CN101145861A - Automatic testing method and system for single board service stability - Google Patents

Abstract

The invention provides a single board service stability automatic test system. The system comprises a man-machine interface which is connected with a monitor part to input configuration conditions and display a test result from the monitor part; the monitor part which is connected with the tested single board and a test instrument to generate the test message according to the configuration condition input from the man-machine interface, transfer the test message and collect the test result; the test instrument which is connected with the tested single board to monitor the performance of the tested single board. Therefore, the invention facilitates to improve the reliability and stability of the product. In addition, the invention has the advantages of time-saving and labor-saving, thus enhancing the working efficiency and helping to shorten the product development cycle.

Description

Single board service stability automatic test approach and system

Technical field

The present invention relates to the single board service stability field of automatic testing, more specifically, relate to a kind of single board service stability automatic test approach and system.

Background technology

Traditional metropolitan area wavelength-division system is mainly used to transmit the SDH business, and the data service of transmission is less, substantially based on fixing business configuration mode; Present wavelength-division system need be supported more and the quantity data business, as types of service such as GbE, FC, FICON, ESCON and DVB ASI, and also also more and more stronger for the demand of dynamic-configuration.Our wave-division device has been researched and developed corresponding veneer for satisfying this demand, can be described as multi-service and inserts the class veneer.

And along with the increase of access service kind and quantity, the increasing of veneer configuration affects factor makes that multi-service is inserted the functional test of class veneer is also complicated more.Access service function, performance and the stability of how to test this type of veneer have fully fast been brought new problem for wavelength-division product test personnel again.

Thereby the drawback of the method for testing that exists in the prior art is:

1, the factor of influence configuration is numerous, under every kind of configuration, business is all had in various degree influence with aspect, wherein, is to guarantee test coverage, need travel through test to various configurations, in addition, because the restriction of testing time, fully by manual test, be difficult to accomplish this traversal, easily cause test leakage;

2, because institute's application technology is newer, and the not enough refinement of relevant criterion, the configuration of each equipment producer and some treatment principles are not quite similar, wherein, professional correlate meter commonly used at present also just meets corresponding international business standard usually, can't satisfy the specific needs of equipment vendors fully flexibly; And

3, the operation under each configuration is because time restriction, substantially can only operate one twice, but owing to reasons such as the possible BUG of used business chip itself, the individual performance difference of chip, chip use experience, developer's technical limitations, some hidden design defect need be under varying environment, multi-pass operation just can be found, thereby cause test leakage, traffic affecting stability.

Thereby, be badly in need of a kind of scheme, can carry out repeatedly retest and function combinations test to the function of veneer, thereby find the potential problem of veneer small probability as early as possible, improve the stability of veneer.

Summary of the invention

In order to solve the problems of the prior art, the invention provides a kind of single board service stability automatic test approach and system, wherein, one side signal of veneer is directly docked with instrument, and opposite side carries out physics loopback or veneer internal loopback, and requires used instrument consistent with the type of service of connecing signal, in addition, earlier certain setting is carried out in the configuration of veneer, utilized instrument, the alarm performance that business is relevant is tested.Changing a kind of configuration again tests.

The invention provides a kind of single board service stability automatic test approach, can may further comprise the steps:, generate test packet according to the configuration condition of input; Issue test packet, and the collecting test result; And output test result.

Wherein, the configuration condition of input comprises following at least a or its combination: the interval between the configuration condition of the priority of each factor condition of traffic affecting, each factor condition, user's input, testing time and the each test.

Each factor condition of traffic affecting comprises: whether support the APSD function, whether insert that AIS enables and Loopback Mode.

The present invention also provides a kind of single board service stability Auto-Test System, can comprise: man-machine interface, be connected to monitoring part, and be used to import configuration condition, and show test result from monitoring part; Monitoring part links to each other with test instrumentation with tested single board, is used for generating test packet according to the configuration condition by the man-machine interface input, issues test packet and collecting test result; And test instrumentation, be connected to tested single board, be used to monitor the performance of tested single board.

In addition, this system can also comprise: auxiliary veneer, be connected between monitoring part and the tested single board, and be used to tested single board that corresponding interface or business are provided.

Wherein, monitoring part comprises: Conditional Access Module is used to receive from the configuration condition of man-machine interface and the condition of judgement test result; Command library is used for storage and the corresponding configuration order of configuration condition; The test packet maker is used for generating the test script that is used to test according to configuration condition and configuration order; Order issues module, and the test script that is used for the message generator of self-test in the future is handed down to auxiliary veneer and tested single board; Property acquisition module is used for according to test script, gathers the performance number of tested single board and the performance number of test instrumentation; And the result of calculation module, be used for the performance number that will collect and compare with condition from the judgement test result of man-machine interface, generate test result, and report man-machine interface.

Wherein, configuration condition comprises following at least a or its combination: the interval between the configuration condition of the priority of each factor condition of traffic affecting, each factor condition, user's input, testing time and the each test.System carries out the one or many test according to testing time.

