Disk control system

The present invention relates to a disk control system comprising a small computer system interface (SCSI) control circuit as communicating means between a magnetic disk or an optical disk or the like and a host system, thereby transferring and receiving data to and from a magnetic disk system, an optical disk system and the like.

Fig.1 is a block diagram showing a prior art disk control system. This disk control system comprises a SCSI control circuit for an optical disk.

In this disk control system, an optical head 2 reads out data written on an optical disk 1 and also writes data on the optical disk 1. The optical disk 1 is rotated by an appropriate driving device. R(Read)/W(Write) amplifier 3 amplifies data signals detected by the optical head and outputs this amplified signals to a format control circuit 4 on the one hand and amplifies the output signals from the format control circuit 4 and outputs the amplified signals to the optical head 2 on the other hand. The format control circuit 4 receives signals from the R/W amplifier 3 and detects the desired sector by reading the ID (address information for sector) recorded on the top of each sector of data written on the surface of the optical disk 1. To a bus connecting this format circuit 4 and the SCSI control circuit 7 is connected a buffer memory 5 which stores temporarily various data. This buffer memory 5 is controlled by a buffer memory control circuit 6.

The SCSI control circuit 7 transmits and receives data to and from a host system and the like through the SCSI bus 13. A servo control circuit 8 controls the position of the optical head 2 relating to the optical disk 1. The servo control circuit 8 is controlled by a drive controller 10.

The SCSI control circuit 7, buffer memory control circuit 6 and format control circuit 4 are connected to a system controller bus 14. The system controller 11 comprising microprocessors communicates with the host system through the SCSI bus 13 and the SCSI control circuit 7 on the one hand and is connected to both the buffer memory control circuit 6 and the format control circuit 4 through the system controller bus 14 and also connected to the drive controller 10 through a bus 15 on the other hand. By this way, the system controller 11 controls the whole disk control system through the system controller bus 14 according to the command from the host system. Also, a main memory 12 is connected to the system controller bus 14 and stores various data input through this system controller bus 14.

Then, the operation of the prior art disk control system constructed as aforementioned will be described. In case the command for data write is input to the SCSI control circuit 7 through the SCSI bus 13, for example, this command for write is transferred to the system controller 11 through the system controller bus 14. Then, the system controller 11 commands the drive controller 10 to move to the track at the position to initiate the write in the optical disk 1 (hereinafter referred to as seek). Simultaneously, the system controller 11 sets up the addressing and the like in the buffer memory 5 for the buffer memory control circuit 6 and the data input-output mode with the host system for the SCSI control circuit 7. Data transferred from the host system is temporarily stored in the buffer memory 5 by the SCSI control circuit 7.

Once the format control circuit 4 detects the desired sector by reading the ID placed on the top of each sector in the optical disk 1 through the optical head 2 and the R/W amplifier 3, the system controller 11 reads data stored in the buffer memory 5 and conducts the addition and modulation of synchronization pattern. These data are written in the optical disk 1 through the R/W amplifier 3 and the optical head 2.

On the other hand, in case the command for data read is input to the SCSI control circuit 7 through the SCSI bus 13, this data read command is transferred to the system controller 11 through the system controller bus 14. Then, the system controller 11 commands the drive controller 10 to seek the track at the position to initiate the read data in the optical disk 1. Simultaneously, the system controller 11 commands the buffer memory control circuit 6 to set the addressing of read and the like in the buffer memory 5 and awaits.

Once the format control circuit 4 detects the desired sector by reading the ID placed on the top of each sector from the optical disk 1 through the optical head 2 and the R/W amplifier 3, the system controller 11 reads data of that sector and writes it in the buffer memory 5. The SCSI control circuit 7 transfers all data stored in the buffer memory 5 to the host system through the SCSI bus 13.

In the prior art disk control system constructed as mentioned above, faulty articles can occur during manufacturing process as well as after shipped to the market. According to the recent trend of miniaturizing the magnetic disk system and the optical disk system, it is difficult to identify its faulty point or block if such fault occurred in its disk control system.

Therefore, at most the disk control systems recently developed have a built-in self diagnostic function. For example, in order to conduct the diagnosis of the built-in memories, such disk control system is constructed to confirm the normality of its functioning by allowing to execute the write and read commands. In addition, the diagnosis of the data transfer functions is confirmed by transferring data previously stored in a memory for the diagnosis of the data transfer functions from one to another memories (DMA operation ) and reading transferred data. Furthermore, in order to conduct the diagnosis of the error correcting circuit, it is confirmed that generated code is normal by imputing a selected sector data and executing the code generation command for the sector data. Such disk control system has also the self-diagnostic functions to perform the diagnostic of error correction by generating incorrect data in relate to the sector data including generated code. These self-diagnosis functions are usually performed immediately after power on or according to requirement from the host system.

In the prior art disk control system, these self-diagnostic functions enable to check manufacturing fault and to easily correct such fault during the manufacturing process and after shipped to the market.

