JPH10210067A - Method for reducing telegraphic message amount in same data distribution to plural hosts - Google Patents

Abstract

PROBLEM TO BE SOLVED: To attain data distribution to plural hosts with the same packet, and to save a load on a network by describing the plural addresses of a destination host in a packet header part. SOLUTION: A host 11 for transmitting a packet is connected with a network 1, the network 1 is connected to another network, receiving hosts 21 and 22 are connected to a network 2, and the network 2 is connected to another network. Packets 51 and 61 are packets having a defined format constitution. This format constitution is provided with the description areas of a destination host address part and a destination address auxiliary part as indicated by a packet header 31. And for the actual address of the destination host, the actual addresses are described in the description area of the destination address auxiliary part of the packet header as '1.1, 1.2, y.z' only in the number of the destination hosts. Therefore, a network equipment can recognize that this is a distribution packet to plural hosts, and data distribution can be attained to the plural hosts with the same packet.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method for reducing the amount of telegrams in the same data distribution to a plurality of hosts, and more particularly to reducing a network load when the same data is distributed to a plurality of hosts by a packet distribution method in a network system. The present invention relates to a method for reducing the amount of messages in the same data distribution to a plurality of hosts.

[0002]

2. Description of the Related Art Conventionally, when distributing the same data to a plurality of hosts on a network, the same number of packets in the data portion as the number of destination hosts are used, except when all hosts on a specific network are targeted. Had to be delivered.

[0003]

A problem in the above-described conventional distribution of the same data to a plurality of hosts is that when the same data is distributed to a plurality of hosts, the load on the network increases.

[0004] The reason for this is that packets having the same information except for the destination address portion are sent by the number of destination hosts.
This is for transmitting to the network.

[0005] An object of the present invention is to distribute the same data to a plurality of hosts, instead of distributing the packets to each destination host, to collectively distribute the data in the same packet, thereby passing through the network. An object of the present invention is to provide a method for reducing the number of packets to be transmitted and reducing the amount of messages in the same data distribution to a plurality of hosts to reduce the network load.

[0006]

According to the present invention, in the method of reducing the amount of data in the same data distribution to a plurality of hosts, when the same data is distributed to a plurality of hosts on a network, a plurality of destination host addresses are included in a packet header. The packet header is provided with a description area for a destination host address part and a destination address auxiliary part, and the description area of the destination host address part indicates that the same data distribution to a plurality of predetermined hosts is performed. The special address shown is described, the real address is described in the description area of the destination address auxiliary part by the number of destination hosts, and the description area of the destination host address part of the packet header is described by the network address of the network to which the destination host belongs and the destination host. Network addresses, classify networks, and classify networks More to the area of the network address and the host address is variable, and is configured so as to describe a special address area of the host address.

[Operation] A plurality of destination host addresses can be described in the packet header portion. For this reason,
Since data can be distributed to a plurality of hosts using the same packet, the load on the network can be reduced.

[0008]

Next, embodiments of the present invention will be described with reference to the drawings.

FIG. 1 is a configuration diagram showing a network configuration and a packet configuration of an embodiment of a method for reducing the amount of data in the same data distribution to a plurality of hosts according to the present invention.

Referring to FIG. 1, a host (11) for transmitting a packet is connected to a network (1), and the network (1) is connected to another network by a gateway (10).

The receiving host (21) and the host (2)
2) is connected to a network (2), and the network (2) is connected to another network by a gateway (20).

The packet (41) is a conventional packet distributed from the host (11) to the host (21).

The packet (42) is a conventional packet distributed from the host (11) to the host (22).

The packets (51) and (61) are packets having a format configuration defined by the present invention. The format configuration of the present invention is based on the packet header (3
As shown in 1), a description area for a destination host address section and a destination address auxiliary section is provided.

A special address determined in advance is described in a description area of a destination host address portion of a conventional packet format. Packets (51) and (6)
1) is described as “XXX.XXX”. The real address of the destination host is described as "1.1, 2.1, yz" in the description area of the destination address auxiliary part of the packet header as many as the number of destination hosts. Register the above contents in the network device. As a result, the network device recognizes that the packet is a distribution packet for a plurality of hosts, and can distribute the packet to a plurality of hosts using the same packet.

Next, the operation of the first embodiment of the present invention will be described in detail with reference to FIG.

FIG. 2 is a diagram showing a network configuration and a packet flow for explaining the operation of the first embodiment of the method for reducing the amount of data in the same data distribution to a plurality of hosts according to the present invention.

The same data is distributed from the host (11) to the host (21) and the host (22).

According to the present invention, in the case of a packet for a plurality of hosts, it is necessary to designate a predetermined numerical value in the description area of the destination host address portion of the packet header in advance. As an example, XXX. The value of XXX is 252.2
An explanation will be given using a numerical value of 52.

When the host (11) instructs the host (21) and the host (22) to transmit the same data, the host (11) creates a packet of the type described in the packet (51).

A description will now be given of "128.1.252.252" of the destination address portion in the packet (51).
In the TCP / IP communication, when the value of the leftmost one area is 128, the network configuration is a class B, the left two areas are network addresses, and the right two areas are machine addresses. . In this example,
Since the left two areas are network addresses,
It is assumed to be “128.1”. Since the two areas on the right are machine addresses, the numerical value “252.252” defined as an example is taken.

