CN111581107A - FTP program fatigue test method and system - Google Patents

Abstract

The embodiment of the invention provides a fatigue test method and a system for an FTP program. The method comprises the following steps: the method comprises the steps that a storage server deployed in a local area network reports performance indexes obtained by fatigue testing of an FTP program on a test service terminal to a monitoring server deployed in a wide area network; and the monitoring server receives and executes the query instruction sent by the user terminal through the wide area network, acquires the performance index corresponding to the query instruction, and sends the performance index corresponding to the query instruction to the user terminal. According to the FTP program fatigue testing method and system provided by the embodiment of the invention, the monitoring server is positioned in the wide area network through collecting and storing the FTP program fatigue testing program in the local area network, remote control can be carried out through the user terminal at any time and any place, the testing progress is concerned in real time, the testing instruction is adjusted, and the whole testing process can be controlled at any time and any place, so that the field working time of testing personnel can be further saved, the testing efficiency can be improved, and the testing cost can be reduced.

Description

FTP program fatigue test method and system

Technical Field

The embodiment of the invention relates to the technical field of computers, in particular to a fatigue test method and a system for an FTP program.

Background

In the network management system architecture, a process of reporting the device acquisition information to an OMC (Operation and maintenance Center) network management server is called southward upload, and a process of uploading the device acquisition data to the integrated network management by the OMC network management server is called northbound upload.

Wherein, the uploading path of the southbound file is as follows: the OMC network manager issues a data acquisition instruction to the equipment, the equipment uploads the acquired data XML file to an FTP server through an FTP mode, and reports a file uploading completion indication message to the OMC network manager; the northbound file uploading path is as follows: and the OMC network manager downloads and analyzes the file uploaded by the equipment according to the information reported by the equipment, repacks the file into a northbound file, and pushes the northbound file to a server appointed by the northbound comprehensive network manager through the FTP.

Therefore, in the whole operation process of the network management system, the FTP program is one of the core components, and whether the FTP program is stable or not is closely related to the safety and stability of the transmitted process in the process of uploading the south files and uploading the north files. Therefore, concurrent fatigue testing must be performed on the FTP program when testing the stability of the network management system, and FTP program optimization must be performed according to specific test results.

The FTP program fatigue test is a test that requires a long run time, and this type of test often requires the FTP program to run continuously for a long time, such as 72 hours or 7 x 24 hours, with concurrent access. As such, this kind of test needs make full use of night and weekend's time, but in the test process of so long-time, various unpredictable test risks appear very easily, and whole test process needs the long-time guard of tester, and the manpower requirement to the tester is extremely high.

For the above situation, currently, Loadrunner automated testing software is commonly used to perform fatigue testing, but this testing method has the following three problems: firstly, in consideration of data security, automatic test software is generally placed in a local area network to run and cannot be directly accessed through a web network, testers need to be on site, cannot be remotely operated and adjusted anytime and anywhere, has extremely high requirements on manpower and low efficiency; secondly, in the fatigue test process, the automatic test software has no active alarm prompt and self-processing mechanism, and if the triggered problem cannot be processed in time, the whole test result may be invalidated; and thirdly, the automatic testing software is expensive.

Disclosure of Invention

The embodiment of the invention provides a fatigue testing method and a system for an FTP program, which are used for solving or at least partially solving the defect of low testing efficiency in the prior art.

In a first aspect, an embodiment of the present invention provides a fatigue test method for an FTP program, including:

the method comprises the steps that a storage server deployed in a local area network reports performance indexes obtained by fatigue testing of an FTP program on a test service terminal to a monitoring server deployed in a wide area network;

the monitoring server receives and executes a query instruction sent by a user terminal through the wide area network, obtains a performance index corresponding to the query instruction, and sends the performance index corresponding to the query instruction to the user terminal.

