SQL Server Browser Service
The SQL Server Browser program runs as a Windows service. SQL Server Browser listens for incoming requests for Microsoft SQL Server resources and provides information about SQL Server instances installed on the computer. SQL Server Browser contributes to the following actions:
Browsing a list of available servers
Connecting to the correct server instance
Connecting to dedicated administrator connection (DAC) endpoints
For each instance of the Database Engine and SSAS, the SQL Server Browser service (sqlbrowser) provides the instance name and the version number. SQL Server Browser is installed with SQL Server, and provides this service for earlier versions of SQL Server that are running on that computer, starting with SQL Server 7.0.
SQL Server Browser can be configured during setup or by using SQL Server Configuration Manager. By default, the SQL Server Browser service starts automatically:
When upgrading an installation.
When installing side-by-side with an instance of SQL Server 2000.
When installing on a cluster.
When installing a named instance of SQL Server Enterprise, Standard, or Workgroup.
When installing a named instance of Analysis Services.
Prior to SQL Server 2000, only one instance of SQL Server could be installed on a computer. SQL Server listened for incoming requests on port 1433, assigned to SQL Server by the official Internet Assigned Numbers Authority (IANA). Only one instance of SQL Server can use a port, so when SQL Server 2000 introduced support for multiple instances of SQL Server, SQL Server Resolution Protocol (SSRP) was developed to listen on UDP port 1434. This listener service responded to client requests with the names of the installed instances, and the ports or named pipes used by the instance. To resolve limitations of the SSRP system, SQL Server 2005 introduced the SQL Server Browser service as a replacement for SSRP.
How SQL Server Browser Works
When an instance of SQL Server starts, if the TCP/IP or VIA protocols are enabled for SQL Server, the server is assigned a TCP/IP port. If the named pipes protocol is enabled, SQL Server listens on a specific named pipe. This port, or "pipe," is used by that specific instance to exchange data with client applications. During installation, TCP port 1433 and pipe \sql\query are assigned to the default instance, but those can be changed later by the server administrator using SQL Server Configuration Manager. Because only one instance of SQL Server can use a port or pipe, different port numbers and pipe names are assigned for named instances, including SQL Server Express. By default, when enabled, both named instances and SQL Server Express are configured to use dynamic ports, that is, an available port is assigned when SQL Server starts. If you want, a specific port can be assigned to an instance of SQL Server. When connecting, clients can specify a specific port; but if the port is dynamically assigned, the port number can change anytime SQL Server is restarted, so the correct port number is unknown to the client.
Upon startup, SQL Server Browser starts and claims UDP port 1434. SQL Server Browser reads the registry, identifies all instances of SQL Server on the computer, and notes the ports and named pipes that they use. When a server has two or more network cards, SQL Server Browser returns the first enabled port it encounters for SQL Server. SQL Server Browser support ipv6 and ipv4.
When SQL Server clients request SQL Server resources, the client network library sends a UDP message to the server using port 1434. SQL Server Browser responds with the TCP/IP port or named pipe of the requested instance. The network library on the client application then completes the connection by sending a request to the server using the port or named pipe of the desired instance.
For information about starting and stopping the SQL Server Browser service, see How to: Start and Stop the SQL Server Browser Service.
Using SQL Server Browser
If the SQL Server Browser service is not running, you are still able to connect to SQL Server if you provide the correct port number or named pipe. For instance, you can connect to the default instance of SQL Server with TCP/IP if it is running on port 1433.
However, if the SQL Server Browser service is not running, the following connections do not work:
Any component that tries to connect to a named instance without fully specifying all the parameters (such as the TCP/IP port or named pipe).
Any component that generates or passes server\instance information that could later be used by other components to reconnect.
Connecting to a named instance without providing the port number or pipe.
DAC to a named instance or the default instance if not using TCP/IP port 1433.
The OLAP redirector service.
Enumerating servers in SQL Server Management Studio, Enterprise Manager, or Query Analyzer.
If you are using SQL Server in a client-server scenario (for example, when your application is accessing SQL Server across a network), if you stop or disable the SQL Server Browser service, you must assign a specific port number to each instance and write your client application code to always use that port number. This approach has the following problems:
You must update and maintain client application code to ensure it is connecting to the proper port.
