JP2009282714A - Virtual machine computer system, and fail-safe method for the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a fail-safe method for a virtual machine computer system. <P>SOLUTION: By successively executing a process of monitoring a power state according to a schedule by means of an uninterruptive power system 115 by referring to an uninterruptive power system list table 110; a process of searching for a fail-over target server 172 of a virtual server 162 having a failure by referring to a virtual server list table 120 when a power failure is detected by the monitoring; a process of transferring a virtual machine under execution in the virtual server 162 having the failure to the virtual server 172 of the fail-over target; and a process of shutting down the virtual machine 164 having the failure, a fail-safe unit 150 shuts down the virtual server having the failure after the virtual machine on the virtual server having the failure is migrated to the other virtual server. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a virtual machine computer system and a fail-safe method for a virtual machine computer system that can suitably perform shutdown control even when a power failure occurs on a virtualization server that constitutes the virtual machine.

  In recent computer systems, virtual machine (VM) technology has been realized in which server machine resources are divided into multiple pieces using software to make them independent and multiple virtual machines can be operated simultaneously on multiple servers. ing. This virtual machine technology is a technology for virtualizing hardware and operating an OS on the virtual hardware. By preparing a plurality of virtual hardware, a plurality of OSs and applications can be executed simultaneously.

In addition, as a document describing the technology related to the virtual machine technology, for example, the following Patent Document 1 is cited.
JP 2005-115653 A

  However, the virtual machine technology according to the prior art has a problem that the fail-safe function is insufficient because the countermeasure when a power failure occurs is not sufficiently considered. Specifically, the virtual machine technology according to the prior art is, for example, a set uninterruptible power supply monitoring program in which the priority of shutdown processing is set for all virtualization servers connected on the same network as the uninterruptible power supply When the uninterruptible power supply detects a power failure, the monitoring program performs shutdown processing for multiple virtualization servers, even though multiple virtualization servers are running multiple virtual machines. Since the shutdown is performed only in the order of the priority set in the set uninterruptible power supply monitoring program, there is a problem that it is difficult to perform the shutdown process according to the importance of the virtual machine being executed.

  In addition, the conventional virtual machine technology allows a virtual machine in another virtualization server even in a virtual environment where a virtual machine can be executed in another virtualization server even if a power failure occurs in a specific virtualization server. There was a bug that could not be executed.

  Note that the term “fail safe” means a design philosophy that assumes that a failure will occur in advance and devised to minimize damage when the failure occurs.

  An object of the present invention is to provide a virtual machine computer system and a virtual machine computer system capable of safely shutting down a virtual machine on a virtualization server according to the importance and continuing the execution of the virtual machine on the executable virtualization server. It is to provide a fail-safe method.

In order to achieve the above object, the present invention provides a fail-safe having a plurality of virtualization servers connected to an uninterruptible power supply and executing a plurality of virtual machines, and a fail-safe function for power failure of the plurality of virtualization servers. A virtual machine computer system comprising an apparatus,
The fail-safe device is
An uninterruptible power supply list table unit that stores identifiers of the plurality of uninterruptible power supplies and power failure detection presence / absence information corresponding to the uninterruptible power supply identifiers;
A virtualization server list table unit that stores an identifier of the plurality of virtualization servers, an identifier of the uninterruptible power supply corresponding to the virtualization server identifier, and power failure detection presence / absence information corresponding to the uninterruptible power supply identifier;
A virtual machine list table storing, as a failover destination identifier, an identifier of a virtualization server that executes the virtual machine, an identifier of a virtual machine corresponding to the virtualization server identifier, and an identifier of another virtualization server that can execute the virtual machine With
A first step of extracting an uninterruptible power supply identifier corresponding to power failure detection presence / absence information detecting a power failure from the uninterruptible power supply list table unit;
A second step of extracting the virtualization server identifier corresponding to the uninterruptible power supply identifier extracted in the first step from the virtualization server list table unit;
A third step of extracting from the virtual machine list table part the identifier of the virtual machine being executed by the virtualization server of the virtualization server identifier extracted in the second step;
A fourth step of extracting a failover destination identifier of a virtualization server capable of executing the virtual machine extracted in the third step from the virtual machine list table unit;
A fifth step of performing a failover in which the virtual machine with the running virtual machine identifier extracted in the third step is moved to the virtualization server of the failover destination identifier extracted in the fourth step;
The first feature is that the sixth step of stopping the operation of the virtual machine executed by the virtualization server extracted in the second step is executed.

