JPS61289450A - Communication control equipment - Google Patents

Abstract

PURPOSE:To execute the recognition of the cause of a fault and the removal of the fault effectively by encoding and displaying abnormal information through a service processor. CONSTITUTION:When an abnormal state is generated, abnormal factor information collected by a control part CP in a communication control equipment CCP is stored in a buffer area of the control part CP and then reinitializing processing is requested to the service processor SVP. The SVP encodes the abnormal factor information, stores the encoded data in a file device and displays it on a display device. In the communication control equipment CCP operating the control part CP which is provided with no specific interface mechanism with the SVP, the recognition of the cause of the falt and the removal of the fault can be effectively attained on the user side only by observing the encoded information on the display device.

Description

[Detailed Description of the Invention] [Required] In a communication control device (CCP) equipped with a service processor (SVP) interface function and in an operational state,
When an abnormal state occurs, the abnormality cause information collected by the control unit (CP) of the communication control device (CC1) is stored in a buffer area within the control unit (CP), and then the service processor (SVP) ), the service processor (SVP) receives the above-mentioned abnormality cause information and stores it in a file device, and displays a code on a display device, for example, a display panel. It is designed to be displayed in digitized form.

[Industrial application field]

The present invention relates to a communication control unit (CCI) equipped with a service processor (SVP) interface function, and in particular, a control unit (CP) of the communication control unit (CCP) collects information.

A process of storing analyzed abnormality factor information in the file device of the service processor (SVP) and displaying it on a display device, such as a display panel, using the initialization function originally provided in the service processor (SVP). Regarding the method.

With the recent spread of computer systems, construction of online systems that perform data communication by connecting multiple terminals and host computers with so-called communication control units (CCP) has become popular in various industries. .

When an abnormality occurs in such an online system, there is a problem that the social impact becomes large, and it is required to remove the abnormality as soon as possible.

For this purpose, the user operating the online system needs to be able to quickly and easily recognize the cause of the abnormality and make a "failure call" to the system provider.

[Conventional technology]

Among conventional communication control devices (CCP3), some do not have a service processor (hereinafter referred to as SvP), while others do have SvP, and the failure display methods differ depending on each system type. was.

1) For communication control equipment (CCP) that does not have SVP.

Figure 3 shows a communication control unit (CCP) that does not have an svp.
1 is a diagram schematically showing a conventional failure display method in FIG.

First, when a failure occurs during the operation of communication control in the communication control device (CCP) l and the control unit (for example, control program (CP)) 11 is notified, the control unit (CP) 11 performs a predetermined program. After collecting failure data and storing it in a buffer area ill provided in the control unit (CP) 11 according to the established procedure, the host computer 2 etc. is notified of the occurrence of the failure.

When the host computer 2 receives the failure notification,
Correspondence system? A dump request is sent to the Il device (CCP) 1, and the control unit (CP) 11 of the communication control device (CCP) 1 that receives the request dumps the contents of the buffer area 111 to the host computer 2.

The host computer 2 analyzes the dumped failure factor data and displays it on an output device 21 such as a display device.

2) In the case of a communication control unit (CCP) equipped with SVP.

FIG. 4 is a diagram schematically showing a conventional failure display method in a communication control device (CCP) 1 equipped with an SVP.

In this fault display method, if a fault occurs during operation,
When storing failure data in the buffer area 111 in the control unit (CP) 11 of the communication control device (CCP) 1, the failure data is analyzed and stored in the buffer area l11.

Thereafter, a request to transfer the failure factor data is sent to the SVP 3, and when the request is accepted, the contents of the buffer area 111 are transferred to the SVP 3, and the SVP 3
, the failure factor data is recorded in the file device 31 provided in the SvP itself, and the SVP 3
The display device, for example, the display panel 32, codes (for example, encodes in °888'') and displays it.

In this case, the dump operation accompanying the failure notification to the host computer may be performed in the same manner as in case 1) above.

[Problem that the invention seeks to solve]

Therefore, in the conventional system, 1) A communication control device (CCr'
): Due to the fault notification from communication control unit (CCP) 1,
After the host computer 2 requests the communication control device (CCP) 1 to dump failure data, the dump data is transferred to the host computer 2, and the failure data is displayed on the display device 21 in the host computer 2 and analyzed. Even if it is displayed, the host computer 2 is displaying the data processing results of general operations, so there is a problem in that it takes time to search for failure data of the communication control device (CCP) 1.

2) In the case of a communication control unit (CCP) equipped with SVP: In this case, the fault data stored in the buffer area 111 in the control unit (CP) 11 of the communication control unit (CCP) 1 is It is analyzed by cause, making it easy to recognize the cause of the failure, but the failure data is
It was necessary to create a new processing mechanism and transfer route for transferring to VP 3.

In view of the above-mentioned conventional drawbacks, the present invention provides a communication control device (CCP).
) The control unit (CP) 1 of SVP 1 has conventionally been able to provide a special processing mechanism for transferring failure factor data collected and analyzed by the control unit (CP) 11 to the SVP 3. Communication control unit (CCP) without 3
10 The control unit (CP) 11 also has a function of collecting abnormality cause information when an abnormality occurs and storing it in the buffer area Ill. CP) 11 is 5vp after abnormality processing
When the SVI' 3 enters reinitialization processing by requesting reinitialization processing to SVI' 3, the above information collected by the control unit (CP) 11- is displayed in order to display the cause of the reinitialization. The purpose of this invention is to provide a method for importing abnormality cause information into the file device 31 in the SVP a and displaying it on the display device 32 as well.

[Means for solving problems]

FIG. 1 is a diagram schematically showing the concept of the fault display method of the present invention.

