CN112350893A - Ethernet port consistency test method and system - Google Patents

Abstract

The invention discloses a method and a system for testing the consistency of Ethernet ports, which comprise a PC (personal computer), tested equipment, a test fixture with a change-over switch and an oscilloscope, wherein the PC issues a configuration instruction to the tested equipment, and simultaneously provides a test control instruction to the oscilloscope for test execution and controls the test fixture with the change-over switch; the tested equipment is controlled by the PC, and simultaneously, the tested network port is interconnected with the test fixture with the change-over switch; the test fixture with the change-over switch is used for receiving all network port signals of the tested equipment and selectively transmitting the network port signals of the tested equipment to the oscilloscope in