CN110032514A - A kind of mine motor can configure Red-Sensing monitoring software test method in remotely monitoring - Google Patents

Abstract

The present invention provide a kind of mine motor remotely monitor in can configure Red-Sensing monitoring software test method, test environment is built first, then from debarkation authentication, configurable communication protocol analysis, configurable dynamic model shows that three aspects have carried out the safety of functional verification software to software, versatility, it is monitored from memory, screen frame slip, three aspects of CPU occupation rate have carried out performance test to software, demonstrate the high efficiency of software, the friendly of user interface, pressure test finally is carried out to software, demonstrate the stability of software, ensure the stalwartness of software.It is functional to ensure that software completes the institute on statement of requirements book, it is ensured that software meets the requirement of efficiency and performance, including the operation of efficiently system, friendly user interface, convenient user's operation etc., it is ensured that software is powerful and adapts to user demand.

Description

A kind of mine motor can configure the test of Red-Sensing monitoring software in remotely monitoring Method

Technical field

The present invention relates to software testing technology field more particularly to a kind of mine motor remotely monitor in can configure Red- Sensing monitoring software test method.

Background technique

In recent years, industrial monitoring and control software technology and product increasingly tend to be mature, and have gradually formed a set of comprehensive, standard UA (Unified Architecture) frame of change, but traditional monitoring software generally operates in the end PC, on-site supervision personnel It is restricted to the operation such as be checked, controlled in monitoring room, makes troubles to staff, do not accomplish veritably to liberate people Power.The detection-phase of equipment simultaneously generally requires staff and site operation personnel's real-time communication and the data of monitoring room Exchange increases the difficulty of equipment detection in this way, cannot guarantee that real-time.And in the displaying stage of data, traditional configuration Monitoring software carries graphical interfaces Core Generator, it completes monitoring site by the binding of integration and decomposition, the driving of 2D pel It is picture stimulated, but with the fast development of visualization engine, traditional configuration software can not be compatible with existing visualization engine, The relationship that sensing data and model can not neatly be controlled, when user shows that demand changes to sensing data, solution Analysis program generally requires wholesale revision or even rewrites, thus greatly reduces the reusability of data presentation program.It is existing A kind of mine motor can configure Red-Sensing (awareness apparatus) monitoring software in remotely monitoring, at the beginning of the software realization sensor The configurable of beginningization object, the configurable of communication protocol, sensing data dynamic model are shown configurable, are not changing data The modification that increase, maintenance or the data displaying for the software function that enterprise proposes are adapted on the basis of analysis program and presentation program is built View, to make sensor monitoring software generalization, improves the reusability of program.However the function of the software, performance and pressure It is whether reliable, without corresponding test method, it cannot get test result, stability subject to confirmation.

Summary of the invention

The present invention provides a kind of mine motor remotely monitor in can configure mobile terminal Red-Sensing monitoring software test Method overcomes soft without can configure mobile terminal Red-Sensing monitoring in remotely monitoring for mine motor in the prior art The defect of part performance test methods is tested from functional test, performance test and pressure test respectively.

The debarkation authentication of software, configurable communication protocol are parsed first and configurable dynamic model shows three Aspect carries out functional test, then in terms of the comparison of dynamic model showing internal memory, screen frame slip and CPU usage three Into performance test, pressure test finally is carried out to entire software, to guarantee the stability of software.

It is described that its technical solution is as follows:

A kind of mine motor can configure mobile terminal Red-Sensing monitoring software test method in remotely monitoring, including with Under several steps:

1, test environment is built

(1) test machine: PC machine, Huawei series (1.83GHz Intel Atom Z3735F, 512MB RAM, 2GB

ROM) tablet computer；

(2) operating system: Windows 10,64, Red-Sensing 6.4.4 operating system；

(3) network environment: 4G network；

(4) test data: slave computer obtains electromechanical transducer data, transit server；

(5) software environment: Eclipse 4.2.0+JDK1.6+Red-Sensing SDK 2.2, Unity4.3.0.

