KR100249060B1 - The method of initialization for tape device driver - Google Patents

Abstract

The present invention relates to a method for initializing a tape device driver, wherein each data structure item is stored for a plurality of tape devices, the data structure item is initialized with information allocated for each tape device, and the data structure item is initialized. By retrieving and executing the initialization routine of the tape device to be executed, it does not affect the operation of other devices in the initialization operation required for a specific device, and efficiently does not have to be executed by a user command for each operation of multiple tape drivers. It is possible to perform.

The object of the present invention is to identify a plurality of tape device types, and then to initialize a data structure according to each tape device type; This is accomplished by the second step of searching for and executing the tape device initialization routine to be performed on the initialized data structure.

Description

How to Initialize the Tape Device Driver

The present invention relates to a tape device driver, and more particularly, before storing the data structures for a plurality of tape devices before performing an initialization routine in the initialization process of the tape device driver, and then identifying the previously stored data structures. By performing the initialization for the relevant device, it is possible to perform the initialization required for a specific tape device without affecting other tape device operations. will be.

In general, the tape device driver of the operating system "Unixware 2Ø1" used in the host computer III does not support auto configuration of the tape device driver when performing initialization. Only the tape device driver was initialized.

1 is a tape driver driving device of a general main computer III, which shares a system bus as shown therein, and includes a microprocessor (MPU) board 100a to 100n composed of a plurality of processors; A memory board (110) equipped with a plurality of memories for sharing the system bus to store and read respective data; A system control board (120) for controlling each system connected to the system bus (hereinafter abbreviated as " SCM "); Receives input / output requests from each of the MPU boards 100a to 100n and processes them, and a VME bus or SCSI (SCSI: Small) between the system control board 120 and input / output peripheral devices. An input / output processing (IOP) board 130 for buffering data transmitted through a Computer System Interface (BIS) bus; It is connected to a plurality of tape devices 140a to 140n which are connected on the SCSI bus of the IOP board 130 and share the stored data.

The initialization operation of the plurality of tape device drivers in the main computer III configured as described above performs the data structure and device initialization operations of the tape device in a predetermined sequence as shown in FIG.

That is, FIG. 2 is a flowchart illustrating an initialization process of a tape device driver according to the prior art, and a process of processing an open flag after checking for the presence of a tape device as shown therein; Initializing the tape device after the open flag process.

The tape device initialization process may include initializing a data structure of the tape device; Initializing a tape device after the initialization step; After the initialization step is to perform other initialization work.

In more detail, the central processing unit (CPU) of the host computer III first checks for errors, such as the presence or absence of a tape device to be executed. If the tape device is not connected to the input / output board 130, the tape device initialization operation is not performed.

After the tape device error check, an open flag processing operation necessary for data transmission of the tape device is performed, and the tape device is initialized. In the initialization operation for the tape device, first the data structure of the tape device connected to the input / output board 130 is initialized, and the tape device to be executed continues. At this time, the initialization operation is performed in the same manner for all kinds of tape devices, and after the other necessary initialization operations are continued, the tape device is executed.

However, the tape device initialization process has a complicated problem in that when a plurality of tape device drivers are initialized, a user executes a device execution command or separately creates a tape driver module to use a specific device.

In addition, in order to operate the tape device more efficiently, it is necessary to perform each initialization process, but there was a problem that can not be executed in the tape device initialization process.

Accordingly, an object of the present invention is to provide a tape device type, namely, a product number, a vendor number, a device characteristic flag, a logical block size, and a maximum transmission, respectively, in order to solve the problems of the prior art. Data structures such as length, data recording capacity, speed, pointer to initialization routine, etc. are stored in a table format, and then the corresponding data structures are identified and corresponded during device initialization. By providing an initialization operation, an object of the present invention is to provide a method for initializing a tape device driver, which can efficiently perform various types of devices.

1 is a tape driver driving apparatus of a general main computer III.

2 is a flowchart illustrating an initialization process of a tape device driver according to the related art.

Figure 3 is a flow chart showing the initialization process of the tape device driver of the present invention.

