Service Discovery Gateway
The Service Discovery Gateway feature enables multicast Domain Name System (mDNS) to operate across Layer 3 (L3) boundaries. An mDNS gateway will be able to provide transport for service discovery across L3 boundaries by filtering, caching and extending services from one subnet to another. Prior to implementation of this feature, mDNS was limited in scope to within a subnet due to the use of link-local scoped multicast addresses. This feature enhances Bring Your Own Device (BYOD).
Caution | Extension of services should be done with proper care. Generally, only specific services should be extended. Service names should be unique in the network to avoid duplicate name conflicts. |
See Feature Information for Service Discovery Gateway section to check feature availability for your platform release version.
- Information About Service Discovery Gateway
- How to Configure Service Discovery Gateway
- Verifying and troubleshooting Service Discovery Gateway
- Configuration Examples for Service Discovery Gateway
- Additional References for Service Discovery Gateway
- Feature Information for Service Discovery Gateway
Information About Service Discovery Gateway
Service Announcement Redistribution and Service Extension
Redistribution of announcements is the actual forwarding of announcements and query responses while service extension is the capability of proxying services between subnets. The actual replication of the service announcement can help to speed up the visibility of newly announced services and also a service's withdrawal if a service or device is turned off.
Note | Extension of services such as printers or Apple TV works fine without actual replication of service announcements. The Service Discovery Gateway will cache announcements, queries and their responses in the cache. If another device queries for a service, the Service Discovery Gateway will be able to provide an answer from its cache. |
Enable the redistribution mdns-sd command only on a per-interface basis, and only if it is actually required. You must ensure that there are no loops in the network topology corresponding to the interface for which service announcement redistribution is being enabled. A loop can lead to a broadcast storm.
Redistribution of service announcement information cannot be done globally. You can enable redistribution of service information only at the interface level.
Extending Services Across Subnets—An Overview
You need to enable a multicast Domain Name System (mDNS) gateway to extend services across subnet boundaries. You can enable an mDNS gateway for a device or for an interface. You must enable routing of services for the device before enabling it at the interface level. After the mDNS gateway is enabled on a device or interface, you can extend services across subnet boundaries.
To extend services across subnets, you must do the following:
-
Set filter options—You can allow services such as printer services to be accessed across subnets. If printer x is available on interface 1, users on interface 2 can use printer x without configuring the printer on their local systems.
-
Extend services across subnets—The filter created in Step 1 should be applied on the interfaces 1 and 2. Only then can users on other interfaces access the printer service.
For the sample scenario where a printer service is accessible by clients on other interfaces, you must apply these filters:
-
On the interface where the printer service is available (IN filter) —You want to allow the printer service into the mDNS cache, so that it can be accessed by users on other subnets.
-
On the interface where the printer service is available (OUT filter)—Since clients on other interfaces will access the service (printer x, for example), you should allow queries coming from the device (OUT filter, from the device's point of view).
-
On each interface where clients reside (IN filter)—For clients on other interfaces (subnets) wanting to access the printer service, you must allow queries from users into the mDNS cache (IN filter).
Applying the IN filter means that you are allowing the printer service into the device mDNS cache, and other interfaces can access it. Applying the OUT filter means that you are allowing the queries out of the cache so that queries from clients on other interfaces can reach the printer interface. On other client-facing interfaces, the IN filter is applied to allow queries in.
Set Filter Options to Extend Services Across Subnets
You can set filter options to allow services such as printer services into or out of a device or interface. You can also permit or prohibit queries, announcements, services learnt from an interface, specific service–instances, and locations. Use the service-list mdns-sd command to create a service-list and set filter options.
You need to create a service-list and use filter options within it. While creating a service-list, use one of the following options:
-
The permit option permits specific services, announcements and service-instances across subnets.
-
The deny option restricts services, announcements and service-instances from being transported across subnets.
-
The query option is provided to browse services. For example, if you want to browse printer services periodically, then you can create a service-list with the query option, and add the printer service to the query. When you set a period for the query, the service entries are refreshed in the cache memory.
