Examples include group leader role queries. Examples include detection of a loss of communication, via a first communication protocol, between first and second computing devices, transmission, via a second communication protocol, of a query for information about the second computing device currently having the group leader role. Examples further include a determine not to assume the group leader role with the first computing device based on receiving a response to the query via the second communication protocol from the second computing device.

Examples include group leader role queries. Examples include detection of a loss of communication, via a first communication protocol, between first and second computing devices, transmission, via a second communication protocol, of a query for information about the second computing device currently having the group leader role. Examples further include a determine not to assume the group leader role with the first computing device based on receiving a response to the query via the second communication protocol from the second computing device.

Embodiments herein include a method for concurrently performing asynchronous operations over IPv4 and IPv6 in a mobile device. The method includes capturing a DNS query-pattern of a plurality of DNS queries for a plurality of services of an application in the mobile device. Further, the method includes performing a DNS lookup in a DNS cache, to obtain a DNS resolution over the IPv4 and the IPv6 based on the DNS query-pattern of the plurality of DNS queries for the plurality of services of the application. Further, the method includes storing the DNS resolution based on the DNS lookup in the DNS cache. Further, the method includes triggering a TCP connection using a pre-connected connection descriptor based on a domain name resolution. Further, the method includes storing the pre-connected connection descriptor corresponding to the TCP connection in a connection pool cache.

Embodiments herein include a method for concurrently performing asynchronous operations over IPv4 and IPv6 in a mobile device. The method includes capturing a DNS query-pattern of a plurality of DNS queries for a plurality of services of an application in the mobile device. Further, the method includes performing a DNS lookup in a DNS cache, to obtain a DNS resolution over the IPv4 and the IPv6 based on the DNS query-pattern of the plurality of DNS queries for the plurality of services of the application. Further, the method includes storing the DNS resolution based on the DNS lookup in the DNS cache. Further, the method includes triggering a TCP connection using a pre-connected connection descriptor based on a domain name resolution. Further, the method includes storing the pre-connected connection descriptor corresponding to the TCP connection in a connection pool cache.

Described embodiments provide systems and methods for accessing a web application hosted in an intranet from outside said intranet. A server hosting a domain name service configured for the intranet can receive a request from a client that is outside the intranet to access the web application. The request may include a fully qualified domain name (FQDN) of the web application in the intranet. Responsive to the FQDN of the web application in the intranet, the server may send a notification to an access service, to cause the access service to pre-establish a connection to the intranet. Responsive to the FQDN of the web application in the intranet, the server may direct the client to send a handshake message to the access service to request access to the web application.

Described systems and methods enable protecting client devices (e.g., personal computers and IoT devices) implementing encrypted DNS protocols against harmful or inappropriate Internet content. A DNS proxy intercepts an attempt to establish an encrypted communication session between a client device and a DNS server. Without decrypting any communications, some embodiments of the DNS proxy determine an identifier of the respective session and an identifier of the client device, and send a query tracer connecting the session identifier with the client identifier to a security server. In some embodiments, the security server obtains the domain name included in an encrypted DNS query from the DNS server and instructs the DNS server to allow or block access of the client device to the respective Internet domain according to a device- and/or user-specific access policy.

Described systems and methods enable protecting client devices (e.g., personal computers and IoT devices) implementing encrypted DNS protocols against harmful or inappropriate Internet content. A DNS proxy intercepts an attempt to establish an encrypted communication session between a client device and a DNS server. Without decrypting any communications, some embodiments of the DNS proxy determine an identifier of the respective session and an identifier of the client device, and send a query tracer connecting the session identifier with the client identifier to a security server. In some embodiments, the security server obtains the domain name included in an encrypted DNS query from the DNS server and instructs the DNS server to allow or block access of the client device to the respective Internet domain according to a device- and/or user-specific access policy.

Systems and methods herein provide for a proxy infrastructure. In the proxy infrastructure, a network element (e.g., a supernode) is connected with a plurality of exit nodes. At one of a plurality of messenger units of the proxy infrastructure, a proxy protocol request is received directly from a client computing device. The proxy protocol request specifies a request and a target. In response the proxy protocol request, a selection is made between one between one of the plurality of exit nodes. A message with the request is sent from the messenger to the supernode connected with the selected exit node. Finally, the message is sent from the supernode to the selected exit node to forward the request to the target.

Systems and methods herein provide for a proxy infrastructure. In the proxy infrastructure, a network element (e.g., a supernode) is connected with a plurality of exit nodes. At one of a plurality of messenger units of the proxy infrastructure, a proxy protocol request is received directly from a client computing device. The proxy protocol request specifies a request and a target. In response the proxy protocol request, a selection is made between one between one of the plurality of exit nodes. A message with the request is sent from the messenger to the supernode connected with the selected exit node. Finally, the message is sent from the supernode to the selected exit node to forward the request to the target.

A system and method for internet numbers management is provided. Historical internet protocol (IP) block information associated with a plurality of IP blocks is received from a server database. The historical IP block information includes IP block size information and IP block type information. A machine learning model is trained based on the historical IP block information. Predictions are received from the trained machine learning model indicating a pool of IP blocks of the plurality of IP blocks to be audited. An electronic action is generated to obtain validation status information for each IP block of the pool of IP blocks. The historical IP block information in the server database is updated with the validation status information for each IP block of the pool of IP blocks.