JPH06326704A - Bypass system for frame relay network - Google Patents

Abstract

PURPOSE:To obtain the frame relay network with higher reliability by bypassing an abnormal relay line so as to continue the communication. CONSTITUTION:A bypass use relay PVC is provided in addition to a regular relay PVC. When an abnormality takes place in a relay line between stations, a routing table of each station is set so as to replace each relay PVC included in the abnormal relay line with the bypass use relay PVC.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a detour system for bypassing a relay line between nodes when a fault or congestion occurs in the relay line between nodes in a frame relay network.

[0002]

2. Description of the Related Art The frame relay system is the latest technology, and is a data communication system in which the communication procedure is simplified compared to packet switching and the like to achieve high speed. It is planned that the construction of a frame relay network composed of frame relay nodes (hereinafter, referred to as FR nodes) according to the frame relay system will be provided as a public network service in Japan in the near future.

FIG. 3 shows an example of a frame relay network composed of FR nodes. In this frame relay network, a full chain method using a data link connection identifier (hereinafter referred to as DLCI) for routing between stations is used as a relay method.

In FIG. 3, 1 to 3 are FR nodes. The FR node 1 accommodates the LAN router 10, and the FR node 2 accommodates the LAN router 20. Further, the FR node 1 and the FR node 2 are connected by a relay line A, the FR node 1 and the FR node 3 are connected by a relay line B, and the FR node 3 and the FR node 2 are connected by a relay line C, respectively.

Now, the router 10 accommodated in the FR node 1 and the router 20 accommodated in the FR node 2 are connected by a PVC (Permanent Virtual Circuit).
In order to connect with each other, the routing table 11 'of the FR node 1 and the routing table 21' of the FR node 2 are set as shown.

That is, when the router 10 communicates with the router 20, the router 10 sends a frame with DLCI: 001 to the FR node 1. In the FR node 1, in the routing table 11 ', "ingress DLC
"I: 001" is "egress trunk line A, egress DLCI: 01"
Since it is associated with "1", the frame received from the router 10 is transmitted to the trunk line A with DLCI: 011.
At the FR node 2, "ingress trunk line A, ingress DLCI: 01
1 ”is“ port 1 for router 20, outgoing DLCI: 0
02 ”, so that the frame received from the trunk line A is sent to the router 20 at DLCI: 002. As a result, the router 10 and the router 20 are connected by the PVC to enable communication.

[0007]

In the above frame relay network, when a failure or congestion occurs in the trunk line A during communication between the routers 10 and 20, another route that can be bypassed (trunk line B → FR node) 3 → the trunk line C) physically exists, but since the detour route is not taken into consideration in the contents of the routing table, the detour cannot be performed, and thus the routers 10 and 2 are not operated until the abnormality is recovered.
There is a problem that communication between 0s cannot be performed. Therefore, when the frame relay network is used in a social system or the like in the future, it may cause a serious problem.

The present invention has been made in view of the above problems, and an object thereof is to perform communication by bypassing the abnormal relay line even when an abnormality such as a failure or congestion occurs in the relay line. To provide a more reliable frame relay network.

[0009]

FIG. 1 is a diagram illustrating the principle of the present invention. In the detour system of the frame relay network of the present invention, a detour relay PVC is prepared in addition to the regular relay PVC, and when an abnormality occurs in a relay line between stations, each relay PVC included in the abnormal relay line is It is characterized in that the routing table of each station is set so as to be replaced with the detour relay PVC.

[0010]

When an abnormality occurs in the relay line between the stations, the routing table is referred to and each relay PVC included in the abnormal relay line is rewritten to the bypass relay PVC. As a result, communication can be performed by bypassing the abnormal relay line.

To replace the PVC with a routing table, one DL routing table may be provided with an ingress / egress DLCI conversion table for both normal and abnormal conditions, or a secondary routing table may be used when an abnormality occurs. It may be prepared in advance in a memory or the like, and when an abnormality occurs, the content may be read and replaced with a normal one.

[0012]

Embodiments of the present invention will be described below with reference to the drawings. FIG. 2 shows a frame relay network using a detour system as an embodiment of the present invention. As described in the prior art, this frame relay network is composed of FR nodes 1 to 3 and relay lines A to C connecting them, and the FR nodes 1 and 2 respectively house routers 10 and 20. There is.

As a difference, the routing tables of the FR nodes 1 to 3 are different from the conventional ones. That is, the routing table (or DLCI conversion table) for the routing that each FR node has in the memory
The outgoing trunk line number (exit LN) and the outgoing DLCI number (exit DLCI) are the first PVC which is a regular route,
It is set for both the second PVC, which is a backup route when an abnormality such as a relay line failure occurs in this regular route.

That is, the FR node 1 is preset with a conversion routing table to be used when the trunk line A becomes abnormal such as a failure or congestion. In this conversion routing table, for example, when a failure occurs in the trunk line A, the "input side DLCI: 001" from the router 10 is normally associated with the "output side trunk line A, output side DLCI: 011". At times, the contents are converted so as to be associated with "egress trunk line B, egress DLCI 901".

Further, the contents corresponding to the DLCI of the conversion routing table of the FR node 1 are preset in the routing tables of the FR nodes 2 and 3 in addition to the contents at the normal time. For example, in the FR node 3, "ingress trunk line B, incoming DLCI: 901" is associated with "outgoing trunk line C, outgoing side DLCI: 801", and in the FR node 2, "ingress trunk line C". , Incoming DLCI: 801 "to" port 1 for router 20, outgoing DLCI: 002 "
The routing table of each FR node is set in advance so as to be associated with.

