JP2011164888A - Firmware updating method, library apparatus and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a firmware updating method, a library apparatus and a program that can update drive firmware in a relatively short time. <P>SOLUTION: The library apparatus 21 includes: a plurality of drives; a storage part for storing the latest version of drive firmware; a version determination part for deciding to update drive firmware in an arbitrary drive when determining that the version of drive firmware implemented in the arbitrary drive is different from the version of the drive firmware stored in the storage part; a determination control part for sending data of the drive firmware stored in the storage part at least other than the last data to the arbitrary drive when deciding update; and a state determination part for determining the state of the arbitrary drive. The determination control part sends unsent data including at least the last data to the arbitrary drive according to the state determined by the state determination part. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention relates to a firmware update method, a library apparatus, and a program, and more particularly, a firmware update method for updating firmware of a drive in the library apparatus, a library apparatus using such a firmware update method, and such a firmware update method for a computer. The present invention relates to a program for executing the procedure. The present invention also relates to a computer-readable storage medium storing a program.

  FIG. 1 is a diagram showing a storage system including an example of a conventional tape library apparatus. The tape library device 1 is connected to the host devices 3-1 and 3-2 via the switch 2. The tape library apparatus 1 includes interfaces (I / F) 11-1 and 11-2, a controller 12, a robot 13, a tape medium storage unit 14 that stores a plurality of tape media 16, and a plurality of tape drives 15-1. ~ 15-4. The host devices 3-1 and 3-2 can be formed by a general-purpose computer, for example.

  The controller 12 controls the operation of the entire tape library apparatus 1. Control of the controller 12 includes control of transmission / reception of commands and the like via the I / Fs 11-1 and 11-2 and control of the robot 13. The controller 12 receives commands and the like from the host devices 3-1 and 3-2 via the switch 2 at the I / Fs 11-1 and 11-2, and receives responses to the commands and the like at the I / Fs 11-1 and 11-2. Control of transmission / reception that is transmitted to the host devices 3-1 and 3-2 via the switch 2 is performed. In addition, the controller 12 responds to a command received from the host devices 3-1 and 3-2 via the switch 2 and performs an access target (for example, a drive 15) that performs data access (that is, data write and / or read). 1) to load the tape medium 16 stored in the tape medium storage unit 14 or unload the tape medium 16 from the access target (for example, the drive 15-1) for which data access has been completed. The robot 13 is controlled so as to be stored in the container.

  The tape library apparatus 1 stores data in the tape medium 16 loaded in the tape drives 15-1 to 15-4, but each tape drive 15-1 to 15-4 is a single device itself, and the library Separately from the apparatus 1, its own firmware (hereinafter referred to as drive firmware) is mounted. Data exchange such as write data and read data between the host devices 3-1 and 3-2 and the tape library device 1 is performed by the host devices 3-1 and 3-2 and the tape drives 15-1 to 15-4. Between the two via the switch 2. The drive firmware of each tape drive 15-1 to 15-4 has an increased data amount (or firmware size) as the performance of each tape drive 15-1 to 15-4 has improved, so each tape drive 15- The time required to update (or update) the drive firmware 1 to 15-4 has become very long.

  FIG. 2 is a diagram for explaining an example of firmware update processing of a conventional tape drive. In FIG. 2, for the convenience of explanation, during the maintenance work of the tape library apparatus 1, the latest firmware version drive firmware data is supplied from the controller 12 supplied from the host apparatus 3-1 or 3-2 to the tape drive 15-. The case where the drive firmware of No. 1 is updated is shown. In this case, the firmware update process to the tape drive 15-1 is realized by transmitting the drive firmware from the controller 12 by a write buffer command, and the drive firmware data is transmitted, for example, 16 bytes at a time. The firmware update process of such a sequence requires a maintenance time of, for example, about 30 minutes for one tape drive 15-1, and takes a relatively long time for the maintenance work. In the future, as the functions of the tape drives 15-1 to 15-4 are further improved, the maintenance time required for the firmware update process is expected to further increase.

  On the other hand, when the last data of the drive firmware is transmitted from the controller 12 to the tape drive 15-1 by the firmware update process of FIG. 2, the tape drive 15-1 is automatically reset depending on the specifications of the tape drive 15-1. By this reset, the update of the firmware version of the drive firmware mounted in the tape drive 15-1 is confirmed. However, if the tape drive 15-1 is automatically reset while the tape library apparatus 1 is performing data backup processing using, for example, the tape drive 15-1, the backup processing stops. There is a possibility of causing a data lost state in which data to be backed up is lost.

