JPH04205325A - Data saving and restoring system for information processor - Google Patents

Abstract

PURPOSE:To continuously execute the same application program from the middle by comparing a system environment when disconnecting a power source with a current system environment according to system environment comparison information stored in a backup storage device when the power source of a system is turned on after disconnecting the power source, and allowing the use of the system in the case of the same system environment. CONSTITUTION:When the power source is disconnected, the system environment comparison information is saved in a backup storage device 50. When the power source of the system is turned on later, the system environment comparison information stored in the backup storage device 50 is read out, and the system environment when disconnecting the power source is compared with the current system environment. When the system environment in the case of disconnecting the power source is same as the current system environment as the result of this comparison, the continuation of a processing due to a user is allowed. Thus, the user can use a person computer without any resume function and continuously use the information processor by pushing a reset button.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a data saving and restoring method for an information processing apparatus equipped with a resume function.

[Conventional technology]

Personal computers (hereinafter referred to as personal computers) equipped with a resume function have been put into practical use.

The resume function saves various status information to a backup memory that does not disappear even when the power is turned off when the power of the computer system is turned off. A function that reads the status information saved in the system and configures the system environment.

With this function, even if the power switch is turned off in the middle of execution of an application program, the same application program can continue to be executed from the middle when the next power switch is turned on.

[Invention or problem to be solved]

By the way, even if a computer is equipped with such a resume function, there are cases where the computer cannot be restarted.

Furthermore, when the power switch is turned on, the previous system environment is recreated, and although at first glance it appears to the user that the system has restarted normally, the system may become increasingly erratic as it is used. As a result of intensive investigation by the inventors as to the cause of this problem, it has become clear that the current system environment has changed from the system environment when the power was turned off due to an external factor such as a software error.

[Means to solve the problem]

In order to solve the above problems, the data saving and restoring method of the information processing device according to the present invention saves system environment comparison information created before the power is turned off to a backup storage device when the power is turned off, and then when the system is turned on again. At the same time, the system environment at power-off is compared with the current system environment based on system environment comparison information stored in the backup storage device, and if the environments are the same, the user is permitted to use the system.

[Effect]

According to the data evacuation and restoration method of the information processing device of the present invention,
System environment comparison information is saved to the backup storage device when the power is turned off. Then, when the system power is turned on thereafter, the system environment comparison information stored in the backup storage device is read out, and the current system environment is compared with that when the power was turned off.

As a result of this comparison, if the current system environment is the same as when the power was turned off, the user is allowed to continue processing.

This system environment comparison information includes, for example, information obtained through error detection processing on data stored in a storage device,
There is information on the connection status of external storage devices, status information on I/O ports, etc.

〔Example〕

DESCRIPTION OF THE PREFERRED EMBODIMENTS A data saving and restoring method for an information processing apparatus according to an embodiment of the present invention will be described below with reference to FIGS. 1 to 5 of the accompanying drawings. FIG. 1 is a configuration diagram of an information processing apparatus that performs data backup and restoration processing according to this embodiment. This information processing device includes a CPUl0 which is a control device, a CPU clock device 20 that provides a clock to the CPUl0, a main storage device 30 in which programs and data are stored, a VRAM 40 in which image data is stored, and a A backup memory 50 that also holds data, an input/output device 60 that performs input/output control, and an auxiliary storage device 7 that stores data.
0, and a power supply device 80 that supplies power to each device. The CPU clock device 20 includes a CPU clock supply device 21 that generates a reference clock signal, and a CPU clock switching device 22 that switches from this reference clock signal to a desired tarok signal.

The main storage device 30 also includes a control program 31, a system management table 32 in which information such as connection state of the auxiliary storage device 70 is managed, and an application program 33. Furthermore, the backup memory 50 is provided with a memory addition result correction value area 51 and a stack area 52. The input/output device 60 includes
Keyboard device 61 and keyboard interface 6
2, a display device 63 and a display interface, l-
A backlight 65 for illuminating the display device 63, a buzzer 66, and a buzzer timer 67 are placed on the same side. The auxiliary storage device 70 also includes a floppy disk device 7], an FDC (floppy disk controller) 72, an /X disk device 73, and an HDD.
A hard disk controller (C) 74 is provided. In this embodiment, CPU10 or control program 31-
The register comb function is realized by the CPU 10 giving commands to each of the two positions in accordance with the processing. Further, the main storage device 30 and the backup memory 50 are supplied with weak power even after the system power is turned off, and the data stored in these memories and devices are retained even after the system power is turned off. In order to realize the register comb function, the data that must be saved when the power is turned off is mainly the saving of image data stored in the V RAM M2O to the backup memory 50, and the main storage device 30.
Data stored in is not saved. Further, the system environment comparison information, which is a feature of this embodiment, is also saved in the hack-up memory 50 at the second point in time.