In addition, when the normal route is normal, the first PVC of the normal route can be used, and when the normal route is abnormal, the second PVC of the backup route can be used. When the route of the first PVC is abnormal by referring to the display bit, routing is performed according to the conversion table of the second PVC so that communication can be continued.

The following is a description of the operation of the communication between the routers 10 and 20 when an abnormality such as a failure or congestion occurs in the trunk line A connecting the routers 10 and 20.

The normal operation without failure is the same as that described in the prior art, in which case the routers 10 and 20 communicate using the first PVC.

When an abnormality such as a failure or congestion occurs in the trunk line A, the FR node 1 refers to the display bit to know that the first PVC has an abnormality, so that the relay node A can be preliminarily used in case of an abnormality. Switch to use the configured translation routing table. Therefore, the frame of DLCI: 001 input from the router 10 is replaced with the "outgoing trunk line A, outgoing DLCI: 011" in the normal state, and the "outgoing trunk line B, outgoing DLCI: 901 in the abnormal state. , And thus the frame is transmitted to the trunk line B with DLCI: 901.

In the FR node 3, the above-mentioned frame is received by the "incoming trunk line B, incoming DLCI: 901", so that the "outgoing trunk line C, outgoing side D" associated therewith is received.
The frame is transmitted to “LCI: 801”. Furthermore F
In the R node 2, "ingress trunk line C, ingress DLC
"I: 801" shows "Port 1 for router 20, outgoing side D
LCI: 002 "is associated with the relay line C.
Then, the frame received through the above is transmitted to the port 1 for the router 20 at DLCI: 002. This makes it possible to connect the routers I0 and 20 with the second PVC of the detour route even when the trunk line A has a failure / congestion.

Here, the processing of the conversion table of the DLCI of the FR node 1 will be explained. In the incoming DLCI table in the incoming line number (incoming LN) table,
An outgoing LN and an outgoing DLCI are set for each of the first PVC and the second PVC. Further, a bit indicating the normality of the trunk line of the first PVC and the trunk line of the second PVC is provided. The normality of this relay line is judged from this indication bit, and if the first PVC is normal, the data is sent to the relay line A, and if the first PVC is abnormal, the data is sent to the relay line B. Sometimes second
Communication is possible by PVC.

Various modifications are possible in carrying out the present invention. The modified example described below solves the following problems in the above-described embodiment. That is, in the above-described embodiment, in consideration of the occurrence of an abnormality in the trunk line A, the DLCIs that are not normally used in the normal routing of the FR node 2 and the FR node 3 are used for each of the FR nodes 1 to 3 for the abnormality. This is a method that is set in advance in the routing table of
Nodes 1 to 3 have the advantage that they only need to have one routing table, but the number of DLCIs in the routing table increases due to the DLCI set for abnormalities, so there is an empty interoffice route. However, there is a problem that the number of DLCIs that can be used during normal operation is limited.

In order to solve this problem, in this modification, each FR node has a routing table of only one regular route for normal time set in the memory. Separately, in each FR node, the routing table when the trunk line A is abnormal is set in the secondary memory. Then, when there is no abnormality in the network, the first PVC is set in the routing table set for the regular route, but when abnormality occurs in the trunk line A, the abnormality in the trunk line A cannot be recognized F
Relay node A from FR node 1 or 2 to R node 3
To the router 10 by notifying that an abnormality has occurred to each of the FR nodes 1 to 3 and then reading the routing table for the occurrence of an abnormality in the trunk line A from the secondary memory and switching the routing table to the normal routing table. A second PVC should be connected between points 20 and 20.

In each of the embodiments described above, the case where the second PVC is set as the detour route has been described.
The present invention is not limited to this. For example, the second PV
As a countermeasure when the C route becomes abnormal, the third,
If the fourth PVC route can be set, a more reliable frame relay network can be constructed.

[0025]

As described above, according to the present invention, even when an abnormality occurs in a relay line between stations in a frame relay network, communication can be performed by bypassing the abnormal relay line. Therefore, it becomes possible to construct a more reliable frame relay network.

[Brief description of drawings]

FIG. 1 is a diagram illustrating the principle of the present invention.

FIG. 2 is a diagram illustrating a detour method of a frame relay network as an embodiment of the present invention.

FIG. 3 is a diagram illustrating a frame relay network.

[Explanation of symbols]

1-3 FR nodes 10, 20 LAN nodes 11, 11 ', 21, 21', 31 Routing table

─────────────────────────────────────────────────── ─── Continuation of front page (51) Int.Cl. ⁵ Identification code Internal reference number FI Technical display location H04M 3/00 D 8426-5K 3/22 Z 8426-5K 7/00 A 8426-5K H04Q 3 / 545 8843-5K 3/64 8843-5K 11/04 8732-5K H04L 11/20 Z 9076-5K H04Q 11/04 R

Claims (1)

[Claims] 1. In a frame relay network, a detour relay PVC is prepared in addition to a regular relay PVC, and when an abnormality occurs in a relay line between stations, each relay PVC included in the abnormal relay line is bypassed. A detour method for a frame relay network, characterized in that a routing table of each station is set so as to be replaced with a relay PVC for use.