions on the Artifact Analysis note

You must also set permissions on the Artifact Analysis note you created so that it is accessible to both the deployer project and the attestor project. You do this by updating the IAM policy for the note to assign Viewer access to the project service accounts.

  1. Generate a JSON file that contains the information needed to set the IAM policy on your note.

    cat > /tmp/iam_request.json << EOM
    {
      'resource': 'projects/${ATTESTOR_PROJECT_ID}/notes/${NOTE_ID}',
      'policy': {
        'bindings': [
          {
            'role': 'roles/containeranalysis.notes.occurrences.viewer',
            'members': [
              'serviceAccount:${ATTESTOR_SERVICE_ACCOUNT}',
              'serviceAccount:${DEPLOYER_SERVICE_ACCOUNT}'
            ]
          }
        ]
      }
    }
    EOM
    
  2. Add the service account and requested access roles to the IAM policy for the note you created:

    curl -X POST  \
        -H "Content-Type: application/json" \
        -H "Authorization: Bearer $(gcloud auth print-access-token)" \
        --data-binary @/tmp/iam_request.json \
        "https://containeranalysis.googleapis.com/v1/projects/${ATTESTOR_PROJECT_ID}/notes/${NOTE_ID}:setIamPolicy"
    

Set up PKIX keys

Binary Authorization uses cryptographic keys to securely verify the identity of attestors. This ensures that only verified parties can participate in the authorization of a container image. The key pair consists of a private key, which the attestor uses to digitally sign attestations, and a public key, which you add to the attestor as stored by the Binary Authorization service.

In this tutorial, you use the recommended Elliptic Curve Digital Signature Algorithm (ECDSA) to create the key pair. You can also use RSA or PGP keys for signing. See Key purposes and algorithms for more information on signing algorithms.

The asymmetric keys generated and stored by Cloud Key Management Service (Cloud KMS) are PKIX-compliant. See Creating attestors using the CLI for more information on using PKIX keys and Cloud KMS.

Generate a key pair

A PKIX key pair consists of a private key, which the signer uses to digitally sign attestations, and a public key, which you add to the attestor. At deploy time, Binary Authorization uses this public key to verify the attestation signed by the private key.

  1. Generate the private key:

    To generate a new local asymmetric PKIX key pair and store it in a file:

    PKIX (Cloud KMS)

    This step shows how to perform an attestation using keys generated and stored in Cloud Key Management Service.

    1. Set up environment variables to store information about the key pair as managed by Cloud KMS:

      If you already have a key pair, you can set these environment variables and skip the next step.

      KMS_KEY_PROJECT_ID=KMS_KEY_PROJECT_ID
      KMS_KEY_LOCATION=KMS_KEY_LOCATION
      KMS_KEYRING_NAME=KMS_KEYRING_NAME
      KMS_KEY_NAME=KMS_KEY_NAME
      KMS_KEY_VERSION=KMS_KEY_VERSION
      

      Replace the following:

      • KMS_KEY_PROJECT_ID: the ID of the project where the keys are stored
      • KMS_KEY_LOCATION: the location of the key
      • KMS_KEYRING_NAME: the name of the key ring
      • KMS_KEY_NAME: the name of the key
      • KMS_KEY_VERSION: the key version
    2. [Optional] Set up a KMS key:

      1. Create a KMS key whose public key can be stored in an attestor. This step also sets up environment variables you use below.

        To create a key and set up the environment variables:

        KMS_KEY_PROJECT_ID=${PROJECT_ID}
        KMS_KEYRING_NAME=my-binauthz-keyring
        KMS_KEY_NAME=my-binauthz-kms-key-name
        KMS_KEY_LOCATION=global
        KMS_KEY_PURPOSE=asymmetric-signing
        KMS_KEY_ALGORITHM=ec-sign-p256-sha256
        KMS_PROTECTION_LEVEL=software
        KMS_KEY_VERSION=1
        
      2. Create a KMS key ring:

        gcloud kms keyrings create ${KMS_KEYRING_NAME} \
          --location ${KMS_KEY_LOCATION} \
          --project ${KMS_KEY_PROJECT_ID}
        
      3. Create the key:

        gcloud kms keys create ${KMS_KEY_NAME} \
          --location ${KMS_KEY_LOCATION} \
          --keyring ${KMS_KEYRING_NAME}  \
          --purpose ${KMS_KEY_PURPOSE} \
          --default-algorithm ${KMS_KEY_ALGORITHM} \
          --protection-level ${KMS_PROTECTION_LEVEL} \
          --project ${KMS_KEY_PROJECT_ID}
        

        For more information on creating KMS keys, see Create an asymmetric key.

