In aspects of the disclosure, a method, an apparatus, and a computer program product for wireless communication are provided. In one aspect, the apparatus determines if a connection to a PLMN has been established. In another aspect, the apparatus builds a FQDN based on the determination by attempting to build the FQDN using each of the prioritized FQDNs in order of priority until the FQDN is built, building the FQDN using a PLMN ID of the PLMN if it is determined that the PLMN is found in the list, or building the FQDN based on the wildcard PLMN if it is determined that the list comprises the wildcard PLMN. Further still, the apparatus selects a network security gateway to provide network security and internet working control based on the FQDN.

In aspects of the disclosure, a method, an apparatus, and a computer program product for wireless communication are provided. In one aspect, the apparatus determines if a connection to a PLMN has been established. In another aspect, the apparatus builds a FQDN based on the determination by attempting to build the FQDN using each of the prioritized FQDNs in order of priority until the FQDN is built, building the FQDN using a PLMN ID of the PLMN if it is determined that the PLMN is found in the list, or building the FQDN based on the wildcard PLMN if it is determined that the list comprises the wildcard PLMN. Further still, the apparatus selects an ePDG based on the FQDN.

In aspects of the disclosure, a method, an apparatus, and a computer program product for wireless communication are provided. In one aspect, the apparatus determines if a connection to a PLMN has been established. In another aspect, the apparatus builds a FQDN based on the determination by attempting to build the FQDN using each of the prioritized FQDNs in order of priority until the FQDN is built, building the FQDN using a PLMN ID of the PLMN if it is determined that the PLMN is found in the list, or building the FQDN based on the wildcard PLMN if it is determined that the list comprises the wildcard PLMN. Further still, the apparatus selects an ePDG based on the FQDN.

In aspects of the disclosure, a method, an apparatus, and a computer program product for wireless communication are provided. In one aspect, the apparatus determines if a connection to a PLMN has been established. In another aspect, the apparatus builds a FQDN based on the determination by attempting to build the FQDN using each of the prioritized FQDNs in order of priority until the FQDN is built, building the FQDN using a PLMN ID of the PLMN if it is determined that the PLMN is found in the list, or building the FQDN based on the wildcard PLMN if it is determined that the list comprises the wildcard PLMN. Further still, the apparatus selects an ePDG based on the FQDN.

A method, system, and computer program product for Internet of Things (IoT) network-connected devices. Embodiments include methods and systems for registering one or more listener devices (e.g., mobile phones or tablets, etc.) to receive messages from one or more notification devices (e.g., web cameras, etc.). A notification server is selected from among multiple notification servers to receive notification messages from the notification devices and then to forward (e.g., through a push service, etc.) portions of or variations of the notification messages to the listener devices. In some embodiments, the selection of the notification server is based on load balancing between the multiple notification servers and/or push servers. In some embodiments, the selection of a notification server and/or push server is based on a provisioning file.

Implementations for probabilistic wildcard-based DNS resolution are described. A request to validate a first subdomain is received from a domain name system (DNS) service attempting to resolve a DNS request that identifies the first subdomain. A validation outcome that indicates a guess regarding validity of the first subdomain may be determined based on a probabilistic data structure representing a set of valid subdomains. The validation outcome may be sent to the DNS service to cause the DNS service to resolve the first subdomain based on the validation outcome. In the case of the validation outcome indicating a guess of the first subdomain being valid, the first subdomain is caused to be resolved to a first common subdomain. In the case of the validation outcome indicating a guess of the first subdomain being invalid, the first subdomain is caused to be resolved to a second common subdomain.

Implementations for probabilistic wildcard-based DNS resolution are described. A request to validate a first subdomain is received from a domain name system (DNS) service attempting to resolve a DNS request that identifies the first subdomain. A validation outcome that indicates a guess regarding validity of the first subdomain may be determined based on a probabilistic data structure representing a set of valid subdomains. The validation outcome may be sent to the DNS service to cause the DNS service to resolve the first subdomain based on the validation outcome. In the case of the validation outcome indicating a guess of the first subdomain being valid, the first subdomain is caused to be resolved to a first common subdomain. In the case of the validation outcome indicating a guess of the first subdomain being invalid, the first subdomain is caused to be resolved to a second common subdomain.