JP2014081880A - Diagnostic circuit diagnostic device, diagnostic circuit diagnosis system, diagnostic circuit diagnostic method, and diagnostic circuit diagnosis program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a diagnostic circuit diagnostic device capable of efficiently and surely diagnosing each diagnostic circuit in a system including a plurality of diagnostic circuits.SOLUTION: A diagnostic circuit diagnostic device of the present invention includes instruction means for storing a correspondence relation between identification information of diagnosis means of a diagnosis subject and identification information of diagnosis means to be a diagnosis object made by the diagnosis means when a plurality of diagnosis means diagnose each other, as diagnosis management information in storage means, and instructing the diagnosis means to diagnose each other on the basis of the diagnosis management information.

Description

  The present invention relates to a diagnostic circuit diagnostic apparatus, a diagnostic circuit diagnostic system, a diagnostic circuit diagnostic method, and a diagnostic circuit diagnostic program for diagnosing each diagnostic circuit in a system including a plurality of diagnostic circuits.

  As the scale of information processing systems including data centers is rapidly increasing, the importance of technology for efficient and reliable failure monitoring and recovery of large-scale information processing systems is increasing. Yes.

  As a related technique related to such fault monitoring and fault recovery, Patent Document 1 discloses a serial interface of an existing circuit when the diagnostic circuit becomes inoperable due to a fault in the diagnostic circuit of the information processing apparatus. A system for using the device in the information processing apparatus from outside and performing appropriate control is disclosed.

  Patent Document 2 discloses a system for performing system management by accessing a diagnosis circuit of a plurality of information processing apparatuses in a system from a single external terminal through a wireless communication interface.

  Further, Patent Document 3 defines a reset packet for restarting the information processing apparatus, so that even if the information processing apparatus in which the failure has occurred is remotely located, An apparatus for restarting an information processing apparatus and recovering a failure is disclosed.

JP 2006-268742 A Japanese Patent Laid-Open No. 2002-27027 JP 2001-223743 A

  If a failure occurs in the diagnostic circuit of each information processing device in the system, it is impossible to guarantee the normal operation of the system. Therefore, efficient and reliable diagnosis of the diagnostic circuit is an important problem in system operation, but the above-described Patent Documents 1 to 3 are not intended to solve this problem.

  An object of the present invention is to provide a diagnostic circuit diagnostic device, a diagnostic circuit diagnostic system, a diagnostic circuit diagnostic method, and a diagnostic circuit diagnostic program that have solved the above-described problems.

  The diagnostic circuit diagnostic apparatus according to an embodiment of the present invention includes an identification information of the diagnostic unit that is a diagnostic subject when a plurality of diagnostic units diagnose each other, and identification information of the diagnostic unit that is a diagnostic target of the diagnostic unit Are stored in the storage means as diagnosis management information, and based on the diagnosis management information, an instruction means for instructing the diagnosis means to each other is provided.

  The diagnostic circuit diagnostic method according to an embodiment of the present invention includes an identification information of the diagnostic unit that is a diagnostic subject when a plurality of diagnostic units diagnose each other, and identification information of the diagnostic unit that is a diagnostic target of the diagnostic unit Are stored in the storage area as diagnosis management information, and based on the diagnosis management information, the diagnosis unit is instructed to diagnose each other.

  The diagnostic circuit diagnostic program according to an embodiment of the present invention includes an identification information of the diagnostic unit that is a diagnostic subject when a plurality of diagnostic units diagnose each other, and identification information of the diagnostic unit that is a diagnostic target of the diagnostic unit The computer is caused to execute storage processing for storing the correspondence relationship in the storage area as diagnosis management information, and instruction processing for instructing the diagnosis means to each other based on the diagnosis management information .

  The present invention enables efficient and reliable diagnosis of each diagnosis circuit in a system including a plurality of diagnosis circuits.

It is a block diagram which shows the structure of the diagnostic circuit diagnostic system of 1st Embodiment of this invention. It is a flowchart which shows operation | movement of 1st Embodiment when a failure generate | occur | produces in the diagnostic part in this invention. It is a flowchart which shows operation | movement of 1st Embodiment when the diagnostic part in this invention is newly added. It is a structural example of the diagnostic management information in 1st Embodiment of this invention. It is a block diagram which shows the structure of the diagnostic circuit diagnostic apparatus of 2nd Embodiment of this invention.