According to the present invention, in the virtual machine computer system according to the first feature, the failsafe device includes:
Detecting power failure detection presence / absence information of the uninterruptible power supply from the plurality of uninterruptible power supply devices, and executing the seventh step of storing the detected power failure detection presence / absence information in the uninterruptible power supply list table unit The second feature.

According to the present invention, in the virtual machine computer system according to the second feature, the fail-safe device includes:
An eighth step of extracting a plurality of uninterruptible power supply identifiers and power failure detection presence / absence information corresponding to the uninterruptible power supply identifiers from the virtualization server list table unit;
A ninth step of storing in the virtualization server list table part the power failure detection presence / absence information of the uninterruptible power supply identifier that matches the uninterruptible power supply identifier extracted from the uninterruptible power supply list table part by the eighth step; The third feature is to include execution.

According to the present invention, in the virtual machine computer system according to the third feature, the fail-safe device includes:
A tenth step of extracting a virtual machine identifier corresponding to power failure detection presence / absence information detecting a power failure from the virtualization server list table unit;
An eleventh step of extracting a virtual server identifier and a failover destination identifier during execution of the virtual machine identifier of the virtual machine identifier extracted by the tenth step from the virtual machine list table unit;
The fourth feature is that the twelfth step of moving the virtual machine being executed to another virtualization server corresponding to the failover destination identifier extracted in the eleventh step is executed.

According to the present invention, in the virtual machine computer system according to the first feature, the failsafe device includes:
A fifth feature includes performing a twelfth step of stopping the operation of the virtual machine with the virtual machine identifier extracted in the tenth step.

Furthermore, the present invention comprises a plurality of virtualization servers that are connected to an uninterruptible power supply and execute a plurality of virtual machines, and a failsafe device that has a failsafe function for power failure of the plurality of virtualization servers. A failsafe method for a virtual machine computer system, comprising:
In the fail-safe device,
An uninterruptible power supply list table unit that stores identifiers of the plurality of uninterruptible power supplies and power failure detection presence / absence information corresponding to the uninterruptible power supply identifiers;
A virtualization server list table unit that stores an identifier of the plurality of virtualization servers, an identifier of the uninterruptible power supply corresponding to the virtualization server identifier, and power failure detection presence / absence information corresponding to the uninterruptible power supply identifier;
A virtual machine list table storing, as a failover destination identifier, an identifier of a virtualization server that executes the virtual machine, an identifier of a virtual machine corresponding to the virtualization server identifier, and an identifier of another virtualization server that can execute the virtual machine With
A first step of extracting an uninterruptible power supply identifier corresponding to power failure detection presence / absence information detecting a power failure from the uninterruptible power supply list table unit;
A second step of extracting the virtualization server identifier corresponding to the uninterruptible power supply identifier extracted in the first step from the virtualization server list table unit;
A third step of extracting from the virtual machine list table part the identifier of the virtual machine being executed by the virtualization server of the virtualization server identifier extracted in the second step;
A fourth step of extracting a failover destination identifier of a virtualization server capable of executing the virtual machine extracted in the third step from the virtual machine list table unit;
A fifth step of performing a failover in which the virtual machine with the running virtual machine identifier extracted in the third step is moved to the virtualization server of the failover destination identifier extracted in the fourth step;
The sixth feature is that the sixth step of stopping the operation of the virtual machine executed by the virtualization server extracted in the second step is executed.

