JPH02131059A - Inter-processor communication method - Google Patents

Abstract

PURPOSE:To improve the test efficiency of an application program of an electronic exchange by allowing a terminal control processor to restart the operation of a main processor if the main processor is interrupted during the application program test and keeping a retransmission command to send till ACK information is received. CONSTITUTION:A main processor 103 prior to starting the test sends a test message to all terminal control processors 21-24. suppose that the main processor 103 is interrupted to reference the content of a main memory 104 after the reception of a call information message. Then the terminal control processors 21-24 send a retransmission message when a prescribed time of unreceived ACK information elapses. The main processor 103, when it is restarted, sends the ACK information corresponding to the call information message or the retransmission message to the terminal control processors 21-24.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an electronic exchange comprising a main processor and a large number of terminal control processors, and in particular to a processor suitable for improving the efficiency of testing application programs. The present invention relates to a communication method.

[Conventional technology]

In conventional electronic exchanges with large lines, functions are often distributed, such as using a dedicated processor to monitor and control terminals, but the test method for application programs in such cases often poses problems.

For example, when the number of controllers to be controlled increases as described in JP-A-59-214352, when the main processor is stopped and the contents of the memory are referenced, the terminal controller sends an information command to the main processor. Even if a retransmission command is issued, the ACK information is not returned.

Then, the terminal control processor considers that a communication failure has occurred even though the terminal is operating normally, sends a failure message to the main processor, and the main processor handles the failure.

As a result, there was a problem in that application programs could not be tested efficiently.

[Problem to be solved by the invention]

In the above conventional technology, when the main processor is interrupted during the test of an application program, the terminal control processor sends a call information message to the main processor, but no ACK information is returned, and furthermore, the terminal control processor issues a retransmission command. However, since no ACK information is returned, the main processor considers the terminal controller to be in a faulty state even though it is in a normal state, so there is a problem in that the application program cannot be depacked efficiently.

SUMMARY OF THE INVENTION An object of the present invention is to provide an inter-processor communication method that improves the efficiency of testing an application program for an electronic exchange that includes a main processor and a large number of terminal control processors.

[Means to solve the problem]

To achieve the above purpose, when the main processor is interrupted during application program testing, the terminal control processor identifies the interruption of the main processor,
It continues sending retransmission commands until the main processor is restarted and receives ACK information.

[Effect]

The main processor sends information to all terminal control processors that it is under test. During application program testing, the main processor
For example, interrupting the execution of the main processor to reference memory.

At this time, the terminal control processor sends a message to the main processor, but since the main processor is in a suspended state, no ACK information is returned.

The terminal control processor operates to continue sending retransmission commands until the main processor is released from the suspended state and the ACK information is returned.

〔Example〕

An embodiment of the present invention will be described below with reference to FIGS. 1 to 3.

FIG. 1 is a communication system diagram showing an embodiment of the inter-processor communication system of an electronic exchange according to the present invention.

In Figure 1, this communication method is used for terminals (including telephones) (1
The terminal control processors (21 to 18) control the terminals (11 to 18) by converting the monitoring and control of the terminals (1 to 18) into dedicated processors.
In this method, the state of the terminal detected in step 24) is notified to the main processor (103) via the switches (41 to 42) using a communication method having a simple protocol.

The inter-processor communication method is based on the terminal control processor (2
1 to 24) and the highway WHo”HW7 connected to the interface circuit (31 to 34)
A specific communication channel CHi (i-th time slot) (121-124) of (71-74) is used to transmit and receive control data to and from the communication control device (51-52).

The communication processor (100) periodically controls the communication control device (
51 to 52), and if there is control data for reception,
It is stored in the reception queue (102) of the common memory (101). The call processing process (106) issues a reception system call (107) and calls the reception system call (10).
7), if there is control data for reception in the reception queue (102), it is stored in the factory (105) designated by the call processing process (106).

When the main processor (103) sends a message, this procedure is reversed.

Message communication between the main processor (103) and the terminal control processors (21 to 24) is carried out using this processor.

FIG. 2 is a control flowchart of the main processor (103). FIG. 3 shows the terminal control processor (21
-24) is a control flowchart diagram.