2, functional test

(1) debarkation authentication is tested, and inputs different user names, password, clicks Button Login, if jump directly to equipment List circle obtains test result；

(2) configurable communication protocol parses test, calls two kinds of different data communication protocols, is communicated using different data Agreement generates two configuration files XML_1, XML_2, sends request protocol frame respectively, compares whether just analysis program returns to frame Really, and observe in main interface table show it is whether correct；

(3) configurable dynamic model shows test, two different types of sensors is called, according to different sensors Displaying demand generates two configuration files XML_3, XML_4, and model display button is clicked in main interface, and observing and nursing displaying is It is no to change according to demand；

3, performance test

(1) internal memory monitoring is tested, and connects Red-Sensing equipment, cmd is opened, into Red-Sensing adb file Folder, input order: for/1%i in (1,1,20) do (adb shell su-c " procrank lgrep Com.netease.cloudmusic " &choice/t 30/d y/n > nul), observe the USS value every 30s monitoring software；

(2) screen sliding frame rate test:

1. click " setting " one > of Red-Sensing equipment " developer's option " one > choose " pattern analysis is presented in GPU " One > selection is in adb shell dumpsys gfxinfo；

2. being slided on the page of application after starting application；

3. opening order line, inputted in order line: adb shell dumpsys gfxinfo njupt.wzj.dynamoproject>test.txt；

4. opening the test.txt of generation, this partial data of Profile data in ms is found, each frame refreshing is calculated Time average: C Draw+Process+Execute) mean value (ms)；

5. with time average=refreshing per second frame number (fps) of 1000/ each frame refreshing；

(3) CPU occupation rate is tested, and connects Red-Sensing equipment, cmd is opened, into Red-Sensing adb file Folder, input order: adb shell " top-d 30I grep njupt.wzj.dynamoproject ", observation are monitored every 30s The CPU occupation rate of software；

4, pressure test

Open onekey tool, reading program packet；Red-Sensing equipment is connected, cmd is opened, into Red-Sensing Adb file, input order: adb shell onekey-p njupt.wzj.dynamoproject--throttle_500-- ignore-crashes--ignore-timeouts--ignore-security-exceptions--ignore-native- 1000000 > sdcard/onekey_log.txt of crashes--monitor-native-crashes-v-v-v, setting execute Number is 1,200,000 times, and being delayed is 350, and seed number is any numerical value, and prints onekey_log.txt of the log into SD card In file.

This mine motor can configure Red-Sensing monitoring software test method in remotely monitoring, and take test environment first, Then function has been carried out to software in terms of debarkation authentication, configurable communication protocol analysis, configurable dynamic model show three It has been able to verify that safety, the versatility of software, software has been carried out in terms of memory monitoring, screen frame slip, CPU occupation rate three Performance test, demonstrates the high efficiency of software, the friendly of user interface, finally carries out pressure test to software, demonstrates The stability of software, it is ensured that the stalwartness of software.It is functional to ensure that software completes the institute on statement of requirements book, it is ensured that software meets The requirement of efficiency and performance, including the operation of efficiently system, friendly user interface, convenient user's operation etc., it is ensured that software It is powerful and adapts to user demand.

Detailed description of the invention

Fig. 1 is the debarkation authentication schematic diagram of software；

Fig. 2 is that the analysis program of configuration file XML_1 returns to frame schematic diagram；

Fig. 3 is that the analysis program of configuration file XML_2 returns to frame schematic diagram；

Fig. 4 is the model display schematic diagram for parsing configuration file XML_3；

Fig. 5 is the model display schematic diagram for parsing configuration file XML 4；

Fig. 6 is CPU occupation rate test schematic diagram；

Fig. 7 is part onekey log schematic diagram；

Fig. 8 is test method flow diagram of the invention.

