Use Automatic Client-Side Field Level Encryption with Azure
On this page
- Overview
- Before You Get Started
- Full Application Code
- Set Up the KMS
- Register your Application with Azure
- Create the Customer Master Key
- Create the Application
- Create a Unique Index on your Key Vault collection
- Create a New Data Encryption Key
- Configure the MongoClient
- Insert a Document with Encrypted Fields
- Retrieve Your Document with Encrypted Fields
- Learn More
Overview
This guide shows you how to build a Client-Side Field Level Encryption (CSFLE)-enabled application using Azure Key Vault.
After you complete the steps in this guide, you should have:
A Customer Master Key hosted on an Azure Key Vault instance.
A working client application that inserts documents with encrypted fields using your Customer Master Key.
Before You Get Started
To complete and run the code in this guide, you need to set up your development environment as shown in the Installation Requirements page.
Throughout this guide, code examples use placeholder text. Before you run the examples, substitute your own values for these placeholders.
For example:
dek_id := "<Your Base64 DEK ID>"
You would replace everything between quotes with your DEK ID.
dek_id := "abc123"
Select the programming language for which you want to see code examples for from the Select your language dropdown menu on the right side of the page.
Full Application Code
To see the complete code for the sample application, select your programming language in the language selector.
Set Up the KMS
// You are viewing the C# driver code examples. // Use the dropdown menu to select a different driver.
// You are viewing the Golang driver code examples. // Use the dropdown menu to select a different driver.
Important
When building or running the Golang code in this guide using
go build
or go run
, always include the cse
build
constraint to enable CSFLE. See the following shell
command for an example of including the build constraint:
go run -tags cse insert-encrypted-document.go
// You are viewing the Java synchronous driver code examples. // Use the dropdown menu to select a different driver.
// You are viewing the Node.js driver code examples. // Use the dropdown menu to select a different driver.
# You are viewing the Python driver code examples. # Use the dropdown menu to select a different driver.
Register your Application with Azure
Log in to Azure.
Register your Application with Azure Active Directory
To register an application on Azure Active Directory, follow Microsoft's official Register an application with the Microsoft identity platform Quick Start.
Important
Record your Credentials
Ensure you record the following credentials:
Tenant ID
Client ID
Client secret
You will need them to construct your
kmsProviders
object later in this tutorial.Important
Record your Credentials
Ensure you record the following credentials:
Tenant ID
Client ID
Client secret
You will need them to construct your
kmsProviders
object later in this tutorial.Important
Record your Credentials
Ensure you record the following credentials:
tenant id
client id
client secret
Unless you are running your client within an Azure Virtual Machine, you will need these credentials to construct your
kmsProviders
object later in this tutorial.Important
Record your Credentials
Ensure you record the following credentials:
Tenant ID
Client ID
Client secret
You will need them to construct your
kmsProviders
object later in this tutorial.Important
Record your Credentials
Ensure you record the following credentials:
Tenant ID
Client ID
Client secret
You will need them to construct your
kmsProviders
object later in this tutorial.
Create the Customer Master Key
Create your Azure Key Vault and Customer Master Key
To create a new Azure Key Vault instance and Customer Master Key, follow Microsoft's official Set and retrieve a key from Azure Key Vault using the Azure portal Quick Start.
Note
The Customer Master Key should have an RSA key size of 2048 or 4096 bits.
Important
Record your Credentials
Ensure you record the following credentials:
Key Name
Key Identifier (referred to as
keyVaultEndpoint
later in this guide)Key Version
You will need them to construct your
dataKeyOpts
object later in this tutorial.Grant Permissions
Create the Application
Create a Unique Index on your Key Vault collection
Create a unique index on the keyAltNames
field in your
encryption.__keyVault
namespace.
