CN111555927A - Test system, method and device for satellite-borne Ethernet switch - Google Patents

Abstract

The application discloses a test system, a method and a device of a satellite-borne Ethernet switch, wherein the system comprises: the server is used for receiving test information fed back by the network test equipment according to the first control instruction, sending a second control instruction to the network test equipment or 1553B universal ground test equipment according to the test information, and generating a test report according to the test data; the network test equipment is used for controlling the test script to run according to the first control instruction to obtain test information; sending a first test instruction to the satellite-borne Ethernet switch according to the second control instruction; 1553B general ground inspection equipment is used for sending a second test instruction to the satellite-borne Ethernet switch according to the second control instruction; and the satellite-borne Ethernet switch is used for receiving the first test instruction or the second test instruction and feeding back test data according to the first test instruction or the second test instruction. The application solves the technical problem of poor applicability of the prior art.

Description

Test system, method and device for satellite-borne Ethernet switch

Technical Field

The present application relates to the field of automatic testing technologies, and in particular, to a system, a method, and an apparatus for testing a satellite-borne ethernet switch.

Background

The satellite-borne Ethernet switch is used as an important communication device on the spacecraft to realize information interaction between different devices in the spacecraft through the Ethernet, so that the performance of the satellite-borne Ethernet switch plays an important role in the spacecraft. The automatic test system is widely applied to the development and production processes of products such as switches, routers and the like at present, and the development and production efficiency of the products is effectively improved.

At present, an automatic test system of a satellite-borne ethernet switch is usually adopted as an automatic test system of a commercial or industrial ethernet switch, the items of automatic test are only limited to test cases containing standards such as RFC2889 and RFC2544, and due to the particularity of the application environment of the satellite-borne ethernet switch, the design of interfaces, functions, performances and test cases is greatly different from that of the commercial or industrial ethernet switch. On one hand, the existing automatic switch testing system for the commercial or industrial Ethernet switch cannot test the performance of the satellite-borne Ethernet switch by adopting the existing test case, and on the other hand, a 1553B bus system is often adopted among different devices in the spacecraft for information interaction, so that the satellite-borne Ethernet switch has functions related to 1553B besides the functions of the traditional Ethernet switch, and the existing automatic switch testing system for the commercial or industrial Ethernet switch cannot test the functions related to the 1553B of the satellite-borne Ethernet switch. Therefore, the test applicability to the satellite-borne Ethernet switch in the prior art is poor.

Disclosure of Invention

The technical problem that this application was solved is: aiming at the problem of poor applicability of testing of the satellite-borne Ethernet switch in the prior art, the invention provides a testing system, a testing method and a testing device of the satellite-borne Ethernet switch, wherein 1553B universal ground inspection equipment is arranged in the testing system of the satellite-borne Ethernet switch, and data interaction between the 1553B universal ground inspection equipment and the satellite-borne Ethernet switch is realized through a 1553B bus. Therefore, according to the embodiment of the application, 1553B related data transmission between the server and the satellite-borne Ethernet switch is realized through the 1553B general ground inspection equipment, the problem that 1553B related data cannot be transmitted between the server and the satellite-borne Ethernet switch, so that 1553B related functions of the satellite-borne Ethernet switch cannot be tested is avoided, and further the applicability of the scheme is improved.

In a first aspect, an embodiment of the present application provides a system for testing an ethernet switch on board, where the system includes:

the server is used for sending a first control instruction to the network test equipment, receiving test information fed back by the network test equipment according to the first control instruction, and sending a second control instruction to the network test equipment or 1553B universal ground inspection equipment according to the test information;

the network test equipment is used for receiving the first control instruction and the second control instruction, and controlling a test script to run according to the first control instruction to obtain the test information; sending a first test instruction to the satellite-borne Ethernet switch according to the second control instruction;

the 1553B universal ground inspection equipment is used for receiving the second control instruction and sending a second test instruction to the satellite-borne Ethernet switch according to the second control instruction;

the satellite-borne Ethernet switch is configured to receive the first test instruction or the second test instruction, and feed back the test data to the server according to the test data fed back by the first test instruction or the second test instruction, so that the network test equipment or the 1553B universal ground test equipment feeds back the test data to the server, and the server generates a test report according to the test data.