You must mention a sequence number when using the permit or deny option. The filtering is done sequentially, in the ascending order. The same service-list can be associated with multiple sequence numbers. Within a sequence, match statements (commands) must be used to specify what needs to be filtered. Generally, match statements are used to filter queries (for example, queries from clients to find printer and fax services), announcements (new service is added, and so on), specific service–instances, types of service such as printer services (so that the service is allowed into the cache for use), services available for a specific interface (printers and Apple TVs associated with a VLAN), and locations.
Note | A service-list by itself does not contain any services. You must specify a service type in the match statement when setting filter options to allow or prohibit services. (For example, '_ipp._tcp' is the service type for an IPP printing service running over TCP). |
The following example explains how to achieve the goal:
! service-list mdns-sd mixed permit 10 match message-type query ! service-list mdns-sd mixed permit 20 match message-type announcement match service-type _ipps._tcp.local !
In the above example, a service-list called 'mixed' is created and the permit option is used twice—to filter queries and to filter printer services and announcements. The filtering is done in the sequence given below:
The match statement in Sequence 10 sets a filter for queries on the device, but does not specify that queries be allowed into the device. To allow queries from clients, the filter needs to be applied on the interface in the IN direction. The example is displayed in the Using Filter Options section.
Similarly, the match statements in Sequence 20 sets a filter for announcements and printer services on the device, but does not specify that they be allowed into the device. To allow announcements and printer services into the device, the filter needs to be applied on the required interfaces in the IN direction. The example is displayed in the Using Filter Options section.
If neither the permit option nor the deny option is used, the default action is to disallow services from being transported to other subnets.
Browsing services periodically—Service-lists of the type query can be used to browse services. Such queries are called active queries. Active queries periodically send out requests for the services specified within the query on all interfaces. As services have a specific Time to Live (TTL) duration, active queries can help to keep services fresh in the cache memory.
In the following example, a service-list named 'active-query' is created and the service-list is of the type query. Services such as printer services are specified within the query, and these are the services that we want to extend. Typically, these services would match the services that have been configured as 'permitted' services in the IN filter.
! service-list mdns-sd active-query query service-type _universal._sub._ipp._tcp service-type _ipp._tcp.local service-type _ipps._tcp.local service-type _raop._tcp.local !
The purpose of an active query and a query associated with a match statement is different. When you enable an active query, services are browsed periodically. A query is used in a match statement to permit or prohibit queries (not active queries) on the interface.
Filtering only sets filter options and specifies that certain services need to be filtered. You must apply the filters on an interface for the services, queries, or announcements to actually be permitted or prohibited on the interface. To know about applying filters and the other available service discovery configuration options, refer the Using Filter Options section.
Extend Services Across Subnets
You must have set filter options for the device before extending services across subnets. If you have set filter options for specific services and other service discovery information to be allowed, prohibited or queried periodically, you can apply the filters for an interface.
Before applying filters, note the following:
-
You must enable multicast Domain Name System (mDNS) on a device to apply filter options. You can enable mDNS using the command service-routing mdns-sd
-
Since you might want to allow services into the device or prohibit services from being learnt on an interface, you must apply the filter in the needed direction. The options IN and OUT perform the desired actions on the interface.
-
Typically, a service-policy is applied on an interface. Global service-policies are optional and affect all L3 interfaces.
A note about filter options - Filter options have been set for the above scenario by creating a service-list called 'mixed' and adding filter options to it. (see Set filter options for more details). The following example explains how to apply the filters:
! interface Ethernet0/0 description *** (wireless) Clients here plus some printers ip address 172.16.33.7 255.255.255.0 service-routing mdns-sd service-policy mixed IN ! interface Ethernet0/3 description *** (wireless) Clients here plus some printers ip address 172.16.57.1 255.255.255.0 service-routing mdns-sd service-policy mixed IN !
In the above example, service-routing is enabled on the interface and the filter options in the service-policy 'mixed' are applied in the IN direction. In other words, all queries and printer services will be allowed into the device, from the interfaces Ethernet 0/0 and Ethernet 0/3.
Sample scenario for browsing specific services - A service-list of the type query (called active query) has been created. It contains services that we want to browse periodically, such as printer services (see Set filter options for more details about creating an active query). To enable browsing of the services in the query, you must apply the active query for the device.
! service-routing mdns-sd service-policy-query active-query 900 !
In the above example, the period is set to 900 seconds. The services within the active query are queried on all interfaces of the device after an interval of 900 seconds.
You can use the following options after enabling mDNS on a device or interface.
Purpose |
|
Global and Interface Configuration Options |
||
For a service-list, apply a filter to allow or prohibit services. |
service-policy |
Global and interface levels. |
||
Set some part of the system memory for cache. |
cache-memory-max |
Global level. |
||
Configure an active query and the query period so that specified services are queried periodically. |
service-policy-query | |||
Designate a specific device or interface in a domain for routing mDNS announcement and query information. |
designated-gateway |
Global and interface levels. |
||
Access services in the proximity of the device.
|
service-policy-proximity |
Global and interface levels. |
||
Configure service-type enumeration period for the device. |
service-type-enumeration period |
Global level. |
||
Specify an alternate source interface for outgoing mDNS packets on a device. |
source-interface |
Global level. |
||
Configure the maximum rate limit of incoming mDNS packets for a device. |
rate-limit |
Global level. |
||
Speed up visibility of newly announced services and withdrawal of services when a service or device is turned off. |
redistribute |
Interface level. |
How to Configure Service Discovery Gateway
Setting Filter Options for Service Discovery
Ensure that you permit a query or announcement when you set filter options. If you do not use a permit option and only use deny options, you will not be able to apply the filter.
1.
enable
2.
configure
terminal
3.
service-list
mdns-sd
service-list-name
{deny
sequence-number
|
permit
sequence-number
|
query}
4.
match
message-type
{announcement |
any |
query}
5.
match
service-instance
{instance-name
|
any |
query}
6.
match
service-type
mDNS-service-type-string
7.
match location
civic
civic-location-name
8.
exit
DETAILED STEPS
Apply filters on an interface for the services, queries, or announcements to actually be permitted or prohibited on the interface.
Applying Service Discovery Filters and Configuring Service Discovery Parameters
After enabling multicast Domain Name System (mDNS) gateway for a device, you can apply filters (IN-bound filtering or OUT-bound filtering) and active queries by using service-policy and service-policy-query commands, respectively.
Note | Steps 5 to 11 are mDNS Service Discovery configuration options. The steps are optional and not meant to be used in any specific order. |
You must set filter options for the device before applying filters.
1.
enable
2.
configure
terminal
3.
service-routing
mdns-sd
4.
service-policy
service-policy-name {IN |
OUT}
5.
cache-memory-max
cache-config-percentage
6.
service-policy-query
service-list-name
query-period
7.
designated-gateway
enable [ttl
duration]
8.
service-policy-proximity
service-list-name [limit
number-of-services]
9.
service-type-enumeration period
period-value
10.
source-interface
type number
11.
rate-limit
in
maximum-rate-limit
12.
exit
DETAILED STEPS
Command or Action | Purpose | |||
---|---|---|---|---|
Step 1 |
enable
Example: Device> enable |
Enables privileged EXEC mode. | ||
Step 2 |
configure
terminal
Example: Device# configure terminal |
Enters global configuration mode. | ||
Step 3 |
service-routing
mdns-sd
Example: Device(config)# service-routing mdns-sd |
Enables mDNS gateway functionality for a device and enters multicast DNS configuration (config-mdns) mode. | ||
Step 4 |
service-policy
service-policy-name {IN |
OUT}
Example: Device(config-mdns)# service-policy sl1 IN |
For a service-list, applies a filter on incoming service discovery information (IN-bound filtering) or outgoing service discovery information (OUT-bound filtering).
| ||
Step 5 |
cache-memory-max
cache-config-percentage
Example: Device(config-mdns)# cache-memory-max 20 |
Sets some part of the system memory (in percentage) for cache.
| ||
Step 6 |
service-policy-query
service-list-name
query-period
Example: Device(config-mdns)# service-policy-query sl4 100 |
Creates an active query and configures the service-list-query period. | ||
Step 7 |
designated-gateway
enable [ttl
duration]
Example: Device(config-mdns)# designated-gateway enable |
Designates the device to route mDNS announcement and query information for the domain. | ||
Step 8 |
service-policy-proximity
service-list-name [limit
number-of-services]
Example: Device(config-mdns)# service-policy-proximity sl1 limit 10 |
Configures service policy proximity filtering on the device. | ||
Step 9 |
service-type-enumeration period
period-value
Example: Device(config-mdns)# service-type-enumeration period 45 |
Configures service-type enumeration period for the device. | ||
Step 10 |
source-interface
type number
Example:
|
Specifies an alternate source interface for outgoing mDNS packets on a device. | ||
Step 11 |
rate-limit
in
maximum-rate-limit
Example: Device(config-mdns)# rate-limit in 80 |
Configures the maximum rate limit of incoming mDNS packets for a device. | ||
Step 12 |
exit
Example: Device(config-mdns)# exit |
Exits multicast DNS configuration mode, and returns to global configuration mode. |
Applying Service Discovery Filters for an Interface
1.
enable
2.
configure
terminal
3.
interface
type
number
4.
service-routing
mdns-sd
5.
service-policy
service-policy-name {IN |
OUT}
6.
exit
DETAILED STEPS
Command or Action | Purpose | |
---|---|---|
Step 1 |
enable
Example: Device> enable |
Enables privileged EXEC mode. |
Step 2 |
configure
terminal
Example: Device# configure terminal |
Enters global configuration mode. |
Step 3 |
interface
type
number
Example:
|
Enters Interface multicast DNS configuration mode, and enables interface configuration. |
Step 4 |
service-routing
mdns-sd
Example: Device(config-if)# service-routing mdns-sd |
Enables mDNS gateway functionality for an interface and enters multicast DNS configuration (config-mdns) mode. |
Step 5 |
service-policy
service-policy-name {IN |
OUT}
Example: Device(config-if-mdns-sd)# service-policy sl1 IN |
For a service-list, applies a filter on incoming service discovery information (IN-bound filtering) or outgoing service discovery information (OUT-bound filtering). When you set filter options, ensure that you permit a query or announcement for a service-list. If you have not permitted a service, query, or announcement while setting filter options, then you will see this warning when you apply the filter: Warning: Please enable explicit service-list rule with the permit action to allow queries and responses. |
Step 6 |
exit
Example: Device(config-if-mdns-sd)# exit |
Exits Interface multicast DNS configuration mode, and returns to interface configuration mode. |
Creating a Service Instance
1.
enable
2.
configure
terminal
3.
service-instance
mdns-sd
service
instance-name
regtype
service-type
domain
name
4.
{ipv4addr |
ipv6addr}
IP-address
5.
port
number
6.
target-hostname
host-name
7.
txt
text-record-name
8.
priority
value
9.
weight
value
10.
exit
DETAILED STEPS
Command or Action | Purpose | |||
---|---|---|---|---|
Step 1 |
enable
Example: Device> enable |
Enables privileged EXEC mode. | ||
Step 2 |
configure
terminal
Example: Device# configure terminal |
Enters global configuration mode. | ||
Step 3 |
service-instance
mdns-sd
service
instance-name
regtype
service-type
domain
name
Example: Device(config)# service-instance mdns-sd service printer-3 regtype _ipp._tcp.local domain tcp4 |
Creates a service-instance of a specific service type and enters multicast Domain Name System (mDNS) service discovery service-instance (config-mdns-sd-si) mode.
| ||
Step 4 |
{ipv4addr |
ipv6addr}
IP-address
Example: Device(config-mdns-sd-si)# ipv4addr 209.165.200.230 255.255.255.0 |
Specifies the IPv4 or IPv6 address of the port on which the service is available. | ||
Step 5 |
port
number
Example: Device(config-mdns-sd-si)# port 9100 |
Specifies the port on which the service is available. | ||
Step 6 |
target-hostname
host-name
Example: Device(config-mdns-sd-si)# target-hostname fqdn-of-printer.example.com. |
Specifies the fully qualified domain name (FQDN) of the target host. | ||
Step 7 |
txt
text-record-name
Example: Device(config-mdns-sd-si)# txt _ipp._tcp.local=printer3 |
| ||
Step 8 |
priority
value
Example: Device(config-mdns-sd-si)# priority 3 |
(Optional) Specifies the priority value for the service-instance. The default priority value is zero. | ||
Step 9 |
weight
value
Example: Device(config-mdns-sd-si)# weight 20 |
(Optional) Specifies the weight value for the service-instance. The default weight value is zero. | ||
Step 10 |
exit
Example: Device(config-mdns-sd-si)# exit |
Exits multicast Domain Name System (mDNS) service discovery service-instance (config-mdns-sd-si) mode and enters global configuration mode. |
Verifying and troubleshooting Service Discovery Gateway
Note | The show and debug commands mentioned below are not in any specific order. |
1.
show mdns
requests
[detail
| [type
record-type] [name
record-name]]
2.
show mdns cache
[interface
type
number
[detail] | [
name
record-name] [type
record-type] [
detail]]
3.
show mdns
statistics
{all |
interface
type number |
service-list
list-name | [cache |
service-policy]
{all
|
interface
type
number} |
services
orderby providers}
4.
show mdns
service-types
[all |
interface
type
number]
5.
debug mdns
{all |
error |
event |
packet |
verbose}
DETAILED STEPS
Step 1 |
show mdns
requests
[detail
| [type
record-type] [name
record-name]]
Example: Device# show mdns requests detail MDNS Outstanding Requests ====================================================== Request name : _ipp._tcp.local Request type : PTR Request class : IN This command displays information for outstanding multicast Domain Name System (mDNS) requests, including record name and record type information. | ||
Step 2 |
show mdns cache
[interface
type
number
[detail] | [
name
record-name] [type
record-type] [
detail]]
Example:
Device# show mdns cache mDNS CACHE ================================================================================================================================= [<NAME>] [<TYPE>][<CLASS>] [<TTL>/Remaining] [Accessed] [If-index] [<RR Record Data>] _services._dns-sd._udp.local PTR IN 4500/4496 0 3 _ipp._tcp.local _ipp._tcp.local PTR IN 4500/4496 1 3 printer1._ipp._tcp.local printer1._ipp._tcp.local SRV IN 120/116 1 3 0 0 5678 much-WS.local printer1._ipp._tcp.local TXT IN 4500/4496 1 3 (1)'' music-WS.local A IN 120/116 1 3 192.168.183.1 This command displays mDNS cache information. | ||
Step 3 |
show mdns
statistics
{all |
interface
type number |
service-list
list-name | [cache |
service-policy]
{all
|
interface
type
number} |
services
orderby providers}
Example: Device# show mdns statistics all mDNS Statistics mDNS packets sent : 0 mDNS packets received : 31 mDNS packets dropped : 8 mDNS cache memory in use: 64264(bytes) This command displays mDNS statistics. | ||
Step 4 |
show mdns
service-types
[all |
interface
type
number]
Example: Device# show mdns service-types mDNS SERVICES ================================= [<NAME>] [<TTL>/Remaining] [If-name] _ipp._tcp.local 4500/4496 This command displays mDNS statistics. | ||
Step 5 |
debug mdns
{all |
error |
event |
packet |
verbose}
Example: Device# debug mdns all This command enables all mDNS debugging flows. |
Configuration Examples for Service Discovery Gateway
Example: Setting Filter Options for Service Discovery
The following example shows creation of a service-list sl1. The permit option is being applied on sequence number 3 and all services with message-type announcement are filtered and available for transport across various subnets associated with the device.
Device> enable Device# configure terminal Device(config)# service-list mdns-sd sl1 permit 3 Device(config-mdns-sd-sl)# match message-type announcement Device(config-mdns-sd-sl)# exit
Example: Applying Service Discovery Filters and Configuring Service Discovery Parameters
Device> enable Device# configure terminal Device(config)# service-routing mdns-sd Device(config-mdns)# service-policy serv-pol1 IN Device(config-mdns)# cache-memory-max 20 Device(config-mdns)# service-policy-query sl-query1 100 Device(config-mdns)# designated-gateway enable Device(config-mdns)# rate-limit in 80 Device(config-mdns)# exit
Example: Applying Service Discovery Filters for an Interface
Example: Setting Multiple Service Discovery Filter Options
The following example shows creation of filters using service-lists mixed, permit-most, permit-all, and deny-all. Then, the filters are applied at various interfaces, as required.
! service-list mdns-sd mixed permit 10 match message-type query ! service-list mdns-sd mixed permit 20 match message-type announcement match service-type _ipps._tcp.local ! service-list mdns-sd mixed permit 30 match message-type announcement match service-type _ipp._tcp.local match service-type _universal._sub._ipp._tcp ! service-list mdns-sd mixed permit 40 match message-type announcement ! service-list mdns-sd mixed deny 50 ! service-list mdns-sd permit-most deny 10 match service-type _sleep-proxy._udp.local ! service-list mdns-sd permit-most permit 20 ! service-list mdns-sd permit-all permit 10 ! service-list mdns-sd deny-all permit 10 match message-type query ! service-list mdns-sd deny-all deny 20 ! service-list mdns-sd active-query query service-type _universal._sub._ipp._tcp.local service-type _ipp._tcp.local service-type _ipps._tcp.local service-type _raop._tcp.local ! service-routing mdns-sd service-policy-query active-query 900 ! ! interface Ethernet0/0 description *** (wireless) Clients here plus some printers or aTVs ip address 172.16.33.7 255.255.255.0 service-routing mdns-sd service-policy mixed IN service-policy permit-all OUT ! interface Ethernet0/1 description *** AppleTVs, Print Servers here ip address 172.16.57.1 255.255.255.0 service-routing mdns-sd service-policy permit-most IN service-policy permit-all OUT ! interface Ethernet0/2 description *** Clients only, we don't want to learn anything here ip address 172.16.58.1 255.255.255.0 service-routing mdns-sd service-policy deny-all IN service-policy permit-all OUT ! interface Ethernet0/3 no ip address shutdown !
In the above example, the service-lists are:
- permit-all - As the name suggests, this service-list permits all resource records, and should be used with care. This is typically applied in the OUT direction; allows the cache to respond to all requests regardless of query content or query type.
- permit-most - This allows anything in, except for sleep-proxy services. This is because extending sleep-proxy services causes an issue with devices that register with a sleep proxy across the Service Discovery Gateway. Due to split horizon, the real (sleeping) device won't be able to re-register its services when waking up again when its pointer (PTR) record is pointing to the sleep-proxy.
- deny-all - This prevents the cache from learning anything. Again incoming on a segment where only clients live. As a result, clients will be able to query for services from the cache (hence the permit 10 match query), but there is no need to learn anything from the clients.
- mixed - This is created to be used in client segments. In addition to clients (such as iPads, PCs, and so on), the occasional printer or a TV will also connect. The purpose here is to learn about those specific services but not about services the clients provide. The filter applied is IN. As a result, the following actions are applicable:
In addition, to keep the service PTRs fresh in the cache an active query is configured. The active query queries for those services that we want to extend. Typically, this would match the services that have been configured as 'permitted' services in the IN filter. The value is set to 900 seconds. The duration is enough to refresh the PTRs as they typically have a TTL of 4500 seconds.
Example: Creating a Service Instance
Device> enable Device# configure terminal Device(config)# service-instance mdns-sd service printer-3 regtype _ipp._tcp.local domain tcp4 Device(config-mdns-sd-si)# ipv4addr 209.165.200.230 255.255.255.0 Device(config-mdns-sd-si)# port 9100 Device(config-mdns-sd-si)# target-hostname fqdn-of-printer.example.com. Device(config-mdns-sd-si)# txt _ipp._tcp.local=printer3 Device(config-mdns-sd-si)# priority 3 Device(config-mdns-sd-si)# weight 20 Device(config-mdns-sd-si)# exit
Note | When you create a service-instance, a text record is created even if you do not configure service-instance parameters. |
Additional References for Service Discovery Gateway
Related Documents
Related Topic | Document Title |
---|---|
Master Command List |
|
IP Addressing Services Command Reference |
|
Configuring DNS |
IP Addressing: DNS Configuration Guide |
DNS conceptual information |
“Information About DNS” section in IP Addressing: DNS Configuration Guide |
Standards and RFCs
Standard/RFC | Title |
---|---|
RFC 6762 |
|
RFC 6763 |
|
Multicast DNS Internet-Draft |
MIBs
MIB | MIBs Link |
---|---|
No new or modified MIBs are supported by this feature, and support for existing MIBs has not been modified by this feature. |
To locate and download MIBs for selected platforms, Cisco IOS releases, and feature sets, use Cisco MIB Locator found at the following URL: |
Technical Assistance
Description | Link |
---|---|
The Cisco Support website provides extensive online resources, including documentation and tools for troubleshooting and resolving technical issues with Cisco products and technologies. To receive security and technical information about your products, you can subscribe to various services, such as the Product Alert Tool (accessed from Field Notices), the Cisco Technical Services Newsletter, and Really Simple Syndication (RSS) Feeds. Access to most tools on the Cisco Support website requires a Cisco.com user ID and password. |
Feature Information for Service Discovery Gateway
The following table provides release information about the feature or features described in this module. This table lists only the software release that introduced support for a given feature in a given software release train. Unless noted otherwise, subsequent releases of that software release train also support that feature.
Use Cisco Feature Navigator to find information about platform support and Cisco software image support. To access Cisco Feature Navigator, go to . An account on Cisco.com is not required.
Feature Name |
Releases |
Feature Information |
---|---|---|
Service Discovery Gateway |
Cisco IOS XE Release 3.11S |
The Service Discovery Gateway feature enables multicast Domain Name System (mDNS) to operate across L3 boundaries (different subnets). The following commands were introduced or modified: cache-memory-max, clear mdns cache, clear mdns statistics, debug mdns, match message-type, match service-instance, match service-type, redistribute mdns-sd, service-list mdns-sd, service-policy, service-policy-query, service-routing mdns-sd, show mdns cache, show mdns requests, show mdns statistics |
Service Discovery Gateway—Phase 2 |
Cisco IOS XE Release 3.13S |
The Service Discovery Gateway feature was enhanced with additional filter and configuration options. In Cisco IOS XE Release 3.13S, support was added for the Cisco ASR 1000 Series Routers The following commands were introduced or modified: clear mdns cache, clear mdns service-types, clear mdns statistics, designated-gateway, match location, rate-limit, service-instance mdns-sd, service-policy-proximity, service-routing mdns-sd, service-type-enumeration, show mdns cache, show mdns statistics, source-interface |
Service Discovery Gateway—Phase 3 |
Cisco IOS XE Release 3.15S |
The Service Discovery Gateway feature was enhanced with the following features:
The following commands were introduced or modified: match learnt-interface, rate-limit, redistribute mdns-sd, service-policy-query (interface) |