CN112445662A - Internet data broadcast socket testing method, server and storage medium - Google Patents

Abstract

The invention relates to a testing method of an internet data broadcasting socket, and belongs to the technical field of the internet. Firstly, a test server issues broadcast data decoupled with service; the receiving equipment receives the broadcast data through the socket and prints the broadcast data; and the test server compares the printing result with the issued broadcast data to perform socket test. Therefore, the testing method, the server and the storage medium of the Internet data broadcasting socket are decoupled from the service, lower in manufacturing data cost, more convenient to implement and capable of achieving pressure testing and fault-tolerant testing.

Description

Internet data broadcast socket testing method, server and storage medium

Technical Field

The invention relates to the technical field of internet, in particular to the technical field of internet broadcasting, and specifically relates to a test method of an internet data broadcasting socket.

Background

Internet broadcasting is a common broadcasting technology at present, each service party applying internet has a requirement for triggering broadcasting, and the triggered service scene is complex. The server side sends broadcast data in the local area network, and then the client side connected to the local area network replies the broadcast data correspondingly after receiving the broadcast data. The two programs on the server and the client realize data exchange through a bidirectional communication connection, and the connection is called socket. Testing sockets, particularly pressure testing, is an effective method for establishing system stability, and is usually performed outside the normal operation range of the system to examine the functional limit and hidden danger. QPS (Query Per Second) is an important indicator of stress testing, and QPS is a measure of how much traffic a particular Query server processes within a specified time.

Because the internet broadcasting service scene is complex, the existing testing tool and method are used for testing in functional dimension, so that the existing testing tool and method cannot be decoupled with the service scene, the manufacturing data cost is high, and the time and the labor are consumed; and the QPS cannot be ensured at the same time, and the pressure test is difficult to realize.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a test method, a server and a storage medium for internet data broadcasting socket, wherein the test method, the server and the storage medium are decoupled from service, have lower manufacturing data cost and are more convenient to realize, and can realize pressure test and fault-tolerant test.

In order to achieve the above purpose, the testing method of the internet data broadcasting socket of the invention is applied to a processor of a testing server; the test server comprises receiving equipment; the test method comprises the following steps:

issuing broadcast data decoupled from service for the receiving device to receive the broadcast data through a socket;

receiving a printing result printed according to the broadcast data and sent by the receiving equipment;

and performing socket test according to the printing result and the broadcast data.

In the method for testing an internet data broadcast socket, the issuing of broadcast data decoupled from service specifically includes:

editing the broadcast content and service type to generate the broadcast data;

setting a receiving range of the broadcast;

and transmitting the broadcast data decoupled with the service according to the receiving range.

In the method for testing the internet data broadcast socket, the editing of the broadcast content specifically comprises the following steps:

and editing and forming alternative test contents by using the existing broadcast contents, and selecting and generating the broadcast data in the alternative test contents.

In the method for testing an internet data broadcast socket, the editing broadcast content further includes:

editing abnormal broadcast content to generate abnormal broadcast data;

the socket test is carried out, and specifically comprises the following steps:

and carrying out socket broadcast fault tolerance test.

In the method for testing an internet data broadcast socket, the issuing of broadcast data decoupled from service further includes:

presetting QPS;

the method for issuing the broadcast data decoupled with the service according to the receiving range specifically comprises the following steps:

and issuing the broadcast data decoupled with the service according to the receiving range and the QPS.

In the method for testing the internet data broadcast socket, the preset QPS specifically includes:

and editing pressure test data, wherein the pressure test data comprises a pressure test id, a pressure value and a time stamp.

The socket test is carried out, and specifically comprises the following steps:

and comparing the printing result with the issued pressure test data, and judging whether the preset QPS is reached according to the pressure test id, the pressure value and the timestamp.

In the method for testing the internet data broadcast socket, the socket test further comprises the following steps:

and the receiving equipment derives the CPU utilization rate and the memory use condition data.

In the testing method of the internet data broadcasting socket, the receiving device is a simulation receiving device operated in the testing server or an entity receiving device independent of the testing server.

The present invention also provides a computer-readable storage medium having a computer program stored thereon, which, when executed by a processor, implements the method for testing an internet data broadcasting socket described above.

The invention also provides a test server of the Internet data broadcast socket, which comprises a processor and a memory, wherein the memory is stored with a computer program, and the computer program is executed by the processor to realize the test method of the Internet data broadcast socket.

The testing method of the Internet data broadcasting socket is adopted, firstly, a testing server issues broadcasting data decoupled with service; the receiving equipment receives the broadcast data through the socket and prints the broadcast data; and the test server compares the printing result with the issued broadcast data to perform socket test. Therefore, the testing method, the server and the storage medium of the Internet data broadcasting socket are decoupled from the service, lower in manufacturing data cost, more convenient to implement and capable of achieving pressure testing and fault-tolerant testing.

