CN117319279A - Network transmission performance test system and test method - Google Patents

Abstract

The application discloses a network transmission performance test system and a test method, which belong to the technical field of network transmission performance test; comprising: the system comprises a sending module, a receiving module and a receiving module, wherein the sending module is used for generating simulated network transmission flow and sending the simulated network transmission flow to a network, the receiving module is used for receiving the data flow sent by the sending module and recording transmission performance indexes, the performance of network transmission is evaluated by generating the simulated network transmission data flow and recording the performance indexes, a user can carry out parameter configuration, monitoring result checking and report generation through an interface, the system also supports automatic test planning and continuous performance monitoring, abnormal conditions can be detected and alarm processing can be carried out, and the whole workflow helps the user to know the performance characteristics of network transmission deeply and provides optimization suggestions and decision support.

Description

Network transmission performance test system and test method

Technical Field

The present disclosure relates to the field of network transmission performance testing technologies, and in particular, to a network transmission performance testing system and a testing method.

Background

A network transmission performance test system is a software or hardware solution for evaluating the performance of network communications. The method measures key performance indexes such as bandwidth, delay, packet loss rate and the like of the network by simulating different network conditions and traffic loads so as to ensure that the network can normally operate under various conditions. Such systems are typically used to optimize network architecture, diagnose problems, verify quality of service, and plan network extensions. It can help organizations ensure that their network infrastructure can meet user needs and provide reliable communication services.

The document with the prior art publication number of CN 103905262A provides a method and a system for testing the transmission performance of network equipment, when the transmission performance of the network equipment needs to be tested, the network equipment is modified to drive the network equipment to send packets and receive packets in the working state of an automaton; acquiring a stored packet from a storage device, the acquired packet being transmitted to a processor; when the processor receives the acquired packet, controlling the network equipment to drive the packet to be copied for a preset number of times and then stored in a buffer area of the memory; and reading the number of the transmitted packets and the number of the received packets from a register of the network device after the packets in the memory buffer are all transmitted, and obtaining the network transmission performance of the network device according to the number of the transmitted packets and the number of the received packets.

Although the above prior art scheme can realize the test of the network transmission performance through the structure of the prior art, the following defects still exist: the network transmission performance test system cannot quickly evaluate and improve the network transmission performance for users, and cannot quickly improve the quality and efficiency of the network.

In view of the above related art, the inventor considers that the existing network transmission performance test system cannot quickly evaluate and improve the network transmission performance for the user, and cannot quickly improve the quality and efficiency of the network.

In view of this, we propose a network transmission performance test system and test method.

Disclosure of Invention

The invention aims to provide a network transmission performance testing system and a testing method, which solve the technical problems in the background technology and realize the technical effects of the network transmission performance testing system and the testing method.

The technical scheme of the application provides a network transmission performance test system and a test method, wherein the test system comprises the following steps:

the transmission module is used for generating simulated network transmission flow and transmitting the simulated network transmission flow to a network;

the receiving module is used for receiving the data stream sent by the sending module and recording transmission performance indexes;

the control module is used for configuring and controlling the test parameters, monitoring the test process, setting parameters such as the size of a data packet, the sending rate, the transmission protocol and the like, and monitoring the network transmission performance index in real time;

the analysis module is used for analyzing and evaluating the collected performance data;

the database module is used for storing and managing the performance data acquired by the test system;

the user interface module is used for providing an interface for the user to interact with the test system;

and the automatic module is used for automatically executing the test flow and tasks, so that manual intervention is reduced.

Optionally, the sending module includes:

the data generator is used for generating a simulated network transmission data stream and can be configured with different protocols, data packet sizes and rates;

the protocol setting unit is used for setting the protocol type used by the transmitted data packet;

the data packet configuration unit is used for configuring the size, format and content of the data packet;

and the rate control unit is used for controlling the rate of sending the data stream so as to simulate the conditions of different network transmission speeds.

By adopting the technical scheme, the sending module generates the simulated network transmission data stream, so that a user can test the network performance in a controlled environment without real network connection, thereby saving cost and resources, and the system also provides wide configuration options through the protocol setting unit, the data packet configuration unit and the rate control unit, and allows the user to simulate various network conditions and scenes so as to more comprehensively test the application programs and the equipment.

Optionally, the receiving module includes:

the data receiver receives the data stream sent by the sending module and records the data stream for subsequent analysis;

a data decoder for decoding the received data stream, converting it into a readable format for performance evaluation and analysis;

and a performance index recorder that records the received transmission performance index.