The numerical value "1.1, 2.1" of the destination address auxiliary unit in the packet (51) describes the machine number of the destination host separated by a comma. Repeat as many as the number of destination hosts, separated by commas. The packet (61) is one example.

The host (11) sends the packet (51) to the network (1). The network device on the path from the network (1) to the network (2) sees only the destination network address “128.1” and guides the packet (51) to the network (2). Upon receiving the packet (51), the gateway (20) transmits the packet (51) to the network (2).

The hosts (21) and (22) that have received the packet (51) are packets addressed to a plurality of hosts because 252.252 is described in the destination host description area of the destination host address portion. Then, the real host address “1.1, 2.1” described in the destination address auxiliary part of the packet header is referred to. As a result of the reference, it is confirmed that the addresses "1.1" and "2.1" are described. Since the addresses of the own host are described, the hosts (21) and (22) transmit the packet ( 51).

Next, a second embodiment of the present invention will be described in detail with reference to FIG.

FIG. 3 is a configuration diagram showing a network configuration and a packet configuration of a second embodiment of the method for reducing the amount of data in the same data distribution to a plurality of hosts according to the present invention.

The second embodiment of the present invention shows a case where there are three or more destination hosts. The same data is distributed from the host (11) to the hosts (12), (13), and (14). The format of the packet delivered from the host (11) has the configuration of the packet (61). The packet (61) has "133.201.
252.252 "in the destination host description area to recognize that the packet is directed to a plurality of hosts.
In the description of 52.252 and the destination address auxiliary unit, the real host address of the host (12) (13) (14) is described as "1.
2, 1.3, 1.4 "and the number of destination hosts. Thus, the same packet can be distributed to three or more hosts.

In the case of TCP / IP protocol communication and the class of the address of the destination is different, the network of FIG. 3 is operated by the TCP / IP protocol. Source host (11), destination hosts (21) and (2)
The classes of the network to which 2) belongs are class B and class A, which are different from each other. Class A, Class B and Class C are the four areas of the IP address
What is the network address? Class A has only one leftmost area, and Class B has two leftmost areas.
In the area, class C, the left three areas are network addresses. The remaining area becomes the machine address.

To show the actual classification, the IP address is aaa. bbb. ccc. ddd, class A (when the value of aaa is 1 to 126) aaa: network address bbb. ccc. ddd: host address class B (when the value of aaa is 128 to 191) aaa. bbb: network address ccc. ddd: host address class C (when the value of aaa is 192 to 223) aaa. bbb. ccc: network address ddd: host address

From the above, when the aaa of the IP address described above is 128 or 133, the example of the class B is shown.

The packet (51) in FIG. 3 shows the case where the aaa of the IP address is 15 and the class A is an example.
In this case, the host address part is bbb. ccc. ddd
Becomes "15.252.2" in the destination host address part.
52.252 "in the destination host description area to recognize that the packet is directed to a plurality of hosts.
In the description of 2.252.252 and the destination address auxiliary part,
The real host addresses of the hosts (21) and (22) “1.1.
1.1.2.1 "is described. As described above, the packet configuration for distributing the same data to a plurality of hosts takes the form of a packet (51). As described above, the setting for recognizing a special packet is performed by setting “252.252.25” in the entire host address portion of the destination host address.
2 ".

[0032]

As described above, the method of reducing the amount of messages in the same data distribution to a plurality of hosts according to the present invention is capable of reducing the amount of messages passing through a network. As a result, the network load can be reduced.

The reason is that it is not necessary to send a plurality of packets of the same data portion to the network, and as a result, the amount of messages passing through the network can be reduced.

[Brief description of the drawings]

FIG. 1 is a configuration diagram showing a network configuration and a packet configuration of an embodiment of a method for reducing the amount of messages in the same data distribution to a plurality of hosts according to the present invention.

FIG. 2 is a diagram showing a network configuration and a packet flow for explaining the operation of the first embodiment of the message volume reduction method in the same data distribution to a plurality of hosts according to the present invention.

FIG. 3 is a configuration diagram illustrating a network configuration and a packet configuration according to a second embodiment of a method for reducing the amount of messages in the same data distribution to a plurality of hosts according to the present invention.

[Explanation of symbols]

 1, 2, network 11, 12, 13, 14, 21, 22 host 10, 20 gateway 31 packet header 41, 42, 51, 61 packet

Claims (3)

[Claims] 1. A method for reducing the amount of telegrams in the same data distribution to a plurality of hosts, wherein when the same data is distributed to a plurality of hosts on a network, a plurality of destination host addresses are stored in a packet header and distributed. . 2. A description area for a destination host address part and a destination address auxiliary part is provided in the packet header, and the description area of the destination host address part indicates that the same data distribution to a plurality of predetermined hosts is performed. 2. The method according to claim 1, wherein the special addresses are described, and the real addresses are described in the description area of the destination address auxiliary unit by the number of destination hosts. 3. The description area of the destination host address portion of the packet header is composed of the network address of the network to which the destination host belongs and the host address of the destination host, the networks are classified, and the network address and the host address are classified according to the class of the network. 2. The method according to claim 1, wherein the special area is described in the host address area by making the area variable.