In addition, each factor condition of traffic affecting comprises: whether support the APSD function, whether insert that AIS enables and Loopback Mode.Test instrumentation also is used for providing professional input and alarm simulation to tested single board, and returns table performance and alarm statistics.

Thereby, adopt the present invention, help to improve reliability of products stability, in addition, utilize the present invention save time, laborsaving, increase work efficiency, help to shorten the Products Development cycle.

Other features and advantages of the present invention will be set forth in the following description, and, partly from specification, become apparent, perhaps understand by implementing the present invention.Purpose of the present invention and other advantages can realize and obtain by specifically noted structure in the specification of being write, claims and accompanying drawing.

Description of drawings

Accompanying drawing is used to provide further understanding of the present invention, and constitutes the part of specification, is used from explanation the present invention with embodiments of the invention one, is not construed as limiting the invention.In the accompanying drawings:

Fig. 1 is the flow chart according to single board service stability automatic test approach of the present invention;

Fig. 2 is the flow chart according to the test process of the first embodiment of the present invention;

Fig. 3 is the flow chart of test process according to a second embodiment of the present invention;

Fig. 4 is the block diagram according to single board service stability Auto-Test System of the present invention; And

Fig. 5 is the block diagram according to the single board service stability automatic testing equipment of the embodiment of the invention.

Embodiment

Below in conjunction with accompanying drawing the preferred embodiments of the present invention are described, should be appreciated that preferred embodiment described herein only is used for description and interpretation the present invention, and be not used in qualification the present invention.

Fig. 1 is the flow chart according to single board service stability automatic test approach of the present invention.As shown in Figure 1, this method can may further comprise the steps:

S102 according to the configuration condition of input, generates test packet;

S104 issues test packet, and the collecting test result; And

S106 outputs test result.

Wherein, the configuration condition of input comprises following at least a or its combination: the interval between the configuration condition of the priority of each factor condition of traffic affecting, each factor condition, user's input, testing time and the each test.

Each factor condition of traffic affecting comprises: whether support the APSD function, whether insert that AIS enables and Loopback Mode.

Fig. 2 is the flow chart according to the test process of the first embodiment of the present invention.As shown in Figure 2,, carry out each factors combine automatically, form configuration accordingly, service conditions is traveled through test according to traffic affecting configuration factor.

Fig. 3 is the flow chart of test process according to a second embodiment of the present invention.As shown in Figure 3, specify certain configuration, the number of times of test is set, under certain situation, repeatedly test.

Fig. 4 is the block diagram according to single board service stability Auto-Test System of the present invention.As shown in Figure 4, this system can comprise: man-machine interface 402, be connected to monitoring part 404, and be used to import configuration condition, and show test result from monitoring part 404; Monitoring part 404 links to each other with test instrumentation 406 with tested single board, is used for generating test packet according to the configuration condition by man-machine interface 402 inputs, issues test packet and collecting test result; And test instrumentation 406, be connected to tested single board, be used to monitor the performance of tested single board.

In addition, this system can also comprise: auxiliary veneer, be connected between monitoring part and the tested single board, and be used to tested single board that corresponding interface or business are provided.

Wherein, monitoring part comprises: Conditional Access Module is used to receive from the configuration condition of man-machine interface and the condition of judgement test result; Command library is used for storage and the corresponding configuration order of configuration condition; The test packet maker is used for generating the test script that is used to test according to configuration condition and configuration order; Order issues module, and the test script that is used for the message generator of self-test in the future is handed down to auxiliary veneer and tested single board; Property acquisition module is used for according to test script, gathers the performance number of tested single board and the performance number of test instrumentation; And the result of calculation module, be used for the performance number that will collect and compare with condition from the judgement test result of man-machine interface, generate test result, and report man-machine interface.

Wherein, configuration condition comprises following at least a or its combination: the interval between the configuration condition of the priority of each factor condition of traffic affecting, each factor condition, user's input, testing time and the each test.System carries out the one or many test according to testing time.

In addition, each factor condition of traffic affecting comprises: whether support the APSD function, whether insert that AIS enables and Loopback Mode.Test instrumentation also is used for providing professional input and alarm simulation to tested single board, and returns table performance and alarm statistics.

Fig. 5 is the block diagram according to the single board service stability automatic testing equipment of the embodiment of the invention.As shown in Figure 5, consist of the following components: monitor portion 502, man-machine interface 504, auxiliary veneer 506, tested single board 508, instrument and meter 510.

Wherein, monitor portion 502 is used for the condition according to input, and relevant configuration order is made up, and generates command message.Tested single board and auxiliary veneer are provided with order, the acquisition performance alarm; And single-board testing number of times, order controlled at interval etc.; The acquisition instrument performance makes a decision condition; Report test result to give man-machine interface.Comprise in the monitor portion 502:

Configuration condition---the veneer configuration condition by man-machine interface input comprises: influence each factor of service feature, as whether support the APSD function, whether insert that AIS enables, Loopback Mode etc.; The priority of each factor; Interval between testing time and the each test etc.;

Command library---every kind of configuration is used to generate message and uses all to corresponding configuration order should be arranged;

The test packet maker---according to configuration condition and command library, generate test script, be used for test;

Order issues---issue test command to auxiliary veneer and tested single board;

Result of calculation---the judgment condition with the performance that collects and man-machine interface issue compares, and generates test result, reports man-machine interface; And

Performance collection---gather the performance number of veneer statistics and the performance number of instrument statistics.

