JPH04237359A - Control device for load test execution - Google Patents

Abstract

PURPOSE:To easily execute a test equivalent to that of a practically operating system even before its shipping. CONSTITUTION:A system specification stored in a system specification storing part 2, a test specification stored in a test specification storing part 3 and a load specification stored in a load specificatior storing part 4 are converted into action data by a load generating specification conversion part 5 and a load is generated by a load generating part 7 and transmitted to a system 1 to be tested. Thereby a test equivalent to that of a practically operating system can easily be executed even before shipping it.

Description

[Detailed description of the invention]

0001

[Purpose of the invention]

0002

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a load test execution control device using a computer.

0003

2. Description of the Related Art Conventionally, load tests for online banking systems and the like have been carried out by actually operating the system with the same system configuration as in actual operation and applying a load.

Incidentally, the performance of a system is often predicted and analyzed by simulation or a queuing network model at the stage of system design. However, this is just a prediction, and it is necessary to run the actual system and perform a load test to evaluate and confirm the system performance.

However, in cases where the number of devices that make up the system, such as terminals and databases, is large and distributed, such as in a large-scale distributed system, it is difficult to test the system with the same system configuration as in actual operation before shipping. This is often difficult. In some cases, a simulator or the like may be used to simulate the actual system configuration, but it takes a lot of effort to separately create a simulator for this purpose.

[0006]

[Problem to be Solved by the Invention] As described above, it is often difficult to perform load tests on conventional bank online systems using the actual system configuration before shipping.
The problem was that performance problems only surfaced during tests during on-site adjustments after shipment.

The present invention has been made to solve these problems, and provides a load test execution control device that uses a virtual device to easily perform a test equivalent to that of an actual system even before shipment. is intended to provide.

[0008]

[Structure of the invention]

[0009]

[Means for Solving the Problems] In order to achieve the above object, the load test execution control device of the present invention includes system specification storage means for storing system specifications that describe the configuration of a test target system to be subjected to a load test. , a test specification storage means for storing a test specification describing the load test procedure; a load specification storage means for storing a specification of a load to be applied to the test target system; and a system specification stored in the system specification storage means; load generation specification conversion means for converting the test specifications stored in the test specification storage means and the load specifications stored in the load specification storage means into action data for generating a load; and load generation means for generating a load from the action data output by the specification conversion means.

0010

[Operation] By using the load test execution control device, system specifications, load specifications, and test specifications are converted into action data that is load generation specifications. A load is automatically generated by inputting this data to the load generation means, and the performance of the system is evaluated by the monitoring section.

Therefore, according to the present invention, even if a part of the configuration of the target system is missing, it is possible to generate a pseudo load by describing it in the system specifications as a virtual device, and it is possible to generate a pseudo load equivalent to that of the actual system. A test environment can be configured.

0012

Embodiments Hereinafter, embodiments of the present invention will be explained based on the drawings.

FIG. 2 is a block diagram showing the hardware configuration of a load test execution control device according to an embodiment of the present invention, and FIG. 1 is a diagram showing the functional configuration of the load test execution control device according to this embodiment.

As shown in these figures, this load test execution control device stores system specifications that manage system specifications that describe the configuration of the test target system 1 that is the target of the load test, including virtual external devices. 2, a test specification storage section 3 that manages test specifications that describe test methods and procedures, etc., a load specification storage section 4 that manages specifications of the load given by the system under test, system specifications, test specifications, and A load generation specification conversion unit 5 that converts load specifications into data for generating a load, an action data storage unit 6 that manages data converted by the load generation specification conversion unit 5, and an action data storage unit 6 that manages data converted by the load generation specification conversion unit 5. a load generator 7 that generates a load using a computer; a communication control unit 8 that controls communication between the load test execution control device and the test target system 1, such as load and monitoring data; The monitoring unit 9 includes a monitoring unit 9 that collects and evaluates data, and a monitoring data storage unit 10 that stores monitored data.

Next, the operation of this load test execution control device will be explained.

(a) Description of specifications The system configuration of the test target system 1, including virtual external devices, is described and managed in the system specification storage section 21. In the case of an online real-time system, examples of virtual devices include multiple terminals or a host computer. Test methods and procedures are written and managed in the test specification storage unit 3. The specifications of the load to be applied to the test target system are written and managed in the load specification storage section 4. The load specifications describe the amount of load, the procedure for generating the load, etc. These specifications are input from the console 11 and stored in the external storage device 12.

(b) Generation of Action Data In response to an instruction from the console 11, the load generation specification converter 5 reads the above three types of specifications stored in the external storage device 12. The converted results are stored by the action data storage section 6 on the external storage device 12 as action data.

(c) In response to an instruction from the test execution console 11, the load generation section 7 reads action data that summarizes information for generating a load. In response to a test start command from the console 11, the load is transferred to the test target system 1 via the communication control unit 27, and the load test is automatically executed.

(d) Performance Monitoring The operational status of the test target system 1 is grasped by the monitoring section 9 via the communication control section 8 . Performance monitoring results are displayed on the console.
This can be confirmed by outputting it to the file 11 or printing device 13. Furthermore, it is also possible to store monitoring results on an external storage device 12 using the monitoring data storage section 10.

Therefore, in the load test execution control device of this embodiment, even if a part of the configuration of the target system is missing, it is possible to generate a pseudo load by describing it in the system specifications as a virtual device. A test environment equivalent to the system can be configured. Furthermore, since the amount of load can be adjusted using the load specification parameters, bottlenecks in the system can be found by repeating monitoring. Furthermore, since the specifications for generating loads are divided into three types, it is possible to respond flexibly to changes in the system configuration and reuse test specifications.

[0021]

[Effects of the Invention] As explained above, according to the load test execution control device of the present invention, even if a part of the configuration of the target system is missing, a pseudo load is generated by describing it in the system specifications as a virtual device. This makes it possible to create a test environment equivalent to the actual production system.

[Brief explanation of the drawing]

FIG. 1 is a hardware configuration diagram of a load test execution control device according to an embodiment of the present invention.

FIG. 2 is a functional configuration diagram of a load test execution control device according to an embodiment of the present invention.

[Explanation of symbols]

1...Test system 2...System specification storage section 3...Test specification storage section 4...Load specification storage section 5...Load generation specification storage section 6...Action data storage section 7...Load generation section 8...Communication control unit 9...Monitoring section 10...Monitoring data storage unit

Claims (1)

[Claims] 1. System specification storage means for storing a system specification that describes the configuration of a test target system to be subjected to a load test; test specification storage means for storing a test specification that describes the procedure of the load test; load specification storage means for storing specifications of a load to be applied to the system under test; system specifications stored in the system specification storage means; test specifications stored in the test specification storage means; and system specifications stored in the load specification storage means. a load generation specification conversion means for converting the generated load specification into action data for generating a load; and a load generation means for generating a load from the action data outputted by the load generation specification conversion means. Equipped with load test execution control device.