Docs Menu
Docs Home
/
MongoDB Manual
/ / / / /

How CSFLE Decrypts Documents

On this page

  • Metadata Used for Decryption
  • Automatic Decryption Process
  • Automatically Encrypted Read Behavior
  • Learn More

This page describes how CSFLE uses metadata from your Data Encryption Key and Customer Master Key to decrypt data.

When you encrypt data using CSFLE, the data you encrypt is stored as a BinData subtype 6 object that includes the following metadata:

  • The _id of the Data Encryption Key used to encrypt the data

  • The encryption algorithm used to encrypt the data

Data Encryption Keys contain metadata that describes what Customer Master Key was used to encrypt them.

Drivers and mongosh use this metadata to attempt to automatically decrypt your data.

To automatically decrypt your data, your CSFLE-enabled client performs the following procedure:

  1. Check the BinData blob metadata of the field you intend to decrypt for the Data Encryption Key and encryption algorithm used to encrypt the value.

  2. Check the Key Vault collection configured in the current database connection for the specified Data Encryption Key. If the Key Vault collection does not contain the specified key, automatic decryption fails and the driver returns an error.

  3. Check the Data Encryption Key metadata for the Customer Master Key (CMK) used to encrypt the key material.

  4. Decrypt the Data Encryption Key. This process varies by KMS provider:

    For the Amazon Web Services (AWS) KMS, send the Data Encryption Key to your AWS KMS instance for decryption. If the CMK does not exist or if the connection configuration does not grant access to the CMK, decryption fails and the driver returns the encrypted BinData blob.

    Tip

    To learn how to use the Amazon Web Services KMS for automatic encryption, see Use Automatic Client-Side Field Level Encryption with AWS.

    For the Google Cloud Platform (GCP) KMS, send the Data Encryption Key to your GCP KMS instance for decryption. If the CMK does not exist or if the connection configuration does not grant access to the CMK, decryption fails and the driver returns the encrypted BinData blob.

    Tip

    To learn how to use the Google Cloud Platform KMS for automatic encryption, see Use Automatic Client-Side Field Level Encryption with GCP.

    For the Azure Key Vault, send the Data Encryption Key to the your Azure Key Vault instance for decryption. If the CMK does not exist or if the connection configuration does not grant access to the CMK, decryption fails and the driver returns the encrypted BinData blob.

    Tip

    To learn how to use the Azure Key Vault for automatic encryption, see Use Automatic Client-Side Field Level Encryption with Azure.

    For a KMIP-compliant KMS, retrieve the CMK from the KMS and then use the CMK locally to decrypt the Data Encryption Key. If the CMK does not exist or if the connection configuration does not grant access to the CMK, decryption fails and the driver returns the encrypted BinData blob.

    Tip

    To learn how to use a KMIP-compliant KMS for automatic encryption, see Use Automatic Client-Side Field Level Encryption with KMIP.

    For a Local Key Provider, retrieve the CMK from your filesystem and use it to decrypt the Data Encryption Key. If the local key specified in the database configuration was not used to encrypt the Data Encryption Key, decryption fails and the driver returns the encrypted BinData blob.

    Warning

    Do Not Use the Local Key Provider in Production

    The Local Key Provider is an insecure method of storage and is not recommended for production. Instead, you should store your Customer Master Keys in a remote Key Management System (KMS).

    To learn how to use a remote KMS in your CSFLE implementation, see the Tutorials guide.

  5. Decrypt the BinData value using the decrypted Data Encryption Key and appropriate algorithm.

Applications with access to the MongoDB server that do not also have access to the required CMK and Data Encryption Keys cannot decrypt the BinData values.

For read operations, the driver encrypts field values in the query document using your encryption schema prior to issuing the read operation.

Your client application then uses the BinData metadata to automatically decrypt the document you receive from MongoDB.

To learn more about encryption schemas, see Encryption Schemas.

To learn how to configure the database connection for Client-Side Field Level Encryption, see CSFLE-Specific MongoClient Options.

To learn more about the relationship between Data Encryption Keys and Customer Master Keys, see Keys and Key Vaults.

Back

CSFLE Encryption Components