In the scheme provided by the embodiment of the application, the 1553B universal ground inspection equipment is arranged in the test system of the satellite-borne Ethernet switch, data interaction between the 1553B universal ground inspection equipment and the satellite-borne Ethernet switch is realized through the 1553B bus, the 1553B related functions of the satellite-borne Ethernet switch are tested, the problem that the 1553B related functions of the satellite-borne Ethernet switch cannot be tested due to the fact that 1553B related data cannot be transmitted between a server and the satellite-borne Ethernet switch and the like is avoided, and therefore the applicability of the scheme is improved.

Optionally, the server is specifically configured to:

determining a test item according to the test information, and judging whether the test item contains a test item corresponding to a preset 1553B function;

if the test result is contained in the test result, the second control instruction is sent to the 1553B general ground inspection equipment, so that the 1553B general ground inspection equipment sends the second test instruction to the satellite-borne Ethernet switch and receives first test data fed back by the satellite-borne Ethernet switch according to the second test instruction; receiving the first test data sent by the 1553B universal ground inspection equipment;

if not, sending the second control instruction to the network test equipment, so that the network test equipment sends the first test instruction to the satellite-borne Ethernet switch and receives second test data fed back by the satellite-borne Ethernet switch according to the first test instruction; and receiving the second test data sent by the network test equipment.

Optionally, after receiving the first test data sent by the 1553B general ground test equipment, the server is further configured to:

determining a test function according to the first test data, and judging whether the test function is a network switching function or not;

if so, sending the second control instruction to the network test equipment, so that the network test equipment sends the first test instruction to the satellite-borne Ethernet switch and receives second test data fed back by the satellite-borne Ethernet switch according to the first test instruction; and receiving the second test data sent by the network test equipment.

In a second aspect, an embodiment of the present application provides a method for testing an ethernet switch on board a satellite, where the method includes:

sending a first control instruction to network test equipment, and receiving test information fed back by the network test equipment according to the first control instruction, wherein the first control instruction is used for controlling the network test equipment to run a test script;

sending a second control instruction to the network test equipment or 1553B universal ground inspection equipment according to the test information, so that the network test equipment sends a first test instruction to a satellite-borne Ethernet switch according to the second control instruction or the 1553B universal ground inspection equipment sends a second test instruction to the satellite-borne Ethernet switch according to the second control instruction;

receiving test data sent by the network test equipment or the 1553B universal ground inspection equipment, and generating a test report according to the test data, wherein the test data is data fed back by the satellite-borne Ethernet switch according to the first test instruction or the second test instruction.

Optionally, the test information includes network function test information and/or 1553B function test information.

Optionally, sending a second control instruction to the network test device and/or the 1553B general ground inspection device according to the test information includes:

if the test information comprises the network function test information, sending the second control instruction to the network test equipment according to the test information; or

And if the test information comprises the network function test information and the 1553B function test information or 1553B function test information, sending the second control instruction to the 1553B universal ground test equipment according to the test information.

Optionally, if the test information includes the network function test information, before the test data generates a test report, the method further includes:

determining a test function according to test data sent by the 1553B universal ground inspection equipment, and judging whether the test function is a network switching function;

and if so, sending the second control instruction to the network test equipment, so that the network test equipment sends a first test instruction to the satellite-borne Ethernet switch according to the second control instruction.

In a third aspect, an embodiment of the present application provides a testing apparatus for a satellite-borne ethernet switch, where the apparatus includes:

the first transceiving unit is used for sending a first control instruction to network test equipment and receiving test information fed back by the network test equipment according to the first control instruction, wherein the first control instruction is used for controlling the network test equipment to run a test script;

the second transceiver unit is configured to send a second control instruction to the network test device or the 1553B universal ground fault device according to the test information, so that the network test device sends a first test instruction to the satellite-borne ethernet switch according to the second control instruction or the 1553B universal ground fault device sends a second test instruction to the satellite-borne ethernet switch according to the second control instruction;

a generating unit, configured to receive test data sent by the network test device or the 1553B universal ground test device, and generate a test report according to the test data, where the test data is data fed back by the satellite-borne ethernet switch according to the first test instruction or the second test instruction.

Optionally, the test information includes network function test information and/or 1553B function test information.

Optionally, the second transceiver unit is specifically configured to:

if the test information comprises the network function test information, sending the second control instruction to the network test equipment according to the test information; or

And if the test information comprises the network function test information and the 1553B function test information or 1553B function test information, sending the second control instruction to the 1553B universal ground test equipment according to the test information.