  A first embodiment of the present invention will be described in detail with reference to the drawings.

  FIG. 1 is a block diagram showing the configuration of the diagnostic circuit diagnostic system of this embodiment.

  The diagnostic circuit diagnostic system 1 according to the present embodiment includes a diagnostic circuit diagnostic device 10 and servers 20-1 to 20-n. Here, n is an integer of 2 or more. Hereinafter, it is assumed that n = 4.

  The servers 20-1 to 20-4 are connected to the diagnostic circuit diagnostic device 10.

  The diagnostic circuit diagnostic device 10 includes diagnostic units 11-1 to 11-4, an instruction unit 12, and a storage unit 13. The diagnosis units 11-1 to 11-4 and the instruction unit 12 may be electronic circuits or computer programs. The storage unit 13 is an electronic circuit, a disk device in which data is read or written by a computer program, or a memory.

  Each of the diagnosis units 11-1 to 11-4 monitors the operation state of the servers 20-1 to 20-4 and performs a diagnosis operation, and also performs a diagnosis operation between each other based on an instruction from the instruction unit 12. The diagnosis result is transmitted to the instruction unit 12.

  100.100.100.100 to 100.100.100.103 are assigned as IP addresses to the diagnosis units 11-1 to 11-4, respectively. The diagnosis units 11-1 to 11-4 may be included in the servers 20-1 to 20-4, respectively. In addition, the instruction unit 12 and the storage unit 13 may be included in a client terminal device (not shown).

  When a failure occurs in the diagnosis unit to be diagnosed, the diagnosis units 11-1 to 11-4 reset the diagnosis unit in which the failure has occurred once and perform a diagnosis again. The fact that a failure has occurred in the unit is transmitted to the instruction unit 12.

  The instruction unit 12 instructs the diagnosis units 11-1 to 11-4 to execute diagnosis between each other based on the diagnosis management information 130 stored in the storage unit 13. A configuration example of the diagnosis management information 130 is shown in FIG.

  The record of the diagnosis management information 130 includes the IP address and status information of the diagnosis unit of the diagnosis subject, and the IP address and status information of the diagnosis unit to be diagnosed by the diagnosis subject. In the case of the example in FIG. 4, the diagnosis unit 11-1 having an IP address of 100.100.100.100, the diagnosis unit 11-2 having an IP address of 100.100.100.101, and the IP address of 100.100.100.100. The diagnosis of the diagnosis unit 11-3, which is 100.100.102, is performed. Similarly, the diagnosis unit 11-2 whose IP address is 100.100.100.101, the diagnosis unit 11-1 whose IP address is 100.100.100.100, and the IP address which is 100.100.100. The diagnosis of the diagnosis unit 11-4 which is 103 is performed.

  The initial setting of the diagnostic management information 130 is set by the system administrator of the diagnostic circuit diagnostic system 1 so that all of the diagnostic units 11-1 to 11-4 are diagnosed by any diagnostic unit other than itself. In some cases, the diagnostic circuit diagnostic apparatus 10 may set the predetermined criteria.

  The instruction unit 12 receives diagnosis results from the diagnosis units 11-1 to 11-2, which are diagnosis subjects, and updates the status item of the diagnosis management information 130. In the case of the example in FIG. 4, the diagnosis unit 11-2 detects a failure that has occurred in the diagnosis unit 11-1, and reports the IP address of the diagnosis unit 11-1 and information on the occurrence of the failure to the instruction unit 12. The instruction unit 12 sets a status item corresponding to the IP address of the diagnosis unit 11-1 in the diagnosis management information 130 as a failure.

  When the diagnostic unit in which the failure has occurred is the diagnostic unit that is the diagnostic subject, the instruction unit 12 is the closest to the diagnostic target diagnostic unit and the IP address value as the new diagnostic subject of the diagnostic unit that is the diagnostic target of the diagnostic unit The diagnostic management information 130 is updated by assigning a diagnostic unit that is operating normally.

