Client-Side Field Level Encryption

Launch the mongosh Shell.

Create a mongosh session without connecting to a running database by using the

mongosh --nodb

Create the Encryption Configuration.

Configuring client-side field level encryption for the AWS KMS requires an AWS Access Key ID and its associated Secret Access Key. The AWS Access Key must correspond to an IAM user with all List and Read permissions for the KMS service.

In mongosh, create a new AutoEncryptionOpts variable for storing the client-side field level encryption configuration, which contains these credentials:

var autoEncryptionOpts = {
  "keyVaultNamespace" : "encryption.__dataKeys",
  "kmsProviders" : {
    "aws" : {
      "accessKeyId" : "YOUR_AWS_ACCESS_KEY_ID",
      "secretAccessKey" : "YOUR_AWS_SECRET_ACCESS_KEY"
    }
  }
}

Fill in the values for YOUR_AWS_ACCESS_KEY_ID and YOUR_AWS_SECRET_ACCESS_KEY as appropriate.

Connect with Encryption Support.

In mongosh, use the Mongo() constructor to establish a database connection to the target cluster. Specify the AutoEncryptionOpts document as the second parameter to the Mongo() constructor to configure the connection for client-side field level encryption:

csfleDatabaseConnection = Mongo(
  "mongodb://replaceMe.example.net:27017/?replicaSet=myMongoCluster",
  autoEncryptionOpts
)

Replace the replaceMe.example.net URI with the connection string for the target cluster.

Create the Key Vault Object.

Create the keyVault object using the getKeyVault() shell method:

keyVault = csfleDatabaseConnection.getKeyVault();

Create the Encryption Key.

Create the data encryption key using the createKey() shell method:

keyVault.createKey(
  "aws",
  { region: "regionname", key: "awsarn" },
  [ "keyAlternateName" ]
)

Where:

• The first parameter must be "aws" to specify the configured Amazon Web Services KMS.

• The second parameter must be a document containing the following:

  • the AWS region you are connecting to, such as us-west-2

  • the Amazon Resource Name (ARN)to the AWS customer master key (CMK).

• The third parameter may be an array of one or more keyAltNames for the data encryption key. Each key alternate name must be unique. getKeyVault() creates a unique index on keyAltNames to enforce uniqueness on the field if one does not already exist. Key alternate names facilitate data encryption key findability.

If successful, createKey() returns the UUID of the new data encryption key. To retrieve the new data encryption key document from the key vault, either:

• Use getKey() to retrieve the created key by its UUID, or

• Use getKeyByAltName() to retrieve the key by its alternate name, if specified.

Launch the mongosh Shell.

Create a mongosh session without connecting to a running database by using the --nodb option:

mongosh --nodb

Create the Encryption Configuration.

Configuring client-side field level encryption for Azure Key Vault requires a valid Tenant ID, Client ID, and Client Secret.

In mongosh, create a new AutoEncryptionOpts variable for storing the client-side field level encryption configuration, which contains these credentials:

var autoEncryptionOpts = {
  "keyVaultNamespace" : "encryption.__dataKeys",
  "kmsProviders" : {
    "azure" : {
      "tenantId" : "YOUR_TENANT_ID",
      "clientId" : "YOUR_CLIENT_ID",
      "clientSecret" : "YOUR_CLIENT_SECRET"
    }
  }
}

Fill in the values for YOUR_TENANT_ID, YOUR_CLIENT_ID, and YOUR_CLIENT_SECRET as appropriate.

Connect with Encryption Support.

In mongosh, use the Mongo() constructor to establish a database connection to the target cluster. Specify the AutoEncryptionOpts document as the second parameter to the Mongo() constructor to configure the connection for client-side field level encryption:

csfleDatabaseConnection = Mongo(
  "mongodb://replaceMe.example.net:27017/?replicaSet=myMongoCluster",
  autoEncryptionOpts
)

Replace the replaceMe.example.net URI with the connection string for the target cluster.

Create the Key Vault Object.

Create the keyVault object using the getKeyVault() shell method:

keyVault = csfleDatabaseConnection.getKeyVault();

Create the Encryption Key.

Create the data encryption key using the createKey() shell method:

keyVault.createKey(
  "azure",
  { keyName: "keyvaultname", keyVaultEndpoint: "endpointname" },
  [ "keyAlternateName" ]
)

Where:

• The first parameter must be "azure" to specify the configured Azure Key Vault.

• The second parameter must be a document containing:

  • the name of your Azure Key Vault

  • the DNS name of the Azure Key Vault to use (e.g. my-key-vault.vault.azure.net)

• The third parameter may be an array of one or more keyAltNames for the data encryption key. Each key alternate name must be unique. getKeyVault() creates a unique index on keyAltNames to enforce uniqueness on the field if one does not already exist. Key alternate names facilitate data encryption key findability.

