KR101765761B1 - Packet transferring apparatus and driving method thereof - Google Patents

Abstract

A packet transfer apparatus according to an embodiment of the present invention includes a first signal transfer module for receiving first partial packets of first packets and second partial packets of second packets from an external device and transferring the second partial packets to another external device, At least a part of first remaining packets excluding the first partial packets of the first packets and at least a part of second remaining packets excluding the second partial packets of the second packets are received from the external device And a second signal transfer module for transferring the first packets and the first part of the packets to the second external device based on the amount of packets received by the first signal transfer module and the amount of packets received by the second signal transfer module, A signal transmission control module for controlling a first rate of packets and a second rate of the second packets and the second partial packets, Wherein the signaling control module is operable to allow the signaling control module to reduce at least one of the first rate and the second rate, And determines that the predetermined condition is satisfied when the amount of packets received by the signaling module is greater than a preset range.

Description

TECHNICAL FIELD [0001] The present invention relates to a packet transfer apparatus and a method of driving the same,

An embodiment of the present invention relates to a packet transfer apparatus and a driving method thereof.

Along with the development of the information and communication field, the network has also developed. In order to increase the safety of network communication, the concept of multiplexing of packet delivery devices has appeared. The plurality of signal transfer modules in the packet transfer apparatus can transfer packets from the external apparatus to another external apparatus based on different paths. In the method of operating a plurality of signaling modules, there is a method of distributing packets evenly over all the time, or a method in which only a master delivery module is normally used and only a slave delivery module is used when a master delivery module malfunctions.

Also, in recent years, a virtual machine system has been widely used. A signaling module, which is one piece of hardware, may include multiple signal processors (virtual machines). When a multiplexing and virtualization machine approach is applied, only one of several virtual machines in a signaling module may malfunction. In this case, since the remaining signal transmission modules process excessively large number of packets, there is a high possibility that the remaining signal transmission modules malfunction.

The embodiments of the present invention provide a packet delivery device and a method of driving the same that reduce the possibility of malfunction due to a reduction in the amount of packets processed by the remaining signal delivery modules even if only one of a plurality of virtual machines in one signal delivery module malfunctions For that purpose.

The packet transfer apparatus according to an embodiment of the present invention includes a first signal transfer module for receiving first partial packets of first packets and second partial packets of second packets from an external device and transferring the second partial packets to another external device, At least some of the first remaining packets excluding the first partial packets of the first packets and the second remaining packets excluding the second partial packets of the second packets are received And a second signal transfer module for transferring the first packets and the first packets to the other external device based on the amount of packets received by the first signal transfer module and the amount of packets received by the second signal transfer module, And a signaling control module for controlling a first rate of some packets and a second rate of the second packets and the second partial packets, The signaling control module may reduce at least one of the first rate and the second rate and the signaling control module is operable to determine whether the amount of packets received by the first signaling module And determines that the predetermined condition is satisfied when the amount of packets received by the second signal transfer module is greater than a predetermined range.

According to an embodiment, when the difference between the amount of packets received by the first signal transfer module and the amount of packets received by the second signal transfer module is out of a predetermined range, the signal transfer control module outputs an abnormal signal .

According to an embodiment, the first signal transfer module may include a first packet processing unit for processing the first partial packets and a second packet processing unit for processing the second partial packets, A first packet processor for processing at least some of the first remaining packets and a second packet processor for processing at least some of the second remaining packets, The signal transmission control module may reduce the second rate if all of the first packets are received by the first signal delivery module and the predetermined condition is satisfied due to a malfunction of the processing unit, When all of the second packets are received by the first signal transfer module due to a malfunction of the second packet processor of the module and the predetermined condition is satisfied, The signaling control module may reduce the first rate.

Further, another embodiment of the present invention is a method of driving a packet delivery device. A method of driving a packet transfer apparatus according to an exemplary embodiment of the present invention includes a first packet processing unit for transferring first ones of first packets from an external apparatus to another external apparatus, And a second packet processing module for transmitting a second part of the packets to the other external device, and a second signal processing module for transmitting at least part of the remaining packets except for the first part of the first packets to the other external device And transmitting at least a part of remaining packets except for the first partial packets among the second packets to the other external device, the method comprising the steps of: Based on a first ratio with the first partial packets and a second ratio between the second packets and the second partial packets, Controlling the second signaling module, comparing the amount of packets received by the first signaling module with the amount of packets received by the second signaling module, and comparing the amount of packets received by the first signaling module and the second signaling module, Determining whether the first rate and the second rate can be reduced, and decreasing the first rate, wherein the first signal transmission module includes: If the amount of packets received is greater than a predetermined amount of packets received by the second signaling module and the second packet processor of the second signaling module malfunctions and can reduce the first rate, The step of decreasing the first rate may be performed.