  Note that the maintenance time required for drive firmware update processing is relatively long, and when all drive firmware data is sent to the drive and the drive firmware is updated, the drive is automatically reset and backup processing stops. This phenomenon is not a phenomenon peculiar to a tape library apparatus, but also occurs in a library apparatus having a drive that uses a recording medium other than a tape medium as long as it is a library apparatus that performs firmware update processing of the above sequence.

JP 7-28631 A

  The conventional library apparatus has a problem that it takes a relatively long time to update the drive firmware.

  Therefore, an object of the present invention is to provide a firmware update method, a library apparatus, and a program that can update drive firmware in a relatively short time.

  According to one aspect of the present invention, there is provided a firmware update method in a library apparatus having a plurality of drives capable of loading a recording medium, the latest firmware version number of drive firmware stored in a storage unit in the library apparatus, and If the firmware version of the drive firmware installed in an arbitrary drive is determined to be inconsistent, a version determination step for determining update of the drive firmware for the arbitrary drive, and update of the drive firmware by the version determination step Is determined, a determination control step of transmitting data excluding at least the final data of the transmission unit of the drive firmware stored in the storage unit to the arbitrary drive, and a state determination for determining the state of the arbitrary drive Including the process, wherein the judgment control process is the state Firmware update method for transmitting untransmitted data including at least the last data in said any drive in accordance with the state determined by the constant process is provided.

  According to one aspect of the present invention, a plurality of drives that can load a recording medium, a storage unit that stores drive firmware of the latest firmware version number, a firmware version number of drive firmware stored in the storage unit, When it is determined that the firmware version of the drive firmware installed in an arbitrary drive is inconsistent, the version determination unit that determines the update of the drive firmware for the arbitrary drive, and the drive firmware is updated by the version determination unit A determination control unit that transmits data excluding at least final data of the drive firmware stored in the storage unit to the arbitrary drive when determined, and a state determination unit that determines the state of the arbitrary drive The determination control unit is at least according to the state determined by the state determination unit. The library apparatus unsent data including the last data and transmits to the arbitrary drive is provided.

  According to an aspect of the present invention, in a library apparatus having a plurality of drives into which a recording medium can be loaded, a program for causing a computer to update drive firmware mounted on the drive, which is stored in a storage unit in the library apparatus A version determination procedure for determining update of the drive firmware for the arbitrary drive when it is determined that the latest firmware version of the prepared drive firmware does not match the firmware version of the drive firmware installed in the arbitrary drive; When the update of the drive firmware is determined by the version number determination procedure, a determination control procedure for transmitting to the arbitrary drive data excluding at least the final data of the transmission unit among the drive firmware stored in the storage unit; Any drive state The determination control procedure transmits untransmitted data including at least the final data to the arbitrary drive according to the state determined in the state determination procedure. A program is provided.

  According to the disclosed firmware update method, library apparatus, and program, drive firmware can be updated in a relatively short time.

It is a figure which shows the storage system containing an example of the conventional tape library apparatus. It is a figure explaining an example of the firmware update process of the conventional tape drive. It is a block diagram which shows an example of the library apparatus in one Example of this invention. It is a figure explaining an example of the firmware update process of the tape drive in an Example. It is a figure explaining the determination process of the last data of drive firmware. It is a figure explaining an example of the display screen displayed at the time of a firmware update process. It is a flowchart explaining the firmware update process in a backup process. It is a flowchart explaining the update drive determination process at the time of the maintenance of a library apparatus.

  In the disclosed firmware update method, library apparatus, and program, in a library apparatus having a plurality of drives capable of loading a recording medium, the latest firmware version number of drive firmware stored in a storage unit in the library apparatus and an arbitrary drive If the firmware version number of the drive firmware installed in the disk does not match, update of the drive firmware for the arbitrary drive is determined. When the update of the drive firmware is determined, data excluding at least the final data of the transmission unit among the drive firmware stored in the storage unit is transmitted to the arbitrary drive. According to the state of the arbitrary drive, untransmitted data including at least the final data is transmitted to the arbitrary drive.

  At the time of maintenance of the library apparatus, data backup using the arbitrary drive that is the target of drive firmware update can be temporarily suspended. For this reason, the drive firmware data is sent to the arbitrary drive up to the data immediately before the final data, and the final data is transmitted at the time of maintenance of the tape library device, thereby reducing the drive firmware update time during maintenance. can do.