If successful, createKey() returns the UUID of the new data encryption key. To retrieve the new data encryption key document from the key vault, either:

• Use getKey() to retrieve the created key by its UUID, or

• Use getKeyByAltName() to retrieve the key by its alternate name, if specified.

Launch the mongosh Shell.

Create a mongosh session without connecting to a running database by using the --nodb option:

mongosh --nodb

Create the Encryption Configuration.

Configuring client-side field level encryption for the GCP KMS requires your GCP Email and its associated Private Key.

In mongosh, create a new AutoEncryptionOpts variable for storing the client-side field level encryption configuration, which contains these credentials:

var autoEncryptionOpts = {
  "keyVaultNamespace" : "encryption.__dataKeys",
  "kmsProviders" : {
    "gcp" : {
      "email" : "YOUR_GCP_EMAIL",
      "privateKey" : "YOUR_GCP_PRIVATEKEY"
    }
  }
}

Fill in the values for YOUR_GCP_EMAIL and YOUR_GCP_PRIVATEKEY as appropriate.

Connect with Encryption Support.

In mongosh, use the Mongo() constructor to establish a database connection to the target cluster. Specify the AutoEncryptionOpts document as the second parameter to the Mongo() constructor to configure the connection for client-side field level encryption:

csfleDatabaseConnection = Mongo(
  "mongodb://replaceMe.example.net:27017/?replicaSet=myMongoCluster",
  autoEncryptionOpts
)

Replace the replaceMe.example.net URI with the connection string for the target cluster.

Create the Key Vault Object.

Create the keyVault object using the getKeyVault() shell method:

keyVault = csfleDatabaseConnection.getKeyVault();

Create the Encryption Key.

Create the data encryption key using the createKey() shell method:

keyVault.createKey(
  "gcp",
  { projectId: "projectid",
    location: "locationname",
    keyRing: "keyringname",
    keyName: "keyname"
  },
  [ "keyAlternateName" ]
)

Where:

• The first parameter must be "gcp" to specify the configured Google Cloud KMS.

• The second parameter must be a document containing

  • projectid is the name of your GCP project, such as my-project

  • locationname is the location of the KMS keyring, such as global

  • keyringname is the name of the KMS keyring, such as my-keyring

  • keyname is the name of your key.

• The third parameter may be an array of one or more keyAltNames for the data encryption key. Each key alternate name must be unique. getKeyVault() creates a unique index on keyAltNames to enforce uniqueness on the field if one does not already exist. Key alternate names facilitate data encryption key findability.

If successful, createKey() returns the UUID of the new data encryption key. To retrieve the new data encryption key document from the key vault, either:

• Use getKey() to retrieve the created key by its UUID, or

• Use getKeyByAltName() to retrieve the key by its alternate name, if specified.

Launch the mongosh Shell.

Create a mongosh session without connecting to a running database by using the --nodb option:

mongosh --nodb

Generate an Encryption Key.

To configure client-side field level encryption for a locally managed key, you must specify a base64-encoded 96-byte string with no line breaks. Run the following command in mongosh to generate a key matching these requirements:

crypto.randomBytes(96).toString('base64')

You will need this key in the next step.

Create the Encryption Configuration.

In mongosh, create a new AutoEncryptionOpts variable for storing the client-side field level encryption configuration, replacing MY_LOCAL_KEY with the key generated in step 1:

var autoEncryptionOpts = {
  "keyVaultNamespace" : "encryption.__dataKeys",
  "kmsProviders" : {
    "local" : {
      "key" : BinData(0, "MY_LOCAL_KEY")
    }
  }
}

Connect with Encryption Support.

In mongosh, use the Mongo() constructor to establish a database connection to the target cluster. Specify the AutoEncryptionOpts document as the second parameter to the Mongo() constructor to configure the connection for client-side field level encryption:

csfleDatabaseConnection = Mongo(
  "mongodb://replaceMe.example.net:27017/?replicaSet=myMongoCluster",
  autoEncryptionOpts
)

Create the Key Vault Object.

Create the keyVault object using the getKeyVault() shell method:

keyVault = csfleDatabaseConnection.getKeyVault();

Create the Encryption Key.

Create the data encryption key using the createKey() shell method:

keyVault.createKey(
  "local",
  [ "keyAlternateName" ]
)

Where:

• The first parameter must be local to specify the configured Locally Managed Key.

• The second parameter may be an array of one or more keyAltNames for the data encryption key. Each key alternate name must be unique. getKeyVault() creates a unique index on keyAltNames to enforce uniqueness on the field if one does not already exist. Key alternate names facilitate data encryption key findability.

If successful, createKey() returns the UUID of the new data encryption key. To retrieve the new data encryption key document from the key vault, either:

• Use getKey() to retrieve the created key by its UUID, or

• Use getKeyByAltName() to retrieve the key by its alternate name, if specified.