The port you choose for each instance may be used by another service or application on the server, causing the instance of SQL Server to be unavailable.
Side-by-Side Installation with SQL Server 2000
In SQL Server 2000, the identification of the server connection endpoints is performed by the SQL Server service. SQL Server 2005 replaces that function with the SQL Server Browser service. If you install SQL Server on a computer that is also running SQL Server 2000 or MSDE, you must make sure that SQL Server 2000 or MSDE is upgraded to Service Pack 3a (SP3a) or later. Versions earlier than SP3a do not properly share port 1434 and may not make your instances of SQL Server available to requesting client applications. Although you can change the services startup order so that the SQL Server Browser service starts before SQL Server 2000 or MSDE, we recommend that you update all earlier versions of SQL Server to the latest service pack.
When an instance of SQL Server 2000 that is not updated to at least service pack 3a is installed on the computer, if the SQL Server Browser is not running, the SQL Server 2000 listener service starts. If SQL Server Browser starts after the listener service, it waits 5 seconds for SQL Server 2000 to give up port 1434. If that does not occur, SQL Server Browser fails to start. To resolve this problem with versions of SQL Server 2000 earlier than Service Pack 3a, stop SQL Server 2000, start SQL Server Browser, then restart SQL Server 2000. The SQL Server 2000 listener service continues to attempt to start on port 1434; therefore, the instance of SQL Server 2000 should be upgraded to Service Pack 3a as soon as possible.
SQL Server 7.0 has no similar capabilities and has no conflicts with SQL Server Browser.
SQL Server Browser is not a clustered resource and does not support failover from one cluster node to the other. Therefore, in the case of a cluster, SQL Server Browser should be installed and turned on for each node of the cluster. On clusters, SQL Server Browser listens on IP_ANY.
When listening on IP_ANY, when you enable listening on specific IPs, the user must configure the same TCP port on each IP, because SQL Server Browser returns the first IP/port pair that it encounters.
Installing, Uninstalling, and Running from the Command Line
By default, the SQL Server Browser program is installed at C:\Program Files\Microsoft SQL Server\100\Shared\sqlbrowser.exe. If SQL Server 2000 is installed on the computer but not upgraded to Service Pack 3, and if the SQL Server 2000 instance is not being upgraded, SQL Server 2000 should be stopped during SQL Server installation. If SQL Server 2000 is running, SQL Server Browser cannot start and claim port 1434, and the installation may fail due to lack of connectivity.
The SQL Server Browser service is uninstalled when the last instance of SQL Server is removed. Instances of SQL Server 2000 resume their original behavior.
SQL Server Browser can be started from the command prompt for troubleshooting, by using the -c switch:
SQL Server Browser listens on a UDP port and accepts unauthenticated requests by using SQL Server Resolution Protocol (SSRP). SQL Server Browser should be run in the security context of a low privileged user to minimize exposure to a malicious attack. The logon account can be changed by using the SQL Server Configuration Manager. The minimum user rights for SQL Server Browser are the following:
Deny access to this computer from the network
Deny logon locally
Deny Log on as a batch job
Deny Log On Through Terminal Services
Log on as a service
Read and write the SQL Server registry keys related to network communication (ports and pipes)
Setup configures SQL Server Browser to use the account selected for services during setup. Other possible accounts include the following:
Any domain\local account
The local service account (not available on W2K platforms)
The local system account (not recommended as has unnecessary privileges)
Hiding SQL Server
Hidden instances are instances of SQL Server that support only shared memory connections. For SQL Server, set the HideInstance flag to indicate that SQL Server Browser should not respond with information about this server instance. SQL Server Browser also supports the SQL Server 2000 method of hiding instances enabled by setting the HideServer option through the server network utility. For information about configuring the HideServer option, see "How to: Hide an Instance of SQL Server Database Engine" in SQL Server Books Online.
Using a Firewall
To communicate with the SQL Server Browser service on a server behind a firewall, open UDP port 1434, in addition to the TCP port used by SQL Server (e.g., 1433). For information about working with a firewall, see "How to: Configure a Firewall for SQL Server Access" in SQL Server Books Online.