In the communication control unit (CCP) 1 in operation, when an abnormality occurs in the communication control processing section (consisting of hardware, for example), the fault processing section in the control section (CP) 11 is activated and the fault processing section is activated. Data is collected, analyzed, and stored in buffer area 111.

In this process, if it is recognized that the content of the failure is an important failure, a reinitialization process is requested to the SVP3.

Upon receiving the request, the SVP 3 reads the failure factor data stored in the buffer area 111 of the control unit (CP) 11, converts it into a code, and stores it in the file device 3 of its own device.
1 and displayed on the display device 32. After that, the process moves to normal reinitialization operation.

[Effect]

That is, according to the present invention, a service processor (SVP)
When an abnormal state occurs in a communication control unit (CCP) equipped with an interface function and in operation, the control unit (CP) of the communication control unit (CCP) collects
After storing the abnormality cause information in the buffer area in the control unit (CP), by requesting the svp to reinitialize, the svp receives the abnormality cause information and converts it into a code through the reinitialization process. Since the information is stored in a file device and displayed on a display device, it is particularly useful for communication control devices (CCP) in which a control unit (CP) that does not have an interface mechanism with SvP is operating.
Even in this case, the SVP can reliably read and code the abnormality factors collected by the control unit (CP) and store them in the confession file device, and can also display the coded failure factors on the display device, so the user can On the other hand, there is an effect that the cause of the failure can be recognized and the failure can be removed efficiently just by looking at the coded information on the display device.

〔Example〕

Embodiments of the present invention will be described in detail below with reference to the drawings.

FIG. 2 is a diagram schematically showing an embodiment of the present invention, in which the same reference numerals as in FIGS. 3 and 4 indicate the same objects, and when an abnormality occurs, the communication control device ( A mechanism for transferring control to the reinitialization function provided in CCP) l is a necessary function to implement the present invention.

First, when the control unit (e.g., control program, hereinafter referred to as CP) 11 in the communication control device (CCP) 1 is loaded and operating, if an abnormal state occurs in the communication control device (CCP), the above-mentioned An interrupt to that effect occurs to the CP 11, and as part of the abnormality recovery process, the CP 11 analyzes the abnormal data and converts it into information (for example, coded information) that can determine the cause of the abnormality. rear,
The information is stored in buffer area Ill within CPII.

After that, if the CI' 11 determines that the abnormality is serious, the communication control unit (CCP) 1 issues a request for reinitialization processing to move to retry processing from initialization. do.

The retry process is performed with 5VP based on instructions from CP 11.
This is done under the control of 3.

When SVP 3 receives a request for reinitialization processing from CP 11, it needs to recognize the cause of the reinitialization processing, so SVP 3
Buffer area 111 storing 11 abnormality cause information
When the cause information of the failure is stored, the information is extracted, encoded into information that the user can immediately recognize, and stored in the file device 31 of the SVP 3. 32, a message to that effect is displayed.

When the SVP 3 completes the extraction and storage of the abnormality factor information, the SVP 3 reinitializes the communication control device (CCP) 1 and returns the communication control device (CCP) 1 to its normal operating state.

In this way, in the present invention, the communication control device (CCP
) When an error occurs in CI'11, CI'11 becomes SVP.
For 3, without performing any processing to transfer special information,
By using the SVP 3's original failure cause information access mechanism at the time of reinitialization, it can be coded in the file device 31 of the SVP 3 to facilitate user recognition.
The feature is that the abnormality factor information is reliably stored and also displayed on the display device.

〔Effect of the invention〕

As described above in detail, the communication control a device of the present invention is capable of controlling the communication control device when an abnormal state occurs in the communication control device (CCP) that is equipped with a service pro sensor (SVIυ interface function and is in operation). 1111 device (C
After the control unit (CP) of the control unit (CP) stores the collected abnormality cause information in the buffer area within the control unit (CP),
By requesting the reinitialization process to the SVP, the SVP receives the above-mentioned abnormality factor information, converts it into a code, stores it in the file device, and displays it on the display device. , especially SVP
Control unit (CP) that does not have an interface mechanism with
Even in a communication control unit (CCP) in which s
The VP can reliably read the abnormality factors collected by the control unit (CP), code them, and store them in the confession's file device, as well as display the coded failure factors on the display device, so the user can , recognition of the failure factor just by looking at the coded information on the display device.

This has the effect that the obstacles can be removed efficiently.

[Brief explanation of the drawing]

FIG. 1 is a diagram schematically showing the concept of the fault display method of the present invention. FIG. 2 is a diagram schematically showing an embodiment of the present invention. FIG. 3 is a diagram schematically showing a conventional failure display method in a communication control device (CCP) that does not have an SVP. FIG. 4 is a diagram schematically showing a conventional failure display method in a communication control device (CCP) equipped with SvP. It is. 8 in the drawing, 1 is a communication control device (CCP), 11 is a control unit (CP
). 111 is a buffer area, 2 is a host computer. 21 is an output device. 3 is a service processor (SVP). 31 is a file device, and 32 is a display device. are shown respectively.

Claims (1)

[Claims] A service processor (SVP) (3) that monitors and controls the operating state of a communication control device (CCP) (1), and a file device (3) that records information under the service processor (SVP) 3. 31) and a display device (3
2) a communication control device (CCP) (1) having the following, when an abnormality occurs in the communication control device (CCP) (1), notifies the control unit (CP) (11) to that effect; The control unit (CP) (11) stores the collected data of the abnormality factor information in the buffer area (1) in the control unit (CP) (11).
11), the service processor (SVP) (
3) is provided, and the service processor (SVP) (3) that receives the request transmits the abnormality factors collected by the control unit (CP) (11).
The buffer area (111) in the control unit (CP) (11)
), and stores the abnormality factor data in a file device (31), and displays the abnormality factor data on a display device (32).