Main processor (103) and terminal control processor (2)
The reception processes 1 to 24) are activated periodically.

Below, using Figures 2 and 3, the main processor (1
03) is interrupted, a method for efficiently conducting the test will be described.

First, before starting the test, the main processor (103) sends a test message (test flag (61 to 64) to all terminal control processors (21 to 24).
) is issued (process 200).

All terminal control processors (21 to 24) use periodic interrupts to determine whether or not there is a received message (step 301), and if there is no message, the process is performed in the next cycle.

If there is a received message, the process 302) determines whether the message is a test message, and the process 303) determines whether the message is a request to turn on the test flag of the test message.
1 to 24) are turned on (processing 305), and an ACK is sent to the main processor (103).
The information is returned (process 306).

Then, the main processor (103) uses a periodic interrupt to determine whether there is a received message or not.
)L,, if there is none, it will be processed in the next cycle.

If there is a received message, check whether the message is ACK information (processes 202 to 204), and if it is ACK information, perform ACK information reception processing (process 206).
.

Next, the terminal control processors (21 to 24).

Upon detecting a change in the state of the terminal (11-18), the terminal control processor (21-24) controls the main processor (10
3) sends a call information message to (processing 30
0).

If the main processor (103) is not interrupted, it is determined whether a call information message has been received or not. Process 202
), if it is received, the terminal control processor (21
~24), transmit ACK information (process 205)
).

The terminal control processors (21 to 24) perform a process 307) to determine whether or not an ACK has been received, and an ACK reception process (process 309).

On the other hand, it is assumed that the main processor (103) interrupts, for example, to refer to the contents of the main memory (104) after receiving the call information message.

The terminal control processors (21 to 24) determine whether or not an ACK has been received (process 307), but since the main processor (103) is suspended, the terminal control processors (21 to 24) will send a retransmission message if the ACK information cannot be received for a certain period of time. (processes 308, 310).

When the main processor (103) is not under test, the terminal control processors (21 to 24) send the call information message and retransmission message twice and if no ACK is returned, the terminal control processor (21-24) sends the main processor (103) Send a failure message (processes 308, 310, 312).

After that, when the main processor (103) restarts,
Send ACK information for the call information message or retransmission message (when the call information message disappears) to the terminal control processor (21 to 24) (processes 202, 203, 2)
05).

Upon receiving the ACK information (process 307), the terminal control processors (21 to 24) perform ACK reception processing (process 809).
)I do.

Finally, when the test is finished, the main processor (10
3) for the terminal control processor (21 to 24),
A test message (test flag off request) is transmitted (process 208).

Upon receiving the test message (test flag off request), the terminal control processors (21 to 24) perform (processing 30
1 to 303), turns on the test flags (61 to 64), and returns ACK to the main processor (103).

〔Effect of the invention〕

According to the present invention, in an inter-processor communication method of an electronic exchange including a main processor and a large number of terminal control processors, during testing of an application program,
Even if the main processor is interrupted, the terminal control processor issues retransmission messages until the ACK information is returned from the main processor, so there is no communication failure, so testing can be carried out efficiently.

[Brief explanation of drawings]

FIG. 1 is a communication system diagram showing an embodiment of the inter-processor communication system of an electronic exchange according to the present invention, FIG. 2 is a control flowchart of the main processor, and FIG. 3 is a control flowchart of the terminal control processor. 11-18...terminals (including telephones), 21-24...
- Terminal control processor, 31-34...interface circuit, 41-42...switch, 51-52...
Communication control device, 61-64...Test flag, 71-
74...Highway HW o" HW 7.100
...Communication processor, 101...Common memory, 10
2... Reception queue, 103... Main processor, 104... Main memory, 105... Area specified by call processing process, 106... Call processing process, 107... Reception system Cole, 121-124
...communication channel.

Claims (1)

[Claims] 1. In an electronic exchange consisting of a main processor and a large number of terminal controllers, a test flag is provided to indicate whether or not an application program is being tested, so that even if the main processor is interrupted during the test, An inter-processor communication method characterized in that a terminal control processor issues retransmission commands to a main processor until receiving ACK information.