Installation and configuration



  • .NET 4.5 Framework
  • 64-bit version of Windows 7 or Windows Server 2008 R2 (or later)


  • 8 Core CPU
  • 8 GB Memory
  • 64-bit version of Windows 2012 R2 (or later)

Related considerations:

  • You can't install a gateway on a domain controller.
  • You shouldn't install a gateway on a computer, such a laptop, that may be turned off, asleep, or not connected to the Internet because the gateway can't run under any of those circumstances. In addition, gateway performance might suffer over a wireless network.
  • For SharePoint, gateways support HTTP traffic but not HTTPS traffic.

Install a gateway

  1. Download the installer, and then run it.

    Run the installer

  2. On the first screen of the installation wizard, click or tap Next to acknowledge the reminder about installing a gateway on a laptop.

    Reminder screen

  3. Specify the location where you want to install the gateway, select the check box to accept the terms of use and the privacy statement, and then click or tap Install.

  4. In the User Account Control dialog boxes, click or tap Yes to continue.

  5. On the next screen of the wizard, click or tap Sign in.

    Sign in

  6. Click or tap the option to register a new gateway or to migrate, restore, or take over an existing gateway, and then click or tap Next.

    Choose new or existing

    • To configure a gateway, type a name for it and a recovery key, click or tap Configure, and then click or tap Close.

      Configure a new gateway

      Specify a recovery key that contains at least eight characters, and keep it in a safe place. You'll need this key if you want to migrate, restore, or take over its gateway.

    • To migrate, restore, or take over an existing gateway, provide the name of the gateway and its recovery key, click or tap Configure, and then follow any additional prompts.

      Recover an existing gateway

Restart the gateway

The gateway runs as a Windows service, so you can start and stop it in multiple ways. For example, you can open a command prompt with elevated permissions on the machine where the gateway is running and then run either of these commands:

  • To stop the service, run this command:
    net stop PBIEgwService

  • To start the service, run this command:
    net start PBIEgwService

Configure a firewall or proxy

For information about how to provide proxy information for your gateway, see Configure proxy settings.

You can verify whether your firewall, or proxy, may be blocking connections by running the following command from a PowerShell prompt. This command will test connectivity to the Azure Service Bus. This only tests network connectivity and doesn't have anything to do with the cloud server service or the gateway. It helps to determine whether your machine can actually get out to the internet.

Test-NetConnection -ComputerName -Port 9350

The results should look similar to this example. If TcpTestSucceeded is not True, you may be blocked by a firewall.

ComputerName           :
RemoteAddress          :
RemotePort             : 5672
InterfaceAlias         : vEthernet (Broadcom NetXtreme Gigabit Ethernet - Virtual Switch)
SourceAddress          :
PingSucceeded          : False
PingReplyDetails (RTT) : 0 ms
TcpTestSucceeded       : True

If you want to be exhaustive, substitute the ComputerName and Port values with those listed under Configure ports later in this topic.

The firewall may also be blocking the connections that the Azure Service Bus makes to the Azure data centers. If that's the case, you'll want to whitelist (unblock) the IP addresses for your region for those data centers. You can get a list of Azure IP addresses here.

Configure ports

The gateway creates an outbound connection to Azure Service Bus. It communicates on outbound ports: TCP 443 (default), 5671, 5672, 9350 thru 9354. The gateway doesn't require inbound ports.

Learn more about hybrid solutions.

It is recommended that you whitelist the IP addresses, for your data region, in your firewall. You can download the Microsoft Azure Datacenter IP list, which is updated weekly.

Note: In the Azure Datacenter IP list, addresses are listed in CIDR notation. For example, doesn't mean through

Here is a listing of the fully qualified domain names used by the gateway.

Domain names Outbound ports Description
* 443 HTTPS
* 443 HTTPS
* 5671-5672 Advanced Message Queuing Protocol (AMQP)
* 443, 9350-9354 Listeners on Service Bus Relay over TCP (requires 443 for Access Control token acquisition)
* 443 HTTPS
* 443 HTTPS 443 HTTPS
* 443 Used to test internet connectivity if the gateway is unreachable by the Power BI service.

account

Users will sign in with either a work or school account. This is your organization account. If you signed up for an Office 365 offering and didn’t supply your actual work email, it may look like Your account, within a cloud service, is stored within a tenant in Azure Active Directory (AAD). In most cases, your AAD account’s UPN will match the email address.

Windows Service account

The on-premises data gateway is configured to use NT SERVICE\PBIEgwService for the Windows service logon credential. By default, it has the right of Log on as a service. This is in the context of the machine on which you're installing the gateway.

This isn't the account used to connect to on-premises data sources or the work or school account with which you sign in to cloud services.

If you encounter issues with your proxy server due to authentication, you may want to change the Windows service account to a domain-user or managed-service account as proxy configuration describes.

