KR100480651B1 - Method for processor state menagement in switching system - Google Patents

Abstract

The present invention relates to a method for managing a processor state of an exchange that can perform a stable and reliable function by reducing an Inter-Processor Communication (IPC) load by improving a failure checking procedure.

Conventionally, the processor state manager of a maintenance processor transmits a confirmation signal to a corresponding processor to perform an IPC test of a failed processor based on a failure signal received from a failure processor. Each signal is the same as the signal transmitted to monitor the state of each processor, resulting in the use of the existing signal twice for the same processor.

According to the present invention, when a processor fails in its processor and the processor state manager of each processor receives a failure signal from the processor, the controller can check an actual processor operating state and transmit the same to the maintenance processor, thereby reducing the IPC load. Will be.

Description

Method for processor state menagement in switching system

The present invention relates to a method for managing a processor state of an exchange, and more particularly, to a method for managing a processor state of an exchange to reduce the IPC (Inter-Processor Communication) load to perform a stable and reliable function.

1 is a road showing a configuration of a general exchange, a plurality of processors (10-1, 10-2, ..., 10-N) for performing program processing in the exchange, and each processor (10-1, 10-2) And a maintenance processor 20 which is in charge of maintenance of 10-N, and a database 30 which stores state information about each of the processors 10-1, 10-2, ..., 10-N. It is provided with.

In this configuration, each of the processors 10-1, 10-2, ..., 10-N includes a processor state management unit (a) that manages the processor state, and a failure processing unit that detects a failure occurring in its own processor. and (b).

The maintenance processor 20 collects the failure information received from the failure processing unit a of each of the processors 10-1, 10-2,..., 10 -N, and generates a failure occurrence signal 23. And a processor state management unit 25 that performs a processor IPC test on which a failure occurred based on a failure occurrence signal received from the failure processing unit 23.

FIG. 2 is a flowchart illustrating a method for managing a processor state in a conventional exchange. When a down occurs due to a failure in a predetermined processor (S10), a failure of the processor is detected by the failure processing unit (b) of the corresponding processor. The signal is transmitted to the failure processing unit 23 of the maintenance processor 20 (S12).

On the other hand, the failure processing unit 23 of the maintenance process 20 collects the processor failure information transmitted from the failure processing unit b of each of the processors 10-1, 10-2, ..., 10-N (S14). After configuring the collected failure information into a local table (S16), the processor failure information is transmitted to the processor state manager 25 of the maintenance processor 20 (S18).

On the other hand, the processor state management unit 25 of the maintenance processor 20 checks the IPC address and failure information of the failed processor on the basis of the processor failure information received from the failure processor 23 (S20).

Subsequently, in order to reconfirm the failure of the corresponding processor, a failure confirmation signal is transmitted to the processor state management unit (a) of the processor that detects the failure to perform an IPC test of the failed processor within a predetermined time. It is determined whether there is a response to the confirmation signal (S22, S24).

As a result of the determination of step S24, if there is a response to the confirmation signal within a preset time, the processor state is confirmed to be normal (S26). If there is no response to the confirmation signal within the preset time, a failure occurs in the processor. It is confirmed again that (S28).

Subsequently, the local table and the database 30 are updated based on the state of the processor reconfirmed through the above-described processes S26 to S28 (S30), and a failure confirmation result signal is transmitted to the failure processing unit 23 (S32). .

The failure processor 23 receiving the failure confirmation result signal from the processor state manager 25 displays a failure alarm message based on the received failure confirmation result signal (S34).

As described above, in the related art, the processor state manager 25 of the maintenance processor 20 checks with the corresponding processor to perform the IPC test of the failed processor based on the failure signal received from the failure processor 23. The acknowledgment signal is the same as the signal transmitted for monitoring the status of the processors 10-1, 10-2, ..., 10-N every cycle, and reconfirms whether or not a processor failure occurs. Used to.

As described above, the acknowledgment signal is the same as the state monitoring time signal which is normally transmitted for monitoring the state of the processor at every cycle, resulting in the use of the existing signal twice for the same processor.

For example, assuming that up to N processors 10-1, 10-2,..., 10 -N are mounted except for the maintenance processor 20, each processor 10-1, 10-2, ..., 10-N) N error confirmation IPC signal, N status monitoring time signal to hang before generating IPC signal, N response signal that each processor responds normally and return, failure processing unit (23) As a result of the verification,), one notification signal is generated, resulting in a maximum of 3 × N + 1 additional signals.