Select the tab corresponding to your preferred MongoDB driver:
var connectionString = "<Your MongoDB URI>"; var keyVaultNamespace = CollectionNamespace.FromFullName("encryption.__keyVault"); var keyVaultClient = new MongoClient(connectionString); var indexOptions = new CreateIndexOptions<BsonDocument>(); indexOptions.Unique = true; indexOptions.PartialFilterExpression = new BsonDocument { { "keyAltNames", new BsonDocument { { "$exists", new BsonBoolean(true) } } } }; var builder = Builders<BsonDocument>.IndexKeys; var indexKeysDocument = builder.Ascending("keyAltNames"); var indexModel = new CreateIndexModel<BsonDocument>(indexKeysDocument, indexOptions); var keyVaultDatabase = keyVaultClient.GetDatabase(keyVaultNamespace.DatabaseNamespace.ToString()); // Drop the Key Vault Collection in case you created this collection // in a previous run of this application. keyVaultDatabase.DropCollection(keyVaultNamespace.CollectionName); // Drop the database storing your encrypted fields as all // the DEKs encrypting those fields were deleted in the preceding line. keyVaultClient.GetDatabase("medicalRecords").DropCollection("patients"); var keyVaultCollection = keyVaultDatabase.GetCollection<BsonDocument>(keyVaultNamespace.CollectionName.ToString()); keyVaultCollection.Indexes.CreateOne(indexModel);
uri := "<Your MongoDB URI>" keyVaultClient, err := mongo.Connect(context.TODO(), options.Client().ApplyURI(uri)) if err != nil { return fmt.Errorf("Connect error for regular client: %v", err) } defer func() { _ = keyVaultClient.Disconnect(context.TODO()) }() keyVaultColl := "__keyVault" keyVaultDb := "encryption" keyVaultNamespace := keyVaultDb + "." + keyVaultColl keyVaultIndex := mongo.IndexModel{ Keys: bson.D{{"keyAltNames", 1}}, Options: options.Index(). SetUnique(true). SetPartialFilterExpression(bson.D{ {"keyAltNames", bson.D{ {"$exists", true}, }}, }), } // Drop the Key Vault Collection in case you created this collection // in a previous run of this application. if err = keyVaultClient.Database(keyVaultDb).Collection(keyVaultColl).Drop(context.TODO()); err != nil { log.Fatalf("Collection.Drop error: %v", err) } // Drop the database storing your encrypted fields as all // the DEKs encrypting those fields were deleted in the preceding line. if err = keyVaultClient.Database("medicalRecords").Collection("patients").Drop(context.TODO()); err != nil { log.Fatalf("Collection.Drop error: %v", err) } _, err = keyVaultClient.Database(keyVaultDb).Collection(keyVaultColl).Indexes().CreateOne(context.TODO(), keyVaultIndex) if err != nil { panic(err) }
String connectionString = "<Your MongoDB URI>"; String keyVaultDb = "encryption"; String keyVaultColl = "__keyVault"; String keyVaultNamespace = keyVaultDb + "." + keyVaultColl; MongoClient keyVaultClient = MongoClients.create(connectionString); // Drop the Key Vault Collection in case you created this collection // in a previous run of this application. keyVaultClient.getDatabase(keyVaultDb).getCollection(keyVaultColl).drop(); // Drop the database storing your encrypted fields as all // the DEKs encrypting those fields were deleted in the preceding line. keyVaultClient.getDatabase("medicalRecords").getCollection("patients").drop(); MongoCollection keyVaultCollection = keyVaultClient.getDatabase(keyVaultDb).getCollection(keyVaultColl); IndexOptions indexOpts = new IndexOptions().partialFilterExpression(new BsonDocument("keyAltNames", new BsonDocument("$exists", new BsonBoolean(true) ))).unique(true); keyVaultCollection.createIndex(new BsonDocument("keyAltNames", new BsonInt32(1)), indexOpts); keyVaultClient.close();
const uri = "<Your Connection String>"; const keyVaultDatabase = "encryption"; const keyVaultCollection = "__keyVault"; const keyVaultNamespace = `${keyVaultDatabase}.${keyVaultCollection}`; const keyVaultClient = new MongoClient(uri); await keyVaultClient.connect(); const keyVaultDB = keyVaultClient.db(keyVaultDatabase); // Drop the Key Vault Collection in case you created this collection // in a previous run of this application. await keyVaultDB.dropDatabase(); // Drop the database storing your encrypted fields as all // the DEKs encrypting those fields were deleted in the preceding line. await keyVaultClient.db("medicalRecords").dropDatabase(); const keyVaultColl = keyVaultDB.collection(keyVaultCollection); await keyVaultColl.createIndex( { keyAltNames: 1 }, { unique: true, partialFilterExpression: { keyAltNames: { $exists: true } }, } );
connection_string = "<your connection string here>" key_vault_coll = "__keyVault" key_vault_db = "encryption" key_vault_namespace = f"{key_vault_db}.{key_vault_coll}" key_vault_client = MongoClient(connection_string) # Drop the Key Vault Collection in case you created this collection # in a previous run of this application. key_vault_client.drop_database(key_vault_db) # Drop the database storing your encrypted fields as all # the DEKs encrypting those fields were deleted in the preceding line. key_vault_client["medicalRecords"].drop_collection("patients") key_vault_client[key_vault_db][key_vault_coll].create_index( [("keyAltNames", ASCENDING)], unique=True, partialFilterExpression={"keyAltNames": {"$exists": True}}, )
Create a New Data Encryption Key
Add your Azure Key Vault Credentials
Add the service account credentials to your CSFLE-enabled client code.
var kmsProviderCredentials = new Dictionary<string, IReadOnlyDictionary<string, object>>(); var provider = "azure"; var azureKmsOptions = new Dictionary<string, object> { { "tenantId", "<Your Azure Tenant ID>" }, { "clientId", "<Your Azure Client ID>" }, { "clientSecret", "<Your Azure Client Secret>" }, }; You can also provide a custom name for your KMS provider by passing in a string that includes the name of the KMS provider, followed by a colon and the custom name. Providing a unique name for a KMS provider allows you to specify multiple KMS providers of the same type.