Optionally, if the test information includes the network function test information, the second transceiver unit is further configured to:

determining a test function according to test data sent by the 1553B universal ground inspection equipment, and judging whether the test function is a network switching function;

and if so, sending the second control instruction to the network test equipment, so that the network test equipment sends a first test instruction to the satellite-borne Ethernet switch according to the second control instruction.

In a fourth aspect, an embodiment of the present application provides a testing apparatus for a satellite-borne ethernet switch, where the apparatus includes:

a memory for storing instructions for execution by at least one processor;

a processor for executing instructions stored in the memory to perform the method of the second aspect.

In a fifth aspect, the present application provides a computer readable storage medium having stored thereon computer instructions which, when run on a computer, cause the computer to perform the method of the second aspect.

Drawings

Fig. 1 is a schematic structural diagram of a test system of an ethernet over satellite switch according to an embodiment of the present disclosure;

fig. 2 is a flowchart of a testing method for an ethernet over satellite switch according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a testing apparatus of a satellite-borne ethernet switch according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a testing apparatus of a satellite-borne ethernet switch according to an embodiment of the present application.

Detailed Description

In order to better understand the technical solutions, the technical solutions of the present application are described in detail below with reference to the drawings and specific embodiments, and it should be understood that the specific features in the embodiments and examples of the present application are detailed descriptions of the technical solutions of the present application, and are not limitations of the technical solutions of the present application, and the technical features in the embodiments and examples of the present application may be combined with each other without conflict.

Referring to fig. 1, an embodiment of the present application provides a system for testing an ethernet switch on board, where the system includes:

the server 1 is used for sending a first control instruction to the network test equipment 2, receiving test information fed back by the network test equipment 2 according to the first control instruction, and sending a second control instruction to the universal inspection equipment 3 of the network test equipment 2 or 1553B according to the test information;

the network test device 2 is configured to receive the first control instruction and the second control instruction, and control a test script to run according to the first control instruction to obtain the test information; sending a first test instruction to the satellite-borne Ethernet switch 4 according to the second control instruction;

the 1553B universal ground inspection equipment 3 is used for receiving the second control instruction and sending a second test instruction to the satellite-borne Ethernet switch 4 according to the second control instruction;

the satellite-borne ethernet switch 4 is configured to receive the first test instruction or the second test instruction, and according to test data fed back by the first test instruction or the second test instruction, enable the network test equipment 2 or the 1553B universal ground test equipment 3 to feed back the test data to the server 1, where the server 1 generates a test report according to the test data.

In the scheme provided by the embodiment of the application, 1553B universal ground inspection equipment is arranged in a test system of the satellite-borne Ethernet switch, and data interaction between the 1553B universal ground inspection equipment and the satellite-borne Ethernet switch is realized through a 1553B bus. Therefore, according to the embodiment of the application, 1553B related data transmission between the server and the satellite-borne Ethernet switch is realized through the 1553B general ground inspection equipment, the problem that 1553B related data cannot be transmitted between the server and the satellite-borne Ethernet switch, so that 1553B related functions of the satellite-borne Ethernet switch cannot be tested is avoided, and further the applicability of the scheme is improved.

Specifically, in the solution provided in the embodiment of the present application, the server 1 may automatically load the test script from the network according to the actual test requirement, and send the loaded test script to the network test device 2. The first control instruction is an instruction which is sent by the server 1 to the network test device 2 and used for instructing the network test device 2 to run the test script. After receiving the first control instruction, the network test equipment 2 runs the test script to obtain test information, wherein the test information includes running information, test item information and the like of the test script, then the network test equipment 2 sends the test information to the server 1, and the server 1 determines a second control instruction according to the test information, wherein the second control instruction is used for instructing the network test equipment 2 or 1553B general ground inspection equipment 3 to perform function test on the satellite-borne Ethernet switch 4. In the solution provided in this embodiment of the application, there are various ways in which the server 1 controls the network test device 2 or 1553B general ground test device 3 to perform the function test on the satellite-borne ethernet switch 4, and a preferred way is described as an example below.

