KR20040018290A - Dynamic method of assigning boot disk and logical unit number - Google Patents

Abstract

PURPOSE: A method for dynamically allotting a boot disk and a LUN(Logical Unit Number) is provided to enable a user to boot a PC from all logical drives by allotting the zero LUN(Logical Unit Number) to the logical drive of the highest priority from the logical drives inserted by a storing medium. CONSTITUTION: If the power is applied or a reset condition is occurred, the LUN to search the storing medium is set and the LUN of each logical drive is initialized(S22). It is checked that the storing medium is existed in the Nth logical drive(S23). If the storing medium is existed in the Nth logical drive, the zero LUN is allotted to the Nth logical drive(S25). After allotting a serial LUN according to a value of the N to the rest logical drives, the communication with the OS is prepared(S29).

Description

How to dynamically assign boot disks and logical device numbers {DYNAMIC METHOD OF ASSIGNING BOOT DISK AND LOGICAL UNIT NUMBER}

Thanks to the development of semiconductor technology, a flash memory capable of recording a large amount of data using only an electrical signal without using a mechanical driving method has been developed. Flash memory cards, which are made of flash memory cards that are used in many electronic devices, have been developed to replace hard disks or floppy disks. Flash memory card access devices have been developed and marketed to allow such flash memory cards to be inserted or removed during the operation of personal computing systems. Currently, flash memory card access devices have been developed to support all flash memory card types to provide a single storage device. It is now possible to support multiple logical drives. A single storage device refers to a device that is physically connected to a computing system through a single cable but is recognized as a plurality of drive devices on an OS so that a user can use various types of media simultaneously. For example, the recently launched Combo type USB flash memory card reader is connected with a computer via a single USB cable, but is given two or more logical numbers from a computer OS so that a user can use two or more flash memory cards at the same time. Configured devices. In addition, a COMBO-type drive has been developed that implements a CDROM drive and a CD-RW drive in a single storage device, and a single storage technology supporting multiple logical drives has become commonplace. The logical unit number of the OS to support this technology is to provide a plurality of logical drives in a single storage device and a plurality of media sockets for attaching and detaching each storage medium. By mapping each logical drive to make the OS appear as if there are actually multiple physical drives, this is made possible by a predefined communication protocol such as SCSI or ATAPI between a single storage device and the OS. With the emergence of such logical drives and the emergence of various storage media, the number of icons of devices connected to and activated by the computing system increases, and users are newly inconvenienced to check and use icons of necessary devices on a more complicated screen.

If multiple logical drives are to be mapped to multiple logical device numbers for use by the OS, it is not possible to boot a personal computer using all logical device numbers, only logical device number zero (LUN 0) is supported, so that a single storage device is supported. There was no way to make all logical drives available for booting.

In the present invention, in a single storage device supporting a plurality of logical drives, priority is given to each logical drive, and the storage medium is assigned by assigning a sequential logical device number depending on whether a storage medium exists in a media socket of each logical drive. We propose a dynamic allocation method of boot disks and logical device numbers that enables the boot of a personal computer using all logical drives by mapping logical unit number zero (LUN 0) to the highest priority logical drive among the inserted logical drives. do.

In addition, by assigning sequential logical device numbers to determine the priority, it is possible to use only a certain number of logical devices in correspondence. For example, in a single storage device equipped with four flash memory card sockets, the user accesses the storage medium using four icon screens by activating four logical drives by mapping logical device numbers to each socket. . However, as in this case, when the logical drive is activated by one-to-one correspondence with each socket and logical device number, as many icons as the number of sockets are created, the user screen tends to be complicated. Most users rarely use all of the available sockets at the same time, so the actual number of sockets required is only one or two. Considering this, it is more convenient for users to reduce the number of activated icons by dynamically allocating logical device numbers of one or two revisions, rather than assigning each logical device number to multiple sockets. The insertion order of media is a criterion for dynamically allocating fewer logical device numbers than the number of logical drives supported by a single storage device. At the time the initial system boots, it assigns a logical device number to a specific number and type of logical drives. The assignment of the initial logical device number can be changed at any time by the user, and the logical drive number is assigned to the logical drive associated with the storage medium most frequently used by that user first, assigning that logical drive priority 1 and priority 2 It can be used more conveniently if you assign it as. If a different type of storage medium is inserted after the system has finished booting, the logical drive that is connected to the first inserted storage medium has a priority of 1, and the priority 1 logical drive before the new storage medium is inserted. At priority 2, logical drives at priority 2 are changed to priority 0. Priority 0 means a logical drive group that is not currently assigned a logical device number. After that, when new media is inserted in the same way, the logical drive with priority 1 will be replaced with priority 2, the logical drive with priority 2 with priority 0, and the user will always be assigned with priority 1 and 2. You can use two logical drives simultaneously. For example, even if three logical device numbers are dynamically allocated instead of two, the same priority allocation method is applied by dividing the priority into 1, 2, 3 and 0.

1 is an example of a single storage device supporting multiple logical drives

2 is a flow diagram illustrating a method and procedure for dynamically allocating a boot disk and a logical device number for all logical drives supported by a storage device.

3 illustrates an example in which a first logical drive number is assigned to a first logical drive after a storage device supporting two logical drives is recognized by an OS.

4 shows an example in which a first logical device number is assigned to a second logical drive after a storage device supporting two logical drives is recognized by the OS.

5 shows an example of assigning each logical device number to a single storage device supporting a plurality of logical drives and activating them as icons on the screen.