For example, you can name your Azure KMS provider "my_azure_provider" in your KMS credentials variable as shown in the following code:
var kmsProviderCredentials = new Dictionary<string, IReadOnlyDictionary<string, object>>(); var kmsOptions = new Dictionary<string, object> { { "tenantId", _appSettings["Azure:TenantId"] }, // Your Azure tenant ID { "clientId", _appSettings["Azure:ClientId"] }, // Your Azure client ID { "clientSecret", _appSettings["Azure:ClientSecret"] } // Your Azure client secret }; kmsProviderCredentials.Add("azure:my_azure_provider", kmsOptions); provider := "azure" kmsProviders := map[string]map[string]interface{}{ provider: { "tenantId": "<Your Azure Tenant ID>", "clientId": "<Your Azure Client ID>", "clientSecret": "<Your Azure Client Secret>", }, } String kmsProvider = "azure"; Map<String, Map<String, Object>> kmsProviderDetails = new HashMap<String, Map<String, Object>>(); Map<String, Object> providerDetails = new HashMap<>(); providerDetails.put("tenantId", "<Azure account organization>"); providerDetails.put("clientId", "<Azure client ID>"); providerDetails.put("clientSecret", "<Azure client secret>"); kmsProviderDetails.put(kmsProvider, providerDetails); You can also provide a custom name for your KMS provider by passing in a string that includes the name of the KMS provider, followed by a colon and the custom name. Providing a unique name for a KMS provider allows you to specify multiple KMS providers of the same type.
For example, you can name your Azure KMS provider "my_azure_provider" in your KMS credentials variable as shown in the following code:
Map<String, Object> kmsProviderDetails = new HashMap<>(); kmsProviderDetails.put("tenantId", getEnv("AZURE_TENANT_ID")); // Your Azure tenant ID kmsProviderDetails.put("clientId", getEnv("AZURE_CLIENT_ID")); // Your Azure client ID kmsProviderDetails.put("clientSecret", getEnv("AZURE_CLIENT_SECRET")); // Your Azure client secret Map<String, Map<String, Object>> kmsProviderCredentials = new HashMap<String, Map<String, Object>>(); kmsProviderCredentials.put("azure:my_azure_provider", kmsProviderDetails); Tip
Azure Virtual Machine Managed Identities
If your client runs on an Azure Virtual Machine (VM), you can allow the VM to use its Managed Identity to authenticate to your key vault.
To allow the Azure VM to automatically provide your credentials, assign an empty map instead of one that contains your Azure credentials as shown in the following code:
String kmsProvider = "azure"; Map<String, Map<String, Object>> kmsProviders = new HashMap<String, Map<String, Object>>(); Map<String, Object> providerDetails = new HashMap<>(); kmsProviders.put(kmsProvider, providerDetails); const provider = "azure"; const kmsProviderCredentials = { azure: { tenantId: "<Your Tenant ID>", clientId: "<Your Client ID>", clientSecret: "<Your Client Secret>", }, }; You can also provide a custom name for your KMS provider by passing in a string that includes the name of the KMS provider, followed by a colon and the custom name. Providing a unique name for a KMS provider allows you to specify multiple KMS providers of the same type.
For example, you can name your Azure KMS provider "my_azure_provider" in your KMS credentials variable as shown in the following code:
kmsProviderCredentials = { "azure:my_azure_provider": { tenantId: process.env.AZURE_TENANT_ID, // Your Azure tenant ID clientId: process.env.AZURE_CLIENT_ID, // Your Azure client ID clientSecret: process.env.AZURE_CLIENT_SECRET, // Your Azure client secret }, }; provider = "azure" kms_provider_credentials = { provider: { "tenantId": "<Azure account organization>", "clientId": "<Azure client ID>", "clientSecret": "<Azure client secret>", } } You can also provide a custom name for your KMS provider by passing in a string that includes the name of the KMS provider, followed by a colon and the custom name. Providing a unique name for a KMS provider allows you to specify multiple KMS providers of the same type.
For example, you can name your Azure KMS provider "my_azure_provider" in your KMS credentials variable as shown in the following code:
kms_provider_credentials = { "azure:my_azure_provider": { "tenantId": os.environ['AZURE_TENANT_ID'], # Your Azure tenant ID "clientId": os.environ['AZURE_CLIENT_ID'], # Your Azure client ID "clientSecret": os.environ['AZURE_CLIENT_SECRET'] # Your Azure client secret } } Add Your Key Information
Update the following code to specify your Customer Master Key:
Tip
You recorded your Customer Master Key's ARN and Region in the Create a Customer Master Key step of this guide.
kmsProviderCredentials.Add(provider, azureKmsOptions); var dataKeyOptions = new DataKeyOptions( masterKey: new BsonDocument { { "keyName", "<Your Azure Key Name>" }, { "keyVaultEndpoint", "<Your Azure Key Vault Endpoint>" }, }); masterKey := map[string]interface{}{ "keyVaultEndpoint": "<Your Azure Key Vault Endpoint>", "keyName": "<Your Azure Key Name>", } BsonDocument masterKeyProperties = new BsonDocument(); masterKeyProperties.put("provider", new BsonString(kmsProvider)); masterKeyProperties.put("keyName", new BsonString("<Azure key name>")); masterKeyProperties.put("keyVaultEndpoint", new BsonString("<Azure key vault endpoint")); const masterKey = { keyVaultEndpoint: "<Your Key Vault Endpoint>", keyName: "<Your Key Name>", }; master_key = { "keyName": "<Azure key name>", "keyVersion": "<Azure key version>", "keyVaultEndpoint": "<Azure key vault endpoint/key identifier>", } Generate your Data Encryption Key
Generate your Data Encryption Key using the variables declared in step one of this tutorial.