    3. Add the public key to the attestor:

      gcloud --project="${ATTESTOR_PROJECT_ID}" \
          container binauthz attestors public-keys add \
          --attestor="${ATTESTOR_NAME}" \
          --keyversion-project="${KMS_KEY_PROJECT_ID}" \
          --keyversion-location="${KMS_KEY_LOCATION}" \
          --keyversion-keyring="${KMS_KEYRING_NAME}" \
          --keyversion-key="${KMS_KEY_NAME}" \
          --keyversion="${KMS_KEY_VERSION}"
      

    PKIX (local key)

    1. To generate the private key, run the following commands:

      PRIVATE_KEY_FILE="/tmp/ec_private.pem"
      openssl ecparam -genkey -name prime256v1 -noout -out ${PRIVATE_KEY_FILE}
      

      PRIVATE_KEY_FILE is the name of the file that contains the private key that is stored in the attestor.

    2. Extract the public key from the private key and store it in a file:

      PUBLIC_KEY_FILE="/tmp/ec_public.pem"
      openssl ec -in ${PRIVATE_KEY_FILE} -pubout -out ${PUBLIC_KEY_FILE}
      

      PUBLIC_KEY_FILE is the name of the file that contains the public key that is stored in the attestor.

    3. To add the public key you exported to the attestor, run the following code.

      gcloud --project="${ATTESTOR_PROJECT_ID}" \
        container binauthz attestors public-keys add \
        --attestor="${ATTESTOR_NAME}" \
        --pkix-public-key-file=${PUBLIC_KEY_FILE} \
        --pkix-public-key-algorithm=ecdsa-p256-sha256
      

      Binary Authorization uses the public key in the attestor to verify the attestation.

Configure the policy

Now, you can configure your policy in the deployer project. In this step, you export the policy YAML file to your local system and modify the default rule so that it requires an attestation by the attestor you defined above.

To configure the policy:

  1. Create a new policy file that allows Google-maintained system images, sets the evaluationMode to REQUIRE_ATTESTATION, and adds a node named requireAttestationsBy that references the attestor you created:

    cat > /tmp/policy.yaml << EOM
        globalPolicyEvaluationMode: ENABLE
        defaultAdmissionRule:
          evaluationMode: REQUIRE_ATTESTATION
          enforcementMode: ENFORCED_BLOCK_AND_AUDIT_LOG
          requireAttestationsBy:
            - projects/${ATTESTOR_PROJECT_ID}/attestors/${ATTESTOR_NAME}
        name: projects/${DEPLOYER_PROJECT_ID}/policy
    EOM
    
  2. Import the policy YAML file into Binary Authorization:

    gcloud --project=${DEPLOYER_PROJECT_ID} \
        container binauthz policy import /tmp/policy.yaml
    

For more information on configuring a policy, see Configuring a Policy Using the CLI.

Test the policy

In this tutorial, you create an attestation for example, public "Hello World!" images from Container Registry and Artifact Registry. Initially, the enforcer blocks the images from being deployed because the required attestation does not exist.

To try to deploy the image:

Container Registry

kubectl run hello-server --image gcr.io/google-samples/hello-app:1.0 --port 8080

Artifact Registry

kubectl run hello-server --image us-docker.pkg.dev/google-samples/containers/gke/hello-app:1.0 --port 8080

Now, verify that the deployment was blocked by Binary Authorization:

kubectl get pods

The command prints the following message, which indicates that the image was not deployed:

No resources found.

You can get further details about the deployment:

kubectl get event --template \
'{{range.items}}{{"\033[0;36m"}}{{.reason}}:{{"\033[0m"}}\{{.message}}{{"\n"}}{{end}}'

You see a response that resembles the following:

FailedCreate: Error creating: pods POD_NAME is forbidden: admission webhook "imagepolicywebhook.image-policy.k8s.io" denied the request: Image IMAGE_NAME denied by Binary Authorization default admission rule. Image IMAGE_NAME denied by attestor ATTESTOR_NAME: No attestations found

In this output:

  • POD_NAME: the name of the Pod.
  • IMAGE_NAME: the name of the image.
  • ATTESTOR_NAME: the name of the attestor.

Make sure to delete the deployment so you can continue to the next step:

kubectl delete deployment hello-server

Create an attestation

An attestation is a statement by an attestor that a required process in your pipeline has been completed and that the container image in question is authorized for deployment. The attestation itself is a digitally signed record that contains the full path to a version of the image as stored your container image registry, as well as the identity of the attestor.

In this tutorial, your attestation simply states that you authorize the image for deployment. You create the attestation in the attestation project.