Further, the present invention provides the fail-safe device according to the sixth feature, wherein the fail-safe device includes:
Detecting power failure detection presence / absence information of the uninterruptible power supply from the plurality of uninterruptible power supply devices, and executing the seventh step of storing the detected power failure detection presence / absence information in the uninterruptible power supply list table unit The seventh feature is provided.

Further, the present invention provides the fail-safe device according to the seventh feature, wherein the fail-safe device includes:
An eighth step of extracting a plurality of uninterruptible power supply identifiers and power failure detection presence / absence information corresponding to the uninterruptible power supply identifiers from the virtualization server list table unit;
A ninth step of storing in the virtualization server list table part the power failure detection presence / absence information of the uninterruptible power supply identifier that matches the uninterruptible power supply identifier extracted from the uninterruptible power supply list table part by the eighth step; The eighth feature is to include execution.

Further, the present invention provides the fail-safe method according to the eighth feature, wherein the fail-safe device includes:
A tenth step of extracting a virtual machine identifier corresponding to power failure detection presence / absence information detecting a power failure from the virtualization server list table unit;
An eleventh step of extracting a virtual server identifier and a failover destination identifier during execution of the virtual machine identifier of the virtual machine identifier extracted by the tenth step from the virtual machine list table unit;
A ninth feature is that the twelfth step of moving the virtual machine being executed to another virtualization server corresponding to the failover destination identifier extracted in the eleventh step is executed.

Further, the present invention provides the fail-safe device according to the ninth feature, wherein the fail-safe device includes:
A tenth feature includes executing a twelfth step of stopping the operation of the virtual machine having the virtual machine identifier extracted in the tenth step.

  A virtual machine computer system and a fail safe method for a virtual machine computer system according to the present invention include a step in which a fail safe device performs power supply monitoring of a virtualization server according to a schedule, and a virtual machine at a failover destination when a power failure is detected by the monitoring. The virtual machine on the failed virtualization server can be managed by performing the steps of searching for the virtualization server, performing the failover of the virtual machine, and shutting down the failed virtual machine in sequence. It is possible to shut down the virtual server in which a failure has occurred after moving to the virtual server.

  Hereinafter, an embodiment of a virtual machine computer system to which a fail-safe method according to the present invention is applied will be described in detail with reference to the drawings. FIG. 1 is an overall configuration diagram of a virtual machine computer system that realizes a fail-safe function according to the present embodiment, FIG. 2 is an operation flowchart of a fail-safe device 150 in a virtual environment according to the present embodiment, and FIG. FIG. 4 is an operation flowchart of the virtualization server monitoring unit 125 according to this embodiment, FIG. 5 is an operation flowchart of the virtual machine migration processing unit 135 according to this embodiment, and FIG. FIG. 7 is a diagram showing an uninterruptible power supply device list table unit 110 according to this embodiment, FIG. 8 is a diagram showing a virtualization server list table unit 120 according to this embodiment, FIG. 9 is a diagram showing the virtual machine list table unit 130 according to the present embodiment.

[Constitution]
As shown in FIG. 1, the virtual machine computer system according to the present embodiment is connected to the uninterruptible power supply 160, and is connected to the virtualization server 162 that configures and executes the virtual machines 164 and 166 and the uninterruptible power supply 170. A virtualization server 172 that configures and executes the virtual machines 174 and 176, an uninterruptible power supply 180, and a virtualization server management server 185 for managing the virtualization servers 162 and 172; and a virtualization environment And a fail-safe device 150 having a fail-safe function against power failure in the present embodiment, and a network 187 connecting the virtualization servers 162 and 172, the virtualization server management server 185, and the fail-safe device 150. Is done.