  In the case of the example in FIG. 4, the instruction unit 12 sets the IP address value as the diagnosis unit 11-2 as a new diagnosis subject of the diagnosis unit 11-2 that was the diagnosis target of the diagnosis unit 11-1 in which the failure has occurred. The closest diagnostic unit 11-3 that is operating normally is assigned. Similarly, the instruction unit 12 assigns the diagnosis unit 11-4 as a new diagnosis subject of the diagnosis unit 11-3 that is the diagnosis target of the diagnosis unit 11-1 in which the failure has occurred. In addition to the diagnostic unit 11-4, the diagnostic unit 11-2 has a diagnostic unit 11-2 other than the diagnostic unit 11-4. Since the diagnostic unit 11-1 and the diagnostic unit 11-4 are diagnostic entities, the instruction unit 12 considers the load distribution and replaces the diagnostic unit 11-4 with the new diagnostic unit 11-3. Assign to.

  The instruction unit 12 instructs the diagnosis units 11-3 to 11-4 to start the diagnosis operations of the diagnosis units 11-2 to 11-3, respectively.

  In addition, when a new server is added to the diagnostic circuit diagnostic system 1, the instruction unit 12 detects that the diagnostic unit is newly added based on the IP address received from the diagnostic unit of the newly added server. The diagnosis unit having the closest IP address and operating normally is assigned to the diagnosis subject of the newly added diagnosis unit. The instruction unit 12 updates the diagnosis management information 130 and instructs the diagnosis unit assigned to the diagnosis subject to start the diagnosis operation of the newly added diagnosis unit.

  Next, the operation of this embodiment when a failure occurs in the diagnosis unit will be described in detail with reference to the flowchart of FIG.

  The instruction unit 12 refers to the diagnosis management information 130 in the storage unit 13 and instructs the diagnosis unit registered as the diagnosis subject in the diagnosis units 11-1 to 11-4 to diagnose the diagnosis unit to be diagnosed. (S101). The diagnosis part of the diagnosis subject in the diagnosis parts 11-1 to 11-4 diagnoses the diagnosis part to be diagnosed by an instruction from the instruction part 12 (S102).

  If no failure has occurred in the diagnosis unit 11-i (i is an integer from 1 to 4) (No in S103), the process returns to S102. When a failure occurs in the diagnosis unit 11-i (Yes in S103), a diagnosis unit 11-j (j is an integer of any one of 1 to 4 except i) of the diagnosis unit 11-i is diagnosed. The unit 11-i is reset, and the diagnosis unit 11-i is diagnosed again (S104).

  When the diagnosis unit 11-i recovers from the failure (Yes in S105), the process returns to S102. When the diagnosis unit 11-i does not recover from the failure (No in S105), the diagnosis unit 11-j transmits a failure occurrence of the diagnosis unit 11-i to the instruction unit 12 (S106).

  The instruction unit 12 refers to the diagnosis management information 130 and confirms whether the diagnosis unit 11-i is registered as a diagnosis subject (S107). When the diagnosis unit 11-i is not registered as a diagnosis subject (No in S108), the process returns to S102.

  When the diagnosis unit 11-i is registered as a diagnosis subject (Yes in S108), the instruction unit 12 has the IP address value closest to the diagnosis target diagnosis unit for the diagnosis target diagnosis unit of the diagnosis unit 11-i. The diagnostic units other than the diagnostic unit 11-i are set as new diagnostic subjects of the diagnostic target diagnostic unit, and the diagnostic management information 130 is updated (S109). The instruction unit 12 instructs the diagnosis unit of the newly set diagnosis subject to diagnose the diagnosis unit to be diagnosed (S110), and the process returns to S102.

  Next, the operation of the present embodiment when a diagnostic unit is newly added will be described in detail with reference to the flowchart of FIG.

  While the servers 20-1 to 20-3 are operating, the server 20-4 starts up (S201). The diagnosis unit 11-4 reports its own IP address to the instruction unit 12 (S202). The instruction unit 12 refers to the diagnosis management information 130 in the storage unit 13 and confirms whether the IP address of the diagnosis unit 11-4 is registered as a diagnosis target (S203).

  When the diagnosis unit 11-4 is registered as a diagnosis target (Yes in S204), the process proceeds to S206. When the diagnosis unit 11-4 is not registered as a diagnosis target (No in S204), the instruction unit 12 replaces the diagnosis unit 11-3 with the IP address value closest to the diagnosis unit 11-4 with the diagnosis unit 11-4. The diagnosis management information 130 is updated (S205).