By adopting the technical scheme, the data receiver, the data decoder and the performance index recorder work cooperatively to capture and record the network transmission related index, thereby providing deep understanding of the system performance.

Optionally, the control module includes:

the parameter configuration unit is used for configuring test parameters;

the real-time monitoring unit is used for monitoring real-time performance indexes of network transmission;

and the test control unit is used for controlling the start, stop and reset of the test and providing feedback of the test state.

By adopting the technical scheme, the system allows the user to easily set the test parameters and the automatic task plan through the parameter configuration unit, reduces the need of manual intervention, and improves the test efficiency and consistency.

Optionally, the analysis module includes:

a performance data extraction unit that extracts key indicators from the collected performance data;

the data analysis unit is used for analyzing the performance data and evaluating the network transmission performance in the modes of calculating statistical data, generating a chart or a report and the like;

and the performance comparison unit is used for carrying out comparison analysis on different test results and helping a user to know the change trend and the optimization effect of the network transmission performance.

By adopting the technical scheme, the performance data extraction unit and the data analysis unit are favorable for extracting key indexes from the collected data and performing deep analysis so as to discover performance problems in time and take appropriate measures, and the performance comparison unit can be used for comparing different test results, so that a user is helped to know the variation trend of the system performance.

Optionally, the database module includes:

a data storage unit for storing the collected performance data into a database;

and the data management unit is used for managing the data in the database.

By adopting the technical scheme, the data storage unit stores the performance data into the database so as to carry out historical record and long-term trend analysis.

Optionally, the user interface module includes:

the interface display unit is used for displaying the state and the result of the current test and presenting performance data and reports in a chart, table or visual mode;

the parameter configuration unit is used for providing a user interface, allowing a user to set test parameters, controlling a test process and checking a monitoring result;

and the report generation unit is used for generating a performance report and generating a report format which is readable and easy to understand according to the collected data.

By adopting the technical scheme, the user interface display unit provides an intuitive interface, so that a user can track the test state and view the result, and the report generation unit generates a performance report to help the user to gather and share the test result.

Optionally, the automation module includes:

the automatic task scheduler is used for setting an automatic test plan, a test period and continuous performance monitoring;

the automatic executor is used for automatically triggering a test flow, executing a test process, automatically recording performance data and generating a report;

the abnormality detection and alarm unit monitors abnormal conditions in the testing process and triggers an alarm or reminds a user to process.

By adopting the technical scheme, the automatic executor automatically triggers the test flow, the manual intervention requirement is reduced, the abnormality detection and alarm unit monitors abnormal conditions, and an alarm or a reminder is triggered when necessary, so that the quick response to the problem is facilitated, and the system fault time is reduced.

A network transmission performance testing method comprises the following steps:

s1, a user sets test parameters such as data packet size, sending rate, transmission protocol and the like through a parameter configuration unit, and then sets an automatic task plan through an automatic task scheduler;

s2, a data generator in the sending module generates a simulated network transmission data stream according to the configured parameters, and the simulated network transmission data stream is configured through a protocol setting unit, a data packet configuration unit and a rate control unit;

s3, the data receiver receives the data stream sent by the sending module, the data decoder converts the data stream into a readable format, and the performance index recorder records the network transmission related index;

s4, extracting key indexes from the collected data by a performance data extraction unit, and analyzing the performance data by a data analysis unit;

s5, the performance comparison unit compares different test results, the data storage unit stores performance data into the database, and the data management unit manages database operation;

s6, a user interface display unit displays the test state and the result, a parameter configuration unit provides a user interface, and a report generation unit generates a performance report;

and S7, automatically triggering a test flow by the automatic executor, monitoring abnormal conditions by the abnormality detection and alarm unit, and triggering an alarm or reminding.

Optionally, the user interface display unit is applied to a portable display device which is convenient to carry.

By adopting the technical scheme, the portable display device is carried and used by variant workers.

