Patent application number | Description | Published |
20130242989 | UNREGISTERED MULTICAST (MC) PACKET FORWARDING TO MULTICAST ROUTER PORTS - In one embodiment, a system includes a switching processor, logic configured for installing a Multicast Control (MC) table on a switching processor managing switching on a virtual local area network, logic configured for determining if multicast flooding is disabled in the switching processor, logic configured for installing a drop entry in the MC table upon determining that multicast flooding is disabled in the switching processor, logic configured for detecting whether one or more multicast routers is connected to one or more ports coupled to the switching processor, logic configured for receiving at least one multicast packet, and logic configured for dropping the at least one multicast packet based on the drop entry when no multicast router is connected to any of the one or more ports coupled to the switching processor. Other systems, methods, and computer program products are presented in accordance with more embodiments. | 09-19-2013 |
20130259047 | INTERNET GROUP MEMBERSHIP PROTOCOL GROUP MEMBERSHIP SYNCHRONIZATION IN VIRTUAL LINK AGGREGATION - In one embodiment, a system includes at least one local processor adapted for executing logic, logic adapted for receiving a packet from an access switch on a virtual link aggregation (vLAG) port of a first switch, logic adapted for modifying a source media access control (MAC) address of the packet to include a MAC address of the first switch, wherein a last byte of the modified source MAC address includes a trunk identifier of the vLAG port on which the packet was received, and logic adapted for forwarding the packet to an inter-switch link (ISL) port. Other systems, methods, and computer program products are presented according to more embodiments. | 10-03-2013 |
20140059529 | NON-DISRUPTIVE SOFTWARE UPDATES FOR SERVERS PROCESSING NETWORK TRAFFIC - Updating software on first and second network controller entities (NCEs), without disrupting traffic processing, comprises resetting the second NCE after it receives a proposed software version from the first NCE. The second NCE runs the proposed software version in a standby role. While the second NCE runs the proposed software version in the standby role, databases of the NCEs stay synchronized. Resetting the first NCE induces the second NCE to assume the master role, and the first NCE to assume the standby role. The second NCE in the master role tests the proposed software version for a predetermined period. If validation succeeds, the second NCE instructs the first NCE to reboot and run the proposed software version in the standby role. Otherwise, the second NCE reverts to running the current software version in the standby role; and the first NCE, running the current software version, reverts to the master role. | 02-27-2014 |
20140059530 | NON-DISRUPTIVE SOFTWARE UPDATES FOR SERVERS PROCESSING NETWORK TRAFFIC - Updating software on first and second network controller entities (NCEs), without disrupting traffic processing, comprises resetting the second NCE after it receives a proposed software version from the first NCE. The second NCE runs the proposed software version in a standby role. While the second NCE runs the proposed software version in the standby role, databases of the NCEs stay synchronized. Resetting the first NCE induces the second NCE to assume the master role, and the first NCE to assume the standby role. The second NCE in the master role tests the proposed software version for a predetermined period. If validation succeeds, the second NCE instructs the first NCE to reboot and run the proposed software version in the standby role. Otherwise, the second NCE reverts to running the current software version in the standby role; and the first NCE, running the current software version, reverts to the master role. | 02-27-2014 |
20140204732 | MULTICAST TRAFFIC FORWARDING ON PRUNED INTERFACE - Embodiments of the invention relate to forwarding traffic for link aggregation groups in a system. One embodiment includes a system with a first module that receives a packet and synchronizes a group membership based on the packet. A second module receives the synchronized group membership from the first module and creates link aggregation group (LAG) entries for a primary switch and a secondary. A router receives join requests from the second module for adding a first interface link and a second interface link to the router. A source transmits traffic for the LAG. The second interface link is placed in a pruned state based on a protocol independent multicast (PIM) assert message received from the second module by the primary switch and the secondary switch. The secondary link forwards traffic in the pruned state to an access switch upon the primary link failing. | 07-24-2014 |
20140204938 | MULTICAST ROUTE ENTRY SYNCHRONIZATION - Embodiments of the invention relate to synchronizing multicast route entries in a system. One embodiment includes a system with a first module that synchronizes a group membership and sets a router processing flag based on an interface where a packet is received. A second module receives the router processing flag and information based on the synchronized group membership from the first module and creates multicast route entries based on processing the information and the router processing flag even on a non-designated router (DR) interface. | 07-24-2014 |
20140269683 | Synchronization of OpenFlow controller devices via OpenFlow switching devices - An OpenFlow switching device of an OpenFlow network sends a message including a flow rule received from a first OpenFlow controller device currently active within the OpenFlow network to a second OpenFlow controller device also currently active within the OpenFlow network. As such, the second OpenFlow controller device stays in synchronization with the first OpenFlow controller device. Upon a third OpenFlow controller device becoming newly active within the OpenFlow network, the OpenFlow switching device sends a message including flow rules of the switching device's flow table to the third OpenFlow controller device. As such, the third OpenFlow controller device becomes immediately up-to-date with respect to this flow table. | 09-18-2014 |
20150016454 | UNREGISTERED MULTICAST PACKET FORWARDING TO MULTICAST ROUTER PORTS - A system includes a switching processor and switching logic. The switching processor is communicatively coupled to a virtual local area network (VLAN) and/or one or more ports. The switching logic is configured to: install a Multicast Control (MC) table on the switching processor, determine if multicast flooding is disabled in the switching processor; detect whether multicast routers are communicatively coupled to the port(s); install a multicast router flood entry on the MC table at least partially in response to detecting that at least one of the multicast routers is communicatively coupled to the port(s); receive at least one multicast packet at the switching processor; determine at least one received multicast packet destination based at least in part on the multicast router flood entry; and send at least one received multicast packet to the destination(s). Exemplary computer program products and methods are also disclosed. | 01-15-2015 |
20150055662 | INTERNET GROUP MANAGEMENT PROTOCOL (IGMP) LEAVE MESSAGE PROCESSING SYNCHRONIZATION - Embodiments relate to synchronizing Internet Group Management Protocol (IGMP) leave processing in a system. One embodiment includes a system with a first access switch, a first virtual switch having a first timer, and a second virtual switch having a second timer. The first virtual switch and the second virtual switch are connected with the first access switch. The first access switch transmits an IGMP leave message to the first virtual switch. The first virtual switch transmits a synchronization message to the second virtual switch. The second virtual switch updates the second timer based on receiving the synchronization message. | 02-26-2015 |
20150063108 | OPENFLOW SWITCH MODE TRANSITION PROCESSING - Embodiments of the invention relate to switch mode transition and processing upon loss of controller communication. One embodiment includes losing a connection with a controller by a switch device, entering a particular mode by the switch device, transferring flow entries of the switch device to one or more tables, and notifying network application protocols that correspond to the transferred flow entries. | 03-05-2015 |