JP2001186127A - Understanding state measurement system, understanding state measurement method and storage medium - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a system and a method that measures understanding stat of each flow, without the need for using a test packet. SOLUTION: A measurement object condition is stored, an output item is stored, a packet is received, whether the received packet is a measurement object is discriminated on the basis of the measurement object condition, and when the packet is discriminated as the measurement object, data as to the output item are outputted. Then, a lower limit threshold of a measured object packet number is stored, the measurement object packet number is counted, the lower limit threshold of the measurement object packet number is compared with the count value of the measurement object packet number, and when the count value of the measurement object packet number exceeds the lower limit threshold of the measurement object packet number, the measurement result is outputted. Moreover, statistics may be extracted from the information of the measurement object packets and the time information.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a technique for measuring a traffic situation in a packet-based communication network including the Internet and the like.

[0002]

2. Description of the Related Art In packet communication such as the Internet, when a problem such as "packet failure" or "packet delay" occurs, the following is a general method for investigating the communication status of a communication network. Two methods are used. In the first method, a test packet is transmitted from an end system or a maintenance terminal in a communication network, and the response is measured. With this response, a response time, a communication range, and other information are obtained. For example, in the communication network including the configuration shown in FIG. 1, when the communication status between the end system 11 and the server 16 is bad, the ping is sent from the maintenance terminal 17 to the server 16 and the response is measured. The second method investigates the communication status of network devices such as routers. For example, in a communication network including the configuration shown in FIG.
If the communication status with the relay router 16 is poor, the communication status of the relay routers 14 and 15 is checked.

[0003] However, the first method described above causes various problems because the communication status of the packet transmitted by the end system cannot be directly monitored. For example, ping
Is a test packet, which is different from the packet actually sent by the end system.Therefore, the passing route of the ping and the passing route of the packet actually sent by the end system may be partially different. In such a case, It is not possible to accurately grasp the traffic status of a route through which an actual packet passes. Also, the processing performed according to the protocol, application, quality class, and the like may differ between the case for ping and the case for actual packets. In such a case, a problem caused by such processing cannot be detected.

The second method is suitable for monitoring the status of the entire router or the entire port of the router, but has a problem that the status of each flow cannot be grasped. In addition, this method has a problem that it is difficult to identify a network device on the route when the route changes dynamically.

[0005]

SUMMARY OF THE INVENTION An object of the present invention is to provide an apparatus and a method for measuring the traffic status of each flow without using a test packet in view of the above-mentioned problems.

[0006]

According to the present invention, there is provided a communication status measuring apparatus, comprising: a measuring condition storing means for storing a measuring condition; a packet receiving means for capturing a packet; The determination unit for determining whether the packet received by the packet receiving unit is a measurement target based on the measurement target condition, the output item storage unit for storing the output item, and the determination unit determine that the packet is a measurement target. Output means for outputting data on an output item in the event of a failure.

Further, according to the communication status measuring method of the present invention, a step of storing a measurement target condition, a step of capturing a packet, a step of determining whether or not a received packet is a measurement target based on the measurement target condition, and a step of outputting The method includes a step of storing the item and a step of outputting data about the output item when the item is determined to be a measurement target.

The communication status measuring method of the present invention further comprises the steps of: storing a lower threshold of the number of packets to be measured, counting the number of packets to be measured, a lower threshold of the number of packets to be measured, and a count value of the number of packets to be measured. And outputting a measurement result when the count value of the number of packets to be measured exceeds the lower threshold of the number of packets to be measured, and / or extracting a statistic from information on the packets to be measured and time information May include the step of: In this case, the number of bytes of the measurement target packet can be used instead of the number of measurement target packets.

[0009] A recording medium according to the present invention is characterized by recording a computer program for executing the above-described steps.

[0010]

Next, an embodiment of the present invention will be described with reference to the drawings. 2 is a diagram showing a configuration example of a communication network to which the present invention is applied, FIG. 3 is a diagram showing a configuration example of a communication status measuring device according to the present invention, FIG. 4 is a diagram showing a configuration example of a relay router, and FIG.
5 is a flowchart for explaining processing of the communication status measuring device according to the present invention.