According to an embodiment, the method of driving the packet transfer device may further include decreasing the second rate, wherein the amount of packets received by the first signal transfer module is received by the second signal transfer module If the amount of packets is greater than a predetermined amount and the first packet processor of the second signaling module malfunctions and the second rate can be reduced, the step of reducing the second rate may be performed.

According to an exemplary embodiment, the method of driving the packet transfer device may further include generating and outputting an abnormal signal, wherein the amount of packets received by the first signal transfer module is received by the second signal transfer module A step of generating and outputting the abnormal signal may be performed when the second packet processing unit of the second signal transmitting module malfunctions and the first rate can not be reduced.

According to an embodiment, the method of driving the packet transfer device may further comprise maintaining the first rate and the second rate, wherein the amount of packets received by the first signaling module is less than the second signal The step of maintaining the first rate and the second rate may be performed if the amount of packets received by the delivery module is not greater than a predetermined range or if the step of generating and outputting the anomaly signal is performed.

The embodiments of the present invention provide a packet delivery device and a method of driving the same that reduce the possibility of malfunction due to a reduction in the amount of packets processed by the remaining signal delivery modules even if only one of a plurality of virtual machines in one signal delivery module malfunctions It is effective.

1 is a diagram for explaining a packet forwarding apparatus according to an embodiment of the present invention for delivering a packet.
2 is a flowchart illustrating a method of driving a packet transfer apparatus according to an embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings. Like reference numerals throughout the specification denote substantially identical components. In the following description, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, the component names used in the following description may be selected in consideration of easiness of specification, and may be different from the parts names of actual products.

Throughout the specification, when a part is referred to as being "connected" to another part, it includes not only "directly connected" but also "indirectly connected" between the devices in the middle. Throughout the specification, when an element is referred to as "comprising ", it means that it can include other elements as well, without excluding other elements unless specifically stated otherwise.

1 is a diagram for explaining a packet forwarding apparatus according to an embodiment of the present invention for delivering a packet. The packet transfer apparatus 2000 according to an embodiment of the present invention includes a first signal transfer module 2100-1, a second signal transfer module 2100-2, and a signal transfer control module 2200. [

The first packets Pa from the first external server 1000-a and the second packets Pb from the second external server 1000-b arrive at the first external device 1500. [ Here, the first external device 1500 may include a router. The first external device 1500 transmits the first partial packets Pa-1 of the first packets Pa to the first signal transfer module 2100-1 and the second partial packet Pa- 2 transmits some packets Pb-1 to the first signal transmission module 2100-1 and transmits the first remaining packets Pa-2 of the first packets Pa to the second signal transmission module 2100-1 2), and transmits the second remaining packets Pb-2 of the second packets Pb to the second signal transfer module 2100-2.

The first signal transmission module 2100-1 includes a first packet processing unit 2100-1a and a second packet processing unit 2100-1b. The first packet processing unit 2100-1a may transmit the first partial packets Pa-1 received from the first external apparatus 1500 to the second external apparatus 3000. [ Here, the second external device 3000 may include a router like the first external device 1500. The second packet processing unit 2100-1b may transmit the second partial packets Pb-1 received from the first external apparatus 1500 to the second external apparatus 3000. [ Here, the ratio of the amount of the first packets Pa to the amount of the first partial packets Pa-1 can be defined as a first rate, and the amount of the second packets Pb and the amount of the second partial packets Pa- Pb-1) can be defined as a second ratio.

The second signal transmission module 2100-2 includes a first packet processing unit 2100-2a and a second packet processing unit 2100-2b. The first packet processing unit 2100-2a may forward the first remaining packets Pa-2 received from the first external apparatus 1500 to the second external apparatus 3000. [ The second packet processing unit 2100-2b may transmit the second remaining packets Pb-2 received from the first external apparatus 1500 to the second external apparatus 3000. [

The first traffic signal TRA-1 transmitted from the first signal transmission module 2100-1 to the signal transmission control module 2200 is transmitted to the first packet processing unit 2100-1a and the second packet processing unit 2100-1b, And the amount of packets received by the first signal transfer module 2100-1, and the amount of packets received by the first signal transfer module 2100-1 includes information on the first partial packets Pa -1) and the amount of the second partial packets Pb-1.