Preferably, the FTP program fatigue test method further comprises:

the monitoring server receives an operation instruction sent by the user terminal and sends the operation instruction to the storage server; the operation instruction is used for carrying out fatigue test on the FTP program on the test service terminal;

and the storage server sends the operation instruction to the test service terminal through the local area network so that the test service terminal executes the operation instruction to perform fatigue test on the FTP program.

Preferably, before the step of reporting, to a monitoring server deployed in a wide area network, a performance index obtained by performing a fatigue test on an FTP program on a test service terminal, the storage server deployed in the local area network further includes:

the storage server judges whether the performance index meets any preset emergency treatment scene;

and if not, the storage server reports the performance index to the monitoring server.

Preferably, after determining whether the performance index meets any preset emergency treatment scenario, the storage server further includes:

and if any emergency processing scene is met, the storage server sends an emergency processing instruction corresponding to any emergency processing scene to the test service terminal.

Preferably, after the reporting, to the monitoring server deployed in the wide area network, a performance index obtained by performing a fatigue test on the FTP program on the test service terminal, the method further includes:

and if the monitoring server judges that any one of the performance indexes meets a preset alarm condition, the monitoring server sends alarm information to the user terminal through the wide area network.

Preferably, before the determining whether the performance index meets any one of the preset emergency treatment scenarios, the storage server further includes:

the test service terminal sends the performance index to a processing server through the local area network;

the processing server encrypts the performance index and sends the performance index to the storage server through the local area network;

and the storage server decrypts the encrypted performance index and stores the performance index into a database.

Preferably, the specific step of sending the operation instruction to the test service terminal by the storage server through the local area network includes:

and the storage server reads the operation instruction according to a preset period and sends the read operation instruction to the test service terminal through the local area network.

Preferably, the specific step of the storage server sending the read operation instruction to the test service terminal through the local area network includes:

the storage server encrypts the operation instruction and sends the operation instruction to a processing server through the local area network;

and the processing server decrypts the encrypted operation instruction and sends the operation instruction to the test service terminal through the local area network.

In a second aspect, an embodiment of the present invention provides an FTP program fatigue test system, including: the system comprises a storage server and a test service terminal which are deployed in a local area network, and a monitoring server which is deployed in a wide area network; the storage server and the monitoring server carry out data interaction in an IP mapping mode;

the storage server is used for reporting a performance index obtained by carrying out fatigue test on the FTP program on the test service terminal to the monitoring server;

the monitoring server is used for receiving and executing the query instruction sent by the user terminal, acquiring the performance index corresponding to the query instruction, and sending the performance index corresponding to the query instruction to the user terminal.

Preferably, the FTP program fatigue test system further comprises:

and the processing server is deployed in the local area network and is used for sending the performance index to the storage server through the local area network after encrypting the performance index.

According to the FTP program fatigue testing method and system provided by the embodiment of the invention, the FTP program fatigue testing method and system are arranged in the local area network through collection and storage, and the local area network is used, so that the access of each testing terminal server is very quick, the stability that the server can be accessed is ensured, and the risk of test data loss is greatly reduced; the monitoring server is arranged in a wide area network, a tester can remotely control the testing progress and adjust the testing instruction through the user terminal anytime and anywhere, the whole testing process can be controlled anytime and anywhere, the field working time of the tester can be further saved, the testing efficiency can be improved, and the testing cost can be reduced. Furthermore, the test environment is set up more conveniently and quickly, the cost is lower, and the difficult problem of long-time control difficulty in the process of carrying out fatigue test on the FTP program can be better solved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Fig. 1 is a schematic flowchart of an FTP program fatigue testing method according to an embodiment of the present invention;

fig. 2 is a schematic flowchart of a fatigue testing method for an FTP program according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of an FTP program fatigue test system provided according to an embodiment of the present invention;

fig. 4 is a schematic forward workflow diagram of an FTP program fatigue test system provided according to an embodiment of the present invention;

fig. 5 is a schematic reverse workflow diagram of an FTP program fatigue testing system according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In order to overcome the above problems in the prior art, embodiments of the present invention provide a method and a system for testing fatigue of an FTP program, where a monitoring server in a wide area network performs data interaction with a storage server in a local area network, and a user views a performance index in real time on a computer or a mobile phone APP outside a company and receives an alarm from a test system.