6 illustrates an example of dynamically assigning only two logical device numbers to a single storage device supporting a plurality of logical drives and activating them as icons on the screen.

7 is an example of configuring a system by connecting a single storage device supporting four logical drives to a notebook computer.

<Explanation of symbols for main parts of drawing>

S25: Assigning one boot disk among a plurality of logical drives by assigning a logical unit number zero to the Nth logical drive where the storage medium exists.

S27: After assigning one boot disk, assigning logical device numbers to the remaining logical drives

S28: Assigning Logical Device Numbers to All Logical Drives If Boot Disk Allocation Fails

20, 21, 22, 23: icons associated with logical drives

31: CompactFlash card socket on a single storage device

34: smart media card socket on a single storage device

51: USB cable

52: Flash memory card reader as a single storage device

The present invention for achieving the above object will be described in detail with reference to FIGS. 1, 2, 3 and 4.

1 is a product picture of a single storage device with five logical drives supporting all four types of flash memory cards as an example of a single storage device. A single storage device connects to the computer with a single cable (USB, EIDE, IEEE1394, etc.), but the user inserts a number of different storage media into each socket installed on the front of the device, so that the number of media sockets installed Various data can be processed using icons on the computer screen connected to the logical drive. As described above, such a single storage device uses a plurality of logical drives in correspondence with a plurality of logical device numbers.

2 is a flowchart illustrating a dynamic allocation method of a boot disk and a logical device number. When power is supplied to a single storage device or a reset condition occurs, the single storage device enters the start step S21. In step S22, the number of logical drives for retrieving whether or not a storage medium exists is set (variable P), and the logical device number (variable N) of each logical drive corresponding to the logical device number of the OS is initialized later. In step S23, it is checked whether a storage medium exists in the Nth logical drive. If step S23 is executed for the first time, N = 0, and if it is executed for the second time, N = 1, the value N increases with the number of executions. If the storage medium is present, set the logical device number of the Nth logical drive to zero (LUN 0) (step S25) and sequentially follow the value of N for all logical drives except the Nth logical drive among all logical drives. After allocating the logical device number (step S27), communication with the OS is prepared (step S29). If there is no storage medium in the Nth logical drive in S23, decrease the value of variable P by one and increase the value of N in S24 to specify the next logical drive to be searched, and in step 26 If there is a logical drive to be performed by checking whether step S23 and step S24 have been performed, step S23 and step 24 are repeated.

If it is determined in step S26 that there are no storage media in all of the logical drives, step S29 is performed through step S28 of assigning sequential logical device numbers to all logical drives. Therefore, the logical drive with the highest priority among the logical drives in which the storage medium exists is given logical unit number (LUN 0), and the remaining logical drives are assigned sequential logical device numbers according to the priority. If no storage medium is present, all logical drives are assigned a sequential logical device number in order of priority.

3 and 4 illustrate an example in which logical drive numbers and logical device numbers are dynamically allocated when a single storage device supporting two logical drives is recognized by the OS by assigning a logical device number by the above method. . In FIG. 3, a storage medium exists in the first logical drive, and the first logical drive is assigned a logical device number of zero (LUN 0). Thus, booting of a personal computer can be performed through the first logical drive (assigned by OS drive number E). ). 4 illustrates the opposite case, in which the storage medium exists only in the second logical drive, so that logical unit number day LUN 1 is assigned to the first logical drive. In this case, the second logical drive can be used for booting

FIG. 5 and FIG. 6 are diagrams illustrating icons displayed when each logical device number is assigned to a flash memory card reader device supporting a plurality of logical drives and when two logical device numbers are assigned using a dynamic storage method of logical storage. An example is shown. First, as shown in FIG. 5, four icons are created as a removable disk (E :), a removable disk (F :), a removable disk (G :), and a removable disk (H :), whereas the screen is very complicated. You can see that only two icons are created with (E :) and Removable Disk (F :). In FIG. 6, two logical drives are given logical device numbers according to whether a flash memory card is inserted and an insertion order, thereby providing convenience to users who use one or two types of storage media.

7 is a diagram illustrating a system configuration in which a flash memory card reader as a single storage device and a notebook computer are connected. One device connects to the computer with a single USB cable, but the logical drives on the computer can see that four icons are active for the number of sockets on the device.

According to the present invention, each logical drive of a single storage device can be dynamically assigned a logical device number when it is recognized by the personal computer, thereby booting the personal computer using all the logical drives supported by the single storage device. In addition, as the number of logical devices can be dynamically assigned than the number of logical drives in a single storage device, the user can use the device efficiently with a small number of drive icons.

Claims (5)

When assigning logical device numbers to each logical drive on a single storage device that supports multiple logical drives, use a certain condition to order the conditions, so that you want to boot the personal computer before or before booting Method of dynamic allocation of boot disks and logical device numbers that enables you to select a logical device number of zeros (LUN 0) By supporting multiple logical drives and assigning logical device numbers to each logical drive, you specify the logical device number that you want to boot when booting or before booting, by booting a personal computer using a set of conditions. A single storage device that contains dynamic allocation of boot disks and logical device numbers that you select as zero (LUN 0). Single storage device that can dynamically allocate and use fewer logical device numbers according to priorities based on specific conditions than the number of logical drives supported by a single storage device How to dynamically assign a boot disk and logical device number, which receives setup order conditions from the user as a constant condition used to assign logical device numbers. Dynamic allocation of boot disks and logical device numbers using the presence or absence of a storage medium in the logical drive under certain conditions used to assign logical device numbers.