Next, using flowchart 1 in FIG. 2, an explanation will be given of the data saving and restoring method for verifying the identity of the user. Then, the user can run the program 33 on the computer.
If the power switch is turned off while executing (step /O0), the power switch-off detection interrupt 20
0 or no occurrence. In the power switch off detection interrupt 200, the state of the CPU 10, the state of the CPU clock, the checksum value which is system environment comparison information, the connection state of the auxiliary storage device 70, the state information of the I/O boat, and the bank up memory 50, etc. (Step 2) 0
).

Then, a command is issued to CPU10 or the CPU clock switching device 22 to switch the clock of the CPU/O to the highest value of 16 MHz (step 220). next,
The contents of VRAM are saved to backup memory (step 230). After this evacuation is completed, the display device 63, backlight 65, VRAM 40 and CP
Stop supplying power to the U/O (step 240
). The user stops using the computer in this state. After that, when the user turns on the power switch to use the personal computer (step 250), a reset process is performed as a system initialization process (step 260).
. Sol～゛C1 step 2/O backup memory 5
The checksum value saved to 0 and the auxiliary storage device 70
Read the connection status and 1/O port status information,
Compare with the current state (step 280). As a result of the comparison, if they do not match, a message is displayed on the display device 63 (step 290) and the personal computer is stopped.

The message here is ``The register comb was mixed up.

Please press the reset button. ”.

By pressing the reset button, the user can use the cash register comb function. Also, step 2
80, if they match, a buzzer sounds to notify the user that the computer is ready for use (step 300). Almost at the same time as this buzzer sounds, the CPU clock status and CPU status are restored from the backup memory 50 (Step 3/O.3
20).

With the above processing, the power switch-off detection interrupt 200 ends, and the application program 33 continues to be executed (step 1/O).

Next, the saving process of system environment comparison information, which is a feature of this embodiment, will be explained using FIG. 3. Figure 3 shows
Step 2/O will be explained in detail (this is a flowchart shown in Figure 7). First, the stack is set in the stack area 52 of the backup memory 50 (Step 21). Then,
The CPU status and CPU clock status information are stored in this stack area 52 (step 212). Further, flags indicating the connection states of devices such as the floppy disk drive 7], the hard disk drive 7B, and the RAM board are read from the system management table 32 of the main storage device 30 and stored in the stack area 52 (step 213). This flag had already been set in the system management table 32 when the system was previously powered on.

Similarly, the status information of the I/O port is read and stored in the stack area 52 (step 214). Next, the memory addition result correction value area 51 of the backup memory 50
Initialize the area by writing “0” to
15). Then, using checksum, which is the first error detection method, the result of addition of the memory contents of main memory 30 and VRAM 40 is stored in stack area 52 (steps 216 and 217). As a specific calculation method, first, the contents of even addresses starting from address 0 of the storage device are added in order. Similarly, the contents of odd-numbered addresses starting from address 1 are added in order. The lower 1 byte of each addition result is stored in the stack area 52 as the addition result. Further, in step 217, after reading the image data from the VRAM 40, this data is stored in the backup memory 50.

The complement of the addition result thus obtained is stored in the memory addition result correction value area 51 (step 218).

The reason why the addition result is complemented is for the comparison processing of the system environment comparison information to be performed when the system is powered on next time.

The above process of saving the system environment comparison information to the backup memory 50 can be summarized as shown in FIG. First, complementary values of the addition results at odd and even addresses are saved in the memory addition result correction value area 51. Further, in the stack area 52, a flag indicating the connection state of the auxiliary storage device 70 and I/O boat status information, which have been saved in the system management table 32, are saved. moreover,
The image data stored in VRAM 40 has been saved to backup memory 50.