Fig. 1 is a schematic flow chart of an FTP program fatigue testing method according to an embodiment of the present invention. As shown in fig. 1, the method includes: and S101, a storage server deployed in a local area network reports performance indexes obtained by fatigue testing of the FTP program on the test service terminal to a monitoring server deployed in a wide area network.

It should be noted that the execution subject of the FTP program fatigue test method provided by the embodiment of the present invention is an FTP program fatigue test system. The system can comprise a storage server and a test service terminal which are deployed in a local area network, and a monitoring server which is deployed in a wide area network.

Each test service terminal can acquire the performance index on the corresponding test service terminal through the acquisition module on the test service terminal and transmit the performance index to the storage server for storage through the local area network.

The acquisition module sets related configuration data, and the configuration data comprises the configuration of the tested FTP program, the server configuration (such as IP and port number) of the acquisition module, a server instruction issuing switch, a log switch and the like.

The acquisition module mainly realizes the acquisition of performance indexes. And (4) performance index collection, namely periodically reading the FTP program transmission log and counting in the test process to obtain data such as concurrence number, success number, failure number, reconnection times, transmission delay and the like in the file transmission process as performance indexes.

The storage server may store the received performance indicators in a database via a storage module on the storage server.

Preferably, the storage module may store the performance index data in the database of the storage server according to the time record in the performance index data.

After storage, the stored performance indicators may be sent to a monitoring server.

It should be noted that, the monitoring server is in the wide area network, and may perform data interaction with the storage server in the local area network in an IP mapping manner, and a firewall in the local area network performs port mapping management and control.

Step S102, the monitoring server receives and executes the query instruction sent by the user terminal through the wide area network, obtains the performance index corresponding to the query instruction, and sends the performance index corresponding to the query instruction to the user terminal.

Specifically, the user terminal sends a query instruction to the monitoring server through a wide area network (e.g., the internet, etc.) to obtain a required performance index.

The monitoring server can deploy the accessed client, provide a WEB interface capable of displaying data graphs for the user terminal, enable the user to use a computer or a mobile phone and other user terminals to remotely access outside a company, and respond to the query and/or instruction operation of the user through the communication with the database of the storage server.

The monitoring server acquires the corresponding performance index as a query result by executing the query instruction, and returns the query result to the user terminal through the wide area network.

The query instruction can be used for real-time query or historical query.

The embodiment of the invention is in the local area network through collection and storage, and by using the local area network, the access of each test terminal server is very fast, the stability of the server which can be accessed is ensured, and the risk of test data loss is greatly reduced; the monitoring server is arranged in a wide area network, a tester can remotely control the testing progress and adjust the testing instruction through the user terminal anytime and anywhere, the whole testing process can be controlled anytime and anywhere, the field working time of the tester can be further saved, the testing efficiency can be improved, and the testing cost can be reduced. Furthermore, the test environment is set up more conveniently and quickly, the cost is lower, and the difficult problem of long-time control difficulty in the process of carrying out fatigue test on the FTP program can be better solved.

Based on the content of the foregoing embodiments, as shown in fig. 2, the FTP program fatigue test method further includes: step S201, a monitoring server receives an operation instruction sent by a user terminal and sends the operation instruction to a storage server; and the operation instruction is used for carrying out fatigue test on the FTP program on the test service terminal.

Specifically, in the reverse direction, the user may use a user terminal such as a computer or a mobile phone to perform a fatigue test on the FTP program by issuing an operation instruction of the FTP program on a certain test service terminal through the wide area network.

And the monitoring server receives the operation instruction sent by the user terminal and forwards the operation instruction to the storage server.

And S202, the storage server sends the operation instruction to the test service terminal through the local area network so that the test service terminal can execute the operation instruction to perform fatigue test on the FTP program.

