Abstract: A method and system for extracting and building end-to-end route information in a multi-area Internet protocol (IP) autonomous system (AS) is disclosed. The method and system enable a user, such as a network administrator, to explicitly identify a full set of paths (links and routers) that a given IP packet would potentially traverse from its entry point in the source area of the AS where it originates until its exit point in its intended destination area.
Abstract: A method and system for identifying the root-cause event that affected a path change in a multi-area Internet protocol (IP) autonomous system (AS) operated according to a link state routing protocol such as the Open Shortest Path First (OSPF) protocol is disclosed. The method and system may enable a user, such as a network administrator, to explicitly identify which routing protocol events are responsible for changes to paths that are being monitored.
Abstract: A method and system for extracting and building end-to-end route information in a multi-area Internet protocol (IP) autonomous system (AS) operated according to a link state routing protocol such as the Open Shortest Path First (OSPF) protocol is disclosed. The method and system enables a user, such as a network administrator, to explicitly identify a full set of paths (links and routers) that a given IP packet would potentially traverse from its entry point in the area of the AS where it originates until its exit point in its intended destination or exit area.
Abstract: A method and system for monitoring traffic and path information in a packet communication network operated according to an IP routing protocol is disclosed. The method and system enables a user, such as a network administrator, to explicitly identify a full set of paths (i.e., links and routers) that the traffic of a specific customer or set of customers, such as service providers hosted at a hosting site, is using when traversing the network. The system allows the dynamic monitoring of the set of active links carrying traffic belonging to the specific customer or set of customers, and the proportion of that traffic that is carried by each active link. This allows, among other things, the identification of network links that are critical for ensuring a high level of service to key customers.