var clientEncryptionOptions = new ClientEncryptionOptions( keyVaultClient: keyVaultClient, keyVaultNamespace: keyVaultNamespace, kmsProviders: kmsProviderCredentials ); var clientEncryption = new ClientEncryption(clientEncryptionOptions); var dataKeyId = clientEncryption.CreateDataKey(provider, dataKeyOptions, CancellationToken.None); var dataKeyIdBase64 = Convert.ToBase64String(GuidConverter.ToBytes(dataKeyId, GuidRepresentation.Standard)); Console.WriteLine($"DataKeyId [base64]: {dataKeyIdBase64}"); clientEncryptionOpts := options.ClientEncryption().SetKeyVaultNamespace(keyVaultNamespace). SetKmsProviders(kmsProviders) clientEnc, err := mongo.NewClientEncryption(keyVaultClient, clientEncryptionOpts) if err != nil { return fmt.Errorf("NewClientEncryption error %v", err) } defer func() { _ = clientEnc.Close(context.TODO()) }() dataKeyOpts := options.DataKey(). SetMasterKey(masterKey) dataKeyID, err := clientEnc.CreateDataKey(context.TODO(), provider, dataKeyOpts) if err != nil { return fmt.Errorf("create data key error %v", err) } fmt.Printf("DataKeyId [base64]: %s\n", base64.StdEncoding.EncodeToString(dataKeyID.Data)) ClientEncryptionSettings clientEncryptionSettings = ClientEncryptionSettings.builder() .keyVaultMongoClientSettings(MongoClientSettings.builder() .applyConnectionString(new ConnectionString(connectionString)) .build()) .keyVaultNamespace(keyVaultNamespace) .kmsProviders(kmsProviderDetails) .build(); MongoClient regularClient = MongoClients.create(connectionString); ClientEncryption clientEncryption = ClientEncryptions.create(clientEncryptionSettings); BsonBinary dataKeyId = clientEncryption.createDataKey(kmsProvider, new DataKeyOptions().masterKey(masterKeyProperties)); String base64DataKeyId = Base64.getEncoder().encodeToString(dataKeyId.getData()); System.out.println("DataKeyId [base64]: " + base64DataKeyId); clientEncryption.close(); const client = new MongoClient(uri); await client.connect(); const encryption = new ClientEncryption(client, { keyVaultNamespace, kmsProviderCredentials, }); const key = await encryption.createDataKey(provider, { masterKey: masterKey, }); console.log("DataKeyId [base64]: ", key.toString("base64")); await keyVaultClient.close(); await client.close(); Note
Import ClientEncryption
When using the Node.js driver v6.0 and later, you must import
ClientEncryption
frommongodb
.For earlier driver versions, import
ClientEncryption
frommongodb-client-encryption
.key_vault_database = "encryption" key_vault_collection = "__keyVault" key_vault_namespace = f"{key_vault_database}.{key_vault_collection}" client = MongoClient(connection_string) client_encryption = ClientEncryption( kms_provider_credentials, # pass in the kms_provider_credentials variable from the previous step key_vault_namespace, client, CodecOptions(uuid_representation=STANDARD), ) data_key_id = client_encryption.create_data_key(provider, master_key) base_64_data_key_id = base64.b64encode(data_key_id) print("DataKeyId [base64]: ", base_64_data_key_id)
Tip
Learn More
To view a diagram showing how your client application creates your Data Encryption Key when using an Azure Key Vault, see Architecture.
To learn more about the options for creating a Data Encryption Key encrypted with a Customer Master Key hosted in Azure Key Vault, see kmsProviders Object and dataKeyOpts Object.
Tip
See: Complete Code
To view the complete code for making a Data Encryption Key, see our Github repository
To view the complete code for making a Data Encryption Key, see our Github repository.
To view the complete code for making a Data Encryption Key, see our Github repository.
To view the complete code for making a Data Encryption Key, see our Github repository.
To view the complete code for making a Data Encryption Key, see our Github repository.
Configure the MongoClient
Tip
Follow the remaining steps in this tutorial in a separate file from the one created in the previous steps.
To view the complete code for this file, see our Github repository
To view the complete code for this file, see our Github repository.
To view the complete code for this file, see our Github repository.
To view the complete code for this file, see our Github repository.
To view the complete code for this file, see our Github repository.