Drawings

Fig. 1 is a flowchart illustrating steps of a method for testing an internet data broadcasting socket according to the present invention.

Fig. 2 is a schematic page diagram of a broadcast transmission page used in the method for testing an internet data broadcast socket of the present invention.

Fig. 3 is a page schematic diagram of a background entry page adopted in the testing method of the internet data broadcast socket of the present invention.

Fig. 4 is a schematic page diagram of a broadcast receiving page used in the testing method of the internet data broadcast socket of the present invention.

Fig. 5 is a schematic page diagram of an abnormal test page used in the test method of the internet data broadcast socket of the present invention.

Fig. 6 is a schematic page diagram of a pressure test page used in the testing method of the internet data broadcast socket of the present invention.

Detailed Description

In order to clearly understand the technical contents of the present invention, the following examples are given in detail.

Fig. 1 is a flowchart illustrating steps of a method for testing an internet data broadcasting socket according to the present invention.

In one embodiment, the method for testing the internet data broadcasting socket comprises the following steps:

the test server issues broadcast data decoupled from the service for receiving by the receiving equipment through the socket;

the receiving equipment receives the broadcast data through a socket; printing the received broadcast data;

and the test server receives the printing result from the receiving equipment and performs socket test according to the printing result and the broadcast data.

The testing method of the Internet data broadcasting socket is applied to a processor of a testing server; the receiving device is a simulation receiving device running in the test server or an entity receiving device independent of the test server.

In a preferred embodiment, the method is implemented by a test server and a receiving device simulated by the test server, and the specific steps of the embodiment include:

the test server issues broadcast data decoupled from the service;

the test server operates a receiving device, and the receiving device receives the broadcast data through a socket;

the receiving equipment prints the received broadcast data, and the test server compares the printing result with the issued broadcast data to perform socket test.

In a further preferred embodiment, the sending, by the test server, the broadcast data decoupled from the service specifically includes:

editing the broadcast content and service type to generate the broadcast data;

setting a receiving range of the broadcast, namely setting which receiving devices can receive the broadcast data, wherein the receiving devices are included;

and the test server issues the broadcast data decoupled with the service according to the receiving range.

In a more preferred embodiment, the editing of the broadcast content specifically includes:

and editing and forming alternative test contents by using the existing broadcast contents, and selecting and generating the broadcast data in the alternative test contents. The alternative test content is formed by editing, so that the decoupling of the broadcast data and the service can be ensured, excessive test data does not need to be edited in the socket test process, and the application convenience of the test method is improved.

The editing of the broadcast content further comprises:

editing abnormal broadcast content to generate abnormal broadcast data;

the socket test is carried out, and specifically comprises the following steps:

and performing a socket broadcast fault tolerance test, and verifying the fault tolerance performance of the socket under the condition of abnormal broadcast data through the socket broadcast fault tolerance test.

In another preferred embodiment, the sending, by the test server, broadcast data decoupled from a service further includes:

presetting QPS;

and the test server issues broadcast data decoupled from the service according to the receiving range and the QPS.

Wherein, the preset QPS specifically includes:

and editing pressure test data, wherein the pressure test data comprises a pressure test id, a pressure value and a time stamp.

The socket test is carried out, and specifically comprises the following steps:

and comparing the printing result with the issued pressure test data, and judging whether the preset QPS is reached according to the pressure test id, the pressure value and the timestamp.

The socket test also comprises the following steps:

and the receiving equipment derives the CPU utilization rate and the memory use condition data.

In the test method realized by the test server and the broadcast receiving equipment, besides the pressure test, functions such as broadcast content editing, fault-tolerant test and the like can be realized, and the realization processes of the functions are basically the same as those of the test method realized by the test server and the broadcast receiving equipment.

The invention also provides a test server of the Internet data broadcasting socket and a computer readable storage medium. The test server of the internet data broadcasting socket includes a processor and a memory. The memory is the computer readable storage medium, and a computer program is stored thereon. When being executed by the processor, the computer program realizes the testing method of the internet data broadcasting socket according to the above embodiments.

The following describes an implementation method of the internet data broadcasting socket test method in practical application by using a specific embodiment.

Example 1

In practical applications, the broadcast transmission page of the test server can be accessed through a WEB browser, and is shown in fig. 2.