Specifically, the storage server sends the operation instruction to the test service terminal through the local area network.

After receiving the operation instruction, the test service terminal executes the operation instruction, the FTP program carries out uploading and/or downloading operation based on the FTP protocol, and carries out fatigue test on the FTP program to obtain data such as concurrency number, success number, failure number, reconnection number, transmission delay and the like as performance indexes.

The embodiment of the invention is in the local area network through collection and storage, and by using the local area network, the access of each test terminal server is very fast, the stability of the server which can be accessed is ensured, and the risk of test data loss is greatly reduced; the monitoring server is arranged in a wide area network, a tester can remotely control the testing progress and adjust the testing instruction through the user terminal anytime and anywhere, the whole testing process can be controlled anytime and anywhere, the field working time of the tester can be further saved, the testing efficiency can be improved, and the testing cost can be reduced. Furthermore, the test environment is set up more conveniently and quickly, the cost is lower, and the difficult problem of long-time control difficulty in the process of carrying out fatigue test on the FTP program can be better solved.

Based on the content of the foregoing embodiments, before the deploying the storage server in the local area network and reporting the performance index obtained by performing the fatigue test on the FTP program on the test service terminal to the monitoring server deployed in the wide area network, the method further includes: and the storage server is used for judging whether the performance index meets any preset emergency treatment scene.

Specifically, before reporting the performance index to the monitoring server, the storage server determines whether the performance index meets any preset emergency processing scenario.

And if the performance index is judged to meet the results of any preset emergency treatment scene, the performance index is reported to the monitoring server by the storage server.

Specifically, if each emergency processing scenario is not satisfied, it indicates that the test process is normal, and may directly report the performance index to the monitoring server, and perform step S101.

The embodiment of the invention ensures that each test terminal server is accessed very quickly, ensures the stability of the server being accessed and ensures that the risk of test data loss is greatly reduced by collecting and storing the test terminal server in the local area network and using the local area network.

Based on the content of the foregoing embodiments, after the storage server determines whether the performance index satisfies any one of the predetermined emergency processing scenarios, the method further includes: and if any emergency processing scene is met, the storage server sends an emergency processing instruction corresponding to any emergency processing scene to the test service terminal.

Specifically, if the performance index meets any preset emergency processing scene, the result is that a certain emergency processing scene is met, an emergency processing instruction corresponding to the emergency processing scene is determined, and the emergency processing instruction is sent to the test service terminal through the local area network, so that automatic emergency processing is performed on the problem scene.

It should be noted that the emergency processing instruction is a preset instruction. And different emergency treatment instructions correspond to different emergency treatment scenes. The emergency processing instruction can be an instruction for restarting the FTP program, performing the test again or restarting the test service terminal and the like.

The embodiment of the invention is configured with the emergency treatment instruction of the known scene, and can automatically match the problem scene in the test process for automatic emergency treatment, thereby improving the test efficiency and reducing the test cost.

Based on the content of the foregoing embodiments, after being deployed in a storage server of a local area network and reporting a performance index obtained by performing a fatigue test on an FTP program on a test service terminal to a monitoring server deployed in a wide area network, the method further includes: and if the monitoring server judges that any one of the performance indexes meets the preset alarm condition, the monitoring server sends alarm information to the user terminal through the wide area network.

Specifically, after receiving the performance index, the monitoring server may further determine whether the performance index meets a preset alarm condition.

The monitoring server can judge the compliance and the priority of the performance index according to a preset performance index threshold, and if the judgment result is serious and important priority, the monitoring server can send alarm information to the user terminal in an alarm sound or early warning popup mode to inform a tester; otherwise, no prompt is made.

The embodiment of the invention can facilitate testers to find and process problems in time by performing performance index early warning, thereby improving the testing efficiency and reducing the testing cost.

Based on the content of the foregoing embodiments, before the storage server determines whether the performance index satisfies any one of the preset emergency processing scenarios, the method further includes: and the test service terminal sends the performance index to the processing server through the local area network.