One or more technical schemes provided in the technical scheme of the application at least have the following technical effects or advantages:

1. the whole workflow comprises a plurality of stages of parameter configuration, data stream generation, data receiving, performance analysis, data storage, user interface display and automatic execution, the performance of network transmission is estimated by generating a simulated network transmission data stream and recording performance indexes, a user can perform parameter configuration, monitoring result checking and report generation through an interface, the system also supports automatic test planning and continuous performance monitoring, abnormal conditions can be detected and alarm processing can be performed, the user is helped to know the performance characteristics of the network transmission deeply, and optimization suggestions and decision support are provided;

2. according to the system, the parameter configuration unit allows a user to easily set test parameters and an automatic task plan, so that the need of manual intervention is reduced, the test efficiency and consistency are improved, and the sending module generates a simulated network transmission data stream, so that the user can test network performance in a controlled environment without real network connection, and the cost and resources are saved;

3. the system also provides wide configuration options through the protocol setting unit, the data packet configuration unit and the rate control unit, allows a user to simulate various network conditions and scenes so as to more comprehensively test application programs and equipment, the data receiver, the data decoder and the performance index recorder work cooperatively to capture and record relevant indexes of network transmission, deep knowledge of system performance is provided, the performance data extraction unit and the data analysis unit are helpful for extracting key indexes from collected data and conducting deep analysis so as to find performance problems in time and take proper measures, and the performance comparison unit can be used for comparing different test results, so that the user is helped to know the change trend of system performance;

4. according to the method, the data storage unit stores performance data into the database so as to carry out history record and long-term trend analysis, the user interface display unit provides an intuitive interface, a user can track a test state and check results, the report generation unit generates a performance report, the user is helped to gather and share the test results, the automatic executor automatically triggers a test flow, the requirement of manual intervention is reduced, the abnormality detection and alarm unit monitors abnormal conditions, an alarm or prompt is triggered when necessary, and the method is beneficial to quick response of problems and reduction of system failure time.

Drawings

Fig. 1 is a step diagram of a network transmission performance test system and a test method according to an embodiment of the present application;

fig. 2 is a block flow diagram of a network transmission performance test system and a test method according to an embodiment of the present application;

fig. 3 is a block diagram of a network transmission performance test system and a test method sending module according to an embodiment of the present application;

fig. 4 is a block diagram of a network transmission performance test system and a test method receiving module according to an embodiment of the present application;

fig. 5 is a block diagram of a network transmission performance test system and a test method control module according to an embodiment of the present application;

fig. 6 is a block diagram of a network transmission performance test system and a test method analysis module according to an embodiment of the present application;

FIG. 7 is a block diagram of a network transmission performance test system and a test method database module according to an embodiment of the present application;

FIG. 8 is a block diagram of a user interface module of a network transmission performance test system and test method according to an embodiment of the present application;

FIG. 9 is a block diagram of a network transmission performance test system and a test method automation module according to an embodiment of the present disclosure;

fig. 10 is a schematic diagram of the overall structure of a portable display device according to the network transmission performance test system and the test method disclosed in the embodiments of the present application;

FIG. 11 is a schematic diagram of a partial structure of a portable display device of a network transmission performance test system and a test method according to an embodiment of the present application;

fig. 12 is a partial enlarged view of a region a of fig. 11 of a network transmission performance test system and a test method according to an embodiment of the present application;

the reference numerals in the figures illustrate: 1. a carrying frame; 2. turning over the cover plate; 3. a handle; 4. a limiting frame; 5. an operation panel; 6. an alarm; 7. a display screen; 8. an auxiliary screen; 9. a first fixing strip; 10. a second fixing strip; 11. a first connecting bar; 12. a second connecting bar; 13. a turnover block; 14. a jack; 15. a rotating shaft.

Detailed Description

The present application is described in further detail below in conjunction with the drawings attached to the specification.

Referring to fig. 2, an embodiment of the present application provides a network transmission performance testing system and testing method, including:

the sending module is used for generating simulated network transmission flow and sending the simulated network transmission flow to a network, and can generate data flows with different protocols (such as TCP and UDP), different data packet sizes and different data rates so as to simulate different network transmission conditions;

and a receiving module: the receiving module is used for receiving the data stream sent by the sending module, recording transmission performance indexes, and decoding, analyzing and storing the received data so as to facilitate subsequent performance evaluation and analysis;

and the control module is used for: the control module is the core of the whole test system and is used for configuring and controlling test parameters, monitoring the test process, setting parameters such as data packet size, sending rate, transmission protocol and the like, and monitoring network transmission performance indexes such as bandwidth utilization rate, delay, packet loss rate and the like in real time;

and an analysis module: the analysis module is used for analyzing and evaluating the collected performance data, extracting performance indexes, calculating statistical data such as average delay and bandwidth utilization rate, and generating a performance report or graphical display so that a user can better understand and compare network transmission performance;

a database module: the database module is used for storing and managing the performance data acquired by the test system, and can classify and store the data so as to facilitate long-term archiving and subsequent historical data analysis;

a user interface module: the user interface module provides an interface for the user to interact with the test system, can display the state and result of the current test, and provides functions of setting parameters, checking reports and the like, so that the user can conveniently operate and monitor;

and an automation module: the automatic module is used for automatically executing test flow and tasks, reducing manual intervention, setting an automatic test plan, periodically executing tests, automatically recording performance data and generating reports.

