IE930042A1 - Control of data storage devices - Google Patents

Abstract

A data processing apparatus (1) has a number of workstations (5,6,7,8) connected to a local area network cable (2). Each workstation has a workstation processor (9) connected to a removable disk drive (12) via a controller (11)· The workstation processor (9) is programmed on start-up to set various operation parameters, to establish a communications session with the file server processor (3) and to subsequently disable I further write requests to a removable disk in the removable disk drive (12). The file server processor (3) is constructed to direct storage in the fixed disk (4) of an interpreter for the workstation controllers (9) for use during operation. It is also constructed to allow routing of interpreter access requests and data access requests for operation of the apparatus (1). This helps to ensure confidentiality of data stored on the disks (4) because it may not be written to a removable disk for transportation to another system.

Description

A data processing apparatus (1) has a number of workstations (5,6,7,8) connected to a local area network cable (2). Each workstation has a workstation processor (9) connected to a removable disk drive (12) via a controller (11)· The workstation processor (9) is programmed on start-up to set various operation parameters, to establish a communications session with the file server processor (3) and to subsequently disable I further write requests to a removable disk in the removable disk drive (12). The file server processor (3) is constructed to direct storage in the fixed disk (4) of an interpreter for the workstation controllers (9) for use during operation. It is also constructed to allow routing of interpreter access requests and data access requests for operation of the apparatus (1). This helps to ensure confidentiality of data stored on the disks (4) because it may not be written to a removable disk for transportation to another system. fflc\fpa20\m3192.deS 00 42*1 “APPUCAWNNo..^ Control of Data Storage Devices The invention relates to the control of data storage devices in an apparatus comprising a number of workstations operating to access a data bank, to process data and to input data to the bank.

One of the problems associated with control of data storage devices in such a system is that of satisfying the two conflicting requirements of on the one hand allowing as many people as possible within an organisation to access the data so that the data bank has optimum utilisation, and on the other hand of maintaining confidentiality of the data by preventing it being transmitted out of the system.

In the prior art, methods such as that described in EP-B10,139,759 (Fanuc Ltd) are described for connecting external equipment to a processor in which connection information is retrieved for use in exchange of data between the processor and the external equipment. Such methods do not specifically address the problem of controlling storage devices in a networked computer system where there is a large data bank and the above requirements are to be met.

The invention is directed towards providing an apparatus to overcome these problems.

According to the invention, there is provided a data 25 processing apparatus comprising:a bi-directional local area network cable; OPEN TO PUBLIC INSPECTION f bank of fixed disks storing a data bank of BECKON 28 AND Rfl£ . fiata records; UNDER ^»30042- 2 a file server processor connected between the local area network cable and the fixed disks and being constructed to route access requests transmitted on the cable to the fixed disks, to retrieve the relevant data records, and to transmit the records on the cable to the source of the request; a plurality of workstations connected to the local area network cable, each workstation comprising:a user input interface; a removable disk drive; a controller for the removable disk drive; a workstation processor connected to both the user interface and to the removable disk drive controller, the workstation processor being constructed to initially set operation parameters by reference to the removable disk drive, to automatically transmit an interpreter from the removable disk drive to the file server processor via the local area network cable, to store received routing instructions in an on-board random access memory circuit, these routing instructions directing routing of interpreter requests to the file server processor, and to set a register stored in the random access memory circuit to _8300 4 I* disable write instructions to the removable disk drive.

In one embodiment, the file server processor is additionally constructed to automatically transmit communication instructions retrieved from the fixed disks to a workstation processor when the latter is activated.

The invention will be more clearly understood from the following description of some preferred embodiments thereof, given by way of example only, with reference to the accompanying drawings in which:Fig. 1 is a diagrammatic representation of a data processing apparatus of the invention; and Fig. 2 is a flow chart illustrating the manner in which various components of the apparatus shown in Fig. 1 are constructed.

Referring to Fig 1, an apparatus 1 of the invention is shown. The apparatus 1 is for the storage of a large data bank in which there are records of data relating to people who have been, or who are employed in an organisation. Thus, maintaining confidentiality of the data is extremely important. Another requirement is that different people within the organisation have access to the data so that it may be viewed, and new data entered. Because there are other data processing requirements of the apparatus 1, and for financial reasons, the apparatus 1 is constructed for distributed processing within the organisation so that each user is at a workstation which can carry out various processing operations.

In detail, the apparatus 1 comprises a bi-directional local area network cable 2 to which is connected a file 004 2 server processor 3, which is in turn connected to a bank of fixed disks 4 having a total capacity of 100 MB. In addition, a number of workstations 5, 6, 7 and 8 are connected to the network cable 2. Each workstation comprises a workstation processor 9 connected to a keyboard 10 for user communication. Each processor 9 is also connected to a storage device controller 11, which is in turn connected to a storage device, namely, a removable disk drive 12.