Specify the Key Vault Collection Namespace
Specify
encryption.__keyVault
as the Key Vault collection namespace.var keyVaultNamespace = CollectionNamespace.FromFullName("encryption.__keyVault"); keyVaultNamespace := "encryption.__keyVault" String keyVaultNamespace = "encryption.__keyVault"; const keyVaultNamespace = "encryption.__keyVault"; key_vault_namespace = "encryption.__keyVault" Specify your Azure Credentials
Specify the
azure
KMS provider and your Azure credentials:var kmsProviders = new Dictionary<string, IReadOnlyDictionary<string, object>>(); var provider = "azure"; var azureKmsOptions = new Dictionary<string, object> { { "tenantId", "<Your Azure Tenant ID>" }, { "clientId", "<Your Azure Client ID>" }, { "clientSecret", "<Your Azure Client Secret>" }, }; kmsProviders.Add(provider, azureKmsOptions); kmsProviders := map[string]map[string]interface{}{ "azure": { "tenantId": "<Your Azure Tenant ID>", "clientId": "<Your Azure Client ID>", "clientSecret": "<Your Azure Client Secret>", }, } String kmsProvider = "azure"; Map<String, Map<String, Object>> kmsProviders = new HashMap<String, Map<String, Object>>(); Map<String, Object> providerDetails = new HashMap<>(); providerDetails.put("tenantId", "<Azure account organization>"); providerDetails.put("clientId", "<Azure client ID>"); providerDetails.put("clientSecret", "<Azure client secret>"); kmsProviders.put(kmsProvider, providerDetails); Tip
Azure Virtual Machine Managed Identities
If your client runs on an Azure Virtual Machine (VM), you can allow the VM to use its Managed Identity to authenticate to your key vault.
To allow the Azure VM to automatically provide your credentials, assign an empty map instead of one that contains your Azure credentials as shown in the following code:
String kmsProvider = "azure"; Map<String, Map<String, Object>> kmsProviders = new HashMap<String, Map<String, Object>>(); Map<String, Object> providerDetails = new HashMap<>(); kmsProviders.put(kmsProvider, providerDetails); const kmsProviders = { azure: { tenantId: "<Your Tenant ID>", clientId: "<Your Client ID>", clientSecret: "<Your Client Secret>", }, }; provider = "azure" kms_providers = { "azure": { "tenantId": "<Azure account organization>", "clientId": "<Azure client ID>", "clientSecret": "<Azure client secret>", } } Create an Encryption Schema For Your Collection
Tip
Add Your Data Encryption Key Base64 ID
Make sure to update the following code to include your Base64 DEK ID. You received this value in the Generate your Data Encryption Key step of this guide.
var keyId = "<Your base64 DEK ID here>"; var schema = new BsonDocument { { "bsonType", "object" }, { "encryptMetadata", new BsonDocument("keyId", new BsonArray(new[] { new BsonBinaryData(Convert.FromBase64String(keyId), BsonBinarySubType.UuidStandard) })) }, { "properties", new BsonDocument { { "ssn", new BsonDocument { { "encrypt", new BsonDocument { { "bsonType", "int" }, { "algorithm", "AEAD_AES_256_CBC_HMAC_SHA_512-Deterministic" } } } } }, { "bloodType", new BsonDocument { { "encrypt", new BsonDocument { { "bsonType", "string" }, { "algorithm", "AEAD_AES_256_CBC_HMAC_SHA_512-Random" } } } } }, { "medicalRecords", new BsonDocument { { "encrypt", new BsonDocument { { "bsonType", "array" }, { "algorithm", "AEAD_AES_256_CBC_HMAC_SHA_512-Random" } } } } }, { "insurance", new BsonDocument { { "bsonType", "object" }, { "properties", new BsonDocument { { "policyNumber", new BsonDocument { { "encrypt", new BsonDocument { { "bsonType", "int" }, { "algorithm", "AEAD_AES_256_CBC_HMAC_SHA_512-Deterministic" } } } } } } } } } } } }; var schemaMap = new Dictionary<string, BsonDocument>(); schemaMap.Add(dbNamespace, schema); dek_id := "<Your Base64 DEK ID>" schema_template := `{ "bsonType": "object", "encryptMetadata": { "keyId": [ { "$binary": { "base64": "%s", "subType": "04" } } ] }, "properties": { "insurance": { "bsonType": "object", "properties": { "policyNumber": { "encrypt": { "bsonType": "int", "algorithm": "AEAD_AES_256_CBC_HMAC_SHA_512-Deterministic" } } } }, "medicalRecords": { "encrypt": { "bsonType": "array", "algorithm": "AEAD_AES_256_CBC_HMAC_SHA_512-Random" } }, "bloodType": { "encrypt": { "bsonType": "string", "algorithm": "AEAD_AES_256_CBC_HMAC_SHA_512-Random" } }, "ssn": { "encrypt": { "bsonType": "int", "algorithm": "AEAD_AES_256_CBC_HMAC_SHA_512-Deterministic" } } } }` schema := fmt.Sprintf(schema_template, dek_id) var schemaDoc bson.Raw if err := bson.UnmarshalExtJSON([]byte(schema), true, &schemaDoc); err != nil { return fmt.Errorf("UnmarshalExtJSON error: %v", err) } schemaMap := map[string]interface{}{ dbName + "." + collName: schemaDoc, } String dekId = "<paste-base-64-encoded-data-encryption-key-id>>"; Document jsonSchema = new Document().append("bsonType", "object").append("encryptMetadata", new Document().append("keyId", new ArrayList<>((Arrays.asList(new Document().append("$binary", new Document() .append("base64", dekId) .append("subType", "04"))))))) .append("properties", new Document() .append("ssn", new Document().append("encrypt", new Document() .append("bsonType", "int") .append("algorithm", "AEAD_AES_256_CBC_HMAC_SHA_512-Deterministic"))) .append("bloodType", new Document().append("encrypt", new Document() .append("bsonType", "string") .append("algorithm", "AEAD_AES_256_CBC_HMAC_SHA_512-Random"))) .append("medicalRecords", new Document().append("encrypt", new Document() .append("bsonType", "array") .append("algorithm", "AEAD_AES_256_CBC_HMAC_SHA_512-Random"))) .append("insurance", new Document() .append("bsonType", "object") .append("properties", new Document().append("policyNumber", new Document().append("encrypt", new Document() .append("bsonType", "int") .append("algorithm", "AEAD_AES_256_CBC_HMAC_SHA_512-Deterministic")))))); HashMap<String, BsonDocument> schemaMap = new HashMap<String, BsonDocument>(); schemaMap.put("medicalRecords.patients", BsonDocument.parse(jsonSchema.toJson())); dataKey = "<Your base64 DEK ID>"; const schema = { bsonType: "object", encryptMetadata: { keyId: [new Binary(Buffer.from(dataKey, "base64"), 4)], }, properties: { insurance: { bsonType: "object", properties: { policyNumber: { encrypt: { bsonType: "int", algorithm: "AEAD_AES_256_CBC_HMAC_SHA_512-Deterministic", }, }, }, }, medicalRecords: { encrypt: { bsonType: "array", algorithm: "AEAD_AES_256_CBC_HMAC_SHA_512-Random", }, }, bloodType: { encrypt: { bsonType: "string", algorithm: "AEAD_AES_256_CBC_HMAC_SHA_512-Random", }, }, ssn: { encrypt: { bsonType: "int", algorithm: "AEAD_AES_256_CBC_HMAC_SHA_512-Deterministic", }, }, }, }; var patientSchema = {}; patientSchema[namespace] = schema; dek_id = b"<paste-base-64-encoded-data-encryption-key-id>" json_schema = { "bsonType": "object", "encryptMetadata": {"keyId": [Binary(base64.b64decode(dek_id), UUID_SUBTYPE)]}, "properties": { "insurance": { "bsonType": "object", "properties": { "policyNumber": { "encrypt": { "bsonType": "int", "algorithm": "AEAD_AES_256_CBC_HMAC_SHA_512-Deterministic", } } }, }, "medicalRecords": { "encrypt": { "bsonType": "array", "algorithm": "AEAD_AES_256_CBC_HMAC_SHA_512-Random", } }, "bloodType": { "encrypt": { "bsonType": "string", "algorithm": "AEAD_AES_256_CBC_HMAC_SHA_512-Random", } }, "ssn": { "encrypt": { "bsonType": "int", "algorithm": "AEAD_AES_256_CBC_HMAC_SHA_512-Deterministic", } }, }, } patient_schema = {"medicalRecords.patients": json_schema} Specify the Location of the Automatic Encryption Shared Library
var mongoBinariesPath = "<Full path to your Automatic Encryption Shared Library>"; var extraOptions = new Dictionary<string, object>() { { "cryptSharedLibPath", mongoBinariesPath }, }; extraOptions := map[string]interface{}{ "cryptSharedLibPath": "<Full path to your Automatic Encryption Shared Library>", } Map<String, Object> extraOptions = new HashMap<String, Object>(); extraOptions.put("cryptSharedLibPath", "<Full path to your Automatic Encryption Shared Library>")); const extraOptions = { cryptSharedLibPath: "<Full path to your Automatic Encryption Shared Library>", }; extra_options = { "cryptSharedLibPath": "<Full path to your Automatic Encryption Shared Library>" } Note
Automatic Encryption Options
The automatic encryption options provide configuration information to the Automatic Encryption Shared Library, which modifies the application's behavior when accessing encrypted fields.
To learn more about the Automatic Encryption Shared Library, see the Install and Configure a CSFLE Library page.
