KR100450399B1 - A method for supervising status of dual processors in order to overcome temporary dual channel trouble in atm switch - Google Patents

Abstract

The present invention relates to a redundant processor state monitoring method for overcoming a communication failure of a temporary redundant channel in an asynchronous transfer mode (ATM) exchange, wherein an active side processor is in a state of a standby processor at the request of a processor state monitoring unit. Requesting a state of the standby processor to read a first step; A second step of reading, by the active processor, a hardware failure register value of the standby processor when the standby processor does not respond in the first step; A third step of setting, by the active processor, a state of the standby processor to 'UNKNOWN' when none of the hardware fault register values read in the second step are set; A fourth step of the active processor transmitting the state of the standby processor to the processor status monitor; And a fifth step of maintaining a previous state when the state of the standby processor is 'undecided' in the fourth step, thereby preventing a temporary failure of the redundant channel that may occur when reading the state of the standby processor of the redundant processor. It avoids and ensures the stability of processor redundancy.

Description

Monitoring Method for Redundant Processor Status to Overcome Temporary Redundant Channel Communication Failures in Asynchronous Transfer Switch {A METHOD FOR SUPERVISING STATUS OF DUAL PROCESSORS IN ORDER TO OVERCOME TEMPORARY DUAL CHANNEL TROUBLE IN ATM SWITCH}

The present invention relates to a method for monitoring the state of a redundant processor in an Asynchronous Transfer Mode (ATM) exchange, and more particularly, to realize a method of monitoring a redundant processor state and a method for overcoming a communication failure of a temporary redundant channel. The present invention relates to a computer-readable recording medium having recorded thereon a program.

Asynchronous transfer exchanges must provide services to users in real time and exchange wide bandwidth and vast amounts of data. Among the components of such an asynchronous transfer exchange, the processor is, unlike other components, the hardware failure due to the high impact of the failure of the processor on the system and the long recovery time. When a failure occurs in a side processor, a switch-over process is performed in which a standby processor performs a service without interrupting service. Therefore, like the status monitoring on the active side, the status monitoring on the standby side is an important procedure for improving the reliability of the system, and accurate and rapid status monitoring should be performed.

Hereinafter, a redundant processor state monitoring method of a conventional asynchronous transfer switch will be described with reference to FIG. 1.

Referring to FIG. 1, the processor state monitoring unit 1 is configured to monitor the processor states of the active side processor 2 and the standby side processor 3.

The processor state monitoring unit 1 can communicate only with the active side processor 2, and cannot communicate with the standby side processor 3. Therefore, the processor state monitoring unit 1 may detect the state of the standby processor 3 using a dedicated communication path between the active processor 2 and the standby processor 3.

When the processor state monitoring unit 1 requests the active side processor 2 to have a redundant state of the processors, the active side processor 2 requests the standby side processor 3 to request a processor state and waits for the standby state. The side processor 3 informs the active side processor 2 of its status. Upon receiving this, the active side processor 2 sends its state and the state of the standby side processor 3 to the processor state monitoring unit 1. Here, if the active side processor 2 requests a state to the standby side processor 3 and there is a response, the state is regarded as the state of the standby side processor 3, but if there is no response, the standby side processor ( The state of 3) is considered to be 'abnormal'.

However, in the conventional redundant processor state monitoring method, when the response from the standby side processor 3 is not received, the state of the standby side processor 3 is always regarded as 'abnormal'. When a communication failure occurs due to a temporary overload, the actual processor state is 'normal', but it can be seen as moving between 'normal' and 'abnormal', which lowers the reliability of the system.

For example, the standby processor 3 responds to a status request of the active processor 2 with an eject, power-off, or hardware channel disconnect of the redundant communication channel. When it is impossible to do so, it is reasonable to manage the abnormal state because redundancy switching cannot be normally performed even if the active side processor 2 fails. However, temporary overload or frequent interruption of the active side processor 2 is appropriate. If the response is not received from the standby processor 3 within a predetermined time period, the state of the actual standby processor 3 and the state recognized by the active processor 2 are inconsistent, thereby lowering the reliability of the system. Will be.

The present invention has been made under the technical background as described above, and distinguishes the case where a hardware failure occurs in the standby processor from the case where it is not, and a method for effectively monitoring the state of the actual standby processor and a program for executing the method. The purpose of the present invention is to provide a computer-readable recording medium for recording the data.

1 is a block diagram illustrating a redundant processor state monitoring method of a conventional asynchronous transfer switch.