 Therefore, there is a problem that the IPC queue overflows due to unnecessary signals and loss of necessary IPC may occur.

In addition, since the failure processing unit 23 of the maintenance processor 20 receives processor failure information separately from each of the processors 10-1, 10-2, ..., 10-N, the failure of the failed processor Occurrence alarm messages can be immediately turned on and off.

Accordingly, the processor failure occurrence alarm message does not need to be turned on / off under the control of the processor state manager 25. In addition, a system for exchanging a new signal between the processor state management unit 25 and the failure processing unit 23 in a situation where it is difficult to accurately monitor the state related to various problems such as the IPC down as well as the processor failure may cause IPC waste. have.

The present invention has been made to solve the above-described problem, when the processor state management unit of each processor receives a failure signal from the failure processing unit to check the actual state of the processor and deliver it to the maintenance processor, it is possible to reduce the IPC load It is an object of the present invention to provide a processor state management method of an exchange.

The processor state management method of the exchange of the present invention for achieving the above object, the process of applying a failure signal to the processor failure processing unit and its processor state management unit of the maintenance processor when the failure processing unit detects a failure; and; The processor state manager, which has received a failure signal from the processor of the processor, determines whether the processor has actually failed, and if the processor does not have a failure, configures a processor normal operation signal indicating that the processor is operating normally. Transmitting to the processor state management unit of the maintenance processor; Applying to the processor state management unit a failure occurrence signal received by a failure processing unit of a maintenance processor receiving a failure occurrence signal from a failure processing unit of the processor; Updating the failure state information based on a failure occurrence signal received from the failure processing unit in the processor state management unit of the maintenance processor, and finally updating the failure state information according to whether the processor normal operation signal received from the failed processor is received; It is made, including.

Here, when the processor normal operation signal is received from the failed processor, the state of the processor is determined to be normal, and if the processor normal operation signal is not received from the failed processor, the state of the processor is determined to be a failed state. It is done.

Hereinafter, a processor state management method of an exchange according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a road showing the configuration of an exchange to which the processor state management method of the exchange according to the present invention is applied, and a plurality of processors 100-1, 100-2, ..., 100-N performing processing of programs in the exchange. And a maintenance processor 200 which is responsible for maintenance of each of the processors 100-1, 100-2, ..., 100-N, and each of the processors 100-1, 100-2, ..., 100-N. It is provided with a database 300 that stores the state information for.

In such a configuration, each processor 100-1, 100-2, ..., 100-N monitors its own processor state and detects a failure occurring in its own processor. Based on (a) and the failure processing unit (b) applied to the failure processing unit 220 of the maintenance processor 200, and based on the failure information received from the failure processing unit (b) to determine whether or not a failure has actually occurred in the own processor. And a processor state management unit (a).

In addition, the maintenance processor 200 collects failure information received from the failure processing unit (b) of each of the processors 100-1, 100-2,..., 100 -N and generates a failure occurrence alarm message for the failed processor. And a failure processing unit 220 which transmits the failure occurrence information received from the failure processing unit b of each of the processors 100-1, 100-2, ..., 100-N to the processor state management unit 210, Transmitting the periodic status monitoring time signal to each processor for monitoring the status of the processor, updating the local table and database 300 based on the failure occurrence information received from the failure processing unit 220, each processor (100-1) Processor state for updating a local table and database 300 by checking whether a processor failure state is based on processor operation state information received from the processor state management unit (a) of (100-2, ..., 100-N) It is provided with a management unit (210).

4 is a flowchart illustrating a processor state management method of an exchange according to the present invention.

When a down occurs due to a failure in a predetermined processor (S50), the failure processing unit (b) of the processor detects this and transmits a processor failure occurrence signal to the failure processing unit 220 of the maintenance processor 200 (S52).

Meanwhile, the failure processing unit 220 of the maintenance processor 200 collects processor failure information transmitted from the failure processing unit b of each of the processors 100-1, 100-2, ..., 100-N (S54). In response to the collected fault information, a fault alarm message is displayed (S56).

Thereafter, the failure information collected in the process S54 is configured as a local table (S58), and the processor failure information is transmitted to the processor state management unit 210 of the maintenance processor 200 so that the status information can be immediately reflected. (S60).