  The fail-safe device 150 inquires of each uninterruptible power supply 160 and the like whether or not a power failure has occurred according to a preset schedule, collects the power failure information, and the uninterruptible power supply monitoring. An uninterruptible power supply list table unit 110 that stores the power failure information collected by the unit 115 corresponding to the identifier of the uninterruptible power supply, and a virtualization server list table unit 120 that stores the list information of the virtualization servers described later. A virtualization server monitoring unit 125 that stores a status of power failure (power failure information) in the virtualization server list table unit 120 when the uninterruptible power supply monitoring unit 115 detects a power failure of the uninterruptible power supply, The power failure information registered in the virtualization server list table unit 120 is monitored, and the virtual machine list table unit 130 is searched. Of the virtual machines 164 and 166 operating on the virtualization server 162, a failover process is performed for a virtual machine for which a failover process is set in advance (a function in which an alternative server takes over processes and data when a failure occurs) Monitor the status of the power failure registered in the virtual machine migration processing unit 135 and the virtualization server list table unit 120, search the virtual machine list table unit 130, and operate on the virtualization server 162 By determining the user-specified priority and CPU resource allocation of the virtual machine list table unit 130 for the virtual machines 164 and 166, the shutdown processing unit 140 determines the order of virtual machine shutdown processing and performs the virtual machine shutdown processing. And a control unit (not shown) and Composed of a Li. Note that the control unit manages a counter for counting the number of uninterruptible power supply devices and virtualization servers in which a power failure described later occurs on the memory.

  As shown in FIG. 7, the data format registered in the uninterruptible power supply list table unit 110 includes an identifier 710 uniquely assigned to each uninterruptible power supply and power failure information (“power failure” of the detected power supply). The virtual server having the identifier 710 of “160” is registered as “power failure”, for example.

  As shown in FIG. 8, the data format of the virtualization server list table unit 120 includes a virtualization server identifier 810 numbered for each virtualization server, a server type 820 indicating the type of the virtualization server, The server power state 830 that indicates the power-on state, the uninterruptible power supply identifier 840 that indicates the identifier of the connected uninterruptible power supply, and the power failure detection presence / absence information 850 that indicates whether or not a power failure has been detected. For example, the identifier “164” in the virtualization server identifier 810 column, “virtual machine execution” in the server type 820 column, “power ON” in the server power state 830 column, identifier “160” in the uninterruptible power supply identifier 840 column, Each information is registered in the power failure detection presence / absence information column 850, such as “power failure”, and the registration is performed by the virtual server with the identifier “164”. Uninterruptible power supply "160" is being executed as a power source ON on the connected server, indicates that the power failure has been detected.

  As shown in FIG. 9, the data format of the virtual machine list table unit 130 includes a virtualization server identifier 910 that is an identifier of a server that executes a virtual machine, a virtual machine identifier 920 that indicates the identifier of the virtual machine, A start / stop state 930 indicating the start or stop state of the machine, a failover destination identifier 940 that is an identifier of the migration destination virtualization server when the virtual machine is executed on another server, the importance of the virtual machine by the user, etc. The user specified priority 950 indicating the priority set in advance, and the CPU resource allocation 960 indicating the CPU resource allocated to the virtual machine by the virtualization server.

  The information registered in the virtual machine list table unit 130 includes, for example, the identifier “164” in the virtualization server identifier 91 field, the “162” in the virtual machine identifier 920 field, the “start” in the start / stop state 930 field, and the failover destination. “174” is registered in the 940 column, “None” is registered in the user-specified priority 950 column, “500 MHz” is registered in the CPU resource allocation 960 column, and these information are stored in the virtual machine with the identifier “162” and the server with the identifier “164”. Indicates that the surge identifier of the failover destination of this virtual machine is “174”, the user priority is “none”, and the CPU resource allocation is “500 MHz”. still. Reference numeral 190 in the figure denotes a CD-ROM device or a flexible disk device, and reference numeral 195 denotes a CD-ROM or flexible disk that stores a fail-safe function program in a virtual environment according to the present embodiment.