Specific embodiment

A kind of mine motor can configure Red-Sensing monitoring software test method in remotely monitoring, as shown in figure 8, packet Include following steps:

1, test environment is built

(1) test machine: PC machine, onda V820w (1.83GHz Intel Atom Z3735F, 512MB RAM, 2GB

ROM) tablet computer；

(2) operating system: Windows 732, Red-Sensing 4.4.4 operating system；

(3) network environment: campus network, 3G network；

(4) test data: slave computer obtains electromechanical transducer data, transit server；

(5) software environment: Eclipse 4.2.0+JDK1.6+Red-Sensing SDK 2.2, Unity4.3.0.

2, functional test carries out functional test to software, test includes: stepping on for software by the use to monitoring software Land certification, configurable communication protocol parsing and configurable dynamic model show three aspects.

(1) debarkation authentication is tested；

Test scene:

1. log-in interface inputs correct user name, password, Button Login is clicked, if jump directly to list of devices Interface.

2. log-in interface inputs user name, password mistake (forbidden character, sky etc.), Button Login is clicked, if prompt " user name or password mistake ", does not jump list of devices interface.

3. log-in interface inputs the user name of non-permission, Button Login is clicked, if " user does not have access right for prompt Limit ", does not jump list of devices interface.

Test result: cannot jump when input error user name, password, and prompt " user name or password mistake ", such as In Fig. 1 shown in (a)；If inputting non-permission user can not jump, and prompt " user does not have access authority ", as shown in figure 1 (b)；When inputting correct user name, password, equipment interface is jumped to, and prompts " logging in success " as shown in figure 1 shown in (c).

(2) configurable communication protocol parses test, generates two configuration file XML_ using different data communication protocol 1, XML_2, request protocol frame is sent respectively, whether correct compares analysis program return frame, and it is aobvious to observe the table in main interface Whether correct show；

Test result: the analysis program of configuration file XML_1 returns shown in frame such as Fig. 2 (a), and parsing result is in main interface table Lattice show such as Fig. 2 (b)；The analysis program of configuration file XML_2 returns shown in frame such as Fig. 3 (a), and parsing result is in main interface table Display such as Fig. 3 (b).

Request protocol frame:

68000E07010000150000050000000015012711420068000104FF0000000201000001 0110000116

Analysis program returns to frame:

68001607010000150000050000000015012711420068000104FF00000002F2111020 01000001010201100001201016

Request protocol frame:

68000A07010000150000050000000015012711420068000104FF0000000201000002 16

Analysis program returns to frame:

68001207010000150000050000000015012711420068000104FF0000000200050010 010000020010001516

As long as calling the solution as can be seen that communication protocol is described according to certain XML format by test result Program is analysed, can configure for communication protocol can be realized, finally accomplish the shared of data and is interacted.

(3) configurable dynamic model shows test, generates two configuration files according to different transducer flex demands XML_3, XML_4, click model display button in main interface, and whether observing and nursing displaying changes according to demand；

Test result:

The motor model generated using Unity3D engine, the model display for parsing configuration file XML_3 are as shown in Figure 4；Make The motor model generated with JPCT-AE engine, the model display for parsing configuration file XML 4 are as shown in Figure 5.

Sensing data forms Hash table: choice:{ jingling0l=1, Fluffy Smoke=3 }

Presentation program parses data result: intensity of illumination parameter value 100 is arranged in fixed model Light；Variation model: Jingling0l color is shown in green, and it is that 50, fuselage shows navy blue that smoke particle number, which is arranged, in Fluffy Smoke.

Sensing data forms Hash table: choice:{ jingling0l=3, jingling02=1, Fluffy Smoke =2, zhuanzhou=1 }

Presentation program parses data result: intensity of illumination parameter value _ 50 are arranged in fixed model Light；Variation model: Jingling0l color is shown as blue, and jingling02 color appears dimmed, and smoke particle number is arranged in Fluffy Smoke It is 160 that revolving speed, which is arranged, for 150, zhuanzhou, and fuselage becomes light blue.

By test result as can be seen that if sensing data tissue is described according to certain XML format, weight Write interface function, call analysis program, the configurable of sensor visualization displaying can be realized, finally accomplish sensing data with The interaction of engine and visual displaying.