Specifically, the system may further include a processing server deployed in the local area network.

The acquisition module on each test service terminal can send the obtained performance index to the processing module on the processing server through the local area network.

The acquisition module and the processing module can perform data interaction through a data connection program on the processing server.

And the processing server encrypts the performance index and sends the performance index to the storage server through the local area network.

Specifically, in order to ensure security and privacy, the processing module on the processing server may summarize the performance indexes reported by the test service terminals, encrypt the performance indexes, and send the performance indexes to the storage server through the local area network.

The processing module of the processing server and the storage module of the storage server interact through a DataAccess connection program.

And the storage server decrypts the encrypted performance index and stores the performance index into the database.

Specifically, the storage module on the storage server may decrypt the received encrypted data and store the decrypted data in the database of the storage server.

The embodiment of the invention can ensure the safety of the test data by carrying out encryption transmission on the performance index.

Based on the content of the above embodiments, the specific steps of the storage server sending the operation instruction to the test service terminal through the local area network include: and the storage server reads the operation instruction according to a preset period and sends the read operation instruction to the test service terminal through the local area network.

Specifically, the storage module on the storage server may read the issued operation instruction from the database of the storage server according to a preset period, and send the operation instruction to the test service terminal through the local area network.

According to the embodiment of the invention, the storage server sends the operation instruction to the test service terminal through the local area network according to the preset period, so that the timely execution of the operation instruction can be ensured.

Based on the content of the foregoing embodiments, the specific steps of the storage server sending the read operation instruction to the test service terminal through the local area network include: and after encrypting the operation instruction, the storage server sends the operation instruction to the processing server through the local area network.

Specifically, in the local area network, the operation instruction may also be transmitted in an encrypted manner, the storage server encrypts the operation instruction, and the encrypted operation instruction is sent to the processing server through the local area network.

And the processing server decrypts the encrypted operation instruction and sends the operation instruction to the test service terminal through the local area network.

Specifically, the processing server decrypts the operation instruction forwarded by the storage module of the storage server and sends the operation instruction to the acquisition module of each test terminal.

It will be appreciated that the emergency treatment instructions may also be transmitted in an encrypted manner over a local area network. The encryption transmission process of the emergency processing instruction is similar to the encryption transmission process of the operation instruction, and is not described herein again.

The embodiment of the invention can ensure the safety of the test data by carrying out encryption transmission on the operation instruction

Fig. 3 is a schematic structural diagram of an FTP program fatigue test system according to an embodiment of the present invention. Based on the content of the above embodiments, as shown in fig. 3, the system includes a test service terminal 301, a storage server 302, and a monitoring server 303, where:

a storage server 302 and a test service terminal 301 deployed in a local area network, and a monitoring server 303 deployed in a wide area network; the storage server 302 and the monitoring server 303 perform data interaction in an IP mapping mode;

the storage server 302 is used for reporting a performance index obtained by performing fatigue test on the FTP program on the test service terminal 301 to the monitoring server 303;

and the monitoring server 303 is configured to receive and execute the query instruction sent by the user terminal, acquire a performance index corresponding to the query instruction, and send the performance index corresponding to the query instruction to the user terminal.

Specifically, each test service terminal 301 may collect the performance index of the corresponding test service terminal 301, and transmit the performance index to the storage server 302 through the local area network for storage.

The storage server 302 may store the received performance indicators in a database; after storage, the stored performance indicators may be sent to the monitoring server 303.

The monitoring server 303 may respond to the query operation of the user, obtain the corresponding performance index as a query result by executing the query instruction, and return the query result to the user terminal through the wide area network.

The specific method and flow for implementing the corresponding functions by the modules included in the FTP program fatigue test system are described in the embodiments of the FTP program fatigue test method, and details are not described herein.

The FTP program fatigue test system is used in the FTP program fatigue test method of the foregoing embodiments. Therefore, the description and definition in the FTP program fatigue test method in the foregoing embodiments can be used for understanding the execution modules in the embodiments of the present invention.

