JP4322333B2 - SCSI switching device and cluster system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a SCSI switching device and a cluster system capable of applying a general-purpose SCSI standard magnetic disk device having no special cluster function as a shared magnetic disk device shared by a plurality of computers. .
[0002]
[Prior art]
In recent years, the spread of computers has been remarkable, and various types of information have been digitized and processed in large quantities every day by computer systems. In addition, the demand for the reliability of computer systems is increasing, and various methods for increasing the reliability have been devised. One of them is a cluster system.
[0003]
In this cluster system, the reliability of the system is enhanced by a plurality of computers of active and standby systems. For example, as shown in FIG. 3, a server computer (2a) for executing processing requested by the client computer 1 is used. ˜2d), one of the plurality of server computers is operated as an active system, and the other is waited as a standby system. Then, when the server computer operating as the active system fails, the processing requested by the client computer 1 is executed by switching any one of the other server computers waiting as the standby system to the active system. continue.
[0004]
As a result, the system failure is not caused by a single failure of the server computer, so that the reliability of the computer system is greatly improved.
[0005]
[Problems to be solved by the invention]
In this type of cluster system, a magnetic disk device that is accessible from a plurality of server computers, such as the shared disk device 3 shown in FIG. 3, is indispensable. This shared magnetic disk device is transmitted from the server computer. The disk occupying instruction to be recognized is recognized, and only an access from a specific computer is valid, and an exclusive control function for invalidating an access from another computer must be provided. For example, when the server computers 2a to 2d and the shared disk device 3 are connected by a SCSI (Small Computer System Interface), the shared disk device 3 may use a SCSI standard disk occupation command (RESERVEVE) transmitted from any server computer. It is necessary to provide an exclusive function for recognizing the command (command) and controlling so that only the access of the server computer that has transmitted this command is valid. As a result, there is a problem that the shared magnetic disk device becomes very expensive and increases the cost of the cluster system.
[0006]
The present invention has been made in view of such circumstances, and applies a general-purpose SCSI standard magnetic disk device having no special cluster function as a shared magnetic disk device shared by a plurality of computers. It is an object of the present invention to provide a SCSI switching device and a cluster system that enable this.
[0009]
[Means for Solving the Problems]
To achieve the above object, a SCSI switching device of the present invention is provided between a plurality of computers and a SCSI standard magnetic disk device shared by the plurality of computers. A plurality of input ports for inputting SCSI standard commands to be transmitted, an output port for outputting SCSI standard commands input by the input port to the magnetic disk device, and the output port are electrically connected. A changeover switch for switching an input port exclusively between the plurality of input ports and a pair of the plurality of input ports are provided, and a predetermined SCSI standard instruction is input from a terminal connected to the corresponding input port. In this case, a control signal for connecting the input port and the output port is switched to the switching switch. Is supplied to the switch, if the instructions for all other SCSI standard is input, a plurality of switching control to pass to the terminal side to be connected to the output port through the intact the changeover switch instruction of the SCSI standard Means.
[0010]
According to the present invention, since the occupation of the magnetic disk device can be requested by an instruction of the SCSI standard without depending on the output of the occupation signal to the dedicated line, the cluster can be obtained without any modification to the existing system. Therefore, it is possible to apply a general-purpose SCSI standard magnetic disk device having no special function for use as a shared magnetic disk device shared by a plurality of computers.
[0011]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
[0012]
(First embodiment)
First, a first embodiment of the present invention will be described. FIG. 1 is a diagram showing a schematic configuration of a cluster system according to this embodiment. As shown in FIG. 1, in this client system, four server computers of server computers 2a to 2d form a cluster. The server computers 2a to 2d share a general-purpose SCSI standard disk device 7 that does not have a special cluster function.
[0013]
Accordingly, the SCSI signal line 4 is derived from the server computers 2a to 2d toward the disk device 7, but the SCSI signal line 4 derived from the server computers 2a to 2d is not connected to the disk device 7, Connected to the SCSI switching device 6.
[0014]
This SCSI switching device 6 is for occupying the disk device 7 in any one of the server computers 2a to 2d, and a plurality of SCSI commands for inputting SCSI commands transmitted from the server computers 2a to 2d. An input port is provided, and an output port for outputting a SCSI command input through the input port to the disk device 7 is provided. Also from the SCSI switching device 6, the SCSI signal line 4 is led out toward the disk device 7, and the SCSI signal line 4 is connected to the disk device 7.
[0015]
Further, from the server computers 2a to 2d, in addition to the SCSI signal line, an occupied signal line 5 for outputting an occupied signal indicating an occupation request of the disk device 7 is derived. Connected to device 6. On the other hand, the SCSI switching device 6 includes a changeover switch 61 that performs a switching operation so that any one of the plurality of input ports and the output port are selectively connected to each other, and is transmitted from the server computers 2a to 2d. The occupied signal is supplied to the changeover switch 61. The changeover switch 61 performs switching based on the supplied occupancy signal.
[0016]
Next, the operation principle of this client system having such a configuration will be described.
[0017]
Here, first, it is assumed that the server computer 2a operates as an active system and executes processing requested from a client computer, and the other server computers 2b to 2d are on standby as standby systems. Consider a case where the server computer 2b is switched to the active system because a failure has occurred in the server computer 2a.
[0018]
In this case, as a basic function of the cluster system, the operating environment is handed over from the server computer 2a to the server computer 2b. At this time, the server computer 2b sends an occupancy signal indicating an occupancy request for the disk device 7 to the occupancy signal line 5. Output to. The output of the occupying signal to the occupying signal line 5 may be executed instead of the cluster software itself, which is the upper software, issuing a SCSI standard disk occupancy command (RESERVE), or the cluster software may occupy the SCSI standard disk occupancy. When an instruction (RESERVE) is issued, it may be converted into an exclusive signal output and executed by an operating system or SCSI driver software that accepts the instruction.
[0019]
On the other hand, in the SCSI switching device 6 that has received this occupancy signal, the changeover switch 61 performs switching so that the input port connected to the SCSI signal line 4 derived from the server computer 2b is connected to the output port.
[0020]
That is, in this cluster system, since the SCSI switching device 6 replaces the exclusive control function related to the disk access from the server computers 2a to 2d, the general-purpose disk device 7 can be applied as a shared disk. Prevent system costs from being pushed up.
[0021]
(Second Embodiment)
Next, a second embodiment of the present invention will be described. FIG. 2 is a diagram showing a schematic configuration of the cluster system according to this embodiment. As shown in FIG. 2, in this client system, four server computers, server computers 2a to 2d, form a cluster. The server computers 2a to 2d share a general-purpose SCSI standard disk device 7 that does not have a special cluster function.
[0022]
Accordingly, the SCSI signal line 4 is derived from the server computers 2a to 2d toward the disk device 7, but the SCSI signal line 4 derived from the server computers 2a to 2d is not connected to the disk device 7, Connected to the SCSI switching device 6.
[0023]
This SCSI switching device 6 is for occupying the disk device 7 in any one of the server computers 2a to 2d, and a plurality of SCSI commands for inputting SCSI commands transmitted from the server computers 2a to 2d. An input port is provided, and an output port for outputting a SCSI command input through the input port to the disk device 7 is provided. Also from the SCSI switching device 6, the SCSI signal line 4 is led out toward the disk device 7, and the SCSI signal line 4 is connected to the disk device 7.
[0024]
The SCSI switching device 6 is provided with a changeover switch 61 that performs a changeover operation so that any one of the plurality of input ports and the output port are selectively connected to each other. Switching is performed based on the occupancy signal supplied via line 62.
[0025]
Also, the SCSI switching device 6 is provided with occupancy recognition devices 63a to 63d in pairs with a plurality of input ports, and the occupancy recognition devices 63a to 63d are transmitted from the server computers 2a to 2d. The disk occupancy command (RESERVE) of the SCSI standard is recognized, and an occupancy signal indicating an occupancy request of the disk device 7 is output to the occupancy signal line 62. Note that the occupancy recognition devices 63a to 63d pass instructions other than the disk occupancy instruction (RESERVE) directly to the output port side.
[0026]
Next, the operation principle of this client system having such a configuration will be described.
[0027]
Here, first, it is assumed that the server computer 2a operates as an active system and executes processing requested from a client computer, and the other server computers 2b to 2d are on standby as standby systems. Consider a case where the server computer 2b is switched to the active system because a failure has occurred in the server computer 2a.
[0028]
In this case, as a basic function of the cluster system, the operating environment is handed over from the server computer 2a to the server computer 2b. At this time, the server software 2b is configured such that the cluster software, which is the upper software, is a disk occupation instruction (RESERVE) of the SCSI standard. ).
[0029]
On the other hand, in the SCSI switching device 6 that has received the SCSI standard disk occupancy command (RESERVE), the occupancy recognition device 63 b outputs an occupancy signal indicating an occupancy request of the disk device 7 to the occupancy signal line 62. Then, the change-over switch 61 supplied with the occupancy signal performs switching so that the input port connected to the SCSI signal line 4 derived from the server computer 2b is connected to the output port.
[0030]
That is, in this cluster system, since the SCSI switching device 6 replaces the exclusive control function related to the disk access from the server computers 2a to 2d, the general-purpose disk device 7 can be applied as a shared disk. Prevent system costs from being pushed up. In addition, any modification is made to cluster software, which is higher-level software that operates on the server computers 2a to 2d, or an operating system or SCSI driver software that accepts a SCSI standard disk occupancy command (RESERVE) issued by the cluster software. There is no.
[0031]
【The invention's effect】
As described above in detail, according to the present invention, since the exclusive control function can be substituted for the SCSI switching device only by interposing the SCSI switching device, it is a general purpose that does not have a special function for the cluster. It is possible to apply a SCSI standard magnetic disk device as a shared magnetic disk device shared by a plurality of computers, thereby preventing an increase in the cost of the cluster system.
[Brief description of the drawings]
FIG. 1 is a diagram showing a schematic configuration of a cluster system according to a first embodiment of the present invention.
FIG. 2 is a diagram showing a schematic configuration of a cluster system according to the second embodiment.
FIG. 3 is a diagram for explaining the peculiarities of a shared magnetic disk device applied to a conventional cluster system.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Client computer 2a-2d ... Server computer 3 ... Shared disk apparatus 4 ... SCSI signal line 5 ... Occupied signal line 6 ... SCSI switching apparatus 7 ... Disk apparatus 61 ... Changeover switch 62 ... Occupied signal line 63a-63d ... Occupancy recognition apparatus

Claims (2)

Provided between a plurality of computers and a SCSI standard magnetic disk device shared by the plurality of computers,
A plurality of input ports for inputting SCSI standard commands transmitted from the plurality of computers;
An output port for outputting a SCSI standard command input from the input port to the magnetic disk device;
A changeover switch for exclusively and selectively switching an input port electrically connected to the output port between the plurality of input ports;
When a command of a predetermined SCSI standard is input from a terminal connected to the corresponding input port, the control signal for connecting the input port and the output port is provided. When the SCSI switch is supplied to the changeover switch and other SCSI standard instructions are input, a plurality of SCSI standard instructions are directly passed through the changeover switch to the terminal connected to the output port . Switching control means;
A SCSI switching device comprising: An SCSI switching device for interposing one of the plurality of computers to use the magnetic disk device is interposed between a plurality of computers and a SCSI standard magnetic disk device shared by the plurality of computers,
Each of the plurality of computers
Command issuing means for issuing a command of a predetermined SCSI standard to the SCSI switching device when using the magnetic disk device;
The SCSI switching device
A plurality of input ports for inputting SCSI standard commands transmitted from the plurality of computers;
An output port for outputting a SCSI standard command input from the input port to the magnetic disk device;
A changeover switch for exclusively and selectively switching an input port electrically connected to the output port between the plurality of input ports;
When a command of a predetermined SCSI standard is input from a terminal connected to the corresponding input port, the control signal for connecting the input port and the output port is provided. When the SCSI switch is supplied to the changeover switch and other SCSI standard instructions are input, a plurality of SCSI standard instructions are directly passed through the changeover switch to the terminal connected to the output port . Switching control means;
A cluster system comprising:

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