JPH02283145A - Fault restoration method - Google Patents

Abstract

PURPOSE:To use a path to which a signal arrives earliest as a new communication path by allowing a fault end node to use a fault notice bypass setting command means, thereby sending a fault notice and a bypass circuit setting command to a line end node when a fault takes place in a link. CONSTITUTION:A fault line identification management section 26 is a fault end node, then a fault notice bypass circuit setting command program 20 is used to send the fault notice and a bypass circuit setting command to a line end node and when the section 26 is a line end node, a bypass circuit setting program 30 is used to send/receive a signal, thereby applying the setting of the shortest path. For example, when a link 12 is faulty, a link interface 23 detects it and informs it to a management section 20 via a node control section 25. The management section 26 identifies the link 12 to be faulty, uses the program 20 and sends the fault notice and bypass circuit setting command to the line end node via a communication equipment 24 via a link 11 opposite in the direction of the communication path so far.

Description

[Detailed Description of the Invention] [Summary] Regarding a failure recovery method when a failure occurs in a link in a network in which multiple communication nodes are connected by links, the present invention provides a method for recovering from a failure in a link without much effort. The purpose is to provide a failure recovery method that can set an optimal detour for each node.When a link failure occurs and each node becomes the failed end node on both sides of the failed link, the link is used to communicate. A failure notification detour setting command means that notifies the line end node of the failure and sends a detour setting command; When a failure occurs in a link, the failed end node sends a failure notification and a detour setting command to the line end node using the failure notification detour setting command means, and receives the detour setting command. The line end node is configured to search for and set a detour using a detour search and setting means to recover from a failure.

[Industrial application field]

The present invention relates to an improvement in a failure recovery method when a failure occurs in a link in a network in which a plurality of nodes for communication are connected by links.

[Conventional technology]

FIG. 4 is a block diagram of a first conventional network, and FIG. 5 is a block diagram of a second conventional network.

In the figure, 1-1 to 7-ml-2 to 7-2 are notes, of which 1-
1. 7-1. 1. -2. '7-2 is the line end node,
10 to 17 indicate links.

In FIG. 4, each node 1-1 to 7-1 stores a table in advance of a route in case a failure occurs in each link.
If a failure occurs in a link, each node uses the route shown in the table it holds as the communication route.

For example, as shown by the dotted line, from line ◇R, 1 node 1-1, node 2-1. 3-1. 4-1, if the link 12 becomes faulty, one of the faulty end nodes at both ends of the link 12, the faulty end node 3-1, will reverse the fault occurrence. The node 2-1 informs the previous node 2-1 on the route, and the node 2-1 informs the previous line end node 1-1 on the reverse route.

Further, the other faulty end node 4 notifies the previous line end node 7-1 of the occurrence of the fault via the forward route.

The line end node 1-1 refers to the table and
The node 5-1 selects a route to the node 5-1 via the link I3, which is the route when a failure occurs, and notifies the node 5-1 of the failure.

Node 5-1 also refers to the table and connects node 6-1 via link 14, which is the route when link 12 fails.
1 and notifies node 6-1 of the failure.

Node 6=1 also refers to the table, selects a route to line end node 7-1 via link 16, which is the route when link 12 becomes faulty, and notifies line end node 7-1 of the fault.

The line end node 7-1 then confirms the setting of the detour route, assumes that the failure has been recovered, and communicates with the line end node 1-1.

In FIG. 5, when a link becomes faulty, the faulty end nodes at both ends search for and decide on a detour. For example, as shown by the dotted line, from the line end node River-2 to the node F2-2.3-2.
4-2, if the link 12 becomes faulty, the faulty end nodes 3-2 and 4-2 at both ends of the link 12 change the detour route to the - point. As shown by line 11, link 15. Node 6-21 Line end node 7-2. Link 17 is searched and determined, and the communication route is from line end node 1-2 to node 2-2, 3-2°6-21, line end node 7-2. Line end node 7 via node 4-2
-2 to recover from the failure.

[Problem to be solved by the invention]

However, in the fault recovery method shown in Figure 4 above, it is necessary to create a table showing routes for all patterns in which faults occur for each node in advance, and this table must be created every time the network configuration changes. There is a problem in that it requires a lot of time and effort to change. I don't know anything about it again,
For example, if there is a failure in two links, there is a problem in that recovery is not possible.

The failure recovery method shown in FIG. 5 has a problem in that the same link may be passed twice in order to search for and set a detour at the failed end node, making it impossible to set an optimal route.

An object of the present invention is to provide a failure recovery method that allows setting an optimal detour without much effort when a failure occurs in a link.

[Means to solve the problem]

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

In the present invention, in a network in which multiple communication nodes are connected by links, when a link failure occurs in each node and each node becomes a failed end node on both sides of the failed link, as shown in FIG. , a failure notification detour setting command means 20 that notifies the line end node communicating using the link of the failure and sends a detour setting instruction; and when the line end node becomes the line end node, the failure notification detour A detour search and setting means 30 is provided which searches for and sets a detour when a setting command is received.

Then, when a link failure occurs, the failed end node
The fault notification detour setting command means 20 sends a fault notification and a detour setting command to the line end node, and the line end node l' that receives this sends the detour search setting means 30 to search and set a detour.

[Function] According to the present invention, when a fault occurs in a link, the faulty end node sends a fault notification and a detour setting command to the line end node using the fault notification detour setting command means 20.

The line end note that received this is the detour route search setting means 30.
For example, a signal is sent to the other end node at the same time via each connected link, and the other end node sets the route through which the signal reached the earliest as a new communication route, and uses this route. Conversely, a signal is sent back to notify one line end node, and this is used as a detour.

