Abstract: The present disclosure relates to malware and, more particularly, towards systems and methods of processing information associated with detecting and handling malware. According to certain illustrative implementations, methods of processing malware are disclosed. Moreover, such methods may include one or more of unpacking and/or decrypting malware samples, dynamically analyzing the samples, disassembling and/or reverse engineering the samples, performing static analysis of the samples, determining latent logic execution path information regarding the samples, classifying the samples, and/or providing intelligent report information regarding the samples.
Abstract: The present disclosure relates to malware and, more particularly, towards systems and methods of processing information associated with detecting and handling malware. According to certain illustrative implementations, methods of processing malware are disclosed. Moreover, such methods may include one or more of unpacking and/or decrypting malware samples, dynamically analyzing the samples, disassembling and/or reverse engineering the samples, performing static analysis of the samples, determining latent logic execution path information regarding the samples, classifying the samples, and/or providing intelligent report information regarding the samples.
Abstract: The present disclosure relates to malware and, more particularly, towards systems and methods of processing information associated with detecting and handling malware. According to certain illustrative implementations, methods of processing malware are disclosed. Moreover, such methods may include one or more of unpacking and/or decrypting malware samples, dynamically analyzing the samples, disassembling and/or reverse engineering the samples, performing static analysis of the samples, determining latent logic execution path information regarding the samples, classifying the samples, and/or providing intelligent report information regarding the samples.
Abstract: There are provided a system and a method of determining a physical connectivity of a new node connected to a dynamic communication network comprising a plurality of connecting nodes each comprising a plurality of ports. The method comprises: (a) responsive to automatically discovering a new node connected to the dynamic communication network, obtaining address data characterizing a network address of said discovered new node; (b) querying all known connecting nodes and generating a port dataset representing all ports thereof which have registered address data characterizing the network address of said discovered new node; (c) defining, by analyzing the generated port dataset, a port and respective connecting node which said discovered new node is directly connected to.