  The instruction unit 12 instructs the diagnosis unit 11-4 to diagnose the diagnosis unit 11-4 registered in the diagnosis management information 130 (S206). The diagnostic unit of the diagnostic unit 11-4, which is the main subject of diagnosis, starts the diagnosis of the diagnostic unit 11-4 (S207), and the entire process ends.

  This embodiment has an effect of efficiently and reliably diagnosing a plurality of diagnostic circuits included in the system. The reason is that the instruction unit 12 instructs the diagnosis units 11-1 to 11-4 to perform diagnosis with each other based on the diagnosis management information 130.

  If the diagnostic operation of the diagnostic unit itself in the system is not performed, it cannot be guaranteed whether the diagnostic result of the diagnostic unit is correct, and thus normal operation of the system cannot be guaranteed. When the diagnostic units are multiplexed in order to guarantee the normal operation of the diagnostic unit, the amount of hardware increases and the cost of the system increases. In addition, when a specific diagnostic unit has a function of diagnosing all the diagnostic units in the system, the number of diagnosis targets of the specific diagnostic unit increases as the system size increases. As a result, the load required for diagnosis increases, which hinders system operation.

  In the present embodiment, since a plurality of existing diagnosis units diagnose each other, the amount of hardware does not increase, and the load does not concentrate on a specific diagnosis unit. It is possible to diagnose all the diagnosis units in the system.

  In addition, when a failure occurs in any of the diagnosis units, the instruction unit 12 performs a normal operation of the diagnosis unit that is the closest to the diagnosis unit of the diagnosis unit in which the failure has occurred and has the IP address value closest to the diagnosis unit. Is assigned as a new diagnostic subject and a diagnosis start is instructed, so that it is possible to avoid the diagnosis of any diagnostic unit in the system from being performed normally.

  The instruction unit 12 assigns a diagnostic unit having the closest IP address value as a new diagnostic subject. In a general system, an information processing device having a similar IP address value is installed at a physically close position. This is because it is often preferable to diagnose between the diagnosis units that are physically close to each other in terms of communication quality and maintenance.

  Further, in this embodiment, when a new information processing apparatus is added to the system, the instruction unit 12 instructs the diagnosis subject of the information processing apparatus to start diagnosis by assigning the diagnosis subject based on the value of the IP address. Therefore, it is possible to reliably perform diagnosis of all diagnosis units in the system.

In this embodiment, the instruction unit 12 assigns a new diagnostic unit as a diagnostic subject based on the IP address value when a failure occurs in any diagnostic unit or when a new diagnostic unit is added. The instruction unit 12 may use another standard other than the value of the IP address.
<Second Embodiment>
Next, a second embodiment of the present invention will be described in detail with reference to the drawings.

  FIG. 5 is a block diagram showing the configuration of the diagnostic circuit diagnostic apparatus according to the second embodiment of the present invention. The diagnostic circuit diagnostic apparatus 10 of the present embodiment includes diagnostic units 11-1 to 11-n (n is an integer of 2 or more), an instruction unit 12, and a storage unit 13.

  The diagnosis units 11-1 to 11-n diagnose each other while diagnosing the electronic device. The electronic device described above may be a server as in the first embodiment, or may be an individual electronic circuit in one server.

  The instruction unit 12 determines the correspondence between the identification information of the diagnostic unit that is the main subject of diagnosis when the diagnostic units 11-1 to 11-n diagnose each other and the identification information of the diagnostic unit that is the diagnostic target of the diagnostic unit. The diagnostic management information is stored in the storage unit 13 and the diagnostic units 11-1 to 11-n are instructed to diagnose each other based on the diagnostic management information.

  As identification information of the diagnosis unit, an IP address value may be used as in the first embodiment, or a host name of a diagnosis target server of the diagnosis unit may be used.

  As in the first embodiment, this embodiment has an effect of efficiently and reliably diagnosing a plurality of diagnosis circuits included in the system. The reason is that the instruction unit 12 instructs the diagnosis units 11-1 to 11-n to perform diagnosis with each other based on the diagnosis management information.

  In accordance with an instruction from the instruction unit 12, the existing diagnosis units 11-1 to 11-n diagnose each other, thereby distributing the load for diagnosis without adding hardware, so that all diagnosis units It becomes possible to perform diagnosis.