  Embodiments of the disclosed firmware update method, library apparatus, and program will be described below with reference to the drawings.

  FIG. 3 is a block diagram illustrating an example of a library apparatus according to an embodiment of the present invention. In the present embodiment, the present invention is applied to a tape library apparatus, but the recording medium used by the drive in the tape library apparatus is not limited to a tape medium.

  The storage system shown in FIG. 3 includes a tape library device 21, a host device 22, and a maintenance terminal 23. The host device 22 and the maintenance terminal 23 can be formed by general-purpose computers each having a processor such as a CPU (Central Processing Unit), a storage device, and a display device. The tape library device 21 is connected to the host device 22 and the maintenance terminal 23 by a fiber channel (FC: dedicated line such as a Fiber Channel cable, a communication path such as a network. The host device 22 is connected to the maintenance terminal 23. In the case of use, the maintenance terminal 23, that is, the dedicated maintenance terminal can be omitted, and a plurality of host devices 22 or a plurality of host devices 22 and the maintenance terminal 23 are connected to the library device 21. In this case, it is possible to employ a known connection method via a switch (not shown) as in the case of Fig. 1. In this case, between the switch and the plurality of host devices 22, or between the switch and the plurality of hosts. The host device 22 and the maintenance terminal 23 can be connected to each other via a communication path such as a line or a network. The controller 211 and the tape drives 212-1 to 212-N can also be connected via a communication path such as a line or a network.

  In FIG. 3, for convenience of explanation, illustration and explanation of an interface (I / F), a robot, a tape medium storage unit, etc. in the tape library device 21 are omitted, but the basic configuration of the tape library device 21 is as shown in FIG. It may be the same as various well-known basic structures including. Therefore, if the basic configuration of FIG. 1 is used, the controller 1 of FIG. 1 is replaced with the library controller 211 of FIG. Each tape drive 212-1 to 212-N in FIG. 3 may have the same configuration as each tape drive 15-1 to 15-4 in FIG.

  The tape library apparatus 21 has a library controller 211 and a plurality of tape drives 212-1 to 212-N (N is a natural number of 2 or more) connected as shown in FIG. The library controller 211 includes a drive firmware storage unit 31, a firmware version number determination unit 32, a transfer determination control unit 33, a maintenance state determination unit 34, a drive state determination unit 35, and a drive communication control unit 36. Each tape drive 212-i (i = 1 to N) includes a library communication unit 41 and a drive firmware storage unit 42.

  The drive firmware storage unit 31 stores drive firmware to be installed in the tape drives 212-1 to 212-N and the firmware version number. When updating the drive firmware installed in the tape drives 212-1 to 212-N, for example, when maintaining the tape library device 21, the drive firmware stores the latest firmware version drive firmware from the maintenance terminal 23 or the host device 22. Stored in the unit 31.

  The drive communication unit 36 performs communication with the tape drives 212-1 to 212-N, and transmits drive firmware data from the library controller 211 to the tape drives 212-1 to 212-N through this communication.

  The drive state determination unit 35 determines the state of the tape drives 212-1 to 212-N. The drive state determination unit 35 determines whether the tape drives 212-1 to 212-N are not connected to the host apparatus 22 by an FC cable or the like, the setting of the library apparatus 21, and the like. Is determined to be loaded in the tape drives 212-1 to 212-N. Whether or not the tape drives 212-1 to 212-N are connected to the host device 22 can be determined by a well-known method, and a description thereof will be omitted. Whether or not the tape medium is loaded in the tape drives 212-1 to 212-N can also be determined by a well-known method, and the description thereof is omitted.

  The firmware version number determination unit 32 has the same firmware version number stored in the drive firmware storage unit 31 as the firmware version number of the drive firmware installed in an arbitrary tape drive 212-i (i = 1 to N). It is determined whether or not there is. When the firmware version number discriminating unit 32 detects that the firmware version number does not match, the transfer judgment control unit 33 transmits the drive firmware data of the latest firmware version number to the tape drive 212-i, and updates the drive firmware. It is determined that the update should be performed, and the drive firmware stored in the drive firmware storage unit 31 is transmitted by the transmission method determined according to the state of the tape drive 212-i determined by the drive state determination unit 35. In this example, the transmission method is determined as one of the following two transmission methods m1 and m2.

  The transmission method m1 is to transmit up to the last frame of drive firmware data of the latest firmware version, and by transferring all the data of this drive firmware to the tape drive 212-i via the drive communication control unit 36. The drive firmware installed in the tape drive 212-i is updated to the latest firmware version drive firmware data. Specifically, the latest firmware version drive firmware data is stored in the drive firmware storage unit 42 via the library communication unit 41 of the tape drive 212-i, and is mounted when the tape drive 212-i is reset. Confirmed update of the drive firmware.

  When the data of the last frame of the drive firmware is transmitted from the library controller 21 to the tape drive 212-i by the firmware update process, the tape drive 212-i is automatically reset depending on the specifications of the tape drive 212-i. Thus, the update of the drive firmware installed in the tape drive 212-i is confirmed and the firmware version is updated.

  In the transmission method m2, the final frame of the latest firmware version drive firmware data is not transmitted, and data up to an arbitrary frame before the final frame is transmitted to the tape drive 212-i via the drive communication control unit 36. To do. Specifically, the data up to the arbitrary frame of the latest firmware version drive firmware is stored in the drive firmware storage unit 42 via the library communication unit 41 of the tape drive 212-i. Data of a frame after the arbitrary frame including the final frame of the latest firmware version drive firmware is transmitted to the tape drive 212-i when the tape library device 21 is maintained. Therefore, when the data of the last frame of the drive firmware is transferred from the library controller 21 to the tape drive 212-i by the firmware update process, even if the tape drive 212-i is automatically reset, the latest firmware Since this reset does not occur in a state where the data up to the arbitrary frame of the drive firmware of the version number is transferred to the tape drive 212-i, the firmware version of the drive firmware installed in the tape drive 212-i is It will not be updated. At the time of maintenance of the tape library device 21, the tape drive 212-i is reset by transmitting the data of the frame after the arbitrary frame including the final frame of the drive firmware of the latest firmware version number to the tape drive 212-i. The update of the installed drive firmware is confirmed.

  When the drive firmware of the tape drive 212-i is updated, the drive firmware data transmitted to the tape drive 212-i is held in the drive firmware storage unit 31 until the power of the tape drive 212-i is turned off. Therefore, when the tape drive 212-i is turned off while waiting for the drive firmware update at the time of maintenance of the tape library device 21, the firmware version number determination unit 32 is held in the drive firmware storage unit 31. It is determined again whether or not to update the drive firmware by transmitting the drive firmware data to the tape drive 212-i.

  The maintenance state determination unit 34 determines whether or not the tape library apparatus 21 is in the maintenance state, and the drive determination transmission unit 33 transmits drive firmware by the transfer determination control unit 33 in the tape drives 212-1 to 212-N. It is determined whether or not there is a tape drive that has been determined. The maintenance state determination unit 34 determines whether or not the maintenance work at the time of maintenance of the library apparatus 21 has been completed. If the state in which the transmission method m2 is determined at the end of the maintenance work continues, the maintenance state determination unit 34 performs maintenance. A display screen requesting an instruction as to whether or not to continue the drive firmware update is displayed on the display device of the terminal 23 for prompting the drive firmware to be updated. Whether or not the maintenance work of the library device 21 has been completed can be determined based on the maintenance completion information included in the provision of information on the GUI (Graphical User Interface) of the maintenance terminal 23 by the maintenance person.

  FIG. 4 is a diagram for explaining an example of the tape drive firmware update process in this embodiment. In this example, drive firmware data to be transmitted to the tape drive 212-i is separated into data of the last frame and data of frames other than the last frame. Data of frames other than the last frame is a transmission unit by a write buffer command during a time other than the maintenance work, for example, during operation of the tape library device 21 including operation of backup processing by the tape library 21. Each byte is transmitted to the tape drive 212-i. As a result, the drive firmware update time associated with the actual maintenance work is only the time required to transmit the data of the last frame, so that the maintenance time can be greatly reduced. The data of the last frame is transmitted to the tape drive 212-i when the tape library device 21 is maintained.

  Thus, by not transmitting the data of the last frame to the tape drive 212-i at times other than during maintenance work, the data of the last frame is received according to the specifications of the tape drive 212-i, and the tape drive 212-i It is possible to avoid the inconvenience that the firmware version of the drive firmware that is automatically reset and installed is automatically updated. For example, if a tape medium is loaded in the tape drive 212-i and the tape drive 212-i is reset while data is being backed up in the tape drive 212-i, the data lost state or the like is changed. May occur. Therefore, in order to reliably prevent the data lost state and to shorten the update time of the drive firmware at the time of maintenance, the drive firmware data is transmitted to the tape drive 212-i up to the data of the frame immediately before the last frame. The final frame data is transmitted during maintenance of the tape library device 21. This is because, during maintenance, data backup using the tape drive 212-i, which is the drive firmware update target, can be temporarily interrupted.

  If the data lost state cannot occur, the drive firmware update operation for the tape drive 212-i to be updated may be continued. For example, when the tape drive 212-i to be updated is not connected to the host device 22 that controls backup processing (for example, the FC cable connecting the host device 22 and the tape library 21 is not connected). Data lost state cannot occur, for example, when the tape medium is not loaded in the tape drive 212-i to be updated. Even when the tape medium is not loaded in the tape drive 212-i, if the host device 22 and the tape drive 212-i to be updated are connected, the tape drive 212-i is reset. When a notification indicating that an error has occurred is sent to the host device 22, it may be determined that an error has occurred in the tape drive 212-i depending on the backup software operating on the host device 22. Therefore, the library controller 211 in the library apparatus 21 determines whether or not the firmware version of the drive firmware should be updated when the tape medium is not loaded in the tape drive 212-i.

  FIG. 5 is a diagram for explaining the determination process of the final data of the drive firmware transmission unit, that is, the data of the final frame. The determination process of FIG. 5 can be executed by the transfer determination control unit 33 in the library controller 211 when the drive firmware data is transmitted to the tape drive 212-i to be updated.

  In FIG. 5, in step ST1, for example, the first frame of 512 bytes, which is a transmission unit, of 2 megabytes of the latest firmware version of drive firmware stored in the drive firmware storage unit 31 formed of nonvolatile memory. Is expanded in the volatile memory 331 in the transfer determination control unit 33, the first frame data is transmitted to the tape drive 212-i, and the remaining untransmitted data amount (in this case, 2Mbyte-512byte) is calculated. And hold. The same steps as step ST1 are repeated until the calculation result of the remaining untransmitted data amount becomes 512 bytes or less. When the remaining untransmitted data amount is 512 bytes or less, in step STM, the remaining untransmitted final data among the data stored in the drive firmware storage unit 31 is volatilized in the transfer determination control unit 33 as the data of the final frame. This data is expanded in the memory 331, and the final frame data is transmitted to the tape drive 212-i. Since the calculation result of the remaining untransmitted data amount is 512 bytes or less, the final data determination processing ends. The number of bytes in the transmission unit can be selected as appropriate, including 16 bytes in the case of FIG. 4 and 512 bytes in the case of FIG.

  FIG. 6 is a diagram for explaining an example of a display screen displayed on the display device of the maintenance terminal 23 during the firmware update process.

  When the maintenance work of the library device 21 is completed by the maintenance person, for example, a display screen as shown on the left side of FIG. 6 is displayed on the display device of the maintenance terminal 23. When the maintenance person presses the maintenance end button in the display screen, the maintenance is performed. The end of the work is notified to the tape library device 21. Therefore, in this example, when the maintenance person presses the maintenance end button, a display screen as shown on the right side of FIG. 6 is displayed on the display device of the maintenance terminal 23, and the drive firmware is determined based on the determination of the firmware version determination unit 32. Displays a list of tape drives that need to be updated, and prompts maintenance personnel to specify the tape drive to be updated. In the example of FIG. 6, it is necessary to update the tape drives 212-1 and 212-2, and the time required for this update is displayed on the display screen of the display device of the maintenance terminal 23 because it is 1 minute. The maintenance person presses the execution button on the display screen when executing the update. It is also possible to display a list of tape drives that need to be updated and display a display screen on which each tape drive can be specified separately. Further, when the maintenance person presses the maintenance end button, all tape drives that need to be updated may be automatically updated.

  FIG. 7 is a flowchart for explaining the firmware update process during the backup process of the tape library apparatus 21. In the firmware update process shown in FIG. 7, for example, when the maintenance person presses the maintenance start button on the display screen displayed on the display device of the maintenance terminal 23, the start of the maintenance work is notified to the tape library device 21. Be started.

  In FIG. 7, in step S1, the firmware version number determination unit 32 determines whether or not there is a tape drive 212-i that needs to update the firmware version number of the drive firmware. If the decision result in the step S1 is YES, in the step S2, the drive communication control unit 36 excludes at least the data of the last frame from the latest firmware version drive firmware data stored in the drive firmware storage unit 31. Is transmitted to the tape drive 212-i that needs to be updated via the drive communication control unit 36. In step S <b> 3, the drive state determination unit 35 determines whether or not the tape drive 212-i that needs to be updated is not connected to the host device 22. This determination can be made based on, for example, whether or not the FC cable connecting the tape drive 212-i and the host device 22 is disconnected (that is, in a disconnected state).

  If the decision result in the step S3 is YES, in a step S4, the transfer decision control unit 33 includes the remaining unframed data including the last frame data of the latest firmware version drive firmware data stored in the drive firmware storage unit 31. The transmission data is transmitted to the tape drive 212-i that needs to be updated via the drive communication control unit 36, and the process ends.

  On the other hand, if the determination result in step S3 is NO, in step S5, the drive state determination unit 35 sets the drive firmware update setting when the tape medium is not loaded in the tape drive 212-i that needs to be updated (ie, If the determination result is NO, the process proceeds to step S6. If the determination result is YES, the process proceeds to step S7. In this example, if the determination result in step S5 is NO, the transmission method m2 is set. Therefore, in step S6, the transfer determination control unit 33 performs the final frame of the latest firmware version drive firmware data. The process is terminated without transmitting the remaining unsent data including.

  In step S7, the drive state determination unit 35 determines whether or not the tape medium is not loaded in the tape drive 212-i that needs to be updated. If the determination result in step S7 is YES, the process proceeds to step S7, the process proceeds to step S4, and the transfer determination control unit 33 stores the latest firmware version drive firmware data stored in the drive firmware storage unit 31. The remaining unsent data including the data of the last frame is transmitted to the tape drive 212-i that needs to be updated via the drive communication control unit 36, and the process ends.

  FIG. 8 is a flowchart for explaining update drive determination processing during maintenance of the tape library device 21.

  In FIG. 8, in step S11, the maintenance state determination unit 34 confirms that the maintenance end button on the display screen as shown on the left side of FIG. 6 displayed on the display device of the maintenance terminal 23 has been pressed by the maintenance person. By detecting this, it is determined that the maintenance work has been completed. In step S <b> 12, the maintenance state determination unit 34 determines whether there is a tape drive that needs to update the firmware version of the drive firmware based on the determination of the firmware version determination unit 32. If the decision result in the step S12 is NO, in a step S13, the maintenance state judging unit 34 confirms the end of the maintenance work, and the process is finished.

  On the other hand, if the decision result in the step S12 is YES, in a step S14, the maintenance state judging unit 34 displays an execution button on the display screen as shown on the right side of FIG. 6 displayed on the display device of the maintenance terminal 23, for example. It is determined whether or not the update of the drive firmware of the tape drives 121-1 and 121-2 has been selected by detecting whether or not it has been pressed by the maintenance person. If the decision result in the step S14 is NO, the process advances to a step S13. If the decision result in the step S14 is YES, in a step S15, the maintenance state judging unit 34 updates the drive firmware of the tape drives 121-1 and 121-2, and the process advances to a step S13. In the update of step S14, the tape drives 212-1 and 212- in which the untransmitted data including at least the final frame among the drive firmware data of the latest firmware version number needs to be updated via the drive communication control unit 36. 2 is transmitted.

  According to the present embodiment, for example, even when maintenance is performed on a maintenance part such as a robot other than the tape drives 212-1 to 212-N which are maintenance parts of the tape library apparatus 21, the maintenance person is urged to update the drive firmware. Thus, it is possible to efficiently perform the firmware update process for the tape drive 212-i to be updated.

  The firmware update method according to the present embodiment includes a firmware version number determination unit 32, a transfer determination control unit 33, a maintenance state determination unit 34, a drive state determination unit 35, and a drive communication control unit 36 in the library controller 211 shown in FIG. It is realizable by the procedure of the step (or process) of the process performed. The functions of the firmware version determination unit 32, the transfer determination control unit 33, the maintenance state determination unit 34, the drive state determination unit 35, and the drive communication control unit 36 in the library controller 211 include a processor such as a CPU and a storage device. It can be realized by a general-purpose computer having

  The program according to the present embodiment is a process executed by a firmware version determination unit 32, a transfer determination control unit 33, a maintenance state determination unit 34, a drive state determination unit 35, and a drive communication control unit 36 in the library controller 211 in the computer. Or implement the functions of the firmware version determination unit 32, transfer determination control unit 33, maintenance state determination unit 34, drive state determination unit 35, and drive communication control unit 36 in the library controller 211. It is for making it happen. Such a program may be stored in a computer-readable storage medium, and a recording medium constituting the computer-readable storage medium itself is not particularly limited.

The following additional notes are further disclosed with respect to the embodiment including the above examples.
(Appendix 1)
A firmware update method in a library apparatus having a plurality of drives capable of loading a recording medium,
When it is determined that the latest firmware version of the drive firmware stored in the storage unit in the library apparatus does not match the firmware version of the drive firmware installed in an arbitrary drive, the drive firmware of the arbitrary drive A version number determination process for determining an update;
When the update of the drive firmware is determined by the version number determination step, a determination control step of transmitting data excluding at least the final data of the transmission unit among the drive firmware stored in the storage unit to the arbitrary drive;
Including a state determination step of determining a state of the arbitrary drive,
The firmware update method, wherein the determination control step transmits untransmitted data including at least the final data to the arbitrary drive according to the state determined in the state determination step.
(Appendix 2)
In the determination control step, when it is determined in the state determination step that the arbitrary drive and the external device are not connected, or a state in which a recording medium is not loaded in the arbitrary drive, the untransmitted data The firmware update method according to appendix 1, wherein: is transmitted to the arbitrary drive.
(Appendix 3)
The determination control step is a setting in which the arbitrary drive in the state determination step receives the untransmitted data during maintenance of the library device, or is automatically reset when the final data is received and updates the drive firmware The firmware update method according to appendix 1 or 2, wherein when the state that is set to confirm is determined, the untransmitted data is transmitted to the arbitrary drive during the maintenance.
(Appendix 4)
In the version number determination step, when the power of the arbitrary drive is turned off while waiting for the update of the drive firmware at the time of maintenance of the library device, the data of the drive firmware held in the storage unit is The firmware update method according to any one of appendices 1 to 3, wherein it is determined again whether to update the drive firmware by transmitting to the drive.
(Appendix 5)
5. The appendix 1 to 4, wherein the determination control step transmits the unsent data to a drive designated from an external device among the arbitrary drives when there are a plurality of the arbitrary drives. Firmware update method.
(Appendix 6)
The firmware update method according to any one of appendices 1 to 4, wherein the determination control step transmits the untransmitted data to all of the arbitrary drives when there are a plurality of the arbitrary drives.
(Appendix 7)
Multiple drives capable of loading recording media;
A storage unit for storing the latest firmware version drive firmware;
If the firmware version of the drive firmware stored in the storage unit and the firmware version of the drive firmware installed in any drive are determined to be inconsistent, the version that determines the update of the drive firmware for the arbitrary drive A determination unit;
When the update of the drive firmware is determined by the version number determination unit, a determination control unit that transmits at least data other than the final data of the transmission unit to the arbitrary drive among the drive firmware stored in the storage unit;
A state determination unit for determining the state of the arbitrary drive,
The library control apparatus, wherein the determination control unit transmits unfounded data including at least the final data to the arbitrary drive according to the state determined by the state determination unit.
(Appendix 8)
When the state determination unit determines that the arbitrary drive and the external device are not connected, or the recording medium is not loaded in the arbitrary drive, the determination control unit determines that the untransmitted data The library apparatus according to appendix 7, wherein: is transmitted to the arbitrary drive.
(Appendix 9)
The determination control unit is configured so that the state determination unit receives the untransmitted data during maintenance of the library device, or is automatically reset when the final data is received and updates the drive firmware. The library apparatus according to appendix 7 or 8, wherein when the state set to confirm is determined, the untransmitted data is transmitted to the arbitrary drive during the maintenance.
(Appendix 10)
The version number determination unit may store the drive firmware data stored in the storage unit when the power of the arbitrary drive is turned off while waiting for a drive firmware update during maintenance of the library device. 10. The library apparatus according to any one of appendices 7 to 9, wherein it is determined again whether to update the drive firmware by transmitting to the drive.
(Appendix 11)
The said determination control part transmits the said unsent data to the drive designated from the external device among the said arbitrary drives, when there exist two or more said arbitrary drives, The additional statement 7 thru | or 10 of any one of Claims 10-10 Library device.
(Appendix 12)
The library apparatus according to any one of appendices 7 to 10, wherein the determination control unit transmits the untransmitted data to all of the arbitrary drives when there are a plurality of the arbitrary drives.
(Appendix 13)
A program for causing a computer to update drive firmware installed in a drive in a library apparatus having a plurality of drives capable of loading a recording medium,
When it is determined that the latest firmware version of the drive firmware stored in the storage unit in the library apparatus does not match the firmware version of the drive firmware installed in an arbitrary drive, the drive firmware of the arbitrary drive A version number judging procedure for deciding update;
When the update of the drive firmware is determined by the version number determination procedure, a determination control procedure for transmitting data excluding at least the final data of the transmission unit among the drive firmware stored in the storage unit to the arbitrary drive;
Causing the computer to execute a state determination procedure for determining the state of the arbitrary drive;
The determination control procedure is a program for transmitting untransmitted data including at least the final data to the arbitrary drive according to the state determined in the state determination procedure.
(Appendix 14)
In the determination control procedure, when it is determined in the state determination procedure that the arbitrary drive is not connected to an external device or a recording medium is not loaded in the arbitrary drive, the untransmitted data 14. The program according to appendix 13, wherein the program is transmitted to the arbitrary drive.
(Appendix 15)
The determination control procedure is set so that the arbitrary drive receives the untransmitted data during maintenance of the library device in the state determination procedure, or is automatically reset when the final data is received, and the drive firmware 15. The program according to appendix 13 or 14, wherein when the state set to confirm the update is determined, the untransmitted data is transmitted to the arbitrary drive during the maintenance.
(Appendix 16)
A computer-readable storage medium storing the program according to any one of appendices 13 to 15.

