JPH02127840A - Selection method for communication channel - Google Patents

Abstract

PURPOSE:To designate a specific communication channel from plural communication channels in the same direction without applying any restriction to an end system when a communication channel is assigned by allowing each gateway device itself connected between plural LANs to apply the same logic arithmetic processing. CONSTITUTION:Plural LANs are connected via a WAN (private line, exchange communication channel network or the like), a communication frame in the LAN is subjected to addition of a destination address and a sender address by end systems 11-14 connected in the LAN, a network management equipment 31 and access equipments 21-27 and the result is sent to the transmission line of the LAN. Then the addresses are subjected to logic operation and the operating communication channel is decided based on the result. Thus, in the case of assigning a communication channel, no restriction is applied to the end system and one specific communication channel is designated from plural communication channels in the same direction.

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to a gateway device for communicating between local area networks (hereinafter referred to as LAN) via a wide area network (hereinafter referred to as VAN) such as a dedicated line. Regarding the communication line selection method for each communication frame for multiple communication lines to be used, in particular, when allocating communication lines, it is possible to easily specify one specific communication line from multiple communication lines in the same direction. Regarding line selection method.

[Prior art]

When connecting LAN and VAN, there is one connection between the gateway devices.
When connecting via a communication line, the communication line is uniform and there is no need to select the communication line.

However, when the amount of communication information between LANs increases, it is necessary to use a plurality of communication lines between gateway devices to cope with the increase in communication capacity.

Further, in the gateway device, the accommodated communication line control section is different for each communication line, and accordingly, protocol processing of communication information to be relayed is also performed separately in each communication line control section.

At this time, communication between specific end systems accommodated in both gateway devices needs to use the same communication line in the upstream/downstream communication direction. If the same communication line is not used, even if the communication is between the same destinations, the protocol processing will be different, so the order of one communication may be reversed, or the response may be sent back to another communication due to protocol error processing in the gateway device during relaying. It becomes a line, and normal communication cannot be guaranteed.

In addition, when determining the communication line for each communication frame by preparing a "correspondence information list" of the output optical network address/destination network address and the communication line used in each gateway device, it is necessary to The list of correspondence information increases, and the amount of processing required to find the communication line to be used for each communication frame also increases.

Furthermore, when determining the communication line to be used based on the transmission source network address of the end system accommodated in either gateway device, the correspondence information list is not necessary, but only for the connection between two gateway devices. Applicable. In other words, in the case of an exchange between three gateway devices or a tandem connection of gateway devices, it cannot be managed by the destination network address, and if the directions are different, the same communication line cannot be determined.

For the conventional communication line selection method, see for example “
Study on relay routing processing methods for LAN/wide area network connections, Hidemi Murakami, Sanyoshi Hanaki, Takaki Miyazawa (NTT Telecommunications Laboratories), Information Processing Society of Japan 37th (late 1988) National Conference Papers, No. 493 Discussed on page ''.

[Problem to be solved by the invention]

In the above conventional technology, when each gateway device prepares a list of correspondence information of the source network address/destination network address and the communication line used and determines the communication line for each communication frame, the number of communication lines is determined according to the number of endless systems to be communicated with. The amount of supported information is enormous, and the amount of processing needed to find out the communication line used for each communication frame is also large, leading to problems with processing efficiency. When determining the communication line to be used based on the network address, the correspondence information list becomes unnecessary, but there is a problem in that it can only be applied to connections between two gateway devices.

The purpose of the present invention is to improve such problems and to allocate communication lines from multiple communication lines in the same direction without requiring a list of correspondence information or placing any restrictions on the end system. An object of the present invention is to provide a communication line selection method that allows one specific communication line to be specified.

[Means to solve the problem]

In order to achieve the above object, the communication line selection method of the present invention provides a network system having a plurality of communication lines for connection between gateway devices that relay communication information between a LAN accommodating an end system and a device outside the LAN. When end systems inside and outside the LAN communicate, both gateway devices extract the source network address and destination network address assigned to each communication frame received from the end system within their own LAN,
The feature is that by performing logical operations on these addresses and assigning one of the multiple communication lines between the gateway devices based on the value of the operation result, the same communication line is used from the perspective of both end systems. There is.

[Effect]

In the present invention, regardless of the connection form of communication lines used between gateway devices, when determining the transmission communication line to another gateway device, the network address is extracted from the transmission frame from the end system in the LAN, and the source network address is / Perform a logical operation on the destination network address.

Based on the results, the communication line to be used is determined.

Therefore, by matching only the allocation method when allocating communication lines from the value of the logical operation result on both gateway devices, the same communication line can be determined in the same process without requiring a list of correspondence information. be able to.

Furthermore, even when the connection form between LANs is such that gateway devices are duplicated and four gateway devices are cross-connected on both sides, one specific communication line can be specified from a plurality of communication lines in the same direction.

〔Example〕

An embodiment of the present invention will be described below with reference to the drawings.

FIG. 1 is a side view of the configuration of a network system to which the communication line selection method of the present invention is applied.

In Figure 1, 11 to 14 are end systems (ES)
, 21 to 27 are access devices (AU), 31 is a network management device (NS), and 41.42 is a gateway device (GW).

The gateway device 41 also includes a communication line control unit (CU).
#l, CU#2), and the gateway device 42 has communication line control units (CU#3, CU#4).