Frequently asked questions


Question: What data sources does the gateway support?
Answer: As of this writing:

  • SQL Server
  • SharePoint
  • Oracle
  • Informix
  • Filesystem
  • DB2

Question: Do I need a gateway for data sources in the cloud, such as SQL Azure?
Answer: No. A gateway connects to on-premises data sources only.

Question: What is the actual Windows service called?
Answer: In Services, the gateway is called Power BI Enterprise Gateway Service.

Question: Are there any inbound connections to the gateway from the cloud?
Answer: No. The gateway uses outbound connections to Azure Service Bus.

Question: What if I block outbound connections? What do I need to open?
Answer: See the ports and hosts that the gateway uses.

Question: Does the gateway have to be installed on the same machine as the data source?
Answer: No. The gateway will connect to the data source using the connection information that was provided. Think of the gateway as a client application in this sense. It will just need to be able to connect to the server name that was provided.

Question: What is the latency for running queries to a data source from the gateway? What is the best architecture?
Answer: To reduce network latency, install the gateway as close to the data source as possible. If you can install the gateway on the actual data source, it will minimize the latency introduced. Consider the data centers as well. For example, if your service is using the West US data center and you have SQL Server hosted in an Azure VM, you'll want to have the Azure VM in West US as well. This will minimize latency and avoid egress charges on the Azure VM.

Question: Are there any requirements for network bandwidth?
Answer: It is recommended to have good throughput for your network connection. Every environment is different, and the amount of data being sent will affect the results. Using ExpressRoute could help to guarantee a level of throughput between on-premises and the Azure data centers.

You can use the third-party tool Azure Speed Test app to help gauge what your throughput is.

Question: Can the gateway Windows service run with an Azure Active Directory account?
Answer: No. The Windows service must have a valid Windows account. By default, it will run with the Service SID, NT SERVICE\PBIEgwService.

Question: How are results sent back to the cloud?
Answer: This is done by way of the Azure Service Bus. For more information, see how it works.

Question: Where are my credentials stored?
Answer: The credentials that you enter for a data source are stored encrypted in the gateway cloud service. The credentials are decrypted at the gateway on-premises.

Question: Can I place the gateway in a perimeter network (also known as DMZ, demilitarized zone, and screened subnet)?
Answer: The gateway requires connectivity to the data source. If the data source isn't in your perimeter network, the gateway may not be able to connect to it. For example, the computer that's running SQL Server may not be in your perimeter network, and you can't connect to that computer from the perimeter network. If you placed the gateway in your perimeter network, the gateway wouldn't be able to reach the computer that's running SQL Server.

High availability/disaster recovery

Question: Are there any plans for enabling high availability scenarios with the gateway?
Answer: This is on the roadmap, but we don’t have a timeline yet.

Question: What options are available for disaster recovery?
Answer: You can use the recovery key to restore or move a gateway. When you install the gateway, specify the recovery key.

Question: What is the benefit of the recovery key?
Answer: It provides a way to migrate or recover your gateway settings after a disaster.


Question: Where are the gateway logs?
Answer: See Tools later in this topic.

Question: How can I see what queries are being sent to the on-premises data source?
Answer: You can enable query tracing, which will include the queries being sent. Remember to change it back to the original value when done troubleshooting. Leaving query tracing enabled will cause the logs to be larger.

You can also look at tools that your data source has for tracing queries. For example, you can use Extended Events or SQL Profiler for SQL Server and Analysis Services.

How the gateway works

How it works

When a user interacts with an element that's connected to an on-premises data source:

  1. The cloud service creates a query, along with the encrypted credentials for the data source, and sends the query to the queue for the gateway to process.

  2. The gateway cloud service analyzes the query and pushes the request to the Azure Service Bus.

  3. The on-premises data gateway polls the Azure Service Bus for pending requests.

  4. The gateway gets the query, decrypts the credentials, and connects to the data source(s) with those credentials.

  5. The gateway sends the query to the data source for execution.

  6. The results are sent from the data source back to the gateway and then onto the cloud service. The service then uses the results.


Update to the latest version

A lot of issues can surface when the gateway version is out of date.  It is a good general practice to make sure you are on the latest version.  If you haven't updated the gateway for a month, or longer, you may want to consider installing the latest version of the gateway and see if you can reproduce the issue.

Error: Failed to add user to group. (-2147463168 PBIEgwService Performance Log Users )

You may receive this error if you are trying to install the gateway on a domain controller, which isn't supported. You'll need to deploy the gateway on a machine that isn't a domain controller.


Collecting logs from the gateway configurator

You can collect several logs for the gateway. Always start with the logs!

Installer logs


Configuration logs

%localappdata%\Microsoft\on-premises data gateway\GatewayConfigurator*.log

Enterprise gateway service logs

C:\Users\PBIEgwService\AppData\Local\Microsoft\on-premises data gateway\Gateway*.log

Event logs

The On-premises data gateway service event logs are present under Applications and Services Logs.

Event logs

Fiddler Trace

Fiddler is a free tool from Telerik that monitors HTTP traffic.  You can see the back and forth with the Power BI service from the client machine. This may show errors and other related information.