Referring to fig. 3, the transmitting module includes:

the data generator is used for generating a simulated network transmission data stream and can be configured with different protocols, data packet sizes and rates;

the protocol setting unit is used for setting the protocol type used by the transmitted data packet;

the data packet configuration unit is used for configuring the size, format and content of the data packet;

the rate control unit is used for controlling the rate of sending the data stream so as to simulate the conditions of different network transmission speeds;

the transmission module generates a simulated network transport data stream that enables a user to test network performance in a controlled environment without requiring a real network connection, thereby saving cost and resources, and the system also provides a wide range of configuration options through the protocol setup unit, the packet configuration unit, and the rate control unit, allowing the user to simulate various network conditions and scenarios to more fully test applications and devices.

Referring to fig. 4, the receiving module includes:

the data receiver receives the data stream sent by the sending module and records the data stream for subsequent analysis;

a data decoder for decoding the received data stream, converting it into a readable format for performance evaluation and analysis;

a performance index recorder that records the received transmission performance index;

the data receiver, data decoder and performance index recorder work cooperatively to capture and record network transmission related indices, providing insight into system performance.

Referring to fig. 5, the control module includes:

the parameter configuration unit is used for configuring test parameters such as data packet size, sending rate and transmission protocol;

the real-time monitoring unit is used for monitoring real-time performance indexes of network transmission, such as bandwidth utilization rate, delay, packet loss rate and the like, and displaying the real-time performance indexes to a user;

the test control unit is used for controlling the start, stop and reset of the test and providing feedback of the test state;

the system allows a user to easily set test parameters and an automatic task plan through the parameter configuration unit, reduces the need of manual intervention, and improves the efficiency and consistency of the test.

Referring to fig. 6, the analysis module includes:

a performance data extraction unit that extracts key indicators from the collected performance data;

the data analysis unit is used for analyzing the performance data and evaluating the network transmission performance in the modes of calculating statistical data, generating a chart or a report and the like;

the performance comparison unit is used for carrying out comparison analysis on different test results and helping a user to know the change trend and the optimization effect of the network transmission performance;

the performance data extraction unit and the data analysis unit are beneficial to extracting key indexes from the collected data and performing deep analysis so as to discover performance problems in time and take proper measures, and the performance comparison unit can be used for comparing different test results, so that a user is helped to know the change trend of the system performance.

Referring to fig. 7, the database module includes:

a data storage unit for storing the collected performance data into a database, including transmission performance indicators and associated metadata;

the data management unit is used for managing data in the database and comprises operations such as classification, indexing, backup and the like;

the data storage unit stores the performance data in a database for historic records and long-term trend analysis.

Referring to fig. 8, the user interface module includes:

the interface display unit is used for displaying the state and the result of the current test and presenting performance data and reports in a chart, table or visual mode;

the parameter configuration unit is used for providing a user interface, allowing a user to set test parameters, controlling a test process and checking a monitoring result;

a report generating unit for generating a performance report, and generating a report format which is readable and easy to understand according to the collected data;

the user interface display unit provides an intuitive interface, so that a user can track the test state and view the result, and the report generating unit generates a performance report to help the user gather and share the test result.

Referring to fig. 9, the automation module includes:

the automatic task scheduler is used for setting an automatic test plan, a test period and continuous performance monitoring;

the automatic executor is used for automatically triggering a test flow, executing a test process, automatically recording performance data and generating a report;

the abnormality detection and alarm unit is used for monitoring abnormal conditions in the test process and triggering an alarm or reminding a user to process;

the automatic executor automatically triggers the test flow, reduces the requirement of manual intervention, and the abnormality detection and alarm unit monitors abnormal conditions and triggers an alarm or a reminder when necessary, thereby being beneficial to quickly responding to problems and reducing the system fault time.