  While the present invention has been described with reference to the embodiments, the present invention is not limited to the above embodiments. Various changes that can be understood by those skilled in the art can be made to the configuration and details of the present invention within the scope of the present invention.

DESCRIPTION OF SYMBOLS 1 Diagnostic circuit diagnostic system 10 Diagnostic circuit diagnostic apparatus 11-1 thru | or 11-n Diagnosis part 12 Instruction part 13 Memory | storage part 130 Diagnosis management information 20-1 thru | or 20-n Server

Claims (10)

When a plurality of diagnostic means diagnose each other, the correspondence between the identification information of the diagnostic means of the diagnostic subject and the identification information of the diagnostic means targeted by the diagnostic means is stored in the storage means as diagnostic management information And a diagnostic circuit diagnostic apparatus comprising instruction means for instructing the diagnostic means to perform mutual diagnosis based on the diagnostic management information. The instructing means refers to the diagnostic management information when receiving a failure from the diagnostic means of a diagnostic subject, when the failure has occurred in any of the diagnostic means to be diagnosed. If there is the diagnostic means diagnosed by the above, the diagnostic subject of the diagnostic means is changed from the diagnostic means in which the failure has occurred to another diagnostic means based on a predetermined standard, and the diagnostic management information is updated The diagnostic circuit diagnostic apparatus according to claim 1. The diagnosis unit resets the diagnosis unit when a failure occurs in the diagnosis unit to be diagnosed, and reports the failure of the diagnosis unit to the instruction unit when the failure is not resolved even after the reset. The diagnostic circuit diagnostic apparatus according to claim 2. The instruction means receives identification information of the diagnosis means from the diagnosis means newly added to the system, determines the diagnosis means for diagnosing the diagnosis means based on a predetermined criterion, and newly adds the diagnosis The diagnostic circuit diagnostic apparatus according to any one of claims 1 to 3, wherein the diagnostic management information is updated by associating identification information of the means with identification information of the diagnostic means for diagnosing the diagnostic means. The instruction unit uses the network address of the diagnostic unit as identification information of the diagnostic unit, and when the fault occurs in the diagnostic unit or when the diagnostic unit is newly added, 5. The diagnostic circuit diagnostic apparatus according to claim 2, wherein the diagnostic unit having the network address having a value closest to the network address of the diagnostic unit to be diagnosed is set as a diagnostic subject of the diagnostic unit to be diagnosed. .   A diagnostic circuit diagnostic system comprising the diagnostic circuit diagnostic device according to claim 1 and the electronic device. When a plurality of diagnostic means diagnose each other, the correspondence between the identification information of the diagnostic means of the diagnostic subject and the identification information of the diagnostic means targeted by the diagnostic means is stored in the storage area as diagnostic management information Then, based on the diagnostic management information, a diagnostic circuit diagnostic method that instructs the diagnostic means to perform mutual diagnosis. When the fact that a failure has occurred in any of the diagnostic means to be diagnosed is received from the diagnostic means that is the main subject of the diagnosis, the diagnosis management information is referred to and the diagnosis means diagnosed by the diagnostic means in which the failure has occurred The diagnostic management information is updated when the diagnostic means is present by changing the diagnostic subject of the diagnostic means from the diagnostic means in which a failure has occurred to another diagnostic means based on a predetermined criterion. Circuit diagnosis method. When a plurality of diagnostic means diagnose each other, the correspondence between the identification information of the diagnostic means of the diagnostic subject and the identification information of the diagnostic means targeted by the diagnostic means is stored in the storage area as diagnostic management information Storage processing to
Based on the diagnosis management information, instruction processing for instructing the diagnosis means to each other, and
Diagnostic circuit diagnostic program for causing a computer to execute. The instruction process refers to the diagnosis management information when a failure has occurred in any of the diagnosis means to be diagnosed from the diagnosis means of the diagnosis subject, and the diagnosis means in which the failure has occurred If there is the diagnostic means diagnosed by the above, the diagnostic subject of the diagnostic means is changed from the diagnostic means in which the failure has occurred to another diagnostic means based on a predetermined standard, and the diagnostic management information is updated The diagnostic circuit diagnostic program according to claim 9.

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