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Managing Service Location Protocol Services in Oracle Solaris 11.1 Oracle Solaris 11.1 Information Library |
2. Planning and Enabling SLP (Tasks)
SLP Configuration File: Basic Elements
How to Change Your SLP Configuration
Modifying DA Advertising and Discovery Frequency
Limiting UAs and SAs to Statically Configured DAs
How to Limit UAs and SAs to Statically Configured DAs
Configuring DA Discovery for Dial-up Networks
How to Configure DA Discovery for Dial-up Networks
Configuring the DA Heartbeat for Frequent Partitions
How to Configure DA Heartbeat for Frequent Partitions
Accommodating Different Network Media, Topologies, or Configurations
How to Reduce SA Reregistrations
Configuring the Multicast Time-to-Live Property
How to Configure the Multicast Time-to-Live Property
How to Configure the Packet Size
Configuring Broadcast-Only Routing
How to Configure Broadcast-Only Routing
Modifying Timeouts on SLP Discovery Requests
How to Change Default Timeouts
Configuring the Random-Wait Bound
How to Configure the Random-Wait Bound
Considerations When Configuring Scopes
Multihoming Configuration for SLP
When to Configure for Nonrouted, Multiple Network Interfaces
Configuring Nonrouted, Multiple Network Interfaces (Task Map)
Configuring the net.slp.interfaces Property
How to Configure the net.slp.interfaces Property
Proxy Advertising on Multihomed Hosts
DA Placement and Scope Name Assignment
Considerations When Configuring for Nonrouted, Multiple Network Interfaces
This section describes the strategic deployment of DAs in a network that is running SLP.
SLP functions adequately with only the base agents (UAs and SAs), and with no deployed DAs or configured scopes. All agents that lack specific configurations use the default scope. DAs serve as caches for service advertisements. Deploying DAs decreases the number of messages that are sent on the network and reduces the time that is required to receive responses to messages. This capability enables SLP to accommodate larger networks.
The primary reason to deploy DAs is to reduce the amount of multicast traffic and the delays that are associated with gathering unicast replies. In a large network with many UAs and SAs, the amount of multicast traffic that is involved in service discovery can become so large that network performance degrades. By deploying one or more DAs, UAs must unicast to DAs for service and SAs must register with DAs by using unicast. The only SLP-registered multicast in a network with DAs is for active and passive DA discovery.
SAs register automatically with any DAs they discover within a set of common scopes, rather than accepting multicast service requests. Multicast requests in scopes that are not supported by the DA are still answered directly by the SA, however.
Service requests from UAs are unicast to DAs rather than multicast onto the network when a DA is deployed within the UA's scopes. Consequently, DAs within the UA's scopes reduce multicast. By eliminating multicast for normal UA requests, the time that is required to obtain replies to queries is greatly reduced (from seconds to milliseconds).
DAs act as a focal point for SA and UA activity. Deploying one or several DAs for a collection of scopes provides a centralized point for monitoring SLP activity. By turning on DA logging, it is easier to monitor registrations and requests than by checking the logs from multiple SAs that are scattered around the network. You can deploy any number of DAs for a particular scope or scopes, depending on the need to balance the load.
In networks without multicast routing enabled, you can configure SLP to use broadcast. However, broadcast is very inefficient, because it requires each host to process the message. Broadcast also does not normally propagate across routers. As a result, in a network without multicast routing support, services can be discovered only on the same subnet. Partial support for multicast routing leads to inconsistent ability to discover services on a network. Multicast messages are used to discover DAs. Partial support for multicast routing, therefore, implies that UAs and SAs register services with all known DAs in the SA's scope. For example, if a UA queries a DA that is called DA1 and the SA has registered services with DA2, the UA will fail to discover a service. See Configuring Broadcast-Only Routing for more information on how to deploy SLP on networks without multicast enabled.
On a network with inconsistent site-wide support for multicast routing, you must configure the SLP UAs and SAs with a consistent list of DA locations by using the net.slp.DAAdresseses property.
Finally, the SLPv2 DA supports interoperability with SLPv1. SLPv1 interoperability is enabled by default in the DA. If your network contains SLPv1 devices, such as printers, or you need to interoperate with Novell Netware 5, which uses SLPv1 for service discovery, you should deploy a DA. Without a DA, the Oracle Solaris SLP UAs are unable to find SLPv1 advertised services.
Deploy DAs on your enterprise if any of the following conditions are true:
Multicast SLP traffic exceeds 1 percent of the bandwidth on your network, as measured by snoop.
UA clients experience long delays or timeouts during multicast service requests.
You want to centralize the monitoring of SLP service advertisements for particular scopes on one or several hosts.
Your network does not have multicast enabled and consists of multiple subnets that must share services.
Your network employs devices that support earlier versions of SLP (SLPv1) or you would like SLP service discovery to interoperate with Novell Netware 5.
Use the following procedure to set the net.slp.isDA property to True in the slp.conf file.
Note - You can assign only one DA per host.
For more information, see How to Use Your Assigned Administrative Rights in Oracle Solaris 11.1 Administration: Security Services.
# svcadm disable network/slp
net.slp.isDA=True
# svcadm enable network/slp
This section provides suggestions for where to place DAs in different situations.
When multicast routing is not enabled and DAs are required to bridge service discovery between subnets
In this situation, a DA must be placed on a host with interfaces and all subnets that share services. The net.slp.interfaces configuration property does not need to be set, unless IP packets are not routed among the interfaces. See Multihoming Configuration for SLP for more information on configuring the net.slp.interfaces property.
When DAs are deployed for scalability and the primary consideration is optimizing agent access
UAs typically make many requests for services to DAs. An SA registers with the DA once, and can refresh the advertisement at periodic but infrequent intervals. As a result, UA access to DAs is far more frequent than SA access. The number of service advertisements is also usually smaller than the number of requests. Consequently, most DA deployments are more efficient if the deployment is optimized for UA access.
Situating DAs so that they are topologically close to UAs on the network to optimize UA access
Naturally, you must configure the DA with a scope that is shared by both the UA and SA clients.
You can deploy multiple DAs for the same collection of scopes as a means of load balancing. Deploy DAs in any of the following circumstances:
UA requests to a DA are timing out, or are returning with the DA_BUSY_NOW error.
The DA log shows that many SLP requests are being dropped.
The network of users who share services in the scopes spans a number of buildings or physical sites.
You can run a snoop trace of SLP traffic to determine how many UA requests return with the DA_BUSY_NOW error. If the number of UA requests returned is high, UAs in buildings physically and topologically distant from the DA can exhibit slow response or excessive timeouts. In such a scenario, you can deploy a DA in each building to improve response for UA clients within the building.
Links that connect buildings are often slower than the local area networks within the buildings. If your network spans multiple buildings or physical sites, set the net.slp.DAAddresses property in the /etc/inet/slp.conf file to a list of specific host names or addresses so that the UAs access only the DAs you specify.
If a particular DA is using large amounts of host memory for service registrations, reduce the number of SA registrations by reducing the number of scopes the DA supports. You can split into two a scope that has many registrations. You can then support one of the new scopes by deploying another DA on another host.