JPS62189843A - Communication control equipment - Google Patents

Abstract

PURPOSE:To allow the titled equipment to cope with a fault without stopping the entire equipment by converting a designation line number inputted attended with a communication request from a communication line into a prescribed line number and using a line connection section of the prescribed line number to apply communication control. CONSTITUTION:Various control tables and transmission/reception buffers in a memory 23 of a communication control equipment are set initially in the unit of lines from a control processing unit, a diagnostic program is started at the same time to diagnose line connection sections 24 sequentially. When a communication request to a line interface 1011 takes place from the central processing unit, the line number of the connection section 241 is inputted to the communication control equipment via an input/output channel 100 and fetched into a microprocessor 22 via a bus 200. The microprocessor 22 converts the inputted line number into a prescribed line number, uses a line connection section 24 having no fault for communication control and displays the operating line number.

Description

[Detailed description of the invention] [Industrial application field] The present invention relates to a communication control device for data communication.

In particular, the present invention relates to a communication control device that is connected to a central processing unit, has a plurality of line control units, and switches a failed line connection unit to a healthy line connection unit.

〔overview〕

The present invention provides a communication control device for data communication that converts a specified line number input in response to a communication request from a communication line and a central processing unit into a predetermined line number, and displays conversion information, and By controlling communication requests using numbered line connections, there is no need to change software or firmware interfaces, and a faulty line connection can be replaced with a healthy line connection without having to shut down the entire data communication equipment. It is designed so that it can be switched.

[Conventional technology]

Conventionally, in a communication control device, if a failure occurs in the line connection, the power of the communication control device is turned off,
Either the faulty line connection was converted to a normal line connection, or the line switching device was used to switch to a pre-prepared standby communication control device.

[Problem that the invention seeks to solve]

However, in such conventional communication control equipment, there is no means to switch over the faulty line connection, so it is necessary to turn off the power to the entire communication control equipment and manually replace the faulty line connection. , or a line switching device is used to switch to a standby communication control device that has been prepared in advance, so even if there is a limited failure in only one line, all other normal lines of the communication control device will also be stopped. However, in the worst case scenario, it had the drawback of leading to system failure. Furthermore, when a line switching device is used, the construction cost increases, and the floor space and power consumption also increase.

The present invention solves the above-mentioned drawbacks and provides a communication system that does not require changes to software and firmware interfaces and can switch a faulty line connection to a healthy line connection without stopping the entire data communication control equipment. The purpose is to provide a control device.

[Means for solving problems]

The present invention provides a plurality of line connection sections connected to a central processing unit, assigned line numbers in advance and connected to partner stations via communication lines, and a plurality of line connection sections connected to the central processing unit. In a communication control device for data communication, the microprocessor converts a specified line number input in response to a communication request from the central processing unit or the communication line into a predetermined line number. using a line number conversion means for converting into , and a line connection part of this predetermined line number
It is characterized in that it includes a control means for controlling communication related to the communication request, and a display means for displaying conversion information of the line number conversion means.

[For production]

The line number conversion means converts the specified line number input in response to a communication request from the central processing unit or the communication line into a predetermined line number instructed by the central processing unit, and the control means uses the converted line number. By using the line connection unit to control communication of communication requests on the central processing unit or communication line, and displaying the conversion information of the line number conversion means on the display means, there is no need to change the software or firmware interface, and failures can be avoided. A certain line connection can be switched to a healthy, unused or spare line connection without stopping the entire data communication device.

〔Example〕

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

FIG. 1 is a block diagram of a communication control device according to an embodiment of the present invention.

The feature of the present invention is the line connection control section shown in FIG. That is, transmission data is connected from the central processing bag ff1O, which is a host device, to the communication control device 20 via the input/output channel controller 1) and the input/output channel 100, and the communication control device 20 controls the interface with the central processing device 10. is performed, and transmission control and line connection control are also performed. Transmission data controlled by the communication control device 20 is connected to a communication line (not shown) via a predetermined line interface 101, and is transmitted to a partner station (not shown).

Further, data received from a partner station (not shown) is connected to the communication control device 20 via a communication line and line interface 101 (not shown). The communication control bag W20 performs line connection control, transmission control, and interface control. Received data from the communication control device 20 is connected to the central processing unit IO via the input/output channel 100 and the input/output channel controller 1).

A system console 40 including a display device 41 is connected to the central processing bag ff1O via an input/output channel 103, and line connection information and the like are displayed on the display device 41.

The operation of the communication control device having such a configuration will be explained. FIG. 2 is a detailed diagram of the communication control device of the present invention. Second
In the figure, a line connection unit 2 is connected via a bus 200 to an input/output channel adapter 21 that controls a microprocessor 22, a memory 23, and an input/output channel 100 to exchange data with the input/output channel controller 1).
4. ~24. is connected.

