JPH05160876A - Management method for communication control processor - Google Patents

Abstract

PURPOSE:To attain effective use of the processor and to attain quick switching processing by providing one standby system processor at least to plural active system processors having a built-in program and revising the built-in program and selecting it. CONSTITUTION:A built-in program X is down-loaded to communication control processors A-C, a program Y is down-loaded to processors D-F and the program X or Y is down-loaded to a standby processor G. When a fault takes place to the processor A and the program X is down-loaded to the processor G, the processor G is selected and operated. When the program Y is loaded to the processor G, the program X is loaded and the active system is selected. At least one standby processor is prepared in this way and changeover is implemented while revising a built-in program as required, then the effective use of the processor and quick changeover are attained.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a communication control processor management method, and more particularly to a communication control processor operated by downloading a built-in program from a main processor via a bus in case of a redundant system (standby). System) and a method for managing a communication control processor in a system having a control processor.

[0002]

2. Description of the Related Art Generally, a communication control system of this type is connected to a main processor and a communication control processor via a system bus, and at the time of initialization of an apparatus, a built-in program required for the communication control processor is supplied from the main processor. It is downloaded and operated.

There is a standby processor as a redundant system for switching and using the communication control processor of the operating system in case of a failure. When a failure occurs in the active communication control processor, the standby communication control processor is switched to start operation, and the failed active communication control processor is disconnected from the system.

In order for such control to be performed promptly, it is necessary that the communication control processor in the standby system be on standby in an operable state at all times. In the case of a communication control processor that downloads a built-in program at initialization, the communication control processor in the standby system is built in advance in order to keep the communication control processor in the standby system ready for operation. The program download must be completed. Therefore, when there are several active communication control processors in the system and different built-in programs are downloaded and operated, each standby communication control processor must be used for each active communication control processor. Will be needed.

[0005]

However, in the system in which one standby system processor is prepared for one active system processor, twice as many processors as the communication control processors actually required are required. .. In this case, there may be a case where it is not possible to mount as many redundant processors as required due to restrictions on the system implementation.

An N + M redundant system has been proposed as one effective method for overcoming such restrictions. This is a method of preparing one redundant control processor (M) when the number of active processor (N) is three (N>
M).

However, in such a system, when the built-in program is downloaded from the main processor to the communication control processor, the time required for switching control increases, which may affect the operation of the system.

The present invention has been made to solve the above-mentioned problems in the conventional communication control system. N +
An object of the present invention is to provide a method of managing a communication control processor capable of effectively utilizing a redundant communication control processor and performing a quick switching process in a communication control system having an M redundant system.

[0009]

In a system to which the management method of a communication control processor according to the present invention is applied, first, several first communication systems in which a first built-in program is operated in a downloaded state are used. A control processor and at least one first standby system communication control processor used by switching to this are prepared. Further, a plurality of second communication control processors that are operated in a state where the second built-in program is downloaded, and at least one second standby communication control processor that is used by being switched with the second communication control processors are provided. prepare.

When a failure occurs in the first communication control processor, first the first standby communication control processor is sequentially switched to operate. However, when the number of faults exceeds the number of the first standby communication control processors, the second built-in program is downloaded and waits for the second standby communication control processor to have the first built-in program. The program is changed to a program, and then the second standby communication control processor is switched to the faulty first communication control processor for operation.

[0011]

According to the present invention, when the communication control processor in which the first built-in program is downloaded fails when the communication control processor is operated in the state where different built-in programs are downloaded, The standby communication control processor in which the same built-in program is downloaded is first switched and operated.

However, if a plurality of the first communication control processors fail at the same time, switching cannot be performed only by the standby communication control processor in which the same built-in program is downloaded. Therefore, at that time, other built-in programs in the standby system are downloaded to the stand-by communication control processor waiting in the downloaded state , The same first built-in program is downloaded. After that, by switching to the standby communication control processor, the communication control processor in the redundant system is effectively used.

[0013]

FIG. 1 is a system configuration diagram showing the configuration of a communication control system to which the present invention is applied. The main processor 1 and the main memory 2 are connected to the communication control processors A, B, ... F via the system bus 3, respectively. In the case of this system, communication control processors A to C
Are operated by the same built-in program (a), and the communication control processors D to F are operated by the same built-in program (a).

A communication control processor G of a standby system, which is switched and used at the time of a failure, is similarly connected to the system bus 3 for the communication control processors A to F in these operating systems. These communication control processors A to G are
It is connected to the real line 5 via the line switching device 4 and communication control is performed.

The number of standby communication control processors G installed is selected so that at least one communication control processor G is installed for the same built-in program to be downloaded and operated.

In the case of the system shown in FIG. 1, one standby communication control processor G is prepared for three communication control processors A, B and C in which the built-in program (a) is downloaded and operated. There is. It is also possible to prepare one or two standby communication control processors (not shown) for the communication control processors D to F3 in which the built-in program (a) is downloaded and operated.