Next, the system environment comparison information restoration process performed after the system power is turned on will be explained using FIG. 4. FIG. 4 is a flowchart illustrating steps 270 and 280 in detail. First, the memory contents of the main storage device 30 are divided into odd and even addresses and added, and the lower one note of the result is taken. Then, the complement data stored in the memory addition result correction value area 51 of the backup memory 50 is read out, and this complement data is further added to the addition result (step 271). If the memory contents of the main storage device 30 are not destroyed between the system power-off and the next system power-on, the addition result performed in step 216 when the system power is turned off and step 271
is equal to the addition result in . Therefore, the main storage device 30
If the memory contents of are correct, “0” is generated by adding the complement data of step 216 and the addition result of step 271.
become. VRAM saved in backup memory 50
Similar calculations are made for image data No. 40 (step 272), and it is determined whether the addition result is "0" (step 281). Next, the I/O port status information is read and compared with the I/O port status information stored in the stack area 52 at the time the system power was turned off (steps 282 and 283). Furthermore, devices such as the floppy disk device 71, hard disk device 73, and RAM board are actually operated to check whether they are connected (step 284). The result of this investigation is compared with the flag indicating the connection state of the device stored in the stack area 52 to see if they match (step 285). If the system environment is the same as when the power was turned off through the comparison process with the system environment comparison information from step 281 to step 285, the buzzer sounds to notify the user that it is ready for use (step 300 ). Further, if there is no match in these comparisons, a message is displayed (step 290) and the system is stopped. By pressing the reset button, the user can use the computer without the register comb function.

〔Effect of the invention〕

If the data backup and restoration method of the information processing device of the present invention is used,
By comparing the system environment at system power-down to the system environment at subsequent system power-up,
It can be determined whether the system status has changed between the time when the system power is turned off and the time when the system power is turned on. This determination allows the user to accurately grasp the state of the system, and allows the user to continue using the information processing system only if the system state has not changed.

[Brief explanation of the drawing]

Figure 1 is a configuration diagram showing embodiments of the present invention, Figures 2-4
The figure is a flowchart showing the data backup and restoration method of this embodiment.
The figure is a conceptual diagram showing the saving process to the backup memory. ]O...CPU, 20...CPU clock device, 21
... CPU clock supply device, 22 ... CPU clock switching device, 30 ... Main storage device, 31 ... Control program, 32 ... System management table, 33 ... Application) 1-John program, 40 ... VRAM, 50
Backup memory, 51... Memory addition result correction value area, 52... Stack corer, 60... Input/output device, 61... Keyboard device, 62... Keyboard interface, 63... Display device, 64... Day Spray interface use, 65/backlight, 66...
・Buzzer, 67...Buzzer timer, 70.-Auxiliary memory device, 7.Toflo disk device, 72.FD
C, 73 hard disk device, 74-HD C180
...Power supply device.

Claims (1)

[Scope of Claims] 1. A storage device that stores data and a backup storage device that retains the stored data even after the system power is turned off, and the data stored in the storage device is backed up when the system power is turned off. In an information processing apparatus that saves data to a storage device and then restores the stored data saved to the backup storage device to the storage device when the system power is turned on, the system environment comparison information created before the power is turned off is When the system environment is turned on, the system environment is compared with the current system environment based on the system environment comparison information stored in the backup storage device. A data saving and restoring method for an information processing device, characterized in that a user is permitted to use the data. 2. The data saving and restoring method for an information processing apparatus according to claim 1, wherein the system environment comparison information is information obtained by error detection processing on data stored in the storage device performed when power is turned off. 3. The data saving and restoring method for an information processing apparatus according to claim 1, wherein the system environment comparison information is information on a connection state of a device. 4. The data saving and restoring method for an information processing apparatus according to claim 1, wherein the system environment comparison information is information on the state of an I/O port. 5. The processing speed of the control device that performs the evacuation and restoration process to the backup storage device, regardless of the current speed,
2. The data saving and restoring method for an information processing apparatus according to claim 1, wherein the processing speed is temporarily changed to a high speed only while the saving and restoring process is being performed.