In the communication network, there are end systems 21 and 22, which are subscriber systems, and a subscriber router 23, and relay routers 24, 25 which are communication network devices, which are connected by lines. ing. The relay router 25 is a server
Accommodates 26. The measuring devices 27 to 29 are the branching devices 30, 3
1, and connected to a communication network via a measurement line via a relay router 24. The branching devices 30 and 31 are devices for electrically or optically copying information on a line and distributing the information to a branch destination. The relay router 24 accommodating the measurement device has a packet copy unit 59, and thereby, an incoming line (receiving units 51 and 52) and an outgoing line (transmitting unit 53,
All the packets transmitted and received in 54) can be copied and sent to the measuring device 28.

Next, a description will be given of an example of the configuration of a communication status measuring apparatus according to the present invention and processing by the configuration. The communication status measuring device according to the present invention can also be realized by causing a normal computer to execute a predetermined program. First, a measurement target is set using the keyboard 45 (step 1). The measurement target is specified by a combination of all or part of the time, the calling host address or the calling network address, the calling protocol number or the calling port number, the called host address or the called network address, the called protocol number or the called port number. Typically, if the end system 21 does not successfully download the file from the server 26 by FTP or is very slow, it is preferable that "the source host address = the address of the server 26, the destination host address = the address of the end system 21". , Destination port number = 20 (FT
P-DATA) and a packet of "source host address = address of end system 21, destination host address = address of server 26, destination port number = 20" are set as measurement targets. These settings are stored in the CPU 42
It is stored in the memory 46 inside.

Output contents (time, header information, etc.)
Is set (step 2). As the output content, a method of designating a position such as “contents of a position of a predetermined number of bytes from the beginning of the packet” and a method of designating a meaning such as an IP header or a TCP header can be used.
Further, it is possible to set a lower threshold of the number of packets to be measured for outputting a measurement result. According to this configuration,
Abnormal traffic can be easily measured. These settings are also stored in the memory 46 in the CPU 42.

After these settings, when a packet is received by the packet receiving device 41 (step 3), the CPU 42 checks whether or not the packet is a measurement target (step 4). This checking process may be performed by firmware in the packet receiving device. Also, part of this check processing, for example, only the check of the destination address may be performed by firmware in the packet receiving apparatus. In these cases, the measurement settings are also stored on the firmware,
Only those that pass the check are sent to the CPU.

If the CPU 42 determines that the object is to be measured, the CPU 42 reads the output content from the memory 46 (step 8). For example, when the output contents are a time, an IP header, and a TCP header, the time is read from the timer 47, and the time, the IP header, and the TCP header are extracted (step 9), and monitored via the I / O control 43.
Output to 44.

If a lower threshold is set for the number of packets to be measured (step 5), C
1 is added to the measurement target counter of the memory 46 in the PU 42 (step 6), and only when this count value exceeds a predetermined lower limit threshold value (step 7), is output. In this case, the present invention can be similarly implemented by using the number of bytes of the measurement target packet instead of the number of measurement target packets.

The CPU 42 can output not statistical data such as time data and header information but statistical data. Specifically, the number of packet transmission bytes per unit time of the measurement target is calculated from the time and packet length of each measurement target packet, and output. Further, when the packet receiving apparatus receives the signal in the vertical direction of the line, it can measure the ACK packet for the specific measurement target packet. In this case, the time until ACK, that is, the response time can be measured.

Typically, detection of an object to be measured is set by an incoming / outgoing IP address, and a time interval until ACK of a TCP SYN packet and a FIN (or RST) packet of the object to be measured, and a traffic amount or a traffic amount of the object to be measured during the time interval. The change in SN is measured and the amount of traffic per time interval or SN
By outputting the change of, the throughput can be measured. In this case, SN, FIN, RST, SY
N and the like are all obtained from the TCP header information.

In the above embodiment, an example in which the measuring device is configured as a device separate from a network device such as a router has been described. However, it is needless to say that the measuring device can be realized integrally with the network device.

[0020]

As described above, according to the communication status measuring technique of the present invention, the communication status of each flow can be measured without using a test packet.

[Brief description of the drawings]

FIG. 1 is a diagram for explaining a configuration of a conventional communication network.

FIG. 2 is a diagram illustrating a configuration example of a communication network to which the present invention is applied.