In this embodiment, a plurality of LANs are connected via a WAN (dedicated line, switched communication network, etc.).

Furthermore, communication frames (FR) within the LAN are added with a destination address (DA) and a destination address (SA) by the end systems 11 to 14, network management device 31, and access devices 21 to 27 connected within the LAN. Been,
It is sent out onto the LAN transmission path.

Furthermore, if the end systems 11 to 14 determine that the destination address of the arrived communication frame matches their own address, they take over the frame.

Further, the access devices 21 to 27 include the gateway device 4
1.42, performs LAN-compatible processing of communication information in communication between internal and external LAN.

Further, the gateway device 41.42 is the access device 2
1 to 27 and the VAN, and the gateway device 41
．． The communication line control unit performs protocol processing for communication between the 42 and communication information routing processing. Also, LA
The communication relationship of N is left to the access devices 21 to 27, and communication information of communication layer 2 or higher is processed.

Further, the gateway device 41.42 has VAN (7)
Passage times a (L N # 1, L N # 2)
If there are a plurality of communication lines (including physical lines in the case of dedicated lines and logical channels in the case of packet lines), the same communication line is used for both end systems 11 to 14 in the LAN.

This is because communication between the end systems in both LANs is different, and if the communication lines used in the same direction between the gateway group [41 and 42 are different, the communication delay time may be large depending on the communication line control unit and the usage status of the communication line. This is because communication performance deteriorates due to differences.

In addition, in the protocol processing in the communication line control unit,
This is because even if an attempt is made to return a protocol error in response to the received communication information, the communication line control unit or communication line becomes different, making it impossible to manage the order of one piece of communication information.

Further, the network management device 31 performs operational management of the LAN system, and performs operations start/end instructions, grasps the operating status, etc. with the access devices 21 to 27 and the gateway devices 41 and 42.

FIG. 2 is a diagram showing the format of communication information in one embodiment of the present invention.

In this embodiment, when the end systems 11 to 14 of the LAN communicate via the gateway group [41, 42], the structure of the communication information is shown in FIG.

That is, at the level of the hierarchical structure in the LAN/VAN communication protocol, layer 2 is the LAN (LL
C protocol) and WAN (LAPB protocol), the gateway devices 41 and 42 perform conversion processing to make them compatible.

Further, for layers 3 and above, since there are cases where the LAN/WAN is the same and cases where the protocols are different, protocol conversion processing is performed for different cases.

In addition, both in the same case and in different cases, layer 3
Communication line selection processing for relay routing is performed based on the source network address (NSA) and destination network address (NDA) included in the .

Furthermore, in a connection between three or more gateway devices, the identification of which gateway device is addressed is also distinguished by assignment within the destination network address.

FIG. 3 is an explanatory diagram showing the relationship between logical operation results and communication line allocation in one embodiment of the present invention.

In this embodiment, the gateway devices 41 and 42 are LAN
The gateway device of one communication partner is determined for each communication information received from the communication information, and when determining the communication line to be used there, the source network address and the destination network address in the communication information are taken out and a logical OR is performed.

The result of this logical OR operation is the same even if the correspondence between the source network address and the destination network system is reversed, that is, the gateway device on the other side.

Therefore, the same communication line can be assigned to either side of both gateway devices 41, 42 based on the same information (calculation results).

In this embodiment, allocation is performed by logical sum processing, but logical product processing or exclusive disjunction processing may also be considered.

In addition, the method for allocating the communication line is the communication line (LN#1
．． If it is to be equal for each LN#2), a modulo method can be considered, for example, in which the number is divided by the number of communication lines and the remainder is used to correspond to the communication line. In this method, in the case of two lines, it is sufficient to allocate the lower pits with 1 and 0.

Furthermore, if the amount of information is unbalanced between the end systems 11 to 14, it is conceivable to set the range of calculation results corresponding to each communication line according to the amount of information.

〔Effect of the invention〕

According to the present invention, by each gateway device connected between a plurality of LANs performing the same logical operation processing, the end systems of both LANs are automatically assigned the same communication line for both transmission and reception. When allocating communication lines, it is possible to specify one specific communication line from a plurality of communication lines in the same direction without imposing any restrictions on the end system.

[Brief explanation of drawings]

FIG. 1 is a configuration diagram of a network system to which the communication line selection method of the present invention is applied, FIG. 2 is a diagram of the format of communication information in an embodiment of the present invention, and FIG. 3 is a diagram of an embodiment of the present invention. FIG. 2 is an explanatory diagram showing the relationship between logical operation results and communication line allocation in FIG. 11-14: End system (ES), 21-27: Access device (AU), 31: Network management device (NS), 41, 42 Negateway device (GW). LN#1. LN#2: Communication line, CU#1 to CU#4
:Communication line control unit. Patent applicant Nippon Telegraph and Telephone Corporation Figure Figure DA 11O SA Logical operation result (phase) Communication line

Claims (1)

[Claims] 1. In a network system that has multiple communication lines for connection between a local area network accommodating an end system and a gateway device that relays communication information between the local area network and the outside of the local area network, the end system inside and outside the local area network When communicating, both gateway devices extract the source network address and destination network address assigned to each communication frame received from the end system in their own local area network, perform a logical operation on both addresses, and A communication line selection method characterized in that the same communication line is used from the perspective of both end systems by allocating any one of a plurality of communication lines between the gateway devices based on the value of the calculation result. .