KR100953510B1 - apparatus having function for managing restart information - Google Patents

Abstract

The present invention relates to a device having a restart information management function, the device comprising: a detection unit for detecting a cause corresponding to a current restart among a plurality of causes for the device restart; And a storage unit for storing the detected cause and the number of restarts caused by the detected cause. According to the present invention, it is possible to manage the history of the device restart due to a failure or the like and provide it to the user, thereby contributing to maintaining the quality of the device and service.

Description

Apparatus having function for managing restart information}

1 is a block diagram showing the configuration of an apparatus having a restart information management function according to an embodiment of the present invention.

The present invention relates to a device for managing the history of the device restart due to a failure, etc., to contribute to maintaining the quality of the device and service.

Various devices such as network equipment are often restarted due to an external failure due to a power failure, a power off / on by a user, a user input of a restart command, or a restart event caused by a monitoring function.

In the event of frequent device restarts, in order to maintain stable device operation and service quality, the administrator or user who manages the device should take action to eliminate the cause of the restart. Examples of such measures include: If it is judged that frequent restarts are caused by failures caused by the external environment such as a power failure, it is necessary to create an external environment that can provide a stable power supply, and restart due to the failure of the device itself or the failure of some modules belonging to the device. If it is determined that this occurs frequently, it will be necessary to perform a replacement of the device or replacement of some modules.

However, to carry out these actions, the precondition is that an administrator or user must know the history of restarts in advance. Identifying the cause of the restart itself has its own limitations.

An object of the present invention is to provide a device that can contribute to maintaining the quality of devices and services by managing the history of device restart due to a failure.

In order to achieve the above technical problem, a first aspect of the present invention provides a detection unit for detecting a cause corresponding to a current restart among a plurality of causes of device restart; And a storage unit for storing the detected cause and the number of restarts caused by the detected cause.

In order to achieve the above technical problem, a second aspect of the present invention provides a self restart signal generation unit that generates a self restart signal when a self restart event occurs; And a storage unit for storing the number of restarts for each generation cause of the restart signal.

Hereinafter, embodiments of the present invention for solving the above technical problem are described with reference to the accompanying drawings.

Exemplary causes for restarting the device may include an external failure due to a power failure, a power off / on by a user, a restart command input by a user, or a restart event caused by a monitoring function, but is not limited thereto. no. Here, the external failure due to a power failure, and the power off / on by the user belong to the restart event generated by the change of the power state, and the restart event according to the user's restart command input and the monitoring function belongs to its own restart event.

1 is a block diagram illustrating a configuration of an apparatus having a restart information management function according to an embodiment of the present invention.

Referring to FIG. 1, a central processing unit (CPU) 100, a watchdog timer 110, a restart controller 120, a storage 130, a power module 140, And a monitoring unit 150, an AND gate 160, and a display unit 170.

First, when a user inputs a restart command to an input unit (not shown) such as a button or a keyboard of the device, the operation of the device of the present embodiment will be described. The restart command input to the input unit is transmitted to the CPU 100, and the storage unit 130, which is implemented as a register, provides a cause of restart (here, input of a user restart command) directly from the CPU 100 or via other logic. In response to the cause, the number of restarts for each cause is accumulated and restarted, and the restart control unit 120 reports the occurrence of the restart cause directly from the CPU 100 or via other logic to generate a self-restart signal.

Second, the operation of the apparatus of the present embodiment related to the restart according to the watchdog function will be described. The watchdog timer 110, which may be implemented as a counter, performs up counting or down counting continuously in a watch function activation state, and when a clear signal is received from the CPU 100, a counting value or a timer value is initialized. do. In the meantime, if the timer has timed out due to a failure of the software (timeless loop or CPU hang up), for example, because a clear signal is not provided in a timely manner, the watchdog timer 110 restarts that the timer has expired. The controller 120 generates a restart signal in response to the controller 120. In addition, the storage unit 130 receives the report that the watchdog timer 110 has expired, either directly from the watchdog timer 110 or from the restart controller 120, and accumulates the number of restarts for each cause (here, the watchdog timer expires).

Third, when a restart event generated due to a change in power state occurs, the operation of the apparatus of the present embodiment will be described. Here, examples of restart events generated by fluctuations in the power state may include external failures due to power failure, power off / on by the user, and the like. The monitoring unit 150 monitoring the state of the power supply module 140 that supplies power to the entire device detects the occurrence of a restart event due to an external failure due to a power failure, a power off / on by a user, or the like. The restart controller 120 receives a report indicating that a restart event generated by a change in power state is generated from the monitoring unit 150, and a signal for initializing the stored contents of the storage unit 130, that is, the number of restarts for each cause. It generates and provides to the storage unit 130. As described above, the restart signal generated by the power off / on by the user may be used as a signal for initializing the storage unit 130. In addition, the user may initialize the software program to the input unit (not shown). Even when a command is input, the device may be implemented such that the storage unit 130 is initialized. However, in order to ensure that the contents of the storage unit 130 (that is, the history of restart) can be maintained by the self restart signal, as shown in FIG. It is preferable to process.