Referring to fig. 1-12, a network transmission performance testing method includes the steps of:

s1, a user sets test parameters such as data packet size, sending rate, transmission protocol and the like through a parameter configuration unit, and then sets an automatic task plan through an automatic task scheduler;

s2, a data generator in the sending module generates a simulated network transmission data stream according to the configured parameters, and the simulated network transmission data stream is configured through a protocol setting unit, a data packet configuration unit and a rate control unit;

s3, the data receiver receives the data stream sent by the sending module, the data decoder converts the data stream into a readable format, and the performance index recorder records the network transmission related index;

s4, extracting key indexes from the collected data by a performance data extraction unit, and analyzing the performance data by a data analysis unit;

s5, the performance comparison unit compares different test results, the data storage unit stores performance data into the database, and the data management unit manages database operation;

s6, a user interface display unit displays the test state and the result, a parameter configuration unit provides a user interface, and a report generation unit generates a performance report;

and S7, automatically triggering a test flow by the automatic executor, monitoring abnormal conditions by the abnormality detection and alarm unit, and triggering an alarm or reminding.

Referring to fig. 10-12, the user interface display unit is applied to a portable display device convenient to carry, the portable display device comprises a portable frame 1, one side of the portable frame 1 is hinged with a turnover cover plate 2, the upper end surface of the turnover cover plate 2 is fixedly connected with a handle 3, both sides of the interior of the portable frame 1 are fixedly connected with a limiting frame 4, a detected cable can be placed in a cavity formed by the limiting frame 4 and the portable frame 1, an operation panel 5 is fixedly connected with one side of the operation panel 5, an alarm 6 is fixedly connected with the front surface of the turnover cover plate 2, a display screen 7 is fixedly connected with both sides of the display screen 7, the auxiliary screen 8 can play a role of split screen assistance, so that a worker can operate conveniently, a certain sunshade effect can be played, the auxiliary screen 8 and the display screen 7 can be stored in the interior of the portable frame 1, the worker can carry and use conveniently, and the use effect of the device is greatly improved;

the up end of display screen 7 and the equal fixedly connected with first fixed strip 9 of terminal surface down, the up end of supplementary screen 8 and the equal fixedly connected with second fixed strip 10 of terminal surface down, the equal fixedly connected with first connecting strip 11 of terminal surface that two first fixed strips 9 kept away from each other, the equal fixedly connected with second connecting strip 12 of terminal surface that two second fixed strips 10 kept away from each other, be equipped with upset piece 13 between first connecting strip 11 and the second connecting strip 12, jack 14 has all been run through to the inside both sides of upset piece 13, jack 14's inside rotation is connected with pivot 15, and pivot 15 extends into the inside of second fixed strip 10 and first fixed strip 9, two supplementary screen 8 accessible upset freely are adjusted simply, can overturn two supplementary screens 8 to the surface of display screen 7 simultaneously, display screen 7 is laminated together with supplementary screen 8, reduce occupation space, conveniently accomodate.

Working principle: a user sets test parameters such as data packet size, sending rate, transmission protocol and the like through a parameter configuration unit, an automatic task plan is set through an automatic task scheduler, a data generator in a sending module generates simulated network transmission data streams according to the configured parameters and configures the simulated network transmission data streams through a protocol setting unit, a data packet configuration unit and a rate control unit, a data receiver receives the data streams sent by the sending module, a data decoder converts the data streams into a readable format, a performance index recorder records network transmission related indexes, a performance data extraction unit extracts key indexes from the collected data, a data analysis unit analyzes the performance data, a performance comparison unit compares different test results, a data storage unit stores the performance data into a database, a data management unit manages database operation, a user interface display unit displays test states and results, a parameter configuration unit provides a user interface, a report generation unit generates a performance report, an automatic executor automatically triggers a test flow, and an abnormality detection and alarm unit monitors abnormal conditions and triggers an alarm or a reminder.

In the above process, the system of the application further provides a wide configuration option through the protocol setting unit, the data packet configuration unit and the rate control unit, so that a user is allowed to simulate various network conditions and scenes so as to more comprehensively test application programs and equipment, the data receiver, the data decoder and the performance index recorder work cooperatively to capture and record relevant indexes of network transmission, deep understanding of system performance is provided, the performance data extraction unit and the data analysis unit are helpful for extracting key indexes from collected data and conducting deep analysis so as to timely find performance problems and take appropriate measures, and the performance comparison unit can be used for comparing different test results so as to help the user to know the change trend of system performance.