3, performance test

(1) internal memory monitoring is tested,

Test scene:

1. being monitored using idle state running memory

2. (including: to click Button Login, pointing device button, inquiry number in real time using the monitoring of medium format running memory According to, control setting, dynamic model show, history graphs draw, alarm table show)；

3. the full specification running memory monitoring of application (include: click Button Login, pointing device button, inquiry real time data, Control setting, dynamic model are shown, history graphs are drawn, alarm table is shown)

Test method:

Red-Sensing equipment is connected, cmd is opened, into Red-Sensing adb file, input order: for/ 1%i in (1,1,20) do (adb shell su-c " procrank lgrep com.netease.cloudmusic " & Choice/t 30/d y/n > nul), observe USS (test environment) value every 30s monitoring software；

Test result:

5.1 monitoring software USS test result of table

(2) screen sliding frame rate test:

Test scene:

1. list of devices interface slides up and down

2. history graphs interface horizontally slips

3. alarm spreadsheet interface slides up and down

Test method:

1. click " setting " one > of Red-Sensing equipment " developer's option " one > choose " pattern analysis is presented in GPU " One > selection is in adb shell dumpsys gfxinfo；

2. being slided on the page of application after starting application；

3. opening order line, inputted in order line: adb shell dumpsys gfxinfo njupt.wzj.dynamoproject>test.txt；

4. opening the test.txt of generation, this partial data of Profile data in ms is found, each frame refreshing is calculated Time average: C Draw+Process+Execute) mean value (ms)；

5. with time average=refreshing per second frame number (fps) of 1000/ each frame refreshing；

Test result:

The refreshing frame number per second at list of devices interface be equal to 172.94fps be greater than 60fps, history graphs interface it is per second Refresh frame number and be equal to 142.34fps greater than 60fps, the refreshing frame number per second for spreadsheet interface of alarming is greater than equal to 163.69fps 60fps is belonged within normal range (NR).

(3) CPU occupation rate is tested, similar with internal memory monitoring test scene, is also classified into: using idle state CPU monitoring, being answered It is monitored with medium format operation CPU monitoring, with full specification operation CPU；Red-Sensing equipment is connected, cmd is opened, is entered Red-Sensing adb file, input order: adb shell " top-d 30I grep Njupt.wzj.dynamoproject " observes the CPU occupation rate every 30s monitoring software；

Test result:

Idle state CPU usage is essentially 0%, as shown in Figure 6: medium format operation CPU occupation rate is generally 2%, Full specification operation CPU occupation rate is 5%, it is seen that too many space is not take up in the use of the monitoring software CPU designed herein.

4, pressure test

Onekey (key reduction) tool of opening, reading program packet；Red-Sensing equipment is connected, cmd is opened, is entered Red-Sensing adb file, input order: adb shell onekey-p njupt.wzj.dynamoproject-- throttle_500--ignore-crashes--ignore-timeouts--ignore-security-exceptions-- ignore-native-crashes--monitor-native-crashes-v-v-v 1000000>sdcard/onekey_ Log.txt, it is 1,000,000 times that setting, which executes number, and being delayed is 500, and seed number is any numerical value, and prints log to SD card In onekey_log.txt file in.

Test result:

Part onekey log as shown in fig. 7, operation conditions without exception in test process (such as: without freezing screen, without response or again The case where opening), and error message, no Memory Leaks are not present in onekey_log log.

This mine motor can configure Red-Sensing monitoring software test method in remotely monitoring, and take test environment first, Then function has been carried out to software in terms of debarkation authentication, configurable communication protocol analysis, configurable dynamic model show three It has been able to verify that safety, the versatility of software, software has been carried out in terms of memory monitoring, screen frame slip, CPU occupation rate three Performance test, demonstrates the high efficiency of software, the friendly of user interface, finally carries out pressure test to software, demonstrates The stability of software, it is ensured that the stalwartness of software.It is functional to ensure that software completes the institute on statement of requirements book, it is ensured that software meets The requirement of efficiency and performance, including the operation of efficiently system, friendly user interface, convenient user's operation etc., it is ensured that software It is powerful and adapts to user demand.