[Operation]
Next, the overall operation when a power failure occurs in the virtual machine computer system configured as described above will be described with reference to FIG.
[Overall operation]
The fail-safe device 150 of the virtual machine computer system according to the present embodiment sets an undetected flag in the presence / absence of power failure detection in the uninterruptible power supply list table unit 110 and the virtualization server list table unit 10 as shown in FIG. 210, monitoring the power state of the server using the uninterruptible power supply monitoring unit 115 in accordance with a preset uninterruptible power supply monitoring schedule, confirming the presence or absence of a power failure, and detecting a power failure by the step 215 A list of virtualization servers corresponding to the uninterruptible power supply that has detected a power failure using the virtualization server monitoring unit 125 when it is determined in step 220 that there is an electric failure. Step 225 for retrieving and extracting from the virtualization server list table unit 120; Step 230 for determining whether or not the number of virtualization servers extracted in step 225 is 0 or more, and when it is determined in step 203 that the number is 0 or more (there is a virtualization server in which a power failure has occurred) Step 235 for executing virtual machine failover using the unit 135 in accordance with the priority of the virtual machine and required resources, and shutdown of the virtual machine in which the failure has occurred using the shutdown processing unit 140 ( Step 245 for performing (stop) is executed, and the operation returns to Step 210.

  As described above, the fail-safe device 150 according to the present embodiment uses the uninterruptible power supply monitoring unit 115 to detect a virtualization server in which a power failure has occurred, and when determining that a power failure has occurred. The virtualization server monitoring unit 125 refers to the virtualization server list table unit 120 to determine the identifier of the virtualization server in which the power failure has occurred, and the virtualization machine on the virtualization server in which the power failure has occurred A virtual machine on the failed virtualization server is obtained by sequentially performing a process of performing a failover process to be assigned (moved) to the virtualization server and a process of shutting down the virtualization server in which the power failure has occurred. It is possible to shut down a virtualization server in which a failure has occurred after moving to another virtualization server.

Details of the operation of the failsafe device 150 and others will be described in detail with reference to FIG.
[Operation of the uninterruptible power supply monitoring unit]
As shown in FIG. 3, the uninterruptible power supply monitoring unit 115 assigns a numerical value “0” to the power failure counter value of the uninterruptible power supply, as shown in FIG. Step 320 for reading one piece of uninterruptible power supply information from, Step 330 for determining whether or not the final data of the uninterruptible power supply list table unit 110 has been read, Step 370 for setting the power failure counter value of the device as a return value, and when it is determined in step 330 that the final data has not been read, the power failure is inquired to the uninterruptible power supply read in step 320 Step 350 for obtaining information and the power failure obtained in step 350 It is determined whether or not the content of the information indicates that a power failure has been detected. When it is determined that the power failure has not been detected, step 355 returns to step 320, and when it is determined in step 355 that a power failure has been detected, The power failure information is stored in the power failure detection presence / absence information column 740 of the uninterruptible power supply list table unit 110 in step 360, and the power failure counter of the uninterruptible power supply is incremented by +1. Step 365 is returned to Step 320.

  By this processing, the uninterruptible power supply monitoring unit 115 according to the present embodiment acquires all the uninterruptible power supply information connected to the virtualization server from the uninterruptible power supply list table unit 110 and reads the uninterruptible power supply information. Each time the power failure information is inquired and when it is detected that there is a failure in the power supply, the failure information is registered in the uninterruptible power supply list table unit 110.