Create the MongoClient
Instantiate a MongoDB client object with the following automatic encryption settings that use the variables declared in the previous steps:
MongoClientSettings.Extensions.AddAutoEncryption(); // .NET/C# Driver v3.0 or later only var clientSettings = MongoClientSettings.FromConnectionString(connectionString); var autoEncryptionOptions = new AutoEncryptionOptions( keyVaultNamespace: keyVaultNamespace, kmsProviders: kmsProviders, schemaMap: schemaMap, extraOptions: extraOptions ); clientSettings.AutoEncryptionOptions = autoEncryptionOptions; var secureClient = new MongoClient(clientSettings); var clientSettings = MongoClientSettings.FromConnectionString(connectionString); var autoEncryptionOptions = new AutoEncryptionOptions( keyVaultNamespace: keyVaultNamespace, kmsProviders: kmsProviders, schemaMap: schemaMap, extraOptions: extraOptions ); clientSettings.AutoEncryptionOptions = autoEncryptionOptions; var secureClient = new MongoClient(clientSettings); autoEncryptionOpts := options.AutoEncryption(). SetKmsProviders(kmsProviders). SetKeyVaultNamespace(keyVaultNamespace). SetSchemaMap(schemaMap). SetExtraOptions(extraOptions) secureClient, err := mongo.Connect(context.TODO(), options.Client().ApplyURI(uri).SetAutoEncryptionOptions(autoEncryptionOpts)) if err != nil { return fmt.Errorf("Connect error for encrypted client: %v", err) } defer func() { _ = secureClient.Disconnect(context.TODO()) }() MongoClientSettings clientSettings = MongoClientSettings.builder() .applyConnectionString(new ConnectionString(connectionString)) .autoEncryptionSettings(AutoEncryptionSettings.builder() .keyVaultNamespace(keyVaultNamespace) .kmsProviders(kmsProviders) .schemaMap(schemaMap) .extraOptions(extraOptions) .build()) .build(); MongoClient mongoClientSecure = MongoClients.create(clientSettings); const secureClient = new MongoClient(connectionString, { autoEncryption: { keyVaultNamespace, kmsProviders, schemaMap: patientSchema, extraOptions: extraOptions, }, }); fle_opts = AutoEncryptionOpts( kms_providers, key_vault_namespace, schema_map=patient_schema, **extra_options ) secureClient = MongoClient(connection_string, auto_encryption_opts=fle_opts)
Insert a Document with Encrypted Fields
Use your CSFLE-enabled
MongoClient
instance to insert a document with encrypted fields into the
medicalRecords.patients
namespace using the following code
snippet:
var sampleDocFields = new BsonDocument { { "name", "Jon Doe" }, { "ssn", 145014000 }, { "bloodType", "AB-" }, { "medicalRecords", new BsonArray { new BsonDocument("weight", 180), new BsonDocument("bloodPressure", "120/80") } }, { "insurance", new BsonDocument { { "policyNumber", 123142 }, { "provider", "MaestCare" } } } }; // Construct an auto-encrypting client var secureCollection = secureClient.GetDatabase(db).GetCollection<BsonDocument>(coll); // Insert a document into the collection secureCollection.InsertOne(sampleDocFields);
test_patient := map[string]interface{}{ "name": "Jon Doe", "ssn": 241014209, "bloodType": "AB+", "medicalRecords": []map[string]interface{}{{ "weight": 180, "bloodPressure": "120/80", }}, "insurance": map[string]interface{}{ "provider": "MaestCare", "policyNumber": 123142, }, } if _, err := secureClient.Database(dbName).Collection(collName).InsertOne(context.TODO(), test_patient); err != nil { return fmt.Errorf("InsertOne error: %v", err) }
Note
Rather than creating a raw BSON document, you can pass a struct with bson
tags directly
to the driver for encoding.
ArrayList<Document> medicalRecords = new ArrayList<>(); medicalRecords.add(new Document().append("weight", "180")); medicalRecords.add(new Document().append("bloodPressure", "120/80")); Document insurance = new Document() .append("policyNumber", 123142) .append("provider", "MaestCare"); Document patient = new Document() .append("name", "Jon Doe") .append("ssn", 241014209) .append("bloodType", "AB+") .append("medicalRecords", medicalRecords) .append("insurance", insurance); mongoClientSecure.getDatabase(recordsDb).getCollection(recordsColl).insertOne(patient);
try { const writeResult = await secureClient .db(db) .collection(coll) .insertOne({ name: "Jon Doe", ssn: 241014209, bloodType: "AB+", medicalRecords: [{ weight: 180, bloodPressure: "120/80" }], insurance: { policyNumber: 123142, provider: "MaestCare", }, }); } catch (writeError) { console.error("writeError occurred:", writeError); }
def insert_patient( collection, name, ssn, blood_type, medical_records, policy_number, provider ): insurance = {"policyNumber": policy_number, "provider": provider} doc = { "name": name, "ssn": ssn, "bloodType": blood_type, "medicalRecords": medical_records, "insurance": insurance, } collection.insert_one(doc) medical_record = [{"weight": 180, "bloodPressure": "120/80"}] insert_patient( secureClient.medicalRecords.patients, "Jon Doe", 241014209, "AB+", medical_record, 123142, "MaestCare", )
When you insert a document, your CSFLE-enabled client encrypts the fields of your document such that it resembles the following:
{ "_id": { "$oid": "<_id of your document>" }, "name": "Jon Doe", "ssn": { "$binary": "<cipher-text>", "$type": "6" }, "bloodType": { "$binary": "<cipher-text>", "$type": "6" }, "medicalRecords": { "$binary": "<cipher-text>", "$type": "6" }, "insurance": { "provider": "MaestCare", "policyNumber": { "$binary": "<cipher-text>", "$type": "6" } } }
Tip
See: Complete Code
To view the complete code for inserting a document with encrypted fields, see our Github repository
To view the complete code for inserting a document with encrypted fields, see our Github repository.
To view the complete code for inserting a document with encrypted fields, see our Github repository.
To view the complete code for inserting a document with encrypted fields, see our Github repository.
To view the complete code for inserting a document with encrypted fields, see our Github repository.
Retrieve Your Document with Encrypted Fields
Retrieve the document with encrypted fields you inserted in the Insert a Document with Encrypted Fields step of this guide.
To show the functionality of CSFLE, the following code snippet queries for your document with a client configured for automatic CSFLE as well as a client that is not configured for automatic CSFLE.
