Create DNS zones and record sets using the .NET SDK
You can automate operations to create, delete, or update DNS zones, record sets, and records by using the DNS SDK with the .NET DNS Management library. A full Visual Studio project is available here.
Create a service principal account
Typically, programmatic access to Azure resources is granted with a dedicated account rather than your own user credentials. These dedicated accounts are called 'service principal' accounts. To use the Azure DNS SDK sample project, you first need to create a service principal account and assign it with the correct permissions.
Create a service principal account. The Azure DNS SDK sample project assumes password-based authentication.)
Then create a resource group.
Use Azure RBAC to grant the service principal account 'DNS Zone Contributor' permissions to the resource group.
If you're using the Azure DNS SDK sample project, edit the 'program.cs' file as followed:
- Insert the correct values for the
tenantId
,clientId
(also known as account ID),secret
(service principal account password), andsubscriptionId
as used in step 1. - Enter the resource group name created in step 2.
- Enter a DNS zone name of your choice.
- Insert the correct values for the
NuGet packages and namespace declarations
To use the Azure DNS .NET SDK, you need to install the Azure DNS Management Library NuGet package and other required Azure packages.
In Visual Studio, open a project or new project.
Go to Tools > NuGet Package Manager > Manage NuGet Packages for Solution....
Select Browse, enable the Include prerelease checkbox, and type Microsoft.Azure.Management.Dns into the search box.
Select the package and then select Install to add it to your Visual Studio project.
Repeat the process above to also install the following packages: Microsoft.Rest.ClientRuntime.Azure.Authentication and Microsoft.Azure.Management.ResourceManager.
Add namespace declarations
Add the following namespace declarations
using Microsoft.Rest.Azure.Authentication;
using Microsoft.Azure.Management.Dns;
using Microsoft.Azure.Management.Dns.Models;
Initialize the DNS management client
The DnsManagementClient
contains the methods and properties necessary for managing DNS zones and record sets. The following code logs into the service principal account and creates a DnsManagementClient
object.
// Build the service credentials and DNS management client
var serviceCreds = await ApplicationTokenProvider.LoginSilentAsync(tenantId, clientId, secret);
var dnsClient = new DnsManagementClient(serviceCreds);
dnsClient.SubscriptionId = subscriptionId;
Create or update a DNS zone
To create a DNS zone, you first need to create a "Zone" object containing the DNS zone parameters. Since DNS zones aren't linked to a specific region, the location is set to 'global'. In this example, an Azure Resource Manager 'tag' is also added to the zone.
To create or update the zone in Azure DNS, the zone object containing the zone parameters is passed to the DnsManagementClient.Zones.CreateOrUpdateAsyc
method.
Note
DnsManagementClient supports three modes of operation: synchronous ('CreateOrUpdate'), asynchronous ('CreateOrUpdateAsync'), or asynchronous with access to the HTTP response ('CreateOrUpdateWithHttpMessagesAsync'). You can choose any of these modes, depending on your application needs.
Azure DNS supports optimistic concurrency, called Etags. In this example, specifying "*" for the 'If-None-Match' header tells Azure DNS to create a DNS zone if one doesn't already exist. The call fails if a zone with the given name already exists in the given resource group.
// Create zone parameters
var dnsZoneParams = new Zone("global"); // All DNS zones must have location = "global"
// Create an Azure Resource Manager 'tag'. This is optional. You can add multiple tags
dnsZoneParams.Tags = new Dictionary<string, string>();
dnsZoneParams.Tags.Add("dept", "finance");
// Create the actual zone.
// Note: Uses 'If-None-Match *' ETAG check, so will fail if the zone exists already.
// Note: For non-async usage, call dnsClient.Zones.CreateOrUpdate(resourceGroupName, zoneName, dnsZoneParams, null, "*")
// Note: For getting the http response, call dnsClient.Zones.CreateOrUpdateWithHttpMessagesAsync(resourceGroupName, zoneName, dnsZoneParams, null, "*")
var dnsZone = await dnsClient.Zones.CreateOrUpdateAsync(resourceGroupName, zoneName, dnsZoneParams, null, "*");
Create DNS record sets and records
DNS records are managed as a record set. A record set is a set of records with the same name and record type within a zone. The record set name is relative to the zone name, not the fully qualified DNS name.