FIG. 3 is a block diagram of the line number conversion circuit of the microprocessor of the communication control device of the present invention. In FIG. 3, 51 is a data register, 52.54 is a line number register, 53 is a line number conversion register file, 55 is a priority selection circuit, 57.59 is an interrupt line number register, and 58 is an interrupt line number conversion register. A register file, 56 is a multiplexer, and 3001 to 3008 are interrupt lines. The line number conversion register file 53 and the interrupt line number conversion register file 58 each have addresses 0 to 7, and addresses n (n is θ to 7) are respectively assigned to the line connection section 24. ~246. Also bit 0
~ Has a storage area of 7 bits. Of these, bit 0 is
A conversion bit indicating whether or not the line number of the line connection section 24 is converted. Bit 1 is a valid bit indicating whether or not the line connection section 24 is healthy. Bit 2 is the conversion bit indicating whether the line connection section 24 is actually converted. The unused/reserve bits and bits 3 to 7, which indicate whether the line is being used, unused, or reserved, are used as a line number area indicating the line number after conversion.

In FIGS. 1 to 3, before actually using the line, the communication control device I
Various control tables, transmission/reception buffers, etc. are initialized in the memory 23 of O for each line. Also, at the time of initial setting, the line connection section 24. ~24. A diagnostic program is started to check whether or not the next line connection section 24. ~
24a is diagnosed.

If this diagnosis is normal, "1" is written in the bit 1 area of the corresponding address of the line number conversion register file 53 and the interrupt line number conversion register file 58.
” is written, and if a fault is detected, rOJ is written. At the same time, the conversion bits of the line number conversion register file 53 and the interrupt line number conversion register file 58,
Predetermined information is written in the unused/reserve bits and line number area.

Table 1 is a table showing the internal logical states of the line number conversion register file and the interrupt line number conversion register file before a failure occurs in the line connection section of the communication control device of the present invention. Since all the line connections 24 are healthy, the bit 1 of each address 0 to address 7 is set to "1", and in order to make only the line connection 248 an unused/reserve line connection, bit 2 is set to "1". Only address 7 is set to "1". The line number area (bits 3 to 7) includes each line connection section 241 to 24. The line number assigned in advance is set in binary, and since there is no line connection unit 24 that converts the line number at first, the conversion bit (bit 0) is set.
are all cents "0".

Table 1 When a communication request is generated from the central processing unit 10 to, for example, the line interface line 101), the line number (roooOJ in binary) of the line connection unit 24 connected to the line interface 101) is the communication request. Accordingly, the signal is input to the communication control device 20 via the input/output channel 100. This line number "0000" is taken into the microprocessor 22 via the input/output channel adapter 21 and bus 200 shown in FIG. It is set in register 52. Therefore, the line number ro 0000 written in bits 3 to 7 of the address ro OOOJ of the line number conversion register file 53 is
J is read out and set in the line number register 54. The microprocessor 22 reads the line number from the line number register 54 via an internal bus (not shown), and since it is ro 0000J, the line connection 24. , and connect the input/output channel adapter 21 and line interface line 101. and the line connection section 24. , and thereafter perform predetermined communication control.

Also, for example, the line interface line 101. When there is a communication request to the central processing bag W10 from a communication line connected to the communication line connected to the central processing bag W10, the line connection unit 24. The line number r0000J entered in is the line interrupt line 300. shown in FIG. The signal is input to the priority selection circuit 55 via. The priority selection circuit 55 is connected to the line connection section 24. ~
24. When there are multiple interrupts at the same time via line interrupt lines 300 to 3008 corresponding to
This is a circuit that selects one based on the position. When the line number r0000J is accepted by the priority selection circuit 55, it is set in the interrupt line number register 57 via the multiplexer 56. Therefore, the address of the interrupt line number conversion register file 58 is “
0000'' is read out and the interrupt line number register 5 is read out.
9 is set to ro 0000J. The microprocessor 22 connects the line connection section 24 .with the line number set in the interrupt line number register 59 . , and connect the line interface line 101) and input/output channel adapter 21.
and control requested communications.

After the line is actually in use as described above,
For example, when a failure occurs in the line connection unit 241, the microprocessor 22 starts a program for failure recovery, and the line connection unit 24 in which the failure occurs is connected to the line connection unit 24. If it is determined that this is the case, the following processing is automatically performed.

Table 2 is a table showing the internal logical states of the line number conversion register file and the interrupt line number conversion register file after the line connection section of the communication control device of the present invention is switched.

Table 2 The microprocessor 22 switches the input of the multiplexer 56 to the internal bus side, and also switches the input of the multiplexer 56 to the data register 51.
Set loooollJ and line number register 52
By setting ro 000J in
From olooooooJ to rloooooo as shown in Table 2
lllJ and line connection section 24. The line number will be converted and the line number after conversion will be line number ro.
1) Set it to be 1J. Next, data register 5
Set rolooollJ to 1, set ro1)1J in the line number register 52, and write information at address 7 in the line number conversion register file 53 and interrupt line number conversion register file 58 to initially r01)00.
1) From 1J, roloooll as shown in Table 2
J, and set so that the line connection section 24a is actually used. A fault has occurred and the line connection section 24. is no longer available, and a spare line connection 24. is used instead. A message indicating that the switch has been made is displayed on the display device 41 in the system console 40 to notify the operator. At this time, as auxiliary information, after a failure occurs in the line connection section 241,
Line connection section 24. The contents of the internal logical states of the line number conversion register file 53 and the interrupt line number conversion register file 58 shown in FIG. 3 when the switch is made are displayed on the display device 41.

Message and auxiliary information, ie line connection 24.
Bit 2 of the internal logic state corresponding to “1” to “0”
bits 3 to 7 change from “000” to rl
1) By seeing that it has changed to J, the operator can connect the line connection 24. becomes unusable due to a failure, and the line connection section 24. You can easily tell that the switch has been made. In the trouble recovery work, the operator confirms the above internal logical state and connects the line interface line 1 to the line connection section 24e.
A communication line and a line connection unit 23 connected via 01e.
line interface &? 1)01. For example, the line interface line 101
．． The process is completed by exchanging and reconnecting the line interface line 101s and the line interface line 101s. Note that when this communication line is switched, the effect of the switch is on the line connection section 24. ．． Since it stops at 24g and does not reach the bus 200, the communication control device 20 can be left in the "on" state without turning off the power. Therefore, the line connection section 24 during normal operation. ~24
．． It becomes possible to switch communication lines without stopping the operation.

After the contents of the line number conversion register file 53 and the interrupt line number conversion register file 58 have been changed as described above and the repair work has been completed, for example, a communication request is issued from the central processing unit 10 to the line interface line 101). In this case, the line number ro OOOJ input with the request is sent to the line number register 52, and the line number ro OOOJ is sent from the line number conversion register file 53.
The line number of llJ is read. That is, the specified line number "0000J" is converted to roolllJ. This roolllJ is set in the line number register 54, and the microprocessor 22 activates the line connection section 248 based on the contents to connect the central processing unit 10. Connect the input/output channel controller 1) to the input/output channel adapter 21
, the line interface line 10 via the line connection part 24m
1. Connect to. Since the contents of the interrupt line number conversion register file 58 have been converted in the same way as the line number conversion register file 53, when a communication request to the central processing unit IO occurs from the communication line connected to the line ink face cotton toit, Also, the line number ro accompanying the request
OOOJ is converted to "001)1" and the line interface &? ! 101) is the line connection section 24. It is connected to the input/output channel adapter 21 and the central processing unit 10 via. Note that the line number and line interface line 101. which are sent in response to a communication request from the central processing unit 10.
The line number sent in response to a communication request from the central processing unit 10 is not changed, and the original line number can be used.
Also, there is no need to change the software and firmware interface of the communication control device 20 and the like.

〔Effect of the invention〕

As explained above, the present invention has an economical structure that eliminates the need to stop the entire data communication device when a fault occurs in a line connection, and does not require a standby communication control device. This has the excellent effect of being able to switch a faulty line connection to a healthy line connection. Further, since the line number sent from the central processing unit in response to a communication request does not need to be changed and the original line number can be used, there is an advantage that there is no need to change the software and firmware interface.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a communication control device according to an embodiment of the present invention. FIG. 2 is a detailed diagram of the communication control device of the present invention. FIG. 3 is a block diagram of a line number conversion line of the communication control device of the present invention. DESCRIPTION OF SYMBOLS 10... Central processing unit, 1)... Input/output channel controller, 20... Communication control device, 21... Input/output channel adapter, 22... Microprocessor,
23...Memory, 24...Line jtD continuation part, 40.
...System console, 41...Display device, 51.
...Data register, 52.54...Line number register, 53...Line number conversion register file, 55.
...Priority selection circuit, 56...Multiplexer, 5
7.59...Interrupt line number register, 58...Interrupt line number conversion register file, 100.103...
Input/output channel, 101... line interface line,
300...Line interruption line.

Claims (1)

[Claims] (1) A plurality of line connection units connected to the central processing unit, each having a line number assigned in advance and connected to the other station via a communication line, and a line connected to the plurality of line connection units and the central processing unit. In a data communication communication control device comprising a microprocessor that performs connection control, the microprocessor converts a specified line number input in response to a communication request from the central processing unit or the communication line into a predetermined line number. A line number conversion means for converting, a control means for controlling communication related to the communication request using the line connection section of the predetermined line number, and a display means for displaying conversion information of the line number conversion means. A communication control device comprising: