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IMPORTANT The Transparency Profile is the recommended method of configuring transparency on the SBC Core for new deployments as well as when applying additional transparency configurations to existing deployments. Do not use IP Signaling Profile flags in these scenarios because the flags will be retired in upcoming releases. Refer to the SBC SIP Transparency Implementation Guide for additional information.
The Transparency Profile is the recommended method of configuring transparency on the SBC Core for new deployments as well as when applying additional transparency configurations to existing deployments. Do not use IP Signaling Profile flags in these scenarios because the flags will be retired in upcoming releases.
Refer to the SBC SIP Transparency Implementation Guide for additional information.
Telephone Number Mapping (ENUM) transforms the telephone number into a universal identifier recognized across different devices and applications (voice, fax, mobile, e-mail, text messaging, location-based services and the Internet). ENUM can also be used to implement a variety of services like number portability, call forwarding etc. It uses a DNS NAPTR record to translate a telephone number into a Uniform Resource Identifier or IP address that can be used in Internet communications.
Since a call may span multiple network elements, to avoid redundant ENUM queries, the SBC Core supports (when configured) processing the
enumdi parameter received on ingress INVITE. Similarly, if ERE/PSX performs an ENUM dip, the SBC sends this parameter in egress INVITE to the next network element identifying that an ENUM query has already been made for the TEL URI, thus preventing redundant queries further down the network.
The SBC also supports sending ENUM queries and receive responses, using the Signaling Interface. The user can configure the Signaling Interface for sending ENUM queries and receive responses, using the packet interface port 988. The packets from the Signaling Interface are prioritized over the packets from the Management Interface.
The Feature Control Profile flag to enable processing of the
enumdi parameter is
processEnumdi. For example,
If R-URI transparency flag (
requestURI) is enabled, the SBC does not send
enumdi indicator in egress signaling even if an ENUM dip is performed by ERE/PSX.
The SBC performs ENUM queries to an external DNS to map E.164 telephone numbers to SIP trunk URIs, and then performs SIP routing based on the service URIs. ENUM translation requires an ENUM NAPTR (Naming Authority Pointer) query to resolve a telephone number to an FQDN, and then requires DNS queries to resolve the FQDN to an IP address and port number.
The result of a successful ENUM NAPTR query is a SIP URI telephone number received in the Request-URI resolved to a SIP URI. To perform an ENUM NAPTR query, the SBC reverses the order of the SIP URI telephone number digits, adds a dot in between each digit, adds the domain name, and finally performs the DNS NAPTR query.
By default, the SBC sends ENUM NAPTR queries to the default public domain (.e164.arpa). If the ENUM database resides in a private domain, specify the private domain on the DNS-ENUM Service Definition screen.
For example, an ENUM query to an external DNS for the ENUM NAPTR record for the SIP URI sip:+email@example.com is sent using the format 184.108.40.206.220.127.116.11.1.2.1.e164.arpa. The SBC then uses the FQDN from the returned record to perform DNS queries which attempt to map the FQDN to an IP address and port number. The SBC returns the IP address and port number in a Request-URI in the policy response.
When the SBC queries an ENUM server and the NAPTR response contains two or more matches, the SBC orders the records in the response according to the “order” and “preference” fields. The SBC uses the first valid record which has the highest (numerically lowest) order and highest (numerically lowest) preference. The rest of the records are not used.
In a NAPTR response to ENUM query, any one of the following strings are recognized as indicating that a SIP address-of-record appears in the URI field:
In the following example, five records were received; the record with the rrk2 address is used because it has the highest order (100) and highest preference (10).
Provisioned records for (44) 1793601415:
18.104.22.168.0.6.3.9.22.214.171.124.e164.arpa. IN NAPTR 300 10 "u" "E2U+sip" "!^.*$!sip:firstname.lastname@example.org!"
126.96.36.199.0.6.3.9.188.8.131.52.e164.arpa. IN NAPTR 100 10 "u" "E2U+sip" "!^.*$!sip:email@example.com!"
184.108.40.206.0.6.3.9.220.127.116.11.e164.arpa. IN NAPTR 200 10 "u" "E2U+sip" "!^.*$!sip:firstname.lastname@example.org!"
18.104.22.168.0.6.3.9.22.214.171.124.e164.arpa. IN NAPTR 100 20 "u" "E2U+sip" "!^.*$!sip:email@example.com!"
126.96.36.199.0.6.3.9.188.8.131.52.e164.arpa. IN NAPTR 400 10 "u" "E2U+sip" "!^.*$!sip:firstname.lastname@example.org!"
The NAPTR Resource Record (RR) uses the following format:
Domain TTL Class Type Order Preference Flags Service Regexp Replacement
"Flags" is a <character-string> containing flags to control aspects of the rewriting and interpretation of the fields in the record. Flags are single characters from the set [A-Z0-9]. The case of the alphabetic characters is not significant.
At this time only four flags, "S", "A", "U", and "P", are defined.
The "S", "A" and "U" flags denote a terminal lookup. This means that this NAPTR record is the last one and that the flag determines what the next stage should be.
|S||The next lookup should be for SRV records.|
|A||The next lookup should be for either an A, AAAA, or A6 record.|
|U||The next step is not a DNS lookup but that the output of the Regexp field is an URI that adheres to the 'absoluteURI' production found in the ABNF of RFC 2396 . Since there may be applications that use NAPTR to also lookup aspects of URIs, implementors should be aware that this may cause loop conditions and should act accordingly.|
|P||The remainder of the application side algorithm shall be carried out in a Protocol-specific fashion. The new set of rules is identified by the Protocol specified in the Services field. The record that contains the 'P' flag is the last record that is interpreted by the rules specified in this document.|
For details refer to the IETF RFC at https://tools.ietf.org/html/rfc2915.
ENUM LNP enables number portability lookups in the IP network without the need to consult an external element in the SS7 network, thus simplifying call routing and networking operations.
The Routing Number must use one of the following formats:
To provision ENUM LNP, enter ported numbers into the SBC database via the NPA-NXX entity (or optionally Number Translation Criteria), and then provision the Enum Domain and Enum Service.
When a Routing Request triggers an ENUM LNP lookup, the SBC uses the dialed number to form a domain name and puts it in an ENUM LNP query to the ENUM database. When the ENUM returns NAPTR resource records, the SBC selects the record with a particular service type, extracts the translated number and domain name from the NAPTR record, and uses them to perform routing. If the query returns no NAPTR record with a translated number, the SBC routes the call using the original dialed number.
ENUM CNAM enables calling name lookups on the IP network without having to consult an external element in the SS7 network, thus simplifying call routing and network operations.
To provision ENUM CNAM, specify the trigger criteria in the Number Translation Criteria entity and specify the ENUM CNAM as the lookup type. ENUM CNAM, provisioned through the DNS-ENUM Service Definition screen, uses the same triggering and escape criteria as SCP-based CNAM. When a Routing Request triggers an ENUM CNAM lookup, the SBC uses the calling number to form a domain name and puts it in an ENUM CNAM query to the ENUM database. When the ENUM returns NAPTR resource records, the SBC adds the caller name.
The ERE platform supports number translations based on the host part (contains a fully-qualified domain name) of the SIP headers. As the IP address format is not supported for host part lookup, it is recommended to use the fully-qualified domain name. The SBC retrieves the destination domain from the various SIP headers and sends it to the ERE as part of the policy request. The domain name lookup is case insensitive and partial matches are supported, while first priority is always for the full match.
The supported destination domain SIP headers are:
toHeader element types are used to support call processing. Configure any of these element types to trigger number translations. The domain names configured in number translations are converted to upper case and stored in ERE as uppercase.
The following are configured based on service priority:
The ERE after executing the SIP AoR service, receives the domain name from the NAPTR RR SIP-URI and the system continues to trigger the next service ENUM CNAM in the priority list. In general, ERE uses the domain name received from SIP AoR service for routing. The ERE updates the
CalledUri with the information received from SIP AoR and then performs any other number translations as required.
To facilitate this service interaction ENUM SIP AoR service must be provisioned with a higher priority than ENUM CNAM service. ENUM CNAM service must be provisioned with element type as
priority is used to set the priority of this ENUM service. This parameter is used to prioritize the order of the ENUM service execution. Priority of the ENUM server hold the values in range (129..140). If not set, or set to "129", default priorities are assigned for LNP (130), CNAM (131), and SIP AoR (132), and these services are executed in that order. If a different order of service execution is required, the priorities are set accordingly. For example, setting CNAM priorty to 133, executes SIP AoR before CNAM.
SBC Core supports transparently passing userinfo parameters received in the ENUM Naming Authority Pointer Response (NAPTR) response in the outgoing INVITE Request Uniform Resource Identifier (R-URI). The SBC transparently sends custom and standard userinfo parameters such as tgrp, trunk-context, cic and rn received in ENUM response. The SBC sends these parameters in the R-URI of the egress INVITE.
This behavior is controlled by enabling the IP Signaling Profile flag “includeEnumParameters”. The default value is "disable". When enabled, the SBCeither adds ENUM response parameters to the R-URI or overwrites egress INVITE R-URI parameter value with the ENUM response parameter value (egress INVITE parameters are determined based on the existing SBC process logic and transparency mechanism).
The SBC supports load balancing across ENUM servers for individual ENUM zones. ENUM client routes the query to ENUM servers based on the load balancing scheme configured for that zone. ENUM client uses the following load balancing scheme to route the requests to ENUM servers:
The enumDomain parameter is deprecated in the SBC.
forwarderIPs must be configured with same
loadDistribution type and