The second traffic signal TRA-2 transmitted from the second signal transmission module 2100-2 to the signal transmission control module 2200 is transmitted to the first packet processing section 2100-2a and the second packet processing section 2100-2b, And information on the amount of packets received by the second signal delivery module 2100-2, and the amount of packets received by the second signal delivery module 2100-2 includes information on the first remaining packets Pa -2) and the amount of the second remaining packets (Pb-2).

That is, the signal transmission control module 2200 determines whether there is a malfunction of the first packet processing units 2100-1a and 2100-2a and the second packet processing units 2100-1b and 2100-2b, -1) and the amount of packets received by the second signaling module 2100-2.

The signal transmission control module 2200 also transmits the first control signal STC-1 to the first signal transfer module 2100-1 and the second control signal STC-1 to the second signal transfer module 2100-2. STC-2). The first control signal STC-1 includes information on the first rate and the second rate and the second control signal STC-2 includes information on the amount of the first packets Pa and the first remaining packets Pa -2) and the ratio of the amount of the second packets Pb to the amount of the second remaining packets Pb-2. If the first packet processing section 2100-1a of the first signal transfer module 2100-1 is the master and the first packet processing section 2100-2 of the second signal transfer module 2100-2 is the master The ratio of the amount of the first packets Pa to the amount of the first remaining packets Pa-2 may be 0%. In the case where the second packet processing unit 2100-1b and the second packet processing unit 2100-2b distribute the packets equally over all the time for the second packets Pb, And the ratio of the amount of the second packets Pb to the amount of the second remaining packets Pb-2 may be 50%.

For convenience of explanation, the signal transmission control module 2200 may determine that adjustment of the first ratio or the second ratio is necessary when the predetermined condition is satisfied. For the sake of convenience of description, in the first signal transfer module 2100-1, there is no malfunction and the malfunction occurs only in the second signal transfer module 2100-2. In the initial setting, the first ratio is 100% 50%. ≪ / RTI > The amount of packets received by the first signaling module 2100-1 is 100% of the first packets Pa and 50% of the second packets Pb and is transmitted to the second signaling module 2100-2 The amount of packets received is 0% of the first packets Pa and 50% of the second packets Pb.

It can be determined that the amount of packets received by the first signaling module 2100-1 is greater than a predetermined range by more than the amount of packets received by the second signaling module 2100-2, . The predetermined range is 100% of the first packets Pa. When the second packet processing section 2100-2b malfunctions, the first rate as well as the second rate become 100%. The amount of packets received by the first signaling module 2100-1 is greater than the amount of packets received by the second signaling module 2100-2 by the amount of packets of the first packets Pa and second packets Pb The signal transmission control module 2200 determines that adjustment of the first ratio or the second ratio is necessary because it is determined that the predetermined condition is satisfied. The signal transmission control module 2200 can try to adjust the first rate because it can detect a malfunction of the second packet processor 2100-2b through the second traffic signal TRA-2.

If the signaling control module 2200 is able to change the initial setting of the delivery of the first packets Pa, the first rate may be reduced to 50% or 0%. That is, even if all of the second packets Pb are transmitted to the second packet processing unit 2100-1b due to a malfunction of the second packet processing unit 2100-2b, the first signal transmission module The amount of packets transmitted by the first signal transmission module 2100-1 does not excessively increase, and the possibility of malfunction of the first signal transmission module 2100-1 may also be reduced.

If the signaling control module 2200 can not change the initial setting for the delivery of the first packets Pa, both the first and second rates are 100%, and the signaling control module 2200 is in an abnormal state And generates and outputs the signal (C-AB). The abnormal signal C-AB may include information on the malfunction of the first packet processing units 2100-1a and 2100-2a and the second packet processing units 2100-1b and 2100-2b. Even if adjustment of the first rate and the second rate is possible, if at least one of the first packet processing units 2100-1a and 2100-2a and the second packet processing units 2100-1b and 2100-2b malfunctions, A signal (C-AB) may be generated and output.