In the process S60, the processor state management unit 210 of the maintenance processor 200 may know the processor state based on the periodic processor state monitoring time signal, but because the processor failure is not reported in synchronization with the period. In order to update the processor status in real time, the failure occurrence information should be reported from the failure processing unit 220 immediately after the failure occurs.

As described above, the processor state management unit 210 receiving the failure information signal from the failure processing unit 220 checks the IPC address and failure information of the failed processor based on the failure information signal received from the failure processing unit 220. (S62).

Subsequently, based on the failure information signal received from the failure processing unit 220, the local table and the database 300 are updated with the state of the failed processor as the failed state (S64), and a 'processor normal operation' is received from the processor that the failure has occurred. It is determined whether the signal has been received (S66).

In the case of receiving the processor normal operation signal from the processor indicating that the failure has occurred as a result of the determination of step S66, the processor determines that the state of the processor is normal (S68), and receives the processor normal operation signal from the processor indicating the failure. If not, it is confirmed that the state of the processor is a failure state (S70).

Thereafter, failure information is configured according to whether the 'processor normal operation' signal is received to check whether the processor failure state is present and the state information of the database 300 and the local table is finally updated (S72).

Meanwhile, the failure processing unit b of each of the processors 100-1, 100-2,. At the same time, a failure occurrence signal is transmitted to the processor state management unit (a). Therefore, the processor state management unit (a) of each of the processors 100-1, 100-2,..., 100 -N has a state in which the processor has actually failed on the basis of a failure occurrence signal received from the failure processing unit (b). (S74, S76).

As a result of the determination of step S76, if the processor does not actually fail, a 'processor normal operation' signal is configured and transmitted to the processor state manager 210 of the maintenance processor 200 to transmit current processor state information. (S78).

As a result of the determination of step S76, when a failure occurs in the own processor, since all the software is dead, no signal can be transmitted to the maintenance processor 200.

The processor state management method of the exchange of the present invention is not limited to the above-described embodiment, and can be implemented in various modifications within the range allowed by the technical idea of the present invention.

According to the processor state management method of the exchange of the present invention as described above, when the processor state management unit of each processor receives a failure occurrence signal from the failure processing unit, and checks the actual processor operation state of its own processor In other words, by delivering to the maintenance processor, it is possible to reduce the IPC load so as to secure enough IPC resources for the high priority signal to be performed properly.

1 is a diagram showing a configuration of a general exchanger.

2 is a flowchart for explaining a processor state management method in a conventional exchange.

3 is a diagram showing the configuration of an exchange to which the processor state management method of the exchange according to the present invention is applied;

4 is a flowchart for explaining a processor state management method of an exchange according to the present invention;

*** Explanation of symbols for the main parts of the drawing ***

100-1, 100-2,... , 100-N. Processor, 200. maintenance processor,

210, a. Processor state management unit, 220, b. Fault handling unit,

300. Database

Claims (2)

When a failure processing unit (hereinafter referred to as a "processor failure processing unit") provided for each processor detects a failure occurring in its own processor, a failure processing unit provided in the maintenance processor in charge of maintenance of each processor (hereinafter referred to as a "processor failure processing unit") And a processor state management unit (hereinafter, referred to as a processor state management unit of a processor) provided with a failure occurrence signal to a 'maintenance processor' (hereinafter referred to as a processor's processor). Transmitting the fault occurrence signal; The IPC address of the processor that has failed in the processor state manager (hereinafter, referred to as a processor state manager of the maintenance processor) provided in the maintenance processor based on the failure occurrence signal received from the failure processor of the maintenance processor. And transmitting a disability information signal including disability information; Updating, by a processor state management unit of the maintenance processor, a database storing state information about each processor based on the received fault information signal; Determining, by the processor state manager of the processor, whether a failure has actually occurred in the processor based on the received failure signal; If it is determined that the processor does not actually fail, configuring a processor normal operation signal indicating that the processor is in normal operation and transmitting the same to a processor state manager of the maintenance processor; And updating the database on the basis of the received processor normal operation signal by a processor state management unit of the maintenance processor. The processor state management unit of claim 1, wherein when the processor state management unit of the processor determines that the processor has actually failed, the processor state management unit of the maintenance processor cannot transmit any signal to the processor state management unit of the maintenance processor. The processor state management method of the exchange characterized in that it further comprises a process.