[Virtual Server Monitoring Unit Operation]
Next, the operation of the virtualization server monitoring unit 125 according to the present embodiment will be described with reference to FIG. In step 235, the virtualization server monitoring unit 125 assigns “0” to the value of the power failure counter of the virtualization server, and corresponds to the virtualization server identifier from the virtualization server list table unit 120. A step 420 for reading one piece of virtualization server information (FIG. 8), a step 430 for determining whether or not the last data has been read from the virtualization server list table unit 120, and a decision that the last reading has been made in step 430. When the virtual server power failure counter value is incremented by 1 in step 480 and when it is determined in step 430 that the last read has not been completed, the uninterruptible power supply identifier information (FIG. 7) matches. ) Is extracted from the uninterruptible power supply list table unit 110, and the extracted uninterrupted Step 440 of storing the power failure detection presence / absence information 740 of the power supply device as the power failure detection presence / absence information 840 of the virtualization server list table unit 120, and determining whether or not the power failure detection presence / absence information 840 is “power failure”. Step 450 that returns to Step 420 when it is determined that it is not “power failure”, and Step 470 that increments the power failure counter of the virtualization server by 1 when it is determined that “Power failure” in Step 450. Are executed sequentially.

  Through these series of processing, the virtualization server monitoring unit 125 according to the present embodiment displays the uninterruptible power supply power failure detection presence / absence information of the uninterruptible power supply identifier read from the virtual server list table unit 120 as the uninterruptible power supply list. When the power failure detection presence / absence information extracted from the table unit 110 and the read power failure detection presence / absence information is “power failure”, the failure information is stored in the virtualization server list table unit 120 to virtualize the power failure of the virtualization server. It can be updated (reflected) in the server list table unit 120.

[Operation of Virtual Machine Moving Unit]
In step 245, the shutdown processing unit 140 according to the present embodiment determines whether the virtualization server management server 185 is a virtualization server in which a power failure has occurred, as shown in FIG. The process is terminated when it is determined that the server is a power failure target server, and when the virtualization server management server 185 is determined not to be a power failure target server in step 510, the power failure is detected from the virtualization server list table unit 120. Step 520 for reading one virtualization server in the middle, and whether or not all of the virtualization servers with power failure have been read from the virtualization server list table unit 120, and the process ends when it is determined that they have not been read Step 530 and the virtual machine list table unit 130 that is in the power failure state Step 540 of reading one virtual machine identifier that is operating on 162 and not affected by the power failure even after failover, reads the failover destination identifier from the virtual machine list table unit 130, and performs failover processing to the virtualization server management server 185 Step 560 of requesting, Step 565 of changing the virtualization server identifier of the virtual machine list table unit 130 to the failover destination virtualization server, and setting the failover destination of the virtual machine list table unit 130 to the virtualization server before failover Step 570 of changing to is sequentially executed.

  Through the series of processes, the shutdown processing unit 140 according to the present embodiment can fail over the failed virtual machine to another virtualization server according to the priority of the virtual machine or the required resource.

[Operation of shutdown processor]
Next, the shutdown process of the shutdown processor 140 will be described with reference to FIG. In this shutdown process, the shutdown processing unit 140 reads out one piece of virtualization server information for which a power failure has been detected from the virtualization server list table unit 120 in step 245 described above, and the power failure read in step 620. It is determined whether or not the number of virtualization servers being detected is zero. When the number is zero, step 630 returns to step 210 in FIG. 2 and when it is determined that the number is not zero in step 630, A step 640 of reading an operating virtual machine identifier from the virtual machine list table unit 130 in the order of priority of resource parameters such as a user-specified priority, CPU usage rate, and memory capacity, and a virtual in the virtual machine list table unit 130 It is determined whether the number of machines is zero. Step 650 is returned to Step 20, and a destination virtualization server corresponding to the virtual machine is detected from the virtual machine list table unit 130, a virtual machine stop command is issued to this virtualization server, and the procedure returns to Step 620. By executing step 670 sequentially, the virtual machine in which the failure has occurred is operated to be shut down.

  As described above, in the virtual machine computer system according to the present embodiment, when the fail-safe device 150 detects the power failure of the virtualization server by the uninterruptible power supply monitoring unit 115 according to the schedule, and when the power failure is detected by the monitoring, The process of searching for a failover destination virtualization server by the virtualization server monitoring unit 125, the process of executing the failover of the virtual machine by the virtual machine migration processing unit 135, and the virtual machine in which the failure has occurred by the shutdown processing unit 140 By sequentially performing the process of shutting down the virtualization server, it is possible to shut down the failed virtualization server after moving the virtualization machine on the failed virtualization server to another virtualization server. .