1, the packet transfer apparatus 2000 includes two signal transfer modules 2100-1 and 2100-2, and each of the signal transfer modules 2100-1 and 2100-2 includes two packet processors But this is only an example. One packet delivery apparatus 2000 may include three or more signal transmission modules. In this case, even if one packet processing unit in one signal transfer module malfunctions, the packet processing ratios of the two or more signal transfer modules can be adjusted. Therefore, an increase in the number of packets delivered to each of the signal processing modules not including the malfunctioning packet processing unit Can be further reduced. Also, one signaling module may include three or more packet processing units. In this case, even if one of the packet processing units in one signal transfer module malfunctions, the packet processing ratios of the two or more packet processing units can be adjusted, so that the increase in the amount of packets transmitted to the signal processing module not including the malfunctioning packet processing unit .

2 is a flowchart illustrating a method of driving a packet transfer apparatus according to an embodiment of the present invention. Hereinafter, a method of driving the packet transfer apparatus will be described in detail with reference to FIGS. 1 and 2. FIG. Unlike the description with reference to FIG. 1, for ease of explanation, a malfunction occurs in the first signal transfer module 2100-1 and a malfunction occurs only in the second signal transfer module 2100-2, In the setting, it can be assumed that the first rate is 50% and the second rate is 50%. Therefore, the predetermined range becomes 0 (0% of the first packets Pa and 0% of the second packets Pb). Here, the ratio of the amount of the first packets Pa to the amount of the first partial packets Pa-1 can be defined as a first rate, and the amount of the second packets Pb and the amount of the second partial packets Pa- Pb-1) can be defined as a second ratio.

In step S1100, the signal transmission control module 2200 controls the first signal transmission module 2100-1 and the second signal transmission module 2100-2 based on the initial setting. 50% of the first packets Pa are received by the first packet processing section 2100-1a of the first signal transfer module 2100-1 and 50% of the second packets Pb are received by the assumption 50% of the first packets Pa are received by the first packet processing unit 2100-1 of the second signal transmission module 2100-2 and the second packets are received by the second packet processing unit 2100-1b of the first signal transfer module 2100-1, 50% of the second packets Pb are received by the second packet processing unit 2100-2b of the second signal transfer module 2100-2.

In step S1200, the signaling control module 2200 compares the amount of packets received by the first signaling module 2100-1 with the amount of packets received by the second signaling module 2100-2. When at least one of the first packet processing unit 2100-2a and the second packet processing unit 2100-2b malfunctions, at least one of the first rate or the second rate increases and the first signal transmission module 2100-1 Is larger than a predetermined range by more than the amount of packets received by the second signal transmission module 2100-2. Accordingly, step S1300 is performed because predetermined conditions are satisfied. On the other hand, when all of the first packet processing units 2100-1a and 2100-2a and the second packet processing units 2100-1b and 2100-2b are normally operated, the first signal processing module 2100-1 receives The amount of packets is not greater than a predetermined range by more than the amount of packets received by the second signal transmission module 2100-2. Therefore, step S1400 is performed because the predetermined condition is not satisfied.

In step S1300, the signaling control module 2200 controls the first packet processors 2100-1a and 2100-2a based on the first traffic signal TRA-1 and the second traffic signal TRA-2, 2 packet processing units 2100-1b and 2100-2b. If the first packet processing unit 2100-2a malfunctions, step S1500 is performed. Otherwise, the second packet processing unit 2100-2b malfunctions. Therefore, step S1600 is performed.

In step S1400, since both of the first packet processing units 2100-1a and 2100-2a and the second packet processing units 2100-1b and 2100-2b are normally operated or the first rate and the second rate can not be reduced , The first ratio and the second ratio are maintained.

In step S1500, since the first packet processing section 2100-2a malfunctions, an attempt is made to reduce the second rate. If the second packet processing unit 2100-2b normally operates and the signal transmission control module 2200 can change the setting, step S1700 is performed. When the signal transmission control module 2200 is unable to change the setting or both the first packet processing unit 2100-2a and the second packet processing unit 2100-2b in the second signal transfer module 2100-2 malfunctions Step S1800 is performed.

In step S1600, only the second packet processing section 2100-2b malfunctions, so that the first rate reduction is attempted. If the signal transmission control module 2200 is able to change the setting, step S1900 is performed, and if the signal transmission control module 2200 is unable to change the setting, step S1800 is performed.

In step S1700, the signaling control module 2200 reduces the second rate. Accordingly, the amount of packets transmitted by the first signal transmission module 2100-1 does not excessively increase due to the decrease of the second ratio, and the possibility of malfunction of the first signal transmission module 2100-1 may also be reduced .