  The firmware update method, library apparatus, and program disclosed above have been described with the embodiments. However, the present invention is not limited to the above embodiments, and various modifications and improvements can be made within the scope of the present invention. Needless to say.

21 Tape library device 22 Host device 23 Maintenance terminal 31 Drive firmware storage unit 32 Firmware version determination unit 33 Transfer determination control unit 34 Maintenance state determination unit 35 Drive state determination unit 36 Drive communication control units 212-1 to 212-N Tape drive

Claims (5)

A firmware update method in a library apparatus having a plurality of drives capable of loading a recording medium,
When it is determined that the latest firmware version of the drive firmware stored in the storage unit in the library apparatus does not match the firmware version of the drive firmware installed in an arbitrary drive, the drive firmware of the arbitrary drive A version number determination process for determining an update;
When the update of the drive firmware is determined by the version number determination step, a determination control step of transmitting data excluding at least the final data of the transmission unit among the drive firmware stored in the storage unit to the arbitrary drive;
Including a state determination step of determining a state of the arbitrary drive,
The firmware update method, wherein the determination control step transmits untransmitted data including at least the final data to the arbitrary drive according to the state determined in the state determination step. Multiple drives capable of loading recording media;
A storage unit for storing the latest firmware version drive firmware;
If the firmware version of the drive firmware stored in the storage unit and the firmware version of the drive firmware installed in any drive are determined to be inconsistent, the version that determines the update of the drive firmware for the arbitrary drive A determination unit;
When the update of the drive firmware is determined by the version number determination unit, a determination control unit that transmits at least data other than the final data of the transmission unit to the arbitrary drive among the drive firmware stored in the storage unit;
A state determination unit for determining the state of the arbitrary drive,
The library control apparatus, wherein the determination control unit transmits untransmitted data including at least the final data to the arbitrary drive according to the state determined by the state determination unit.   When the state determination unit determines that the arbitrary drive and the external device are not connected, or the recording medium is not loaded in the arbitrary drive, the determination control unit determines that the untransmitted data The library apparatus according to claim 2, wherein: is transmitted to the arbitrary drive.   The determination control unit is configured so that the state determination unit receives the untransmitted data during maintenance of the library device, or is automatically reset when the final data is received and updates the drive firmware. The library apparatus according to claim 2, wherein when it is determined that the setting is fixed, the untransmitted data is transmitted to the arbitrary drive during the maintenance. A program for causing a computer to update drive firmware installed in a drive in a library apparatus having a plurality of drives capable of loading a recording medium,
When it is determined that the latest firmware version of the drive firmware stored in the storage unit in the library apparatus and the firmware version of the drive firmware installed in an arbitrary drive do not match, the firmware of the drive firmware for the arbitrary drive A version number judging procedure for deciding update;
When the update of the drive firmware is determined by the version number determination procedure, a determination control procedure for transmitting data excluding at least the final data of the transmission unit among the drive firmware stored in the storage unit to the arbitrary drive;
Causing the computer to execute a state determination procedure for determining the state of the arbitrary drive;
The determination control procedure is a program for transmitting untransmitted data including at least the final data to the arbitrary drive according to the state determined in the state determination procedure.

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