2 is a block diagram of a redundant processor of an asynchronous transfer switch to which the present invention is applied.

3 is a block diagram illustrating a redundant processor state monitoring method of an asynchronous transfer type switch according to the present invention;

4 is a diagram illustrating a redundant processor state management when a state of a standby processor cannot be read in the method for monitoring a redundant processor state of an asynchronous transfer switch according to the present invention.

(Explanation of symbols for the main parts of the drawing)

21, 22: processor 23: signal line for communication between processors

24: redundant channel 25: signal line for hardware fault monitoring

31 processor status monitoring unit 32 active processor

33: standby processor

The present invention for achieving the above object,

In the redundant processor state monitoring method of the asynchronous transmission switch exchange is provided with an active processor and a standby processor each having a hardware failure register in a redundant structure, the redundant state of each processor is monitored by the processor state monitoring unit. ,

A first step of requesting, by the active state processor, the state of the standby processor to read the state of the standby processor at the request of the processor state monitoring unit;

A second step of reading, by the active processor, a hardware failure register value of the standby processor when the standby processor does not respond in the first step;

A third step of setting, by the active processor, the state of the standby processor to 'UNKNOWN' when none of the hardware fault register values read in the second step are set; Transmitting a state of a side processor to the processor state monitoring unit; And a fifth step of maintaining a previous state when the state of the standby processor is 'undecided' in the fourth step.

In addition, the present invention for achieving the above object,

In the redundant processor state monitoring method of the asynchronous transmission switch exchange is provided with an active processor and a standby processor each having a hardware failure register in a redundant structure, the redundant state of each processor is monitored by the processor state monitoring unit. ,

A first function of requesting a state of the standby processor to read the state of the standby processor by the active processor in response to a request of the processor state monitor;

A second function of reading, by the active processor, a hardware failure register value of the standby processor when the standby processor is unresponsive in the first function;

A third function of setting, by the active processor, the state of the standby processor to 'UNKNOWN' when none of the hardware fault register values read by the second function are set; A fourth function of transmitting a state of a side processor to the processor state monitoring unit; And a fifth step of maintaining a previous state when the state of the standby processor is 'undecided' in the fourth function. A computer readable recording medium having recorded thereon a program for executing the program is provided.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 illustrates a configuration of a redundant processor of an asynchronous transfer switch to which the present invention is applied.

As shown in FIG. 2, the pair of processors 21 and 22 each have a hardware failure register for storing hardware failure information therein, and the redundancy channel 24 exchanges redundancy status information with each other. . The pair of processors 21 and 22 are connected to each other by the signal line 23 for interprocessor communication and the signal line 25 for monitoring hardware failure.

The redundant processors 21 and 22 communicate with other processors in the asynchronous transfer switch via a signal line 23 for inter-processor communication (IPC). As described above, the two processors are divided into an active state and a standby state, and detect the duplication state of each other through the duplication channel 24. In addition, a hardware failure is detected through the hardware failure monitoring signal line 25, and hardware failure information of the redundant counterpart processor is stored in a hardware failure register.

3 is a block diagram illustrating a redundant processor state monitoring method of an asynchronous transfer switch according to the present invention.

As shown in FIG. 3, the hardware configuration for monitoring the redundant processor state includes a processor state monitoring unit 31, an active side processor 32 having a hardware failure register, and a standby side processor 33, respectively. The hardware fault monitoring signal line 34 detects a hardware fault of each of the processors 32 and 33 and writes it to a hardware fault register. The processor state monitor 31 and the active processor 32 And between the active processor 32 and the standby processor 33 so as to exchange status requests and status responses with each other.

When the processor state monitoring unit 31 sends a processor redundancy status request to the active side processor 32, the active side processor 32 sends a status request to the standby side processor 33, and sends a response. It sends it to the processor state monitoring unit 31 along with its active side state. At this time, when there is no response from the standby processor 33, the conventional process was processed as 'abnormal', but in the present invention, the hardware failure register of each of the processors 32 and 33 through the hardware fault monitoring signal line 34. If the hardware failure of the other processor is detected, it is regarded as 'abnormal' only. If not, it is treated as 'UNKNOWN'. When the state of the standby processor 33 is 'undecided', the processor state monitoring unit 31 maintains the previous state as it is, and keeps it 'abnormal' only when the 'undecided' state continues for a predetermined time or more. .