In FIG. 1, the AND gate 160 collects a restart signal generated by the restart control unit 120 and a restart signal generated by the power state change generated by the monitoring unit 150 to generate a restart signal. Provided to the CPU 100 or the like so that the device can be restarted. In FIG. 1, the AND gate 160 having the function of collecting the signal is based on an active low input, and, if the self restart signal and the restart signal according to the power state change are made active high, In this case, it can be fully understood by those skilled in the art that an OR gate (not shown) may be located instead of the AND gate 160 in FIG. 1.

The display unit 170 displays restart information (that is, the number of restarts by cause) stored in the storage unit 130 and provides the same to the user. As a result, the user can understand the history of restarts and take the necessary measures to maintain the stability of the device and the quality of service.

Meanwhile, in FIG. 1, a non-volatile memory in which a program which is responsible for basic operation of the CPU 100 is stored is not illustrated for convenience. The first interface between the CPU 100 and the storage unit 130, the CPU 100, and monitoring The second interface between the timers 110 is not explicitly shown for convenience, the watchdog timer 110, the restart control unit 120, and the storage unit 130 may include one complex programmable logic device (CPLD) or one FPGA. (Field Programmable Gate Array) or the like can be fully understood by those skilled in the art. For reference, as an example of the first interface, an output terminal of the CPU 100 is configured as a local bus including an address bus and a data bus, and information stored on the address bus and the data bus is decoded and stored between the storage 130 and the local bus. A register decoder provided to the unit 130 may be provided. An example of the second interface is that the watchdog timer 110 receives the corresponding information from the output of the CPU 100 configured as a general purpose input / output port. In this method, the output terminal of the CPU 100 is configured as a local bus including an address bus and a data bus, and between the storage 130 and the local bus, the information on the address bus and the data bus is decoded to monitor the watchdog timer 110. An example is a method of having a register decoder provided in.

The device of FIG. 1 is illustrated from a hardware implementation point of view. In order to classify the device of the present invention into a functional module, a detection unit (not shown) which detects a cause corresponding to a current restart among a plurality of causes of device restart, is shown. ); A storage unit 130 for storing the detected cause and the number of restarts caused by the detected cause; A self restart signal generator (not shown) for generating a self restart signal when a self restart event occurs; And a restart signal generating unit (not shown) for generating a restart signal for generating a device restart when at least one of a restart event generated by a change in a power state and generation of the self restart signal occurs. Here, the detection unit (not shown) which describes the function of the CPU 100 to detect the user's restart command input and notify the storage unit 130 and the function of the restart control unit 120 to notify the storage unit 130 of the expiration of the timer. The self restart signal generator (not shown) performs the function of the restart controller 120 to generate a self restart signal. In addition, examples of the restart signal generator (not shown) include an AND gate 160 and other drivers (not shown) positioned at the front and rear ends of the AND gate 160 to generate waveforms of restart signals suitable for each module. Can be mentioned.

Such a method and apparatus of the present invention have been described with reference to the embodiments shown in the drawings for clarity, but these are merely exemplary, and various modifications and equivalent other embodiments are possible to those skilled in the art. Will understand. Therefore, the true technical protection scope of the present invention will be defined by the appended claims.

According to the present invention, by distinguishing and recording the restart according to the external factors of the equipment and the internal factors of the equipment, in the case of the internal factors, the state can be monitored for a long time to enable rapid equipment replacement, etc. It can also be used as a basis for reducing friction. In addition, according to the present invention can improve the quality of the equipment and the quality of the service can contribute to the sales of the equipment or sales of the operator.

Claims (9)

A central processing unit for outputting a first signal in response to a restart command input from a user; A restart controller configured to generate a second signal when a restart event according to the monitoring function occurs or the first signal is received from the central processing unit; A monitoring unit generating a third signal in response to the power supply state changing from off to on; A restart signal generator for generating a restart signal to cause a device restart in response to the generation of the second signal or the third signal; And A storage unit for accumulating and recording the number of restarts for each restart cause, The restart cause may include a restart command input from the user, generation of a restart event according to the monitoring function, and a change of the power state. delete The method of claim 1, And a display unit for displaying the number of restarts for each restart cause. The method of claim 1, wherein the storage unit A device having a restart information management function, wherein previously stored contents are initialized when a predetermined event occurs. The method of claim 4, wherein the predetermined event is Device having a restart information management function, characterized in that it comprises at least one of a failure due to the external environment of the device, power off / on, input by the user. delete delete delete The method of claim 1, wherein the storage unit, And pre-stored contents are initialized in response to the generation of the third signal.

Images