An important aspect of each workstation is that there is no non-volatile memory device such as a fixed disk and the only device for permanent storage of data is a removable disk which may be inserted. Thus, on a permanent basis, all of the data is stored in the bank of fixed disks 4 in which there is a record for each person.

Another important aspect of the invention is the manner in which the file server processor 3 and each workstation processor 9 is programmed during operation to perform the technical steps of ensuring that data may not be transmitted from the apparatus 1 to another system or that it may not be transported by means of removable disks or otherwise. The manner in which the workstations and the file server processors 9 and 3 are programmed is now described with reference to Fig. 2 which shows a process 20 carried out by components of the apparatus 1.

The first process step 21 involves one of the workstations 5, 6, 7 or 8 being activated. This is achieved by insertion of a removable disk in the drive 12 and the processor 9 accessing the disk for booting instructions. In step 22, the processor 9 transmits a signal to the file server to establish a communications session via the cable 2 and subsequently in step 23 the processor 9 receives network instructions from the file server processor 3. - 5 The file server processor 3 retrieves these instructions from the fixed disk 4 and the instructions relate to the manner in which communications should be carried out so that the data bank may be accessed.

In step 24 the relevant workstation processor 9 sets various operation parameters by reference to the removable disk drive 12 via the controller 11. The parameters include those relating to interrupts, the size of memory blocks to be used for reading and writing of data and device driver data for the processor 9. When these parameters have been set, in step 25 the workstation processor 9 transmits an interpreter program which has been read from the removable disk to the file server processor 3. The processor 3 is programmed to store the interpreter in a pre-set block of memory locations in the fixed disks 4 and to route subsequent instructions from the workstation processors 9 to the interpreter while they are operating. In addition, the relevant workstation processor 9 stores routing instructions in an on-board random access memory, these routing instructions directing communication with the file server processor 3.

An important step in the process 20 is that of disabling write instructions in a register in the random access memory circuit which controls access to data via the controller 11. Thus, once step 27 has been preformed, the workstation processor 9 may not write data to the removable disk inserted in the disk drive 12. However, it may transmit data signals to a display screen so that the user may view data from the data bank.

During operation, in step 28, each of the workstations 5, 6, 7 and 8 accesses data on the fixed disks 4 and reads the data and displays it on the relevant screen and also transmits new data via the file server processor 3 to the »95004? data bank for storage. This is indicated by the step 28. Thus, the user may control a wide range of data processing operations to ensure that the data bank is maintained up to date and that the stored data is utilised for efficient working of the organisation. In step 29, data is displayed on a screen (not shown) at each of the workstations. However, if a request is received via the keyboard 10 for writing of data to a removable disk inserted in a disk drive 12, it is prevented as indicated by step 30 because of the register stored in the on-board memory circuit which disables write instructions. Accordingly, a user may not instruct the retrieval of data from the fixed disk 4 and writing of the data to removable disks for transportation to another system. This helps to ensure confidentiality of the data. In step 31 the workstation processor 9 transmits any process data to the data bank 4 to end an operation session.

It will be appreciated that the technical steps carried out by the various components of the apparatus 1 ensure that maximum utilisation may be made of a data bank for efficient working of an organisation, while at the same time the technical steps ensure that it is extremely difficult for a user to transfer data to another system. It will also be appreciated that the apparatus 1 is extremely simple in construction and that the above advantages have been achieved in an inexpensive manner. It will also be noted that because the equipment involved is relatively simple, maintenance and operation requirements are relatively small.

The invention is not limited to the embodiments hereinbefore described, but may be varied in construction and detail.

Claims (3)

1. J 00 4 J

1. A data processing apparatus comprising:a bi-directional local area network cable; a bank of fixed disks storing a data bank of data records; a file server processor connected between the local area network cable and the fixed disks and being constructed to route access requests transmitted on the cable to the fixed disks, to retrieve the relevant data records, and to transmit the records on the cable to the source of the request; a plurality of workstations connected to the local area network cable, each workstation comprising :a user input interface; a removable disk drive; a controller for the removable disk drive; a workstation processor connected to both the user interface and to the removable disk drive controller, the workstation processor being constructed to initially set operation parameters by reference to the removable disk drive, to automatically transmit an interpreter from the removable disk drive to the file server processor via the local area network cable, to store received routing instructions in an on-board random access memory circuit, these routing 5 instructions directing routing of interpreter requests to the file server processor, and to set a register stored in the random access memory circuit to disable write instructions to the 10 removable disk drive.

2. An apparatus as claimed in claim 1 wherein the file server processor is additionally constructed to automatically transmit communication instructions retrieved from the fixed disks to a 15 workstation processor when the latter is activated.

3. An apparatus substantially as hereinbefore described, with reference to and as illustrated in the accompanying drawings.