FIG. 3 is a diagram showing a configuration example of a communication status measuring device according to the present invention.

FIG. 4 is a diagram illustrating a configuration example of a relay router.

FIG. 5 is a flowchart for explaining processing of the communication status measuring device according to the present invention.

[Explanation of symbols]

 Reference Signs List 11 end system 13 subscriber router 14, 15 relay router 16 server 17 maintenance terminal 21, 22 end system 23 subscriber router 24, 25 relay router 26 server 27, 28, 29 measuring device 30, 31, branching device 41 packet receiving device 42 CPU 43 I / O control 44 Monitor 45 Keyboard 46 Memory 47 Timer 51, 52 Receiver 53, 54, 55 Transmitter 56 CPU 57 Memory 58 Destination table 59 Copy unit 60 Monitor 61 Keyboard 62 I / O control unit

Claims (16)

[Claims] 1. A measurement target condition storage means for storing measurement target conditions, a packet reception means for capturing a packet, and whether or not a packet received by the packet reception means is a measurement target based on the measurement target conditions. Determination means for determining, output item storage means for storing output items,
And a communication status measuring device comprising output means for outputting data on an output item when the judgment means judges the object to be measured. 2. The communication status measuring apparatus according to claim 1, wherein the measurement target condition includes one or both addresses of the call destination. 3. The communication status measuring device according to claim 1, wherein the output items include any or all of a time, a calling address, a called address, and an upper protocol header. 4. The output item according to claim 1, wherein the output item is the content at a position of a predetermined number of bytes from the beginning of the packet.
Communication condition measuring device according to 1. 5. An output condition storage means for storing the lower limit threshold, a counter for measuring the number of packets to be measured, a lower threshold for the number of packets to be measured, in order to output a measurement result when the lower limit of the number of packets to be measured is exceeded. 2. The communication status measuring device according to claim 1, further comprising a comparing unit for comparing the value of the counter with the number of packets to be measured. 6. An output condition storage means for storing the lower limit threshold, a counter for measuring the number of bytes of the packet to be measured, and a counter for storing the number of bytes to be measured, in order to output the measurement result when the number of bytes of the packet to be measured exceeds the lower threshold. 2. The communication status measuring device according to claim 1, further comprising a comparing unit for comparing a lower limit threshold value of the number of bytes with a value of a counter of the number of bytes of the packet to be measured. 7. The communication status measuring apparatus according to claim 1, further comprising an extraction unit for extracting a statistic from the information of the measurement target packet and the time information. 8. The communication status measuring device according to claim 1, wherein the packet is an IP packet. 9. A step of storing a measurement target condition, a step of capturing a packet, a step of determining whether or not a packet received based on the measurement target condition is a measurement target, a step of storing an output item, and a step of measuring A communication status measuring method, comprising a step of outputting data on an output item when it is determined to be a target. 10. The communication status measuring method according to claim 9, wherein the measurement target condition includes one or both addresses of the call. 11. The communication status measuring method according to claim 9, wherein the output items include any or all of a time, a calling address, a called address, and an upper protocol header. 12. The communication status measuring method according to claim 9, wherein the output item is the content at a position of a predetermined number of bytes from the beginning of the packet. 13. A step of storing a lower threshold of the number of packets to be measured, a step of counting the number of packets to be measured, a step of comparing the lower threshold of the number of packets to be measured with the count of the number of packets to be measured, and The communication status measuring method according to claim 9, further comprising a step of outputting a measurement result when the count value of the number of packets to be measured exceeds a lower threshold of the number of packets to be measured. 14. A step of storing a lower limit threshold of the number of bytes of the packet to be measured, a step of counting the number of bytes of the packet to be measured, a lower threshold of the number of bytes of the packet to be measured, and a count value of the number of bytes of the packet to be measured. 10. The communication according to claim 9, further comprising: comparing the number of bytes of the measurement target packet with the number of bytes of the measurement target packet and outputting the measurement result when the count exceeds the lower limit threshold of the number of bytes of the measurement target packet. Situation measurement method. 15. The communication status measuring method according to claim 9, further comprising a step of extracting a statistic from the information of the measurement target packet and the time information. 16. The method of claim 9, 13, 14, and / or 15.
A recording medium on which a computer program for executing each of the steps described in 1 above is recorded.