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DNS Name Resolution options for Linux virtual machines in Azure

Applies to: ✔️ Linux VMs ✔️ Flexible scale sets

Azure provides DNS name resolution by default for all virtual machines that are in a single virtual network. You can implement your own DNS name resolution solution by configuring your own DNS services on your virtual machines that Azure hosts. The following scenarios should help you choose the one that works for your situation.

The type of name resolution that you use depends on how your virtual machines and role instances need to communicate with each other.

The following table illustrates scenarios and corresponding name resolution solutions:

Scenario Solution Suffix
Name resolution between role instances or virtual machines in the same virtual network Name resolution that Azure provides hostname or fully-qualified domain name (FQDN)
Name resolution between role instances or virtual machines in different virtual networks Customer-managed DNS servers that forward queries between virtual networks for resolution by Azure (DNS proxy). See Name resolution using your own DNS server. FQDN only
Resolution of on-premises computers and service names from role instances or virtual machines in Azure Customer-managed DNS servers (for example, on-premises domain controller, local read-only domain controller, or a DNS secondary synced by using zone transfers). See Name resolution using your own DNS server. FQDN only
Resolution of Azure hostnames from on-premises computers Forward queries to a customer-managed DNS proxy server in the corresponding virtual network. The proxy server forwards queries to Azure for resolution. See Name resolution using your own DNS server. FQDN only
Reverse DNS for internal IPs Name resolution using your own DNS server n/a

Name resolution that Azure provides

Along with resolution of public DNS names, Azure provides internal name resolution for virtual machines and role instances that are in the same virtual network. In virtual networks that are based on Azure Resource Manager, the DNS suffix is consistent across the virtual network; the FQDN isn't needed. DNS names can be assigned to both network interface cards (NICs) and virtual machines. Although the name resolution that Azure provides does not require any configuration, it isn't the appropriate choice for all deployment scenarios, as seen on the preceding table.

Features and considerations

Features:

  • No configuration is required to use name resolution that Azure provides.
  • The name resolution service that Azure provides is highly available. You don't need to create and manage clusters of your own DNS servers.
  • The name resolution service that Azure provides can be used along with your own DNS servers to resolve both on-premises and Azure hostnames.
  • Name resolution is provided between virtual machines in virtual networks without need for the FQDN.
  • You can use hostnames that best describe your deployments rather than working with auto-generated names.

Considerations:

  • The DNS suffix that Azure creates can't be modified.
  • You can't manually register your own records.
  • WINS and NetBIOS aren't supported.
  • Hostnames must be DNS-compatible. Names must use only 0-9, a-z, and '-', and they can't start or end with a '-'. See RFC 3696 Section 2.
  • DNS query traffic is throttled for each virtual machine. Throttling shouldn't impact most applications. If request throttling is observed, ensure that client-side caching is enabled. For more information, see Getting the most from name resolution that Azure provides.

Getting the most from name resolution that Azure provides

Client-side caching:

Some DNS queries aren't sent across the network. Client-side caching helps reduce latency and improve resilience to network inconsistencies by resolving recurring DNS queries from a local cache. DNS records contain a Time-To-Live (TTL), which enables the cache to store the record for as long as possible without impacting record freshness. As a result, client-side caching is suitable for most situations.

Some Linux distributions don't include caching by default. We recommend that you add a cache to each Linux virtual machine after you check that there isn't a local cache already.

Several different DNS caching packages, such as dnsmasq, are available. Here are the steps to install dnsmasq on the most common distributions:

  1. Install the dnsmasq package:
sudo apt-get install dnsmasq
  1. Enable the dnsmasq service:
sudo systemctl enable dnsmasq.service
  1. Start the dnsmasq service:
sudo systemctl start dnsmasq.service

Client-side retries

DNS is primarily a UDP protocol. Because the UDP protocol doesn't guarantee message delivery, the DNS protocol itself handles retry logic. Each DNS client (operating system) can exhibit different retry logic depending on the creator's preference:

  • Windows operating systems retry after one second and then again after another two, four, and another four seconds.
  • The default Linux setup retries after five seconds. You should change this to retry five times at one-second intervals.

To check the current settings on a Linux virtual machine, 'cat /etc/resolv.conf', and look at the 'options' line, for example:

sudo cat /etc/resolv.conf
options timeout:1 attempts:5

The /etc/resolv.conf file is auto-generated and shouldn't be edited. The specific steps that add the 'options' line vary by distribution:

Ubuntu (uses resolvconf)

  1. Add the options line to /etc/resolvconf/resolv.conf.d/head file.
  2. Run sudo resolvconf -u to update.

SUSE (uses netconf)

  1. Add timeout:1 attempts:5 to the NETCONFIG_DNS_RESOLVER_OPTIONS="" parameter in /etc/sysconfig/network/config.
  2. Run sudo netconfig update to update.

Name resolution using your own DNS server

Your name resolution needs may go beyond the features that Azure provides. For example, you might require DNS resolution between virtual networks. To cover this scenario, you can use your own DNS servers.

DNS servers within a virtual network can forward DNS queries to recursive resolvers of Azure to resolve hostnames that are in the same virtual network. For example, a DNS server that runs in Azure can respond to DNS queries for its own DNS zone files and forward all other queries to Azure. This functionality enables virtual machines to see both your entries in your zone files and hostnames that Azure provides (via the forwarder). Access to the recursive resolvers of Azure is provided via the virtual IP 168.63.129.16.

DNS forwarding also enables DNS resolution between virtual networks and enables your on-premises machines to resolve hostnames that Azure provides. To resolve a virtual machine's hostname, the DNS server virtual machine must reside in the same virtual network and be configured to forward hostname queries to Azure. Because the DNS suffix is different in each virtual network, you can use conditional forwarding rules to send DNS queries to the correct virtual network for resolution. The following image shows two virtual networks and an on-premises network doing DNS resolution between virtual networks by using this method:

DNS resolution between virtual networks

When you use name resolution that Azure provides, the internal DNS suffix is provided to each virtual machine by using DHCP. When you use your own name resolution solution, this suffix isn't supplied to virtual machines because the suffix interferes with other DNS architectures. To refer to machines by FQDN or to configure the suffix on your virtual machines, you can use PowerShell or the API to determine the suffix:

  • For virtual networks that are managed by Azure Resource Manager, the suffix is available via the network interface card resource. You can also run the azure network public-ip show <resource group> <pip name> command to display the details of your public IP, which includes the FQDN of the NIC.

If forwarding queries to Azure doesn't suit your needs, you need to provide your own DNS solution. Your DNS solution needs to:

  • Provide appropriate hostname resolution, for example via DDNS. If you use DDNS, you might need to disable DNS record scavenging. DHCP leases of Azure are long and scavenging may remove DNS records prematurely.
  • Provide appropriate recursive resolution to allow resolution of external domain names.
  • Be accessible (TCP and UDP on port 53) from the clients it serves and be able to access the Internet.
  • Be secured against access from the Internet to mitigate threats posed by external agents.

Note

For best performance, when you use virtual machines in Azure DNS servers, disable IPv6 and assign an Instance-Level Public IP to each DNS server virtual machine.