That is, according to the method for monitoring the processor redundancy state of the present invention, unlike the conventional method, even if the standby processor does not respond and the state is determined to be abnormal, additionally detects a hardware failure to determine a more accurate processor redundancy state. In addition, it is possible to eliminate the phenomenon that the standby processor is recognized as an unstable state in which the state of the standby processor repeatedly goes between normal and abnormal due to the light failure of the temporary active side processor. In addition, if the status of 'undecided' is maintained for a certain period of time, even if no hardware failure occurs, the status can be changed to 'abnormal' so that a separate diagnosis can be made.

FIG. 4 is a diagram illustrating a redundant processor state management when a state of a standby processor cannot be read in the method of monitoring a redundant processor state of an asynchronous transfer switch according to the present invention.

That is, the diagram of FIG. 4 shows the processor when the processor state monitor 31 cannot read the state of the standby processor 33 from the active processor 32 during the procedure of obtaining the processor redundant state. Represents a procedure for managing redundancy.

When the processor status monitor 31 sends a status request to the active processor 32, the active processor 32 issues a status request to the standby processor 33 to obtain a status of the standby processor 33. Send to) At this time, if there is no status response from the standby processor 33 within a predetermined time, the active processor 32 sets the status of the standby side to 'undecided', and the status of the active side with its own status 'undecided' The standby state is transmitted to the processor state monitoring unit 31. The processor state monitoring unit 31 is set to 'abnormal' if the number of 'undecided' is greater than or equal to a predetermined number n, and otherwise maintains the previous state.

The redundant processor state monitoring method of the present invention as described above may be implemented as a program and stored in a recording medium such as a CD-ROM, RAM, ROM, floppy disk, hard disk, magneto-optical disk, magnetic tape, or the like in a computer-readable form.

As described above, the present invention described above illustrates a method for avoiding temporary duplication channel failure among the processor duplication state monitoring methods of the asynchronous transmission type switch. The scope of the present invention described above is not limited to the drawings and examples shown herein, it is common knowledge in the art that various substitutions, modifications and changes can be made within the scope without departing from the technical spirit of the present invention. It will be apparent to those who have

The present invention as described above, by avoiding the temporary failure of the redundant channel that may occur when reading the state of the standby processor of the redundant processor to ensure the stability of the processor redundant state, it is possible to reduce the output of the alarm message or state transition message This not only reduces operator confusion, but also improves the stability of other application functions that require the processor's state.

Claims (5)

In the redundant processor state monitoring method of the asynchronous transmission switch exchange is provided with an active processor and a standby processor each having a hardware failure register in a redundant structure, the redundant state of each processor is monitored by the processor state monitoring unit. , A first step of requesting, by the active state processor, the state of the standby processor to read the state of the standby processor at the request of the processor state monitoring unit; A second step of reading, by the active processor, a hardware failure register value of the standby processor when the standby processor does not respond in the first step; A third step of setting, by the active processor, a state of the standby processor to 'UNKNOWN' when none of the hardware fault register values read in the second step are set; A fourth step of the active processor transmitting the state of the standby processor to the processor status monitor; And And monitoring a redundant processor state for overcoming a temporary duplex channel communication failure of an asynchronous transfer switch, wherein the fourth step maintains a previous state when the state of the standby processor is 'undecided' in the fourth step. Way. delete The method of claim 1, The redundant processor state monitoring method for overcoming the temporary redundant channel communication failure of the asynchronous transmission type switch, characterized in that when the state of the standby processor remains 'undefined' for a predetermined time, the state is reset to 'abnormal'. . The method of claim 1, When the fourth step is performed, the processor state monitoring unit sends a processor state request to the active side processor, and in response, the active side processor displays its state together with the state of the standby processor. Redundant processor state monitoring method for overcoming a temporary duplex channel communication failure of an asynchronous transfer type switch. In the redundant processor state monitoring method of the asynchronous transmission switch exchange is provided with an active processor and a standby processor each having a hardware failure register in a redundant structure, the redundant state of each processor is monitored by the processor state monitoring unit. , A first function of requesting a state of the standby processor to read the state of the standby processor by the active processor in response to a request of the processor state monitor; A second function of reading, by the active processor, a hardware failure register value of the standby processor when the standby processor is unresponsive in the first function; A third function of setting, by the active processor, the state of the standby processor to 'UNKNOWN' when at least one hardware fault register value read by the second function is set; A fourth function of the active processor transmitting the state of the standby processor to the processor status monitor; And A fifth function of maintaining a previous state when the state of the standby processor is 'undecided' in the fourth function; A computer-readable recording medium having recorded thereon a program for executing the program.