Patent application number | Description | Published |
20120147892 | ANALYSIS OF NETWORK PACKETS USING A GENERATED HASH CODE - A technique for analyzing network packets includes receiving, by a network processor, a network packet having a packet header including address and control information. A set of bytes are extracted, using the network processor, from the packet header and a set of input bits for generating a hash code are derived, using the network processor, from the set of bytes. Finally, the hash code is generated using the input bits. | 06-14-2012 |
20120147901 | COMPACTED BINARY IDENTIFIER GENERATION - A technique for generating a compacted binary identifier includes breaking an original binary identifier into equal parts. Each bit of a first one of the parts is exclusive ORed with a start-up value to generate a first result. Each bit of the first result is exclusive ORed with a respective bit of a second one of the parts to generate a second result. | 06-14-2012 |
20120151307 | CHECKSUM VERIFICATION ACCELERATOR - Disclosed is a method and system for validating a data packet by a network processor supporting a first network protocol and a second network protocol and utilizing shared hardware. The network processor receives a data packet; identifies a network packet protocol for the data packet; and processes the data packet according to the network packet protocol comprising: updating a first register with a first partial packet length specific to the first network protocol; updating a second register with a second partial packet length specific to the second network protocol; and updating a third register with a first checksum computed from fields independent of the network protocol. The system produces a second checksum utilizing a function that combines values from the first register, the second register, and the third register. The system validates the data packet by comparing the data packet checksum to the second checksum. | 06-14-2012 |
20120155267 | SELECTION OF RECEIVE-QUEUE BASED ON PACKET ATTRIBUTES - According to embodiments of the invention, there is provided a method, a system, and a computer program product for operating a network processor. The network processor processing a received data packet by reading a flow identification in the data packet; determining a quality of service criteria (QoSC) for the data packet; mapping the flow identification and the QoSC into an index for selecting a receive-queue for routing the data packet; and utilizing the index to route the data packet to the receive-queue. | 06-21-2012 |
20120155494 | BIDIRECTIONAL PACKET FLOW TRANSFORMATION - A network packet includes a packet key that includes one or more source-destination field pairs that each include a source field and a destination field. For each selected source-destination field pair, first and second sections are selected in the packet key. A source field value is extracted from the source field and a destination field value is extracted from the destination field. For each source bit of the source field value: a destination bit is selected from the destination field; an OR logic function is applied to the source bit and the destination bit to generate a first resulting value stored at the same bit position as the source bit in the first section; an AND logic function is applied to the source bit and the destination bit to generate a second resulting value stored at the same bit position as the source bit in the second section. | 06-21-2012 |
20120195208 | PROGRAMMABLE MULTIFIELD PARSER PACKET - A method of operating a packet parser in a computing system includes providing a configurable packet pointer by the packet parser, the packet pointer configured to index a configurable number of atomic parsing elements, the atomic parsing elements having a configurable size, in a data stream received by the computing system for extraction, wherein the indexed atomic parsing elements are non-contiguous in the data stream; and receiving the extracted indexed atomic parsing elements from the data stream by the packet parser. | 08-02-2012 |
20120198213 | PACKET HANDLER INCLUDING PLURALITY OF PARALLEL ACTION MACHINES - A packet handler for a packet processing system includes a plurality of parallel action machines, each of the plurality of parallel action machines being configured to perform a respective packet processing function; and a plurality of action machine input registers, wherein each of the plurality of parallel action machines is associated with one or more of the plurality of action machine input registers, and wherein an action machine of the plurality of parallel action machines is automatically triggered to perform its respective packet processing function in the event that data sufficient to perform the actions machine's respective packet processing function is written into the action machine's one or more respective action machine input registers. | 08-02-2012 |
20120218885 | SELECTION OF RECEIVE-QUEUE BASED ON PACKET ATTRIBUTES - According to embodiments of the invention, there is provided a method for operating a network processor. The network processor receiving a first data packet in a stream of data packets and a set of receive-queues adapted to store receive data packets. The network processor processing the first data packet by reading a flow identification in the first data packet; determining a quality of service for the first data packet; mapping the flow identification and the quality of service into an index for selecting a first receive-queue for routing the first data packet; and utilizing the index to route the first data packet to the first receive-queue. | 08-30-2012 |
20120300630 | IDENTIFICATION OF QOS CLASSIFICATION BASED ON PACKET ATTRIBUTES - A method, a system, and a computer program product is disclosed for identifying a quality of service (QoS) classification of a packet in a network by a network processor. The method comprising: providing a table wherein a priority value with a maximum of N values is used as an index into the table to retrieve a QoS classification having a maximum of M values with M less than N; receiving a data packet in a stream of data packets; extracting at least two priority indicator values from the packet; converting the at least two priority indicator values into a priority value; utilizing the priority value as an index into the table; extracting the entry in the table corresponding to the priority value as the QoS classification of the packet; and utilizing the QoS classification for subsequent processing of the data packet. | 11-29-2012 |
20130156036 | ANALYSIS OF NETWORK PACKETS USING A GENERATED HASH CODE - A technique for analyzing network packets includes receiving, by a network processor, a network packet having a packet header including address and control information. A set of bytes are extracted, using the network processor, from the packet header and a set of input bits for generating a hash code are derived, using the network processor, from the set of bytes. Finally, the hash code is generated using the input bits. | 06-20-2013 |
20130272320 | Generation of a compacted binary identifier - A technique for generating a compacted binary identifier includes breaking an original binary identifier into equal parts. Each bit of a first one of the parts is exclusive ORed with a start-up value to generate a first result. Each bit of the first result is exclusive ORed with a respective bit of a second one of the parts to generate a second result. | 10-17-2013 |
20140029631 | Transformation of Bi-Directional Packet Flow - A network packet includes a packet key that includes one or more source-destination field pairs. Each source-destination field pair that is included in the one or more source-destination field pairs includes a source field and a destination field. For each selected source-destination field pair, included in the one or more source-destination field pairs, a first section and a second section are selected in the packet key. A source field value is extracted from the source field and a destination field value is extracted from the destination field of the selected source-destination field pair. | 01-30-2014 |