To create an attestation:

  1. Set variables that store the registry path and digest of the image:

    Container Registry

    IMAGE_PATH="gcr.io/google-samples/hello-app"
    IMAGE_DIGEST="sha256:c62ead5b8c15c231f9e786250b07909daf6c266d0fcddd93fea882eb722c3be4"
    

    Artifact Registry

    IMAGE_PATH="us-docker.pkg.dev/google-samples/containers/gke/hello-app"
    IMAGE_DIGEST="sha256:37e5287945774f27b418ce567cd77f4bbc9ef44a1bcd1a2312369f31f9cce567"
    IMAGE_TO_ATTEST=${IMAGE_PATH}@${IMAGE_DIGEST}
    
  2. Create the attestation

    PKIX Cloud KMS

    To create the attestation using the Cloud KMS key, run the following command:

    gcloud beta container binauthz attestations sign-and-create \
        --project="${PROJECT_ID}" \
        --artifact-url="${IMAGE_TO_ATTEST}" \
        --attestor="${ATTESTOR_NAME}" \
        --attestor-project="${PROJECT_ID}" \
        --keyversion-project="${KMS_KEY_PROJECT_ID}" \
        --keyversion-location="${KMS_KEY_LOCATION}" \
        --keyversion-keyring="${KMS_KEYRING_NAME}" \
        --keyversion-key="${KMS_KEY_NAME}" \
        --keyversion="${KMS_KEY_VERSION}"
    

    PKIX (local key)

    To create the attestation using a local key, do the following:

    1. Generate the attestation payload:

      gcloud --project=${ATTESTATION_PROJECT_ID} \
        container binauthz create-signature-payload \
        --artifact-url=${IMAGE_TO_ATTEST} > /tmp/generated_payload.json
      

      The payload JSON file has the following contents:

      Container Registry

      {
      "critical": {
        "identity": {
          "docker-reference": "gcr.io/google-samples/hello-app"
        },
        "image": {
          "docker-manifest-digest": "sha256:c62ead5b8c15c231f9e786250b07909daf6c266d0fcddd93fea
      882eb722c3be4"
        },
        "type": "Google cloud binauthz container signature"
      }
      }
      

      Artifact Registry

      {
      "critical": {
        "identity": {
          "docker-reference": "us-docker.pkg.dev/google-samples/containers/gke/hello-app"
        },
        "image": {
          "docker-manifest-digest": "sha256:37e5287945774f27b418ce567cd77f4bbc9ef44a1bcd1a2312369f31f9cce567"
        },
        "type": "Google cloud binauthz container signature"
      }
      }
      
    2. Sign the payload.

      If using local PKIX files, sign the payload with your local PKIX private key and output a signature file:

      openssl dgst -sha256 -sign ${PRIVATE_KEY_FILE} /tmp/generated_payload.json > /tmp/ec_signature
      

      The output file is a signed version of the payload JSON file you created above.

    3. Get the public key ID from the attestor.

      You can view your public key ID at any time using the command: gcloud container binauthz attestors describe ATTESTOR_NAME.

      To save your public key ID in an environment variable, enter this command:

      PUBLIC_KEY_ID=$(gcloud container binauthz attestors describe ${ATTESTOR_NAME} \
      --format='value(userOwnedGrafeasNote.publicKeys[0].id)' --project ${ATTESTOR_PROJECT_ID})
      
    4. Create and validate the attestation:

      gcloud container binauthz attestations create \
        --project="${ATTESTATION_PROJECT_ID}" \
        --artifact-url="${IMAGE_TO_ATTEST}" \
        --attestor="projects/${ATTESTOR_PROJECT_ID}/attestors/${ATTESTOR_NAME}" \
        --signature-file=/tmp/ec_signature \
        --public-key-id="${PUBLIC_KEY_ID}" \
        --validate
      

      The validate flag checks that the attestation can be verified by the attestor you configured in your policy.

  3. Verify that the attestation was created:

    gcloud --project=${ATTESTATION_PROJECT_ID} \
        container binauthz attestations list \
        --attestor=$ATTESTOR_NAME --attestor-project=$ATTESTOR_PROJECT_ID
    

For more information on creating attestations, see Creating Attestations.

Retest the policy

Test the policy by deploying a sample container image to the cluster. This time, you must deploy the image using the digest rather than a tag like 1.0 or latest, as Binary Authorization uses the digest to look up attestations. Here, Binary Authorization allows the image to be deployed because the image has an associated attestation.

To deploy the image:

kubectl run hello-server --image ${IMAGE_TO_ATTEST} --port 8080

To verify that the image was deployed:

kubectl get pods

The command prints a message similar to the following, which indicates that deployment was successful:

NAME                            READY     STATUS    RESTARTS   AGE
hello-server-579859fb5b-h2k8s   1/1       Running   0          1m

Now that you have successfully deployed the container image and verified that your setup is working, you can delete the cluster you created in GKE:

gcloud --project=${DEPLOYER_PROJECT_ID} \
    container clusters delete \
    --zone=us-central1-a \
    test-cluster

Clean up

To avoid incurring charges to your Google Cloud account for the resources used in this tutorial, either delete the project that contains the resources, or keep the project and delete the individual resources.

  1. Delete the cluster that you created in GKE:

    gcloud container clusters delete \
        --zone=us-central1-a \
        test-cluster
    
  2. You can also delete Google Cloud projects that you created for this tutorial.

What's next