There are disclosed processes and systems relating to simulated real-time packet generation to test a communications network. A first packet stream is defined and transmitted. Each packet in the first packet stream is composed from a first background data field and one or more user defined fields th
There are disclosed processes and systems relating to simulated real-time packet generation to test a communications network. A first packet stream is defined and transmitted. Each packet in the first packet stream is composed from a first background data field and one or more user defined fields that overlay the first background data field.
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The invention claimed is: 1. A process to generate packets, comprising: defining a first packet stream comprising a first plurality of packets; composing and transmitting the first plurality of packets at a first packet frequency, wherein the transmission of the first plurality of packets is contro
The invention claimed is: 1. A process to generate packets, comprising: defining a first packet stream comprising a first plurality of packets; composing and transmitting the first plurality of packets at a first packet frequency, wherein the transmission of the first plurality of packets is controlled by a first series of interrupts from a hardware timer, and each packet of the first plurality of packets is comprised of a first background data field and one or more user defined fields that overlay the first background data field; defining a second packet stream comprising a second plurality of packets; composing and transmitting the second plurality of packets at a second packet frequency different from the first packet frequency, wherein the first packet stream and the second packet stream are transmitted, at least in part, concurrently, and the transmission of the second plurality of packets at the second packet frequency is controlled by a second series of interrupts interleaved with the first series of interrupts from the hardware timer; and generating a time reference signal controlled by a third series of interrupts interleaved with the first series of interrupts and second series of interrupts from the hardware timer. 2. The process to generate packets of claim 1, wherein the first background data field is fixed and common to all packets of the first plurality of packets. 3. The process to generate packets of claim 2, wherein the one or more user defined fields contain data that changes between successive packets of the first plurality of packets. 4. The process to generate packets of claim 3, wherein a user defined field is selected from the group consisting of a random number, a counter, an IP checksum, a UDP checksum, and a value selected sequentially from a table of values. 5. The process to generate packets of claim 1, wherein defining a first packet stream is performed by an application program operating in a user space composing and transmitting the plurality of packets is performed by a generic packet generator program operating in kernel space. 6. The process to generate packets of claim 1, wherein defining a first packet stream further comprises: defining the first background data, a number of packets in the first plurality of packets, and a first packet frequency defining the type, position, length, and at least one parameter for each of the one or more user defined fields. 7. The process to generate packets of claim 1, wherein defining a first packet stream further comprises defining a maximum packet length, a minimum packet length, and a statistical distribution between the maximum packet length and the minimum packet length composing and transmitting the first plurality of packets further comprises randomly determining the length of each packet as defined in the first packet stream description. 8. A process to generate packets, comprising: composing and transmitting a first packet stream at a first packet frequency; composing and transmitting a second packet stream at a second packet frequency not equal to the first packet frequency; and controlling the transmission of the first packet stream and the second packet stream by interrupts from a single hardware timer, wherein the first packet stream and the second packet stream are transmitted, at least in part, concurrently, and wherein controlling the transmission of the first packet stream and the second packet stream further comprises: identifying a most urgent packet, where the most urgent packet is either the next packet to be transmitted from the first packet stream or the next packet to be transmitted from the second packet stream, whichever has to be transmitted first; determining a time interval between the present time and a required time to initiate transmission of the most urgent packet; setting the hardware timer to issue an interrupt after the time interval; receiving the interrupt from the hardware timer; initiating transmission of the most urgent packet; and repeating from identifying a most urgent packet until all packets in the first packet stream and the second packet stream have been transmitted. 9. A process to generate packets, comprising: composing and transmitting a plurality of packet streams at multiple packet frequencies; and controlling the transmission of the plurality of packet streams using interrupts from a single hardware timer, wherein the plurality of packet streams are transmitted, at least in part, concurrently, and wherein controlling the transmission of the plurality of streams of packets further comprises: identifying a most urgent packet, wherein the most urgent packet is the next packet to be transmitted selected from all of the plurality of packet streams; determining a time interval between the present time and a required time to initiate transmission of the most urgent packet; setting the hardware timer to issue an interrupt after the time interval; receiving the interrupt from the hardware timer; initiating transmission of the most urgent packet and repeating from identifying a most urgent packet until all the packets in the plurality of packet streams have been transmitted. 10. The process to generate packets of claim 9, where in identifying a most urgent packet further comprises: sorting the packet streams into a plurality of frequency groups where all periodic events in a frequency group occur at the same frequency for each frequency group: sorting the packet streams by order of occurrence forming an ordered doubly linked list of timer data structures, each timer data structure associated with one of the plurality of packet streams and each timer data structure including a pointer to a callback function to initiate transmission of the next packet in the associated packet stream forming a doubly linked list of frequency data structures, wherein each frequency data structure corresponds to a frequency group each frequency data structure includes a pointer to the timer data structure corresponding to the packet stream containing the next packet to be transmitted within the corresponding frequency group setting a root pointer to point to the frequency data structure corresponding to the frequency group containing the most urgent packet. 11. A computing device to generate packets, the computing device comprising: a processor; a memory coupled with the processor; a hardware interface to the communication network; a hardware timer; and a computer readable storage medium having instructions stored thereon which when executed cause the computing device to perform actions comprising: defining a first packet stream comprising a first plurality of packets; composing and transmitting the first plurality of packets at a first packet frequency, wherein the transmission of the first plurality of packets is controlled by a first series of interrupts from the hardware timer, and each packet of the first plurality of packets is comprised of a first background data field and one or more user defined fields that overlay the first background data field; defining a second packet stream comprising a second plurality of packets: composing and transmitting the second plurality of packets at a second packet frequency different from the first packet frequency, wherein the first packet stream and the second packet stream are transmitted, at least in part, concurrently, and the transmission of the second plurality of packets at the second packet frequency is controlled by a second series of interrupts interleaved with the first series of interrupts from the hardware timer; and generating a time reference signal controlled by a third series of interrupts interleaved with the first series of interrupts and second series of interrupts from the hardware timer. 12. A computer readable storage medium having instructions stored thereon which when executed by a computing device will cause the computing device to perform actions comprising: defining a first packet stream comprising a first plurality of packets; composing and transmitting the first plurality of packets at a first packet frequency, wherein the transmission of the first plurality of packets is controlled by a first series of interrupts from a hardware timer, and each packet of the first plurality of packets is comprised of a first background data field and one or more user defined fields that overlay the first background data field; defining a second packet stream comprising a second plurality of packets; composing and transmitting the second plurality of packets at a second packet frequency different from the first packet frequency, wherein the first packet stream and the second packet stream are transmitted, at least in part, concurrently, and the transmission of the second plurality of packets at the second packet frequency is controlled by a second series of interrupts interleaved with the first series of interrupts from the hardware timer; and generating a time reference signal controlled by a third series of interrupts interleaved with the first series of interrupts and second series of interrupts from the hardware timer. 13. A computing device to generate packets, the computing device comprising: a processor a memory coupled with the processor a hardware interface to the communication network a computer readable storage medium having instructions stored thereon which when executed cause the computing device to perform actions comprising: composing and transmitting a first packet stream at a first packet frequency; composing and transmitting a second packet stream at a second packet frequency not equal to the first packet frequency; and controlling the transmission of the first packet stream and the second packet stream by interrupts from a single hardware timer, wherein the first packet stream and the second packet stream are transmitted, at least in part, concurrently and wherein controlling the transmission of the first packet stream and the second packet stream further comprises: identifying a most urgent packet, where the most urgent packet is either the next packet to be transmitted from the first packet stream or the next packet to be transmitted from the second packet stream, whichever has to be transmitted first; determining a time interval between the present time and a required time to initiate transmission of the most urgent packet; setting the hardware timer to issue an interrupt after the time interval; receiving the interrupt from the hardware timer; initiating transmission of the most urgent packet; and repeating from identifying a most urgent packet until all packets in the first packet stream and the second packet stream have been transmitted. 14. A computer readable storage medium having instructions stored thereon which when executed by a computing device will cause the computing device to perform actions comprising; composing and transmitting a first packet stream at a first packet frequency; composing and transmitting a second packet stream at a second packet frequency not equal to the first packet frequency; and controlling the transmission of the first packet stream and the second packet stream by interrupts from a single hardware timer, wherein the first packet stream and the second packet stream are transmitted, at least in part, concurrently, and wherein controlling the transmission of the first packet stream and the second packet stream further comprises: identifying a most urgent packet, where the most urgent packet is either the next packet to be transmitted from the first packet stream or the next packet to be transmitted from the second packet stream, whichever has to be transmitted first; determining a time interval between the present time and a required time to initiate transmission of the most urgent packet; setting the hardware timer to issue an interrupt after the time interval; receiving the interrupt from the hardware timer; initiating transmission of the most urgent packet; and repeating from identifying a most urgent packet until all packets in the first packet stream and the second packet stream have been transmitted.
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