1 is an overall configuration diagram of a virtual machine computer system according to an embodiment of the present invention. The operation | movement flowchart figure of the fail safe apparatus 150 of the virtual environment by this embodiment. The operation | movement flowchart figure of the uninterruptible power supply monitoring part 115 by this embodiment. The operation | movement flowchart figure of the virtualization server monitoring part 125 by this embodiment. The operation | movement flowchart figure of the virtual machine movement process part 135 by this embodiment. The operation | movement flowchart figure of the shutdown process part 140 by this embodiment. The figure which shows the uninterruptible power supply list table part 110 by this embodiment. The figure which shows the virtualization server list table part 120 by this embodiment. The figure which shows the virtual machine list table part 130 by this embodiment.

Explanation of symbols

  10: Virtualization server list table, 91: Virtualization server identifier, 110: Uninterruptible power supply list table, 115: Uninterruptible power supply monitoring unit, 120: Virtualization server list table, 130: Virtual machine list table, 125: Virtualization server monitoring unit, 135: virtual machine migration processing unit, 140: shutdown processing unit, 150: fail-safe device, 160: uninterruptible power supply, 162: virtualization server, 164: virtual machine, 180: uninterruptible power supply 185: Virtualization server management server, 187: Network.

Claims (10)

A virtual machine computer system comprising a plurality of virtualization servers connected to an uninterruptible power supply and executing a plurality of virtual machines, and a failsafe device having a failsafe function for power failure of the plurality of virtualization servers. There,
The fail-safe device is
An uninterruptible power supply list table unit that stores identifiers of the plurality of uninterruptible power supplies and power failure detection presence / absence information corresponding to the uninterruptible power supply identifiers;
A virtualization server list table unit that stores an identifier of the plurality of virtualization servers, an identifier of the uninterruptible power supply corresponding to the virtualization server identifier, and power failure detection presence / absence information corresponding to the uninterruptible power supply identifier;
A virtual machine list table storing, as a failover destination identifier, an identifier of a virtualization server that executes the virtual machine, an identifier of a virtual machine corresponding to the virtualization server identifier, and an identifier of another virtualization server that can execute the virtual machine With
A first step of extracting an uninterruptible power supply identifier corresponding to power failure detection presence / absence information detecting a power failure from the uninterruptible power supply list table unit;
A second step of extracting the virtualization server identifier corresponding to the uninterruptible power supply identifier extracted in the first step from the virtualization server list table unit;
A third step of extracting from the virtual machine list table part the identifier of the virtual machine being executed by the virtualization server of the virtualization server identifier extracted in the second step;
A fourth step of extracting a failover destination identifier of a virtualization server capable of executing the virtual machine extracted in the third step from the virtual machine list table unit;
A fifth step of performing a failover in which the virtual machine with the running virtual machine identifier extracted in the third step is moved to the virtualization server of the failover destination identifier extracted in the fourth step;
A virtual machine computer system that executes a sixth step of stopping the operation of the virtual machine executed by the virtualization server extracted in the second step. The fail-safe device is
8. The seventh step of detecting power failure detection presence / absence information of the uninterruptible power supply from the plurality of uninterruptible power supply devices and storing the detected power failure detection presence / absence information in the uninterruptible power supply list table unit is executed. The virtual machine computer system according to 1. The fail-safe device is
An eighth step of extracting a plurality of uninterruptible power supply identifiers and power failure detection presence / absence information corresponding to the uninterruptible power supply identifiers from the virtualization server list table unit;
A ninth step of storing in the virtualization server list table part the power failure detection presence / absence information of the uninterruptible power supply identifier that matches the uninterruptible power supply identifier extracted from the uninterruptible power supply list table part by the eighth step; 3. The virtual machine computer system of claim 2, including executing. The fail-safe device is
A tenth step of extracting a virtual machine identifier corresponding to power failure detection presence / absence information detecting a power failure from the virtualization server list table unit;