In step S1800, the signal transmission control module 2200 generates an abnormal signal (C-AB) and outputs it to the outside (not shown). According to an embodiment, step S1800 may be performed in parallel with step S1300 after step S1200. If at least one of the first packet processing units 2100-1a and 2100-2a and the second packet processing units 2100-1b and 2100-2b malfunctions, the abnormal signal (C-AB) 2000).

In step S1900, the signaling control module 2200 reduces the first rate. Therefore, the amount of packets transmitted by the first signal transmitting module 2100-1 does not excessively increase due to the decrease of the first rate, and the possibility of malfunction of the first signal transmitting module 2100-1 may also be reduced .

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

2100-1: first signal transfer module 2100-2: second signal transfer module
2200: Signal Transmission Control Module

Claims (11)

A first signaling module and a second signaling module for distributing and processing first packets received from a first external server and second packets received from a second external server, respectively, at a first rate and a second rate; And
And a signal transmission control module for comparing packet throughputs of the first signal transmission module and the second signal transmission module to control the first ratio and the second ratio,
Wherein the signal transmission control module comprises:
And outputting an error signal to the first external server and the second external server when the difference value of the packet throughput exceeds a preset range and control of the first rate and the second rate is impossible, Wherein the second signal transfer module is configured to limit the packet throughput of the transfer module or the second signal transfer module. The signal transmission control module according to claim 1,
When the difference value of the packet throughput exceeds the preset range and any signal transfer module of the first signal transfer module and the second signal transfer module can not process the first packets, And controls the second ratio such that a ratio of the second packets processed by the delivery module is higher. The signal transmission control module according to claim 1,
When the difference value of the packet throughput exceeds the predetermined range and any signal transfer module of the first signal transfer module and the second signal transfer module can not process the second packets, And controls the first rate such that a ratio of the first packets processed by the delivery module is higher. The apparatus of claim 1, wherein the first signal transfer module and the second signal transfer module comprise:
A first packet processing unit for processing the first packets; And
And a second packet processing unit for processing the second packets, respectively. 5. The apparatus of claim 4, wherein the signal-
When the difference value of the packet throughput exceeds the predetermined range and it is determined that the packet throughput of the first signal transfer module to the first packet processor is increased due to a malfunction of the first packet processor of the second signal transfer module And controls the second ratio so that the packet throughput for the second packet processing unit of the second signal transfer module increases. 5. The apparatus of claim 4, wherein the signal-
When the difference value of the packet throughput exceeds the predetermined range and it is determined that the packet throughput of the first signal transfer module to the second packet processor is increased due to a malfunction of the second packet processor of the second signal transfer module And controls the first rate to increase the packet throughput for the first packet processor of the second signaling module. A first signal delivery module for distributing first packets received from a first external server and second packets received from a second external server into a first rate and a second rate, ;
Determining whether at least one of the first rate and the second rate is controllable if the difference value of the packet throughput exceeds a predetermined range; And
And outputting an abnormal signal to the first external server and the second external server when the first ratio and the second ratio can not be controlled,
The above-
Wherein the first signal transfer module and the second signal transfer module are output to limit a packet throughput of the first signal transfer module or the second signal transfer module. 8. The method of claim 7, wherein determining whether control of at least one of the first rate and the second rate is possible comprises:
Determining whether the first signaling module and the second signaling module can process the first packets when the difference value of the packet throughput exceeds the predetermined range; And
And determining whether or not the control of the second rate is possible when the arbitrary signal transfer module of the first signal transfer module and the second signal transfer module can not process the first packets. Wherein the packet transmission device is a packet transmission device. 9. The method of claim 8,
Further comprising controlling the second rate such that the rate of the second packets processed by the arbitrary signal transfer module is higher if the second rate control is possible . 8. The method of claim 7, wherein determining whether control of at least one of the first rate and the second rate is possible comprises:
Determining whether the first signaling module and the second signaling module can process the second packets if the difference value of the packet throughput exceeds the predetermined range; And
And determining whether the first rate control is possible if any one of the first signal transfer module and the second signal transfer module can not process the second packets. Wherein the packet transmission device is a packet transmission device. 11. The method of claim 10,
Further comprising controlling the first rate such that the rate of the first packets processed by the arbitrary signal transfer module is higher if the first rate control is possible .

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