In a possible implementation manner, the server 1 is specifically configured to: determining a test item according to the test information, and judging whether the test item contains a test item corresponding to a preset 1553B function; if yes, sending the second control instruction to the 1553B universal ground inspection device 3, so that the 1553B universal ground inspection device 3 sends the second test instruction to the satellite-borne ethernet switch 4 and receives first test data fed back by the satellite-borne ethernet switch 4 according to the second test instruction; receiving the first test data sent by the 1553B universal ground inspection equipment 3; if not, sending the second control instruction to the network test equipment 2, so that the network test equipment 2 sends the first test instruction to the satellite-borne Ethernet switch 4 and receives second test data fed back by the satellite-borne Ethernet switch 4 according to the first test instruction; and receiving the second test data sent by the network test equipment 2.

Specifically, in the solution provided in the embodiment of the present application, each device in the spacecraft generally performs information interaction through a 1553B bus system, and after receiving test information sent by the network test device 2, the server 1 determines a test item according to the test information, where the test item includes but is not limited to: network function test, 1553B function test, or network function and 553B fusion function test and the like. In order to facilitate understanding of the process of the server 1 controlling the network testing device 2 or 1553B to perform the function test on the satellite-borne ethernet switch 4 by using the ground test device 3, two aspects of the network function test and the 1553B related function test are briefly described below.

One, to network function test

Specifically, test items corresponding to preset 1553B functions are pre-stored in the database of the server 1, for example, the test items corresponding to the 1553B functions include a 1553B function test, or a network function and 553B fusion function test, and the like. After determining the test items according to the test information, the server 1 judges whether the test items include the test items corresponding to the 1553B functions, and if not, determines to perform network function test on the satellite-borne Ethernet switch 4. Therefore, the server 1 sends a second control instruction to the network test device 2, after receiving the second control instruction, the network test device 2 sends a first test instruction to the satellite-borne ethernet switch 4, where the first test instruction carries the test traffic and sends the test traffic to the network test device 2 again through the satellite-borne ethernet switch 4, then the test traffic is sent to the network test device 2 again through the satellite-borne ethernet switch 4, then the network test device 2 sends the received test traffic to the server 1, and the server 1 determines the network function of the satellite-borne ethernet switch 4 according to the test traffic received by the network test device 2 from the satellite-borne ethernet switch 4 and generates a network function test report.

II, testing 1553B related functions

Specifically, data interaction is performed between the 1553B universal ground inspection device 3 and the satellite-borne ethernet switch 4 through a 1553B bus system. And if the server 1 determines that the test items comprise test items corresponding to 1553B functions, determining to perform 1553B related function tests on the satellite-borne Ethernet switch 4. Therefore, the server 1 sends a second control instruction to the 1553B general ground inspection device 3, the 1553B general ground inspection device 3 sends a second test instruction to the satellite-borne Ethernet switch 4 after receiving the second control instruction, receives first test data fed back by the satellite-borne Ethernet switch 4, the 1553B general ground inspection device 3 sends the test data to the server 1, and the server 1 determines 1553B function test or network function and 1553B fusion function between the 1553B general ground inspection device 3 and the satellite-borne Ethernet switch 4 according to the first test data sent by the 1553B general ground inspection device 3 and generates a test report.

Further, in the solution provided in the embodiment of the present application, after receiving the first test data, the server 1 is further configured to: determining a test function according to the first test data, and judging whether the test function is a network switching function or not; if yes, sending the second control instruction to the network test equipment 2, so that the network test equipment 2 sends the first test instruction to the satellite-borne Ethernet switch 4 and receives second test data fed back by the satellite-borne Ethernet switch 4 according to the first test instruction; and receiving the second test data sent by the network test equipment 2.

In the scheme provided by the embodiment of the application, the 1553B universal ground inspection device 3 is arranged in the test system of the satellite-borne Ethernet switch, data interaction between the 1553B universal ground inspection device 3 and the satellite-borne Ethernet switch 4 is realized through a 1553B bus, the 1553B related function of the satellite-borne Ethernet switch 4 is tested, the problem that the 1553B related function of the satellite-borne Ethernet switch 4 cannot be tested due to the fact that 1553B related data cannot be transmitted between the server 1 and the satellite-borne Ethernet switch 4 and the like is avoided, and further the applicability of the scheme is improved.

Based on the system described in fig. 1, an embodiment of the present application provides a method for testing a satellite-borne ethernet switch, which is described in further detail below with reference to the drawings in the specification, and a specific implementation manner of the method may include the following steps (a method flow is shown in fig. 2):

step 201, a server sends a first control instruction to a network test device and receives test information fed back by the network test device according to the first control instruction, wherein the first control instruction is used for controlling the network test device to run a test script.