The embodiment of the invention is in the local area network through collection and storage, and by using the local area network, the access of each test terminal server is very fast, the stability of the server which can be accessed is ensured, and the risk of test data loss is greatly reduced; the monitoring server is arranged in a wide area network, a tester can remotely control the testing progress and adjust the testing instruction through the user terminal anytime and anywhere, the whole testing process can be controlled anytime and anywhere, the field working time of the tester can be further saved, the testing efficiency can be improved, and the testing cost can be reduced. Furthermore, the test environment is set up more conveniently and quickly, the cost is lower, and the difficult problem of long-time control difficulty in the process of carrying out fatigue test on the FTP program can be better solved.

Based on the content of the foregoing embodiments, the FTP program fatigue test system further includes: and the processing server is deployed in the local area network and used for sending the performance index to the storage server through the local area network after encrypting the performance index.

Specifically, in order to ensure security and privacy, the processing module on the processing server may summarize the performance indexes reported by the test service terminals, encrypt the performance indexes, and send the performance indexes to the storage server through the local area network.

It should be noted that the processing server, the storage server, and the monitoring server in the whole system implement seamless switching in a Windows failover cluster manner, so as to prevent a management and control system failure caused by a network failure or a program error, and ensure that the whole system operates for 7 × 24 hours.

The embodiment of the invention can ensure the safety of the test data by carrying out encryption transmission on the performance index.

In order to facilitate understanding of the above embodiments of the present invention, a forward workflow and a reverse workflow of the FTP program fatigue testing system provided by the embodiments of the present invention are described below.

Fig. 4 is a schematic forward workflow diagram of an FTP program fatigue test system provided according to an embodiment of the present invention; fig. 5 is a schematic reverse workflow diagram of an FTP program fatigue testing system according to an embodiment of the present invention. As shown in fig. 4 and 5, the system includes a test service terminal, a processing server, a storage server, and a monitoring server.

A forward working process, which is a process for reporting performance indexes obtained by carrying out fatigue test on the FTP program; and the reverse working process is a process of issuing an instruction for performing fatigue test on the FTP program.

As shown in fig. 4, the forward workflow may include:

the test service terminal can acquire the performance index of the test service terminal in the process of carrying out fatigue test on the FTP program deployed on the test service terminal and send the performance index to the processing server in the local area network;

the processing server is used for summarizing and encrypting the received performance indexes and sending the performance indexes to a storage server in the local area network;

the storage server, on one hand, decrypts the received encrypted data and stores the decrypted data into a database of the storage server; on the other hand, whether the performance index meets any preset emergency treatment scene is judged;

if the performance index does not meet the requirement, the storage server sends the performance index obtained by decryption to the monitoring server; if the emergency processing scene meets the requirement, the storage server sends an emergency processing instruction corresponding to the met emergency processing scene to the test service terminal through the processing server for emergency processing;

the monitoring server provides a WEB interface capable of displaying data graphs, so that a user can remotely access the WEB interface outside a test area by using a user terminal (such as a computer or a mobile phone APP) and responds to real-time query and instruction operation of the user through communication with a database of the storage server;

the monitoring server judges whether the performance index meets a preset alarm condition; if yes, the monitoring server can actively report alarm information to the user terminal; if not, the monitoring server does not actively report the alarm information to the user terminal.

As shown in fig. 5, the reverse workflow may include:

the monitoring server writes an operation instruction of a FTP program on a certain test service terminal, which is issued by a user through a remote user terminal (such as a computer or a mobile phone APP), into a database of the storage server;

the storage server is used for encrypting the operation instruction or the emergency processing instruction in the storage server database and sending the encrypted operation instruction or the encrypted emergency processing instruction to the processing server;

the processing server is used for decrypting the operation instruction or the emergency processing instruction received by the processing server and sending the decrypted operation instruction or the emergency processing instruction to the test service terminal;

and the test service terminal receives the operation instruction sent by the processing server and sends the operation instruction to the corresponding FTP program for execution so as to perform fatigue test on the FTP program.

