JP2001274793A - Device for measuring quality of packet communication - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a device for measuring the quality of packet communication, that can measure network performance at a packet level with high accuracy by utilizing extracted data consisting of conventional packets, in the case of packet communication bridging different networks adopting a different address system. SOLUTION: The device for measuring quality of packet communication acquires an address conversion table, conducts inverse conversion address information of data extracted by a packet observation means according to conversion rules in the table, identifies same packets by using header information for a key, when the address conversion is finished, and utilizes a time stamp and the header information to calculate quality information.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention is used for evaluating packet network performance. In particular, the present invention is used for an apparatus that evaluates communication quality for a packet stream flowing between user terminals connected to networks having different address systems.

[0002]

2. Description of the Related Art Conventionally, the following two methods are known for measuring a network performance at a packet level. The first is a method of using data extracted by a packet observation means such as a LAN analyzer, which measures the communication quality between different user terminals connected to different networks having a unified address system at a packet level. is there.

A packet observing means is installed near each user terminal, packet header information is extracted with a time stamp, a plurality of extracted data are compared, and a transmission delay time when a specific packet passes through a network is determined. And a network characteristic represented by a discard rate.

The second is a method of transmitting a test packet, in which a test packet in which a time stamp and a sequence number are inserted in a data portion is transmitted and received between different user terminals connected to different networks, respectively. The network characteristics are calculated according to the transmission delay time, the discard rate, etc.

[0005]

A method of using the extracted data by the first packet observing means is to extract individual packets from different networks and compare the two based on the header information to calculate network characteristics. are doing. For example, in the case of an IP network, IP
(Source address, destination add
(ress, source port, destination port, ip) are compared.

[0006] This method is used for communication that straddles different networks having different address systems.
It is not applicable because header information as a key for comparison is rewritten by a header conversion device such as an AT router.

In the method using the second test packet, the accuracy due to the overhead due to the processing inside the measurement host is included in the measured value, and the accuracy is low. It is inferior in accuracy in comparison.

SUMMARY OF THE INVENTION The present invention has been made in view of such a background, and has a packet communication quality measuring apparatus which can use data extracted by a normal packet even in packet communication across different networks having different address systems. The purpose is to provide. SUMMARY OF THE INVENTION It is an object of the present invention to provide a packet communication quality measuring device capable of enabling accurate measurement of network performance at a packet level.

[0009]

SUMMARY OF THE INVENTION The present invention relates to a packet communication quality measuring apparatus, which is characterized in that it is provided in different networks having different address systems, respectively, and is provided in the different networks. Means for evaluating the packet communication quality between the different networks according to the header information of the packet transmitted and received by the user terminal, the evaluating means comprising: means for acquiring an address translation table between the different address systems; Means for unifying the different address systems assigned to the packets to be measured according to the conversion table by reverse conversion.

[0010] The evaluation means is means for measuring a packet transmission delay time and a packet discard rate between the different networks according to the transmission time information and the reception time information of the measured packet whose address system is unified by the unification means. It is desirable to include

That is, the header conversion rules between the plurality of networks and the header conversion device for the extracted data of the packet observing means which records the packet headers respectively installed in a plurality of networks having different address systems with time stamps. To obtain an address translation table describing.

According to this conversion rule, the address information of the extracted data of the packet observation means is inversely converted. After the address conversion is completed, the same packets are identified by using the header information as a key, and the time stamp and the header information are used. To calculate quality information.

The packet to be measured is a packet used for ordinary communication, and it is preferable to include means for using a plurality of packets as packets to be measured. This makes it possible to perform measurement in accordance with actual packet transfer as compared with measurement using a specific test packet, so that high measurement accuracy can be obtained.

Preferably, the means for obtaining the address conversion table includes means for periodically obtaining the address conversion table. Thus, the latest version of the address conversion table can be obtained even when the address conversion table is updated.

[0015]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The configuration of a packet communication quality measuring apparatus according to an embodiment of the present invention will be described with reference to FIGS.
FIG. 1 is a diagram showing a configuration for evaluating packet communication quality between two networks having different address systems. FIG. 2 is a block diagram of the packet communication quality measuring device according to the embodiment of the present invention.

The present invention relates to a packet communication quality measuring apparatus, which is characterized by being provided in different subnets A and B having different address systems, respectively, as shown in FIG. And B according to the header information of the packet transmitted and received by the user terminal 10 provided in each of the subnets A and B.
This is a packet communication quality measuring device 1 that evaluates packet communication quality between them.

In the example of FIG. 1, the subnet A has an address system in a private space, and when transmitting / receiving packets to / from an external network 40 having an address system in the global space, the address translation device in the communication device 30 performs address translation. Address conversion is performed according to the table 20. Since the subnet B has an address system in the global space, no address conversion is required when transmitting / receiving packets to / from the external network 40. As shown in FIG. 2, the packet communication quality measuring device 1
Extracts packet data A and B.

Here, the feature of the present invention is that the packet communication quality measuring apparatus 1 is configured to acquire the address translation table 20 between the different address systems, A-point address converters 3 and B for unifying the different address systems given to the packet under measurement by reverse conversion
And a point address conversion unit 4. The packet matching unit 5 identifies the same packets among the packets whose addresses have been unified.