Claims (10)

1. A network transmission performance test system is characterized in that: comprising:

a transmission module for generating and transmitting simulated network traffic to a network, the transmission module comprising: the data generator is used for generating a simulated network transmission data stream and configuring different protocols, data packet sizes and rates; the protocol setting unit is used for setting the protocol type used by the transmitted data packet; the data packet configuration unit is used for configuring the size, the format and the content of the data packet and further comprises a rate control unit;

the receiving module is used for receiving the data stream sent by the sending module and recording transmission performance indexes, and comprises: the data receiver receives the data stream sent by the sending module and records the data stream for subsequent analysis; a data decoder for decoding the received data stream, converting it into a readable format for performance assessment and analysis, and a performance index recorder;

the control module is used for configuring and controlling test parameters, monitoring a test process, setting the size, the sending rate and the transmission protocol of a data packet, and monitoring network transmission performance indexes in real time, and comprises: the test control unit is used for controlling the start, stop and reset of the test and providing feedback of the test state;

the analysis module is used for analyzing and evaluating the collected performance data;

the database module is used for storing and managing the performance data acquired by the test system;

the user interface module is used for providing an interface for the user to interact with the test system;

an automation module for automatically executing test procedures and tasks, the automation module comprising: the automatic task scheduler is used for setting an automatic test plan, a test period and continuous performance monitoring; and the automatic executor is used for automatically triggering a test flow, executing a test process, automatically recording performance data and generating a report.

2. The network transmission performance test system according to claim 1, wherein: the rate control unit is used for controlling the rate of sending the data stream so as to simulate the conditions of different network transmission speeds.

3. The network transmission performance test system according to claim 1, wherein: the performance index recorder records the received transmission performance index.

4. The network transmission performance test system according to claim 1, wherein: the control module further includes:

the parameter configuration unit is used for configuring test parameters;

the real-time monitoring unit is used for monitoring real-time performance indexes of network transmission.

5. The network transmission performance test system according to claim 1, wherein: the analysis module comprises:

a performance data extraction unit that extracts key indexes from the collected performance data;

the data analysis unit is used for analyzing the performance data and evaluating the network transmission performance by calculating statistical data, generating a chart or a report;

and the performance comparison unit is used for carrying out comparison analysis on different test results and helping a user to know the change trend and the optimization effect of the network transmission performance.

6. The network transmission performance test system according to claim 1, wherein: the database module comprises:

a data storage unit for storing the collected performance data into a database;

and the data management unit is used for managing the data in the database.

7. The network transmission performance test system according to claim 1, wherein: the user interface module includes:

the interface display unit is used for displaying the state and the result of the current test and presenting performance data and reports in a chart, table or visual mode;

the parameter configuration unit is used for providing a user interface, allowing a user to set test parameters, controlling a test process and checking a monitoring result;

and the report generation unit is used for generating a performance report and generating a report format which is readable and easy to understand according to the collected data.

8. The network transmission performance test system according to claim 1, wherein: the automatic module also comprises an abnormality detection and alarm unit, wherein the abnormality detection and alarm unit monitors abnormal conditions in the testing process and triggers an alarm or reminds a user to process.

9. A method of testing a network transmission performance testing system as claimed in any one of claims 1 to 8, comprising the steps of:

s1, a user sets test parameters such as data packet size, sending rate and transmission protocol through a parameter configuration unit, and then sets an automatic task plan through an automatic task scheduler;

s2, a data generator in the sending module generates a simulated network transmission data stream according to the configured parameters, and the simulated network transmission data stream is configured through a protocol setting unit, a data packet configuration unit and a rate control unit;

s3, the data receiver receives the data stream sent by the sending module, the data decoder converts the data stream into a readable format, and the performance index recorder records the network transmission related index;

s4, extracting key indexes from the collected data by a performance data extraction unit, and analyzing the performance data by a data analysis unit;

s5, the performance comparison unit compares different test results, the data storage unit stores performance data into the database, and the data management unit manages database operation;

s6, a user interface display unit displays the test state and the result, a parameter configuration unit provides a user interface, and a report generation unit generates a performance report;

and S7, automatically triggering a test flow by the automatic executor, monitoring abnormal conditions by the abnormality detection and alarm unit, and triggering an alarm or reminding.

10. The test method according to claim 9, wherein: the user interface display unit is applied to a portable display device which is convenient to carry.