The above-described system embodiments are merely illustrative, and the units described as separate parts may or may not be physically separate, and the parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. It is understood that the above-described technical solutions may be embodied in the form of a software product, which may be stored in a computer-readable storage medium, such as ROM/RAM, magnetic disk, optical disk, etc., and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method of the above-described embodiments or some parts of the embodiments.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A fatigue test method for an FTP program is characterized by comprising the following steps:

the method comprises the steps that a storage server deployed in a local area network reports performance indexes obtained by fatigue testing of an FTP program on a test service terminal to a monitoring server deployed in a wide area network;

the monitoring server receives and executes a query instruction sent by a user terminal through the wide area network, obtains a performance index corresponding to the query instruction, and sends the performance index corresponding to the query instruction to the user terminal.

2. The FTP program fatigue test method of claim 1, further comprising:

the monitoring server receives an operation instruction sent by the user terminal and sends the operation instruction to the storage server; the operation instruction is used for carrying out fatigue test on the FTP program on the test service terminal;

and the storage server sends the operation instruction to the test service terminal through the local area network so that the test service terminal executes the operation instruction to perform fatigue test on the FTP program.

3. The method according to claim 1, wherein before the storage server deployed in the local area network reports the performance index obtained by performing the fatigue test on the FTP program on the test service terminal to the monitoring server deployed in the wide area network, the method further comprises:

the storage server judges whether the performance index meets any preset emergency treatment scene;

and if not, the storage server reports the performance index to the monitoring server.

4. The FTP program fatigue testing method of claim 3, wherein said storage server, after determining whether said performance indicator satisfies any pre-set emergency treatment scenario, further comprises:

and if any emergency processing scene is met, the storage server sends an emergency processing instruction corresponding to any emergency processing scene to the test service terminal.

5. The FTP program fatigue test method of any of claims 1 to 4, wherein after the storage server deployed in the local area network reports the performance index obtained by performing the fatigue test on the FTP program on the test service terminal to the monitoring server deployed in the wide area network, the method further comprises:

and if the monitoring server judges that any one of the performance indexes meets a preset alarm condition, the monitoring server sends alarm information to the user terminal through the wide area network.

6. The FTP program fatigue testing method of claim 3, wherein before said storage server determining whether said performance indicator satisfies any pre-set emergency treatment scenario, further comprising:

the test service terminal sends the performance index to a processing server through the local area network;

the processing server encrypts the performance index and sends the performance index to the storage server through the local area network;

and the storage server decrypts the encrypted performance index and stores the performance index into a database.

7. The FTP program fatigue testing method according to claim 2, wherein the specific step of the storage server sending the operation instruction to the test service terminal through the local area network comprises:

and the storage server reads the operation instruction according to a preset period and sends the read operation instruction to the test service terminal through the local area network.

8. The FTP program fatigue testing method according to claim 7, wherein the specific steps of the storage server sending the read operation instructions to the test service terminal through the local area network comprise:

the storage server encrypts the operation instruction and sends the operation instruction to a processing server through the local area network;

and the processing server decrypts the encrypted operation instruction and sends the operation instruction to the test service terminal through the local area network.

9. An FTP program fatigue test system, comprising: the system comprises a storage server and a test service terminal which are deployed in a local area network, and a monitoring server which is deployed in a wide area network; the storage server and the monitoring server carry out data interaction in an IP mapping mode;

the storage server is used for reporting a performance index obtained by carrying out fatigue test on the FTP program on the test service terminal to the monitoring server;

the monitoring server is used for receiving and executing the query instruction sent by the user terminal, acquiring the performance index corresponding to the query instruction, and sending the performance index corresponding to the query instruction to the user terminal.

10. The FTP program fatigue test system of claim 9, further comprising:

and the processing server is deployed in the local area network and is used for sending the performance index to the storage server through the local area network after encrypting the performance index.

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