In addition, if each node that passes through this transmitted signal writes the node name in the control channel of the frame and sends it to the next node, the final line end node will be able to determine the route from the arrived frame. You can know.

That is, it is possible to set a detour without creating a table in advance, which saves time and effort.

Also, since a detour route is searched and set at the line end node, the same link will not be passed twice, the optimal route can be set, and unexpected failures such as failures in two or more links will not occur. However, the optimal route can be set using the same method.

[Embodiment] FIG. 2 is a block diagram of a network according to an embodiment of the present invention.
FIG. 3 is a block diagram of the main parts of the node according to the embodiment of the present invention.

FIG. 3 shows an example where there are three links connected to a node, which corresponds to node 3 in FIG. 2.

In the node shown in FIG. 3, each link 11, 12.15 is provided with a link interface 21, 22.23 for communicating with the link, and the link interface 21, 22.23 is provided with a communication device. 24 are connected.

This communication device 24 uses frame control when communicating.
Writes the originating side's own node name and destination node name on the 7U channel, writes a message on the information channel, receives a message from the information channel, and writes the own node name on the control channel when relaying. It is.

The node control unit 25 controls the communication device 24. It controls the link interfaces 21 to 23, the failed line identification/management section 26, and the like.

If the faulty line identification/management unit 26 becomes a faulty end node, it sends a fault notification and a detour setting command to the faulty end node using the fault notification detour setting command program 20. uses the detour setting program 30 to send and receive signals and set the shortest route.

For example, when the link 12 becomes faulty, the link interface 23 detects this and notifies the faulty line identification/management section 26 via the node control section 25.

The faulty line identification/management unit 26 identifies that the link 12 has become faulty, and uses the fault notification detour setting command program 20 to issue a fault notification and detour setting command to the line end node via the communication device 24. is sent via link 11, which is the opposite direction of the communication path for the training camp.

In FIG. 2, from line end node 1 to link 10° node 2. Link 11. Node 3. Link 12° Node 4 When communicating with line end node 7 via link 17, if link 12 becomes faulty, one faulty end node 3
As explained above, the node 2 sends a notification that the link 12 has become a failure and a detour route search setting command to the node 2 via the link 11.

The node 2 sends this to the failed end node 1 via the communication device 24 shown in FIG. 3 via the link IO, which is the opposite direction of the communication path up until now.

The other faulty end node 4 sends a notification that link 12 has become faulty and a detour route search setting command to the line end node via link 17, which is the forward direction of the communication route up until now, in the same way as above. is sent to node 7.

In this case, node 7 is the line end node, so
Recognize this.

As a result, for example, in the node 1, the communication device 24 shown in FIG.

The failed line identification/management unit 26 uses the detour route search setting program 30 to simultaneously send a signal addressed to the line end node 7 from the communication device 24 to the link 13.10.

When the signal via link 13 arrives at note 5, it
The name of node 5 is written in the control channel by communication device 24 in the figure, and sent to node 6 via link 14.

In node 6, the name of node 5 is also written in the control channel and sent to line end node 7 via link 16.

The signal partially passes through the link 10 from node 2 to node 3 .
Each node name is written in the control channel at the node 6 and sent to the line end node 7.

The line end node 7 recognizes that a detour has been set due to the failure notification of the link 12, sets the route of the signal that arrived first as the optimal route, and notifies the line end node 1 to set the optimal detour.

In the case of FIG. 2, the optimal route is set as a route passing through nodes 2, 3, and 6, as shown by the dashed line.

Note that when the faulty end nodes 3 and 4 notify the line end node 17 of the fault, the faulty end nodes 3 and 4 send the line end nodes 1 and 7 written to the control channel of the frame being communicated.
If this can be recognized, the failure notification can be sent to the nearest line end node 1 or 7.

The above explanation is based on the case where the link is faulty, but if some of the lines in the link, for example two lines, are faulty, the fault is notified to the line end node for each line in the same way as above, and a detour is set up. If you do this, you can recover from the failure.

In other words, since the detour is set at the line end node, the same link will not be passed twice, and the optimal route can be set.
Furthermore, even if an unexpected failure occurs such as failure in two or more links, an optimal route can be set using the same method.

Furthermore, since there is no need to prepare a table in advance, it is possible to save time and effort.

〔Effect of the invention〕

As explained in detail above, according to the present invention, when a failure occurs in a link, it is possible to recover from the failure using an optimal detour without much effort.

[Brief explanation of drawings]

FIG. 1 is a block diagram of the principle of the present invention, FIG. 2 is a block diagram of a network according to an embodiment of the present invention, and FIG. 3 is a blower of a main part of a node according to an embodiment of the present invention. 4 is a block diagram of the network of the first conventional example, and FIG. 5 is a block diagram of the network of the second conventional example. In the figure, 1 to 7.1-1 to 7-1.1-2 to 7-2 are nodes, 10 to 17 are links, 20 is a failure notification detour setting command means, a failure notification detour setting command program, 30 21 to 23 are link interfaces; 24 is a communication device; 25 is a node control unit; 26 is a failed line identification/management unit; 30 is a detour search and setting unit;

Claims (1)

[Claims] In a network in which multiple nodes for communication are connected by links, if a link failure occurs and each node becomes a failed end node on both sides of the failed link, the link can be used. failure notification detour setting command means (20) which notifies the line end node with which it is communicating and sends a detour setting command; Detour search setting means (30
), and when a failure occurs in the link, the failure end node sends a failure notification and detour setting command to the line end node using the failure notification detour setting command means (20), and the line end node that receives the failure notification and detour setting command A failure recovery method characterized in that a detour search and setting means (30) searches for and sets a detour to recover from a failure.