JPH0433442A - Packet switching system - Google Patents

Abstract

PURPOSE:To restart a call during communication on the occurrence of a fault by allowing a control system to sweep out packets under processing at present prior to the system changeover due to the occurrence of a fault. CONSTITUTION:When a fault takes place in a control system comprising of a system bus controller 4 and a communication control processor 6 during communication control, the system bus controller 4 stops the reception of a data packet from a system bus 2 and sends remaining data packets in the system in the transmission direction. Simultaneously, a line controller 8 stops the reception of a data packet from a line 3 and sends remaining data packet in the system in the transmission direction. The communication control processor 6 confirming the end of transmission of the remaining data packets starts a system bus controller 5 and a communication control processor 7 forming a succeeding control system to take over the control of a succeeding communication control module 1. Thus, the communication is restarted.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a packet switching system, and more particularly to a packet switching system having a function to rescue a call in progress at the time of restart.

[Conventional technology]

Conventional packet switching systems have redundant control systems, so it is possible to switch systems when a failure occurs, but it is difficult to prepare a takeover storage device to rescue calls that are currently being communicated. Therefore, when restarting the system, the necessary resources were initialized and then restarted.

[Problem to be solved by the invention]

In the conventional packet switching system described above, when restarting after a failure occurs, the resources necessary for the new system are initialized and restarted, so calls that are in progress at the time of a failure lose the resources necessary for connection. , there is a problem that the system may become disconnected, causing a great deal of inconvenience to the user.

An object of the present invention is to provide a packet switching system that can resume calls in progress when a failure occurs, and at the same time prevent the packets of calls in progress from being lost when a failure occurs, thereby improving service to users. It's about doing.

[Means to solve the problem]

The packet switching system of the present invention includes a plurality of communication modules having a redundant control system and performing failure time series switching, wherein the communication module has a redundant control system. The control system includes an information storage means that constantly stores information necessary for call setting used in the control system currently in operation and makes it possible to read out the information, and the control system The configuration is such that after the packets are swept out and the system is switched, the new control system reads out the information stored in the information storage means and resumes the call connection.

In the packet switching system of the present invention, the duplexed control system is a duplexed communication control processor and a system bus controller, and the information storage means is a takeover memory connected to the duplexed communication control processor. It may be a device.

〔Example〕

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

FIG. 1 is a block diagram of one embodiment of the present invention.

A communication control module 1, which is a component of the packet switching system, is connected to a terminal device (not shown) via a system bus 2, and to other communication control modules (not shown) via a line 3. What is system bus 2?
A system bus controller 4.5 is connected to exchange data packets. System bus controller 4
, 5 are respectively controlled communication control processors 6,
At the same time, it is connected to a line controller 8 that sends and receives data packets to and from the line.

In this embodiment, it is assumed that the system bus controller 4 and the communication control processor 6 constitute one control system, and the system bus controller 5 and the communication control processor 7 constitute another control system. The communication control processor 6.7 is
It is connected to a takeover storage device 9 that always stores information necessary for call settings used during operation.

Next, the operation will be explained.

Now, suppose that a failure occurs during communication control in the control system composed of the system bus controller 4 and the communication control processor 6, and the system bus controller 4 that detects this failure
First, the system bus controller 4 stops receiving data packets from the system bus 2, and sends out the remaining data packets in their respective sending directions. At the same time, the line controller 8 also stops receiving data packets from the line 3 and sends out the remaining data packets in their respective sending directions.

After confirming that the transmission of the remaining data packets has been completed, the communication control processor 6 starts the system bus controller 5 and the communication control processor 7, which will be the next control system, and takes over control of the communication control module 1 from now on. The communication control processor 7 that has taken over the control reads the information necessary for call setup that the communication control processor 6 was using during operation from the takeover storage W9, and prepares for call processing of the arriving data packet. Next, the system bus controller 5 cancels the suspension of receiving data packets from the system bus 2, and the line controller 8 also cancels the suspension of receiving data packets from the line 3, so that communication can be restarted.

The system switching operation in the event of a failure has been explained above using one communication control module as an example. However, even if there are multiple communication control modules on the system bus, when restarting each communication control module, the same procedure as above is applied. Calls in progress can be rescued.

Therefore, even if the entire packet switching system is restarted, it is naturally possible to rescue calls in progress.

〔Effect of the invention〕

As explained above, the present invention provides the following features:
It includes an information storage means that always stores information required for the call setting in use in the operating control system and can read this information in the restart system. By flushing out the packets that are being processed, it is possible to restart the call that is in progress when a failure occurs, and at the same time, the packets of the call that is being communicated when a failure occurs can be transmitted without being lost, improving serviceability for users. This has the effect of being able to improve the

[Brief explanation of the drawing]

FIG. 1 is a block diagram of one embodiment of the present invention. 1...Communication control module, 2...System bus, 3...Line, 4, 5...-
System bus controller, 6.7... Communication control processor, 8... Line controller, 9.
・・・・・・Storage device for takeover. Agent Patent Attorney Susumu Uchihara

Claims (1)

[Scope of Claims] 1. In a packet switching system comprising a plurality of communication modules having a redundant control system and performing time-switching when a failure occurs, the communication module has a dual control system. The control system includes an information storage means that constantly stores information necessary for call setting used in the control system currently in operation and makes it possible to read out the information, and the control system A packet switching system characterized in that after the packets are swept out and the system is switched, the new control system reads out the information stored in the information storage means and restarts the call connection. 2. The duplicated control system is a duplicated communication control processor and system bus controller, and the information storage means is a takeover storage device connected to the duplicated communication control processor. The packet switching system according to claim 1.