Step 202, the server sends a second control instruction to the network test device or the 1553B universal ground inspection device according to the test information, so that the network test device sends a first test instruction to the satellite-borne ethernet switch according to the second control instruction or the 1553B universal ground inspection device sends a second test instruction to the satellite-borne ethernet switch according to the second control instruction.

Step 203, the server receives test data sent by the network test device or the 1553B universal ground test device, and generates a test report according to the test data, wherein the test data is data fed back by the satellite-borne ethernet switch according to the first test instruction or the second test instruction.

Optionally, the test information includes network function test information and/or 1553B function test information.

Optionally, sending a second control instruction to the network test device and/or the 1553B general ground inspection device according to the test information includes:

if the test information comprises the network function test information, sending the second control instruction to the network test equipment according to the test information; or

And if the test information comprises the network function test information and the 1553B function test information or 1553B function test information, sending the second control instruction to the 1553B universal ground test equipment according to the test information.

Optionally, if the test information includes the network function test information, before the test data generates a test report, the method further includes:

determining a test function according to test data sent by the 1553B universal ground inspection equipment, and judging whether the test function is a network switching function;

and if so, sending the second control instruction to the network test equipment, so that the network test equipment sends a first test instruction to the satellite-borne Ethernet switch according to the second control instruction.

Specifically, in the solution provided in this embodiment of the application, the process of performing information interaction between the server and the network test device and the 1553B universal ground fault detection device, and performing information interaction between the network test device and the 1553B universal ground fault detection device and the satellite borne ethernet switch to realize testing different functions of the satellite borne ethernet switch is described in detail in the system shown in fig. 1, and is not described herein again.

Based on the same inventive concept as the method described in fig. 2, an embodiment of the present application provides a testing apparatus for a satellite-borne ethernet switch, and the testing apparatus for a satellite-borne ethernet switch provided in the embodiment of the present application is further described in detail with reference to the drawings in the specification, with reference to fig. 3, and the testing apparatus includes:

a first transceiving unit 301, configured to send a first control instruction to a network test device, and receive test information fed back by the network test device according to the first control instruction, where the first control instruction is used to control the network test device to run a test script;

a second transceiver unit 302, configured to send a second control instruction to the network test device or the 1553B universal ground fault device according to the test information, so that the network test device sends a first test instruction to a satellite-borne ethernet switch according to the second control instruction or the 1553B universal ground fault device sends a second test instruction to the satellite-borne ethernet switch according to the second control instruction;

a generating unit 303, configured to receive test data sent by the network test device or the 1553B universal ground test device, and generate a test report according to the test data, where the test data is data fed back by the satellite-borne ethernet switch according to the first test instruction or the second test instruction.

Optionally, the test information includes network function test information and/or 1553B function test information.

Optionally, the second transceiver unit 302 is specifically configured to:

if the test information comprises the network function test information, sending the second control instruction to the network test equipment according to the test information; or

And if the test information comprises the network function test information and the 1553B function test information or 1553B function test information, sending the second control instruction to the 1553B universal ground test equipment according to the test information.

Optionally, if the test information includes the network function test information, the second transceiver unit 302 is further configured to:

determining a test function according to test data sent by the 1553B universal ground inspection equipment, and judging whether the test function is a network switching function;

and if so, sending the second control instruction to the network test equipment, so that the network test equipment sends a first test instruction to the satellite-borne Ethernet switch according to the second control instruction.

Referring to fig. 4, an embodiment of the present application provides a testing apparatus for a satellite-borne ethernet switch, where the apparatus includes:

a memory 401 for storing instructions for execution by at least one processor;

a processor 402 for executing instructions stored in memory to perform the method described in fig. 2.

Embodiments of the present application provide a computer-readable storage medium storing computer instructions, which, when executed on a computer, cause the computer to perform the method described in fig. 2.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (10)

1. A system for testing an ethernet switch on board a satellite, comprising:

the server is used for sending a first control instruction to the network test equipment, receiving test information fed back by the network test equipment according to the first control instruction, and sending a second control instruction to the network test equipment or 1553B universal ground inspection equipment according to the test information;

the network test equipment is used for receiving the first control instruction and the second control instruction, and controlling a test script to run according to the first control instruction to obtain the test information; sending a first test instruction to the satellite-borne Ethernet switch according to the second control instruction;

the 1553B universal ground inspection equipment is used for receiving the second control instruction and sending a second test instruction to the satellite-borne Ethernet switch according to the second control instruction;

the satellite-borne Ethernet switch is configured to receive the first test instruction or the second test instruction, and feed back the test data to the server according to the test data fed back by the first test instruction or the second test instruction, so that the network test equipment or the 1553B universal ground test equipment feeds back the test data to the server, and the server generates a test report according to the test data.