Console.WriteLine("Finding a document with regular (non-encrypted) client."); var filter = Builders<BsonDocument>.Filter.Eq("name", "Jon Doe"); var regularResult = regularCollection.Find(filter).Limit(1).ToList()[0]; Console.WriteLine($"\n{regularResult}\n"); Console.WriteLine("Finding a document with encrypted client"); var ssnFilter = Builders<BsonDocument>.Filter.Eq("name", "Jon Doe"); var secureResult = secureCollection.Find(ssnFilter).Limit(1).First(); Console.WriteLine($"\n{secureResult}\n");
fmt.Println("Finding a document with regular (non-encrypted) client.") var resultRegular bson.M err = regularClient.Database(dbName).Collection(collName).FindOne(context.TODO(), bson.D{{"name", "Jon Doe"}}).Decode(&resultRegular) if err != nil { panic(err) } outputRegular, err := json.MarshalIndent(resultRegular, "", " ") if err != nil { panic(err) } fmt.Printf("%s\n", outputRegular) fmt.Println("Finding a document with encrypted client") var resultSecure bson.M err = secureClient.Database(dbName).Collection(collName).FindOne(context.TODO(), bson.D{{"name", "Jon Doe"}}).Decode(&resultSecure) if err != nil { panic(err) } outputSecure, err := json.MarshalIndent(resultSecure, "", " ") if err != nil { panic(err) } fmt.Printf("%s\n", outputSecure)
System.out.println("Finding a document with regular (non-encrypted) client."); Document docRegular = mongoClientRegular.getDatabase(recordsDb).getCollection(recordsColl).find(eq("name", "Jon Doe")).first(); System.out.println(docRegular.toJson()); System.out.println("Finding a document with encrypted client"); Document docSecure = mongoClientSecure.getDatabase(recordsDb).getCollection(recordsColl).find(eq("name", "Jon Doe")).first(); System.out.println(docSecure.toJson());
console.log("Finding a document with regular (non-encrypted) client."); console.log( await regularClient.db(db).collection(coll).findOne({ name: /Jon/ }) ); console.log("Finding a document with encrypted client"); console.log( await secureClient.db(db).collection(coll).findOne({ name: /Jon/ }) );
print("Finding a document with regular (non-encrypted) client.") result = regularClient.medicalRecords.patients.find_one({"name": "Jon Doe"}) pprint.pprint(result) print("Finding a document with encrypted client") pprint.pprint(secureClient.medicalRecords.patients.find_one({"name": "Jon Doe"}))
The output of the preceding code snippet should look like this:
Finding a document with regular (non-encrypted) client. { _id: new ObjectId("629a452e0861b3130887103a"), name: 'Jon Doe', ssn: new Binary(Buffer.from("0217482732d8014cdd9ffdd6e2966e5e7910c20697e5f4fa95710aafc9153f0a3dc769c8a132a604b468732ff1f4d8349ded3244b59cbfb41444a210f28b21ea1b6c737508d9d30e8baa30c1d8070c4d5e26", "hex"), 6), bloodType: new Binary(Buffer.from("0217482732d8014cdd9ffdd6e2966e5e79022e238536dfd8caadb4d7751ac940e0f195addd7e5c67b61022d02faa90283ab69e02303c7e4001d1996128428bf037dea8bbf59fbb20c583cbcff2bf3e2519b4", "hex"), 6), 'key-id': 'demo-data-key', medicalRecords: new Binary(Buffer.from("0217482732d8014cdd9ffdd6e2966e5e790405163a3207cff175455106f57eef14e5610c49a99bcbd14a7db9c5284e45e3ee30c149354015f941440bf54725d6492fb3b8704bc7c411cff6c868e4e13c58233c3d5ed9593eca4e4d027d76d3705b6d1f3b3c9e2ceee195fd944b553eb27eee69e5e67c338f146f8445995664980bf0", "hex"), 6), insurance: { policyNumber: new Binary(Buffer.from("0217482732d8014cdd9ffdd6e2966e5e79108decd85c05be3fec099e015f9d26d9234605dc959cc1a19b63072f7ffda99db38c7b487de0572a03b2139ac3ee163bcc40c8508f366ce92a5dd36e38b3c742f7", "hex"), 6), provider: 'MaestCare' } } Finding a document with encrypted client { _id: new ObjectId("629a452e0861b3130887103a"), name: 'Jon Doe', ssn: 241014209, bloodType: 'AB+', 'key-id': 'demo-data-key', medicalRecords: [ { weight: 180, bloodPressure: '120/80' } ], insurance: { policyNumber: 123142, provider: 'MaestCare' } }
Tip
See: Complete Code
To view the complete code for finding a document with encrypted fields, see our Github repository
To view the complete code for finding a document with encrypted fields, see our Github repository.
To view the complete code for finding a document with encrypted fields, see our Github repository.
To view the complete code for finding a document with encrypted fields, see our Github repository.
To view the complete code for finding a document with encrypted fields, see our Github repository.
Learn More
To learn how CSFLE works, see Fundamentals.
To learn more about the topics mentioned in this guide, see the following links:
Learn more about CSFLE components on the Reference page.
Learn how Customer Master Keys and Data Encryption Keys work on the Encryption Keys and Key Vaults page
See how KMS Providers manage your CSFLE keys on the KMS Providers page.