The broadcast sending page is screened according to the service type, and data is read from a background, so that the broadcast needing to be sent can be conveniently and quickly positioned;

while supporting search cmd type matching to corresponding broadcasts. And as the data increase, a quick entry for searching is provided; the broadcast content supports secondary editing, single room or multiple rooms can be supported for transmission, and room numbers are separated by commas so as to support multiple scene transmission modes;

the interface for broadcasting the transmission page includes: get broadcast list interface (get): (broadcast type, cmd, broadcast content) and broadcast transmission interface (post): (broadcast content, room id).

The trigger broadcast sometimes needs to be triggered by a complex service scene, the cost of manufacturing data is high, and the broadcast cannot be directly covered, so that the function of directly issuing the broadcast is realized through the broadcast sending page and is decoupled from the service.

The background entry page of the test server is shown in fig. 3, and the background entry page can perform convergence management on broadcast contents scattered in each service party, and provide functions of addition, deletion, query and modification.

The background entry page provides an entrance for collecting broadcast contents, can enter all the existing broadcasts according to classification, can newly add, modify and delete the broadcasts, and can maintain the broadcast contents for a long time.

The interface design of the background input page comprises the following steps: get broadcast list interface (get): (broadcast type, cmd, broadcast content), new added broadcast interface (post) (broadcast type, cmd, broadcast content), modified broadcast content interface (post): (broadcast type, cmd, broadcast content) and delete broadcast content interface (post) (cmd).

The test server may run a simulated receiving device, i.e., the user may access the broadcast receiving page of the test server through a WEB browser. The broadcast receiving page is shown in fig. 4, and provides a selectable service address, directly obtains all broadcasts issued by a service end, can be expanded for use after the address of a server is changed, and supports online acceptance. In addition, the broadcast receiving page also provides the functions of selecting the room number and the broadcast type, thereby being convenient for filtering interference data; after the broadcast is received, the content is formatted to facilitate verification of the data.

The broadcast receiving page establishes connection through the websocket to acquire broadcast data.

In the prior art, whether the broadcast is received or not can not be intuitively judged, whether the broadcast content is successfully issued or not can not be successfully issued, the correctness of the broadcast content can not be verified, the broadcast content can only be observed through front-end effect display, and the front-end and back-end separation test can not be realized. And the broadcast receiving page as shown in fig. 4 can print out the broadcast contents received in the current room, thereby facilitating data checking.

Example 2

The difference from the above embodiment 1 is that the abnormal test page of the test server can also be accessed through the WEB browser.

In the prior art, the broadcast fault tolerance test is in a completely blank state. Broadcast content is completely issued by a server and cannot simulate the abnormal conditions of each field, so that a function capable of supporting parameter change is required to be provided, and the function of verifying the fault-tolerant effect of a client and a web end under various abnormal conditions is required to be provided.

The exception test page, as shown in FIG. 5, provides a list of replacement parameters that can be pre-edited by the front end and provides drop-down box selections in the exception test page. And selecting corresponding fields, selecting replacement parameters, and updating the content box into replaced content in real time without storage, so that various abnormal conditions can be simulated without damaging classic demo.

The interface design of the exception test page comprises: modify broadcast content interface (post): (broadcast type, cmd, broadcast content) and broadcast transmission interface (post): (broadcast content, room id).

Example 3

The difference from the above embodiment 1 is that the stress test page of the test server can also be accessed through the WEB browser.

For the performance stress test of the mobile end room page and the web play page in the prior art, whether the current QPS is an expected value cannot be guaranteed, so a stress sending function capable of supporting the stress test is required, and the client end web data is collected for continuously monitoring the performance index of each iteration version.

The pressure test page is shown in fig. 6, can support newly-added pressure test data, and different pressure test scenes need to be constructed, so that an entrance for newly-creating different data is provided. The pressure test page can also support deletion and editing of pressure test data, and the pressure test data can be conveniently and flexibly configured.

In addition, the pressure test page can also support sending broadcast according to a designated QPS, and records the pressure test id, the pressure value and the timestamp of the time, and is used for matching with the pressure test result collected by the client to output a complete pressure test data; meanwhile, single room or multiple rooms can be supported for transmission, and room numbers are separated by commas so as to support multiple scene transmission modes.

After the pressure test, the client or the web side needs to derive a share of the usage rate of the machine cpu and the usage condition of the memory.

The interface design of the pressure test page comprises the following steps: get broadcast list interface (get): (broadcast type, cmd, broadcast content); a new broadcast interface (post) (broadcast type, cmd, broadcast content); modify broadcast content interface (post): (broadcast type, cmd, broadcast content); delete broadcast content interface (post): (cmd); broadcast transmission interface (post): (broadcast content, room id, qps).