2. The system of claim 1, wherein the server is specifically configured to:

determining a test item according to the test information, and judging whether the test item contains a test item corresponding to a preset 1553B function;

if the test result is contained in the test result, the second control instruction is sent to the 1553B general ground inspection equipment, so that the 1553B general ground inspection equipment sends the second test instruction to the satellite-borne Ethernet switch and receives first test data fed back by the satellite-borne Ethernet switch according to the second test instruction; receiving the first test data sent by the 1553B universal ground inspection equipment;

if not, sending the second control instruction to the network test equipment, so that the network test equipment sends the first test instruction to the satellite-borne Ethernet switch and receives second test data fed back by the satellite-borne Ethernet switch according to the first test instruction; and receiving the second test data sent by the network test equipment.

3. The system of claim 2, wherein after receiving the first test data sent by the 1553B universal ground test device, the server is further configured to:

determining a test function according to the first test data, and judging whether the test function is a network switching function or not;

if so, sending the second control instruction to the network test equipment, so that the network test equipment sends the first test instruction to the satellite-borne Ethernet switch and receives second test data fed back by the satellite-borne Ethernet switch according to the first test instruction; and receiving the second test data sent by the network test equipment.

4. A test method of a satellite-borne Ethernet switch is applied to any one of the systems 1-3, and is characterized by comprising the following steps:

sending a first control instruction to network test equipment, and receiving test information fed back by the network test equipment according to the first control instruction, wherein the first control instruction is used for controlling the network test equipment to run a test script;

sending a second control instruction to the network test equipment or 1553B universal ground inspection equipment according to the test information, so that the network test equipment sends a first test instruction to a satellite-borne Ethernet switch according to the second control instruction or the 1553B universal ground inspection equipment sends a second test instruction to the satellite-borne Ethernet switch according to the second control instruction;

receiving test data sent by the network test equipment or the 1553B universal ground inspection equipment, and generating a test report according to the test data, wherein the test data is data fed back by the satellite-borne Ethernet switch according to the first test instruction or the second test instruction.

5. The method of claim 4, in which the test information comprises network functional test information and/or 1553B functional test information.

6. The method of claim 5, wherein sending a second control instruction to the network test device and/or 1553B universal ground test device according to the test information comprises:

if the test information comprises the network function test information, sending the second control instruction to the network test equipment according to the test information; or

And if the test information comprises the network function test information and the 1553B function test information or 1553B function test information, sending the second control instruction to the 1553B universal ground test equipment according to the test information.

7. The method of claim 6, wherein if the test information includes the network function test information, before the test data generates a test report, further comprising:

determining a test function according to test data sent by the 1553B universal ground inspection equipment, and judging whether the test function is a network switching function;

and if so, sending the second control instruction to the network test equipment, so that the network test equipment sends a first test instruction to the satellite-borne Ethernet switch according to the second control instruction.

8. A testing device for a satellite-borne Ethernet switch is characterized by comprising:

the first transceiving unit is used for sending a first control instruction to network test equipment and receiving test information fed back by the network test equipment according to the first control instruction, wherein the first control instruction is used for controlling the network test equipment to run a test script;

the second transceiver unit is configured to send a second control instruction to the network test device or the 1553B universal ground fault device according to the test information, so that the network test device sends a first test instruction to the satellite-borne ethernet switch according to the second control instruction or the 1553B universal ground fault device sends a second test instruction to the satellite-borne ethernet switch according to the second control instruction;

a generating unit, configured to receive test data sent by the network test device or the 1553B universal ground test device, and generate a test report according to the test data, where the test data is data fed back by the satellite-borne ethernet switch according to the first test instruction or the second test instruction.

9. A testing device for a satellite-borne Ethernet switch is characterized by comprising:

a memory for storing instructions for execution by at least one processor;

a processor for executing instructions stored in the memory to perform the method of any of claims 4 to 7.

10. A computer-readable storage medium, comprising: the computer readable storage medium stores computer instructions which, when executed on a computer, cause the computer to perform the method of any of claims 4 to 7.

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