Man-machine interface 504 is used to import single-board testing number of times, configuration condition and judgment condition etc., to show test results.Auxiliary veneer 506 provides corresponding interface or business for tested single board.Tested single board 508 is the tested single board that need carry out stability test.Instrument and meter 510 is used for monitoring the performance of tested single board.

Connection description between each unit:

Annexation between man-machine interface 504 and the monitor portion 502:

A, tester import configuration condition by man-machine interface to monitor portion;

I, tester are by the condition of man-machine interface to monitor portion input judgement test result; And

I, EOT, monitor portion outputs test result to man-machine interface.

Monitor portion 502 inner annexations:

B and C, message generator generate test packet according to configuration condition and command library;

D, order issue part and issue corresponding order according to test packet; And

The result of H, performance collection part offers calculating section as a result, carries out analysis and arrangement.

Annexation between monitor portion 502 and the auxiliary veneer 506:

E, monitor portion dispose accordingly to auxiliary veneer, to provide tested single board required condition.

Annexation between monitor portion 502 and the tested single board 508:

E, monitor portion issue corresponding test command to tested single board; And

F, monitor portion are gathered the performance number of tested single board statistics.

Annexation between monitor portion 502 and the instrument and meter 510:

The performance number of G, monitor portion acquisition instrument instrument statistics.

Annexation between tested single board 508 and the auxiliary veneer 506:

K, auxiliary veneer provide corresponding interface or business for tested single board.

Annexation between tested single board 508 and the instrument and meter 510:

L, operational trials instrument and meter provide professional input, alarm simulation etc. to tested single board, and return table performance and alarm statistics.

In sum, utilize the present invention, can carry out combining and configuring automatically according to initial conditions, the traversal test is done in various configurations to veneer, and can dispose accordingly according to the own mode of equipment vendors, tests.In addition,, repeatedly test automatically,, improved professional stability to find the hidden danger of small probability to a certain specific operation.

Be the preferred embodiments of the present invention only below, be not limited to the present invention, for a person skilled in the art, the present invention can have various changes and variation.Within the spirit and principles in the present invention all, any modification of being done, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (10)

1. a single board service stability automatic test approach is characterized in that, may further comprise the steps:

According to the configuration condition of input, generate test packet;

Issue described test packet, and the collecting test result; And

Export described test result.

2. single board service stability automatic test approach according to claim 1, it is characterized in that the configuration condition of described input comprises following at least a or its combination: the interval between the configuration condition of the priority of each factor condition of traffic affecting, described each factor condition, user's input, testing time and the each test.

3. single board service stability automatic test approach according to claim 2 is characterized in that, each factor condition of described traffic affecting comprises: whether support the APSD function, whether insert that AIS enables and Loopback Mode.

4. a single board service stability Auto-Test System is characterized in that, comprising:

Man-machine interface is connected to monitoring part, is used to import configuration condition, and shows the test result from described monitoring part;

Described monitoring part links to each other with test instrumentation with tested single board, is used for generating test packet according to the described configuration condition by described man-machine interface input, issues described test packet and collecting test result; And

Described test instrumentation is connected to described tested single board, is used to monitor the performance of described tested single board.

5. single board service stability Auto-Test System according to claim 4 is characterized in that, also comprises:

Auxiliary veneer is connected between described monitoring part and the described tested single board, is used to described tested single board that corresponding interface or business are provided.

6. single board service stability Auto-Test System according to claim 5 is characterized in that, described monitoring part comprises:

Conditional Access Module is used to receive from the described configuration condition of described man-machine interface and the condition of judgement test result;

Command library is used for storage and the corresponding configuration order of described configuration condition;

The test packet maker is used for generating the test script that is used to test according to described configuration condition and described configuration order;

Order issues module, is used for the described test script from described test packet maker is handed down to described auxiliary veneer and described tested single board;

Property acquisition module is used for according to described test script, gathers the performance number of described tested single board and the performance number of described test instrumentation; And

The result of calculation module is used for the performance number that will collect and compares with condition from the described judgement test result of described man-machine interface, generates described test result, and reports described man-machine interface.

7. single board service stability Auto-Test System according to claim 6, it is characterized in that described configuration condition comprises following at least a or its combination: the interval between the configuration condition of the priority of each factor condition of traffic affecting, described each factor condition, user's input, testing time and the each test.

8. single board service stability Auto-Test System according to claim 7 is characterized in that, described system carries out the one or many test according to described testing time.

9. single board service stability Auto-Test System according to claim 7 is characterized in that, each factor condition of described traffic affecting comprises: whether support the APSD function, whether insert that AIS enables and Loopback Mode.

10. according to each described single board service stability Auto-Test System in the claim 4 to 9, it is characterized in that described test instrumentation also is used for providing professional input and alarm simulation to described tested single board, and returns table performance and alarm statistics.

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