2 and 3 are diagrams showing the control procedure of the management method according to the present invention. FIG. 4 is a diagram showing the state transition of the communication control processor. In the system to which the management method of the present invention is applied, when a failure occurs in the communication control processor in the operating state 41, the communication control processor shifts to the maintenance state 42. When the communication control processor in the maintenance state 42 is restored, it is determined whether to restore to the operating state 41 again or stay in the standby state 43 until a separate switching instruction is issued, depending on the operating state at that time. The communication control processor in the standby state 43 can immediately return to the operating state 41 if there is a switching instruction.

Next, one embodiment of the management method of the present invention will be sequentially described based on the system configuration diagram shown in FIG. 1 and with reference to the flow charts shown in FIGS. The control of the communication control processors A to F and the communication control processor G in the standby system is executed by a management program built in the main processor 1. At the start of operation, a built-in program (a) required for each of the communication control processors A to F in the main processor 1,
(A) is downloaded to each of the communication control processors AF.

In the case of this embodiment, the communication control processor A
~ C has a built-in program (a), communication control processor D
The built-in program (a) is downloaded to each of ~ F. Further, either the built-in program (a) or (a) is downloaded to the communication control processor G in the standby system, but in the case of this embodiment, the built-in program (a) is temporarily downloaded in advance. It is assumed that

The flow chart shown in FIG. 2 is a flow chart showing the switching operation when a failure occurs. First, when a failure occurs in the active communication control processor A having the built-in program (a), the main processor 1 issues a command to switch to the standby system. In this case, it is first determined whether or not there is a standby communication control processor that can be switched to the corresponding communication control processor when a failure occurs (step ST1).

When there is a standby communication control processor having a switchable built-in program (a), the communication control processor in the standby system is set as the active system, and the communication control processor in the active system up to that time is set as the active system. The maintenance state is set (step ST2).

Therefore, in the case of the system as shown in FIG. 1, the communication control processor G in the standby system is switched to the communication control processor A having a failure.
If there is no standby communication control processor that can be switched, that is, has the same built-in program, it is determined whether or not there is a standby communication control processor that has another built-in program ( Step ST
3).

If it exists, the built-in program (a) is loaded into the corresponding communication control processor and switched to the active system (step ST4). The following procedure is the same as in step ST2, and the communication control processor in the standby system becomes the active system and the communication control processor in the failed active system enters the maintenance state (step ST6).

Further, when there is no communication control processor in the standby system (step ST5),
The communication line controlled by the faulty communication control processor is degenerated until the faulty communication processor is restored and the maintenance state changes to the standby state. In this case, the communication control processor of the communication system having the failure is in the maintenance state (step ST7).

The flow chart shown in FIG. 3 is a flow chart showing a processing procedure when the communication control processor in which a failure has occurred recovers from the failure. When the communication control processor in which the failure has occurred is repaired and reattached to the system, it is first determined whether or not there is a line that is degenerated due to the absence of the standby communication control processor (step ST8). ).

If no such line exists, the same built-in program is loaded (step ST
9) and shifts to the standby system (step ST12). If there is a degenerate line, the built-in program loaded in the communication control processor to which the line is connected is loaded (step ST10),
The active line is restored and the degenerated line is restored (step ST1
1).

In the case of the system shown in FIG. 1, only one communication control processor is on standby, but the present invention is not limited to this embodiment, and the built-in programs (a), (b) It is also possible to implement the same even when at least one standby communication control processor is installed for each of the downloaded communication control processors A to C and D to F without exceeding the installed number. ..

[0028]

As described above in detail with reference to the embodiments, according to the present invention, a plurality of communication control processors in the active system having the same built-in program communicate with at least one standby system. Since a control processor is prepared and switching control is performed while changing the built-in program as necessary, for normal communication control processor failure, control should be performed in the same switching time as in the 1 + 1 redundant system. You can Further, even when a plurality of communication control processors having the same built-in program have a failure, the management can be performed with the same reliability as that of the N + M redundant system.

[Brief description of drawings]

FIG. 1 is a diagram showing a configuration example of a communication control system to which a management method of a communication control processor of the present invention is applied.

FIG. 2 is a diagram showing a processing procedure of a management method of the present invention.

FIG. 3 is a diagram showing a processing procedure of a management method of the present invention.

FIG. 4 is a state transition diagram showing state transitions of a communication control processor.

[Explanation of symbols]

 1 main processor 3 system buses A, B, ... F communication control processor for active system G communication control processor for standby system (redundant system)

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Claims (1)

[Claims] 1. A plurality of first and second communication control processors, each of which is operated in a state where the first and second built-in programs are downloaded, and at least one first and second standby, respectively. System communication control processor is prepared, and when a failure occurs in the first communication control processor, the system is first switched to the first standby system communication control processor for operation, and the number of failed units is the first standby system communication control processor. A management method of a communication control processor, characterized in that, when the number of processors exceeds the number, the built-in program of the second standby communication control processor is changed to the first built-in program and then switched and operated.