<Description of the code | symbol about the principal part of drawing>

100a to 100n: 1st to nth microprocessor board

110: memory board 120: system control board

130: I / O processing boards 140a to 140n: tape device

A method of initializing a tape device driver for achieving the object of the present invention includes: a first initialization process of identifying types of a plurality of tape devices and initializing a data structure according to each tape device type; And a second process of searching for and executing a tape device initialization routine to be performed in the initialized data structure.

Hereinafter will be described in detail for the preferred embodiment of the present invention.

Since the main computer III system for implementing the present invention is the same as the prior art as shown in Figure 1, the configuration is given the same reference numerals and will be omitted below.

FIG. 3 is a flowchart illustrating an initialization process of the tape device driver according to the present invention. As shown in FIG. 3, an error check is performed on the tape device driver and then an inquiry command is executed for each tape device. Searching for (ST101) to (ST103); Initializing a data structure according to the tape device information retrieved in the above steps ST101 to ST103 (ST104); Searching for an initialization routine to be performed on the data structure initialized in the above step ST104, and performing the corresponding initialization routine (ST105) to (ST107).

Referring to the accompanying drawings the operation of the present invention configured as described above in detail as follows.

First, the present invention provides data for each of a plurality of tape device drivers with eight items such as product number, vendor number, device characteristic flag, logical block size, maximum transfer length, data recording capacity, speed, and pointer to initialization routine. Separated and saved in "Space.c" file. That is, the data structure items of the tape device may be stored and displayed in a table format as illustrated in Table 1 below.

number Device number data structure item One 2 … … N One product no ×××× ×××× … … ×××× 2 Vendor number ×××× ×××× … … ×××× 3 Device characteristic flag ×××× ×××× … … ×××× 4 Logical block size ×××× ×××× … … ×××× 5 Transmission length ×××× ×××× … … ×××× 6 Data recording capacity ×××× ×××× … … ×××× 7 speed ×××× ×××× … … ×××× 8 Pointer to initialization routine ×××× ×××× … … ××××

On the other hand, when the user wants to execute any of the tape devices 140a to 140n while the data structure of the tape device is stored, first, the central processing unit (CPU) is the tape devices 140a to 140n to the input / output board 130. Perform error checks, such as whether or not you are connected to the server. After the error checking, the data structure items corresponding to the current tape device are retrieved from the table by the inquiry processing command of the data structure of the tape device stored as table 1 in the file " Space.c " Initialize the data structure according to the device information.

For example, when using a tape device whose speed and data recording capacity are set to 250 Kb / S and 100 MByte, respectively, among the data structures of the tape device, the user wants to use a device having a data structure different from that of the tape device. At this time, the user searches the table for the data structure of the tape device to be used as the inquiry processing command with respect to the device, and initializes the data structure of the tape device.

Subsequently, by searching for and executing the initialization routine to be executed in the data structure of the tape device, the user can use the tape device which has completed the initialization routine separately from the previously used tape device.

On the other hand, the initialization process of the tape device drive can be classified by two methods.

The first is the process of initializing according to "Product No., Vendor No., Device Characteristic Flag, Logical Block Size, Maximum Transfer Length, Data Recording Capacity, Speed" among the data structure items in Table 1. You can control the initialization behavior by adding and modifying the table in "Space.c". This procedure does not require modification of the source code of the tape device driver, so it can be applied to most added devices.

The second is the method by the data structure item "pointer to initialization routine" in Table 1, which is a pointer to a unique initialization routine. The method should be written and executed when the initialization is required to be different from the existing initialization routine. At this time, since the source of the driver is modular, it is not necessary to consider other parts of the driver.

As described in detail above, the present invention corresponds to a device to be stored in a table format for each type of device, that is, a certain data structure item for a plurality of tape device drivers, and executed while performing a tape device driver initialization process. By performing the initialization, there is an effect that it is possible to efficiently perform various types of devices without affecting the operation of other devices.

Claims (3)

A first initialization process of identifying types of a plurality of tape devices and initializing a data structure according to each tape device type; And a second process of searching for and executing a tape device initialization routine to be performed in the initialized data structure. The method of claim 1, wherein the first initialization process comprises: retrieving information of a corresponding tape device; Initializing a data structure according to the tape device information. The tape device driver of claim 2, wherein the tape device information comprises a product number, a vendor number, a device characteristic flag, a logical block size, a maximum transmission length, a data recording capacity, a speed, and a pointer to an initialization routine. Initialization method.

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