The design of the broadcast test system database basically comprises a broadcast meter, a pressure test meter, a pressure meter and a pressure test result meter, and the specific forms of the meters are as follows:

field(s)	Type (B)	Must fill in	Description of the invention
				id	bigint	Y	Self-increment id
type	int	Y	Type of broadcast service
				cmd	string	Y	Broadcasting head
msg	varchar	Y	Broadcast content

TABLE 1 broadcast watch

Field(s)	Type (B)	Must fill in	Description of the invention
				id	bigint	Y	Self-increment id
type	int	Y	Type of broadcast service
				cmd	string	Y	Broadcasting head
msg	varchar	Y	Broadcast content

TABLE 2 pressure testing meter

Meter 3 pressure gauge

Field(s)	Type (B)	Must fill in	Description of the invention
				prformance_id	bigint	Y	Pressure test id
device_id	int	Y	Device id
				memory	int	N	Memory usage
cpu	int	N	cpu utilization rate
				other1	int	N	Reserved field
Other2	int	N	Reserved field
				Other3	int	N	Reserved field

TABLE 4 table of pressure test results

By the embodiment of the invention, the test efficiency is greatly improved, and research personnel can more flexibly perform broadcast test without depending on a server.

The testing method of the Internet data broadcasting socket is adopted, firstly, a testing server issues broadcasting data decoupled with service; the receiving equipment receives the broadcast data through the socket and prints the broadcast data; and the test server compares the printing result with the issued broadcast data to perform socket test. Therefore, the testing method, the server and the storage medium of the Internet data broadcasting socket are decoupled from the service, lower in manufacturing data cost, more convenient to implement and capable of achieving pressure testing and fault-tolerant testing.

In this specification, the invention has been described with reference to specific embodiments thereof. It will, however, be evident that various modifications and changes may be made thereto without departing from the broader spirit and scope of the invention. The specification and drawings are, accordingly, to be regarded in an illustrative rather than a restrictive sense.

Claims (10)

1. A test method of Internet data broadcast socket is characterized in that the test method is applied to a processor of a test server; the test server comprises receiving equipment; the test method comprises the following steps:

issuing broadcast data decoupled from service for the receiving device to receive the broadcast data through a socket;

receiving a printing result printed according to the broadcast data and sent by the receiving equipment;

and performing socket test according to the printing result and the broadcast data.

2. The method for testing an internet data broadcasting socket according to claim 1, wherein the issuing of broadcast data decoupled from a service specifically includes:

editing the broadcast content and service type to generate the broadcast data;

setting a receiving range of the broadcast;

and transmitting the broadcast data decoupled with the service according to the receiving range.

3. The method for testing an internet data broadcasting socket according to claim 2, wherein the editing of the content and the service type of the broadcast to generate the broadcast data specifically comprises:

and editing and forming alternative test contents by using the existing broadcast contents, and selecting and generating the broadcast data in the alternative test contents.

4. The method for testing an internet data broadcasting socket according to claim 3, wherein the editing of the content and the service type of the broadcast to generate the broadcast data further comprises:

editing abnormal broadcast content to generate abnormal broadcast data;

the socket test is carried out, and specifically comprises the following steps: and carrying out socket broadcast fault tolerance test.

5. The method for testing an internet data broadcasting socket according to claim 2, wherein the issuing of the broadcast data decoupled from the service further comprises: presetting QPS;

the method for issuing the broadcast data decoupled with the service according to the receiving range specifically comprises the following steps:

and issuing the broadcast data decoupled with the service according to the receiving range and the QPS.

6. The method for testing an internet datacasting socket as claimed in claim 5, wherein the preset QPS specifically is:

and editing pressure test data, wherein the pressure test data comprises a pressure test id, a pressure value and a time stamp.

The socket test is carried out, and specifically comprises the following steps:

and comparing the printing result with the issued pressure test data, and judging whether the preset QPS is reached according to the pressure test id, the pressure value and the timestamp.

7. The method for testing an internet data broadcasting socket according to claim 6, wherein the performing of the socket test further comprises:

and the receiving equipment derives the CPU utilization rate and the memory use condition data.

8. The method for testing an internet data broadcasting socket as claimed in claim 1, wherein the receiving device is an analog receiving device operating in the testing server or an entity receiving device independent of the testing server.

9. A computer-readable storage medium having a computer program stored thereon, wherein the computer program, when executed by a processor, implements the testing method of the internet datacasting socket as claimed in any one of claims 1 to 8.

10. A test server of an internet data broadcasting socket, comprising a processor and a memory, wherein the memory stores a computer program, and the computer program is executed by the processor to implement the test method of the internet data broadcasting socket according to any one of claims 1 to 8.

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