The packet communication quality measuring device 1
The address system is unified by the point address conversion unit 3 and the B point address conversion unit 4, and the packet matching unit 5 identifies the same packet between the subnets A and B according to the transmission time information and the reception time information of the measured packet. It includes a quality information calculator 6 for measuring a packet transmission delay time and a packet discard rate. At this time,
In the present invention, the measured packet is a packet used for normal communication, and a plurality of packets are used as the measured packet. The translation table acquisition unit 2 acquires the address translation table 20 periodically.

The packet communication quality measuring device according to the embodiment of the present invention will be described in more detail. The subnets A and B in FIG. 1 are IP networks provided by the ISP, the communication device 30 including the address translation device is a dial-up router, and a terminal-type dial-up service (a service that obtains only one IP address from the ISP). ) Is connected to the IP network.

Here, the subnet A has a private space address system, and by having the communication device 30 convert the address and the port number, through the external network 40 having the global space address system. It communicates with subnet B having an address system.

The extracted data of the packet communication quality measuring device 1 connected to the LAN of each user
The point A address conversion unit 3 and the B point address conversion unit 4 perform reverse conversion by the address conversion table 20 of the set of the IP address and the port number acquired from 0.

In the example of FIG. 1, the address conversion table 20
Is provided only in the subnet A. In the packet communication quality measuring apparatus 1, when unifying addresses to the address system of the subnet A, the address conversion unit 3 for the point A uses the acquired address conversion table 20 to The address of the extracted packet is inversely translated. When unifying the addresses in the address system of the subnet B, the address conversion unit 3 of the B point reversely converts the address of the packet extracted from the subnet A using the acquired address conversion table 20.

The packet matching unit 5 identifies the same packets from the two extracted data by using (IP address: port number: IPID) as a key for the packets whose addresses have been unified. In this way, after the extracted data is identified between the same packets,
The quality information calculation unit 6 calculates a one-way packet discard rate based on the one-way delay time and the IPID field in the IP header from the difference between the time stamps assigned to the subnets A and B, respectively.

FIG. 3 shows an example of actual packet extraction data to specifically show the above operation. The subnet A side has a private space address system, and the user terminal 1
0 is a private address (192.168.0.2
00). The subnet B has an address system in a global space on the Internet, and the user terminal 10 has a global address (129.60.1.1).
0) is shaken. From the ISP, the communication device 30
One IP address (131.133.3.3) is provided, and the communication device 30 performs conversion between the internal and external addresses and port numbers.
0 is communicating with the outside.

In order to compare the two extracted data, the conversion table acquisition unit 2 of the packet communication quality measuring device 1 first sends the address conversion table 2 from the communication device 30.
0, the point A address conversion unit 3 converts the private address (192.168.0.200) into a global address (131.133.3.3). Also, it converts the internal port number 1583 to an external port number 4343. Alternatively, the point B address conversion unit 4 converts the global address (131.133.3.3) into the private address (192.168.0.200).
, And the external port number 4343 may be converted to the internal port number 1583. After the address conversion in the communication device 30, the IPID of the IP header is not changed.
Thus, the transmission address, reception address, transmission port number, reception port number, IPI
The inverse transformation for D is completed, and using this as a key, the packet matching unit 5 identifies the same packets. FIG. 3 shows this IP header matching process.

Thereafter, the quality information calculation unit 6 calculates a one-way delay time for passing through the network from the difference between the time stamps attached at the two places, and also calculates the number of packets existing in the subnet A but not in the subnet B. The packet discard rate is calculated by accounting.

FIG. 4 is a diagram showing the unifying operation of the address system. Transmission address (SRC address), reception address (DST ad
dress), transmission port number (SRC port), reception port number
Address conversion for (DSTport) is performed and they are unified. No conversion is required for the IPID.

[0029]

As described above, according to the present invention,
For packet communication over different networks having different address systems, the extracted data by the normal packet can be used. This allows for precise measurement of network performance at the packet level.

[Brief description of the drawings]

FIG. 1 is a diagram showing a configuration for evaluating packet communication quality between two networks having different address systems according to an embodiment of the present invention.

FIG. 2 is a block diagram of a packet communication quality measuring apparatus according to an embodiment of the present invention.

FIG. 3 is a diagram showing an example of actual packet extraction data.

FIG. 4 is a diagram showing an unifying operation of an address system according to the embodiment of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Packet communication quality measuring apparatus 2 Conversion table acquisition part 3 Point A address conversion part 4 Point B address conversion part 5 Packet matching part 6 Quality information calculation part 7 Packet observation part 10 User terminal 20 Address conversion table 30 Communication device 40 External network A , B subnet

Claims (4)

[Claims] 1. A means for evaluating packet communication quality between different networks according to header information of a packet transmitted and received by a user terminal provided in each of the different networks and provided in different networks having different address systems. The evaluation means includes: means for acquiring an address conversion table between the different address systems; and means for unifying the different address systems assigned to the measured packets by reverse conversion according to the address conversion table. A packet communication quality measuring device characterized by the above-mentioned. 2. The evaluation means measures a packet transmission delay time and a packet discard rate between the different networks in accordance with the transmission time information and the reception time information of the measured packet whose address system has been unified by the unification means. 2. The packet communication quality evaluation device according to claim 1, further comprising means for performing. 3. The packet communication quality measuring device according to claim 1, wherein the packet to be measured is a packet used for normal communication, and includes means for using a plurality of packets as the packet to be measured. 4. The packet communication quality evaluation device according to claim 1, wherein the means for acquiring the address translation table includes a means for periodically acquiring the address translation table.