Claims (9)

1. a kind of mine motor can configure Red-Sensing monitoring software test method in remotely monitoring, including the following steps:

(1) test environment is built；

(2) functional test is carried out in test environment, including debarkation authentication test, configurable communication protocol analysis are tested, can be matched It sets dynamic model and shows test；

(3) it is tested for the property in test environment, including internal memory monitoring test, the test of screen sliding frame rate, CPU occupation rate Test；

(4) test of operating pressure.

2. mine motor according to claim 1 can configure Red-Sensing monitoring software test method in remotely monitoring, It is characterized by: testing the operating system of environment in step (1) as Windows 10,64, Red-Sensing 6.4.4 behaviour Make system, software environment: Eclipse4.2.0+JDK1.6+Red-Sensing SDK 2.2, Unity4.3.0.

3. mine motor according to claim 1 can configure Red-Sensing monitoring software test method in remotely monitoring, It is characterized by: debarkation authentication test clicks Button Login by the different user name of input, password in step (2), according to Whether list of devices circle is jumped directly to, obtains test result.

4. mine motor according to claim 1 can configure Red-Sensing monitoring software test method in remotely monitoring, It is characterized by: in step (2), the test of configurable communication protocol analysis generates two by using different data communication protocol Configuration file sends request protocol frame respectively, whether correct compares analysis program return frame, and observe in test environment main interface Whether middle table shows correct.

5. mine motor according to claim 1 can configure Red-Sensing monitoring software test method in remotely monitoring, It is characterized by: can configure dynamic model in step (2) and show test, two are generated according to different transducer flex demands Configuration file, clicks model display button in test environment main interface, and whether observing and nursing displaying changes according to demand.

6. mine motor according to claim 1 can configure Red-Sensing monitoring software test method in remotely monitoring, It is characterized by: in step (3), internal memory monitoring test connects Red-Sensing equipment, cmd is opened, into Red-Sensing Adb file, input order: for/1%i in (1,1,20) do (adb shell su-c " procrank lgrep Com.netease.cloudmusic " &choice/t30/d y/n > nul), observe the USS value every 30s monitoring software.

7. mine motor according to claim 1 can configure Red-Sensing monitoring software test method in remotely monitoring, It is characterized by: in step (3), screen slide frame rate test the following steps are included:

1. click " setting " one > of Red-Sensing equipment " developer's option " one > choose " pattern analysis is presented in GPU " one > choosing It selects in adb shell dumpsys gfxinfo；

2. being slided on the page of application after starting application；

3. opening order line, inputted in order line: adb shell dumpsys gfxinfo njupt.wzj.dynamoproject>test.txt；

4. opening the test.txt of generation, find this partial data of Profile data in ms, calculate each frame refreshing when Between mean value: C Draw+Process+Execute) mean value (ms)；

5. with time average=refreshing per second frame number (fps) of 1000/ each frame refreshing.

8. mine motor according to claim 1 can configure Red-Sensing monitoring software test method in remotely monitoring, It is characterized by: in step (3), the test of CPU occupation rate connects Red-Sensing equipment, cmd is opened, into Red- Sensing adb file, input order: adb shell " top-d30I grep njupt.wzj.dynamoproject ", Observe the CPU occupation rate every 30s monitoring software.

9. mine motor according to claim 1 can configure Red-Sensing monitoring software test method in remotely monitoring, It is characterized by: opening onekey tool, reading program packet in step (4)；Red-Sensing equipment is connected, cmd is opened, into Enter Red-Sensing adb file, input order: adb shell onekey-p njupt.wzj.dynamoproject-- throttle_500--ignore-crashes--ignore-timeouts--ignore-security-exceptions-- ignore-native-crashes--monitor-native-crashes-v-v-v 1000000>sdcard/onekey_ Log.txt, it is 1,200,000 times that setting, which executes number, and being delayed is 350, and seed number is any numerical value, and prints log into SD card Onekey_log.txt file in.