An eleventh step of extracting a virtual server identifier and a failover destination identifier during execution of the virtual machine identifier of the virtual machine identifier extracted by the tenth step from the virtual machine list table unit;
The virtual machine computer system according to claim 3, further comprising: executing a twelfth step of moving the virtual machine being executed to another virtualization server corresponding to the failover destination identifier extracted in the eleventh step. The fail-safe device is
The virtual machine computer system according to claim 4, further comprising: executing a twelfth step of stopping the operation of the virtual machine having the virtual machine identifier extracted in the tenth step. A virtual machine computer system comprising a plurality of virtualization servers connected to an uninterruptible power supply and executing a plurality of virtual machines, and a failsafe device having a failsafe function for power failure of the plurality of virtualization servers A fail-safe method,
In the fail-safe device,
An uninterruptible power supply list table unit that stores identifiers of the plurality of uninterruptible power supplies and power failure detection presence / absence information corresponding to the uninterruptible power supply identifiers;
A virtualization server list table unit that stores an identifier of the plurality of virtualization servers, an identifier of the uninterruptible power supply corresponding to the virtualization server identifier, and power failure detection presence / absence information corresponding to the uninterruptible power supply identifier;
A virtual machine list table storing, as a failover destination identifier, an identifier of a virtualization server that executes the virtual machine, an identifier of a virtual machine corresponding to the virtualization server identifier, and an identifier of another virtualization server that can execute the virtual machine With
A first step of extracting an uninterruptible power supply identifier corresponding to power failure detection presence / absence information detecting a power failure from the uninterruptible power supply list table unit;
A second step of extracting the virtualization server identifier corresponding to the uninterruptible power supply identifier extracted in the first step from the virtualization server list table unit;
A third step of extracting from the virtual machine list table part the identifier of the virtual machine being executed by the virtualization server of the virtualization server identifier extracted in the second step;
A fourth step of extracting a failover destination identifier of a virtualization server capable of executing the virtual machine extracted in the third step from the virtual machine list table unit;
A fifth step of performing a failover in which the virtual machine with the running virtual machine identifier extracted in the third step is moved to the virtualization server of the failover destination identifier extracted in the fourth step;
A fail-safe method for executing the sixth step of stopping the operation of the virtual machine executed by the virtualization server extracted in the second step. In the fail-safe device,
8. The seventh step of detecting power failure detection presence / absence information of the uninterruptible power supply from the plurality of uninterruptible power supply devices and storing the detected power failure detection presence / absence information in the uninterruptible power supply list table unit is executed. 6. The fail-safe method according to 6. In the fail-safe device,
An eighth step of extracting a plurality of uninterruptible power supply identifiers and power failure detection presence / absence information corresponding to the uninterruptible power supply identifiers from the virtualization server list table unit;
A ninth step of storing in the virtualization server list table part the power failure detection presence / absence information of the uninterruptible power supply identifier that matches the uninterruptible power supply identifier extracted from the uninterruptible power supply list table part by the eighth step; 8. The failsafe method of claim 7, comprising performing. In the fail-safe device,
A tenth step of extracting a virtual machine identifier corresponding to power failure detection presence / absence information detecting a power failure from the virtualization server list table unit;
An eleventh step of extracting a virtual server identifier and a failover destination identifier during execution of the virtual machine identifier of the virtual machine identifier extracted by the tenth step from the virtual machine list table unit;
The fail-safe method according to claim 8, further comprising: executing a twelfth step of moving a virtual machine being executed to another virtualization server corresponding to the failover destination identifier extracted in the eleventh step. In the fail-safe device,
The fail-safe method according to claim 9, further comprising: executing a twelfth step of stopping the operation of the virtual machine having the virtual machine identifier extracted in the tenth step.

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