To create or update a record set, a "RecordSet" parameters object is created and passed to DnsManagementClient.RecordSets.CreateOrUpdateAsync
. As with DNS zones, there are three modes of operation: synchronous ('CreateOrUpdate'), asynchronous ('CreateOrUpdateAsync'), or asynchronous with access to the HTTP response ('CreateOrUpdateWithHttpMessagesAsync').
As with DNS zones, operations on record sets include support for optimistic concurrency. In this example, since 'If-Match' or 'If-None-Match' isn't specified, the record set is always created. This call overwrites any existing record set with the same name and record type in this DNS zone.
// Create record set parameters
var recordSetParams = new RecordSet();
recordSetParams.TTL = 3600;
// Add records to the record set parameter object. In this case, we'll add a record of type 'A'
recordSetParams.ARecords = new List<ARecord>();
recordSetParams.ARecords.Add(new ARecord("1.2.3.4"));
// Add metadata to the record set. Similar to Azure Resource Manager tags, this is optional and you can add multiple metadata name/value pairs
recordSetParams.Metadata = new Dictionary<string, string>();
recordSetParams.Metadata.Add("user", "Mary");
// Create the actual record set in Azure DNS
// Note: no ETAG checks specified, will overwrite existing record set if one exists
var recordSet = await dnsClient.RecordSets.CreateOrUpdateAsync(resourceGroupName, zoneName, recordSetName, RecordType.A, recordSetParams);
Get zones and record sets
The DnsManagementClient.Zones.Get
and DnsManagementClient.RecordSets.Get
methods retrieve individual zones and record sets, respectively. RecordSets are identified by their type, name, and the zone and resource group they exist in. Zones are identified by their name and the resource group they exist in.
var recordSet = dnsClient.RecordSets.Get(resourceGroupName, zoneName, recordSetName, RecordType.A);
Update an existing record set
To update an existing DNS record set, first retrieve the record set. Then update the record set contents before submitting the changes. In this example, we specify the 'Etag' from the retrieved record set in the 'If-Match' parameter. The call fails if a concurrent operation has modified the record set in the meantime.
var recordSet = dnsClient.RecordSets.Get(resourceGroupName, zoneName, recordSetName, RecordType.A);
// Add a new record to the local object. Note that records in a record set must be unique/distinct
recordSet.ARecords.Add(new ARecord("5.6.7.8"));
// Update the record set in Azure DNS
// Note: ETAG check specified, update will be rejected if the record set has changed in the meantime
recordSet = await dnsClient.RecordSets.CreateOrUpdateAsync(resourceGroupName, zoneName, recordSetName, RecordType.A, recordSet, recordSet.Etag);
List zones and record sets
To list zones, use the DnsManagementClient.Zones.List... methods, which support listing either all zones in a given resource group or all zones in a given Azure subscription (across resource groups.)
To list record sets, use DnsManagementClient.RecordSets.List... methods, which support either listing all record sets in a given zone or only those record sets of a specific type.
Note when listing zones and record sets that results may be paginated. The following example shows how to iterate through the pages of results. (An artificially small page size of '2' is used to force paging; in practice this parameter should be omitted and the default page size used.)
// Note: in this demo, we'll use a very small page size (2 record sets) to demonstrate paging
// In practice, to improve performance you would use a large page size or just use the system default
int recordSets = 0;
var page = await dnsClient.RecordSets.ListAllInResourceGroupAsync(resourceGroupName, zoneName, "2");
recordSets += page.Count();
while (page.NextPageLink != null)
{
page = await dnsClient.RecordSets.ListAllInResourceGroupNextAsync(page.NextPageLink);
recordSets += page.Count();
}
Next steps
Download the Azure DNS .NET SDK sample project. Includes examples on how to use the Azure DNS .NET SDK and examples for other DNS record types.