JPS62285546A - Traffic load generator - Google Patents

Abstract

PURPOSE:To attain the load test with high accuracy and to save the man-hour for the load test of a facsimile message store and forward exchange system by building up versatile and diverse load test programs in the form conversing with a CPU. CONSTITUTION:Storage means 2, 3 storing the load test program and the load test data to a message store and forward exchange system, a control section 4 instructing the load test program through the operation of a console equipment 1, and an input/output control section 5 connecting a load test object equipment 6 and the control section 4 by a specified protocol (V, 25) at the load test and applying test data input/output control with the load test object device 6 accord ing to the load test program are provided. The console device 1 executes versa tile and diverse load tests by giving a test data to the load test object device 6 from the input/output control section according to the versatile and diverse test program read from the storage means 2,3 to the control section 4 in the conversation form without manual intervention.

Description

Detailed Description of the Invention 3. Detailed Description of the Invention [Field of Industrial Application] The present invention relates to a traffic load generator for traffic testing of a facsimile message storage and forwarding system, particularly in compliance with the CCITT Recommendation X, 25 protocol. It is something.

[Conventional technology]

Conventionally, when load testing a facsimile message store-and-forward system connected to G3 facsimile terminals compliant with CCITT Recommendations T and 30, the above G3 facsimile terminals were: In order to handle this problem, a facsimile PAD (Packet
Assembly and Disassembly
) to convert the protocol on the G3 facsimile terminal side to the protocol on the facsimile message storage and forwarding system side, and then manually input messages from a large number of G3 facsimile machines.

[Problem that the invention seeks to solve]

Load testing of conventional facsimile message storage and forwarding systems is carried out as described above, which requires a facsimile PAD for protocol conversion, and requires a great deal of effort to manually carry out long load tests. There have been problems such as difficulty in accurately realizing the load generation pattern arrangement sequence.

・This invention was made to solve the above-mentioned problems. It does not require the use of a facsimile PAD or a facsimile machine required for inputting test messages, and it also enables long-term load tests to be carried out without manual intervention. The object of the present invention is to obtain a traffic load generation device that can accurately realize a required load generation pattern.

[Means for Solving the Problems] The traffic load generation device according to the present invention includes a storage unit that stores load test programs and load test data for a message storage and exchange system, and a console device that generates the load test program. An input/output control function that allows connection between the control unit that specifies the load test target device and the control unit during a load test using a specific protocol (X, 25), and performs test data input/output control with the load test target device according to the load test program. It is equipped with a section.

[Effect]

The traffic load generation device according to the present invention transmits test data from the input/output control unit to the load test target device according to a multiplicity of test programs constructed from load test data read from the storage means to the control unit in a conversational manner using a console device. By applying this to , a wide variety of load tests can be performed in a simple manner without human intervention.

〔Example〕

Hereinafter, one embodiment of the present invention will be described based on the drawings.

In FIG. 1, reference numeral (1) denotes a console device, which is used to input load generation pattern and load generation sequence information, and is, for example, a character display device or a typewriter device. (2) is a load generation sequence data storage device that stores input load generation patterns and customer generation sequence information; for example, a flow 2P disk device or a magnetic disk device is used. (3) is a load data storage device that stores load data to be input and output in a load test, and a magnetic disk device is used. (4) is a load test control unit that executes data input/output to the load test target device (6) according to the stored load generation pattern and load generation sequence.

(5) is an input/output control unit that outputs the data specified from the control unit (4) to the load test target device (6) using the X, 25 protocol, and outputs the data from the load test target device (6) with , 25 protocol. The input/output control unit (5) is realized by a communication control device, and the control unit (4)
) is realized using a CPU and memory.

Figure 2 shows a flowchart of the method for generating load generation patterns and sequences. By operating the console device (1), the load generation sequence input from the load generation sequence data storage device (2) to the control unit (4) can be generated. Start the program to be executed (2-1). Since the load generation pattern is a combination of the upper protocol elements of the load test target device (8), when inputting the load generation pattern, the protocol elements are input one after another (2-2), and then the load generation pattern! ! In the duration input, enter the duration of the load generation pattern entered in the load generation pattern (2-3).
Furthermore, if you want to generate another load generation pattern in step (2-4), return to load generation pattern input (2-2), and if you want to end load generation sequence generation, input the load generation pattern and sequence data into the load generation sequence. It is stored in the sentence data storage device (2) (2-fl).

Figure 3 shows a flowchart of the load test implementation method.
Start the load test program from the console device (1) (3-1). The load test consists of inputting messages to the load test target device (8) and outputting messages from the load test target device (8). be done. Inputting a message to the load test target device (8) is started by inputting the name of the load generation sequence to be executed (3).
-2) The load test execution program is stored in the load generation sequence data storage device (2) according to the load generation sequence name.
The load generation sequence is taken out from
3-3). If the protocol element is load data, the load data is read from the load data storage device (3) and passed to the input/output control unit (5) (3-4), (3-5), and the protocol is processed in step (3-8). If the element is a control frame,
It waits for input from the load test target device (8), and if the protocol element is other than a control frame, the next protocol element is extracted. If data is input from the load test target device (6), the next protocol element is extracted (3-7).

The process of receiving the message output from the load test target device (6) is started when the load test is activated. (3-8)
When there is data input from the load test target load (8), if the protocol element is a control frame in the first (3-9), the corresponding protocol element is output in (3-10), If the protocol element is other than a control frame (
Return to 3-8) and wait for next data input.

The load test is terminated by terminating the load test program. In the unimplemented example, the explanation has been made assuming that 61 virtual calls for message input and 61 vertical cell calls for message output are set between the load generation device and the load test target device (6), but it is usually possible to set a plurality of virtual calls. .

This load generation device can be used for load testing various systems by matching the upper protocol elements generated as load generation patterns to the load test target device (6).

Also, the load generation pattern! ! A wider range of load tests can be performed by programming various distributions (Poisson distribution, normal distribution, -stock distribution, Erlang distribution, etc.) instead of using settings from the continuation interval console device.

〔Effect of the invention〕

As described above, according to the present invention, a wide variety of load test programs are constructed in a conversational manner with the CPU, so that it is possible to save labor in load testing the facsimile message storage and exchange system, and to perform highly accurate load testing. It is effective in improving the reliability of the system subject to load testing.

[Brief Description of the Drawings] Fig. 1 is a block diagram of a traffic load generation device according to an embodiment of the present invention, Fig. 2 is a flowchart showing the load generation sequence generation operation, and Fig. 3 is a flowchart showing the load test operation. be. (1)...Console device, (2)...Load generation pattern & sequence storage device,
(3) Load data storage device, (4) Control unit, (5) Input/output control unit, (Su) Load test target device.

Claims (2)

[Claims] (1) A test information storage means that stores test programs and load test data for load testing a message storage and exchange system that connects terminal devices via a line specified by a specific protocol, and a console device for the storage means. a control unit that interactively specifies a corresponding test program through operation; and an input/output control unit that inputs the load test data to the load test target device according to the specified test program and outputs test data from the load test target device; A traffic load generator characterized by comprising: (2) The traffic load generation device according to claim 1, wherein the load test target device is a facsimile message storage and exchange system, and load generation pattern and load generation sequence information are programmed.