The prior art disk control systems aforementioned, however, have a defect that abnormalities in the SCSI control circuit, if any, can not be detected because they are not installed with the self-diagnostic function for the SCSI control circuit as communicating means with the host system.

The object of the present invention is to provide a disk control system comprising a SCSI control circuit as communicating means with a host system, wherein a self-diagnostic function for said SCSI control circuit is installed in order to construct a reliable disk system.

The disk control system according to the present invention perform data exchange between the host system and a magnetic disk or optical disk or the like. And, this disk control system comprises a SCSI (Small Computer System Interface) control circuit which performs the SCSI communication with the host system, and input/output (hereinafter referred to I/O) means which enable to intercept the communication between said SCSI control circuit and the host system regardless either at the data transmission mode or at the data reception mode and functions as the input/output circuit for said SCSI control circuit when the communication is intercepted.

The disk control system is provided with a first memory device and a second memory device. Diagnostic means set up said SCSI control circuit to the data transmission mode, transfer data stored in the first memory device to the second memory device through said SCSI control circuit when the SCSI communication with the host system is intercepted and compare data transferred to the second memory device with one stored in the first memory device. Said diagnostic means also set up said SCSI control circuit to the data reception mode, transmit data stored in the second memory device to the first memory device through said SCSI circuit when the SCSI communication with the host system is intercepted and compare data transferred to the first memory device with one stored in the second memory device.

According to the present invention, the diagnostic means compare data transferred through the SCSI control circuit with the original data as mentioned above and enable to judge whether the SCSI control circuit is normally operated or not based on this comparison, therefore the disk control system according to the present invention is capable of performing the self-diagnosis of the SCSI control circuit. In this aspect, the present invention is able to provide a highly reliable disk device.

• Fig. 1 is a block diagram showing a prior art disk control system:
• Fig. 2 is a block diagram showing a disk control system according to a first embodiment of the present invention:
• Fig. 3 is a block diagram showing a disk control system according to a second embodiment of the present invention:

In the disk control system according to the present embodiment shown in Fig. 2, the constituent of the disk control system which differs from the prior art disk control system is an I/O port 9 located between a SCSI control circuit 7 and a SCSI bus 13. That is, the SCSI bus 13 is connected to the I/O port 9 which is connected to the SCSI control circuit 7 through a bus 16. Also, to the I/O port 9 is connected a system controller bus 14 so as to input the control signal of a system controller 11 through the system controller bus 14.

Next, the operation of the disk control system constructed as aforementioned according to the embodiment of the present invention will be described.

First, after the power switch was turned on, the system controller 11 will execute the self-diagnosis mode. The system controller 11 sets up the I/O port 9 to intercept the SCSI bus 13. Thus, it is not necessary to waste time for responding to the self-diagnostic operation after the host system accessed to the disk control system because the self-diagnosis has already been made at the time of power on as mentioned above. Therefore, any error such as time-out and the like may not occur. Subsequently, the operation of the SCSI control circuit 7 is executed through I/O port 9.

For diagnosis of data transmission operation, the system controller 11 set up the SCSI control circuit 7 to the data transmission mode. Then, the system controller 11 stores data read from a main memory 12 to the buffer memory 5 through both the I/O port 9 and the SCSI control circuit 7. The system controller 11 reads the content of the buffer memory 5 through the buffer memory control circuit 6 and confirms that data transmitted from the main memory 12 is consistent with data read from the buffer memory 5.

For diagnosis of data receiving operation, the system controller 11 sets up the SCSI control circuit 7 to the data reception mode. Then, the system controller 11 stores data read from the main memory 12 to the buffer memory 5 through the buffer memory control circuit 6. Since the SCSI control circuit 7 transmits data stored in the buffer memory 5 to the I/O port 9 through the bus 16 until all data in the buffer memory 5 are transmitted out, the system controller 11 can receive data stored in the buffer memory 5 through the SCSI control circuit 7 once the system controller 11 reads the I/O port 9. Then, the system controller 11 confirms that this transmitted data is consistent with data stored in the main memory 12.

Through these diagnostic functions, the disk control system according to the embodiment can perform the self-diagnosis of the SCSI control circuit 7.

Fig. 3 is a block diagram showing a disk control system according to the second embodiment of the present invention. The difference of the disk control system of this embodiment from that of the first embodiment shown in Fig. 2 is only that a DMA controller 15 is connected to the system controller bus 14, and other parts of this embodiment are essentially the same as the first embodiment. Therefore, constituents of the system in Fig. 3 which are the same as those shown in Fig. 2 are indicated by the same numeral without giving detail explanation.

In the disk control system according to this embodiment, data transmittance between the I/O port 9 and the main memory 12 is executed by the DMA controller 15. By this way, a burden of the system controller 11 may be reduced since data transmittance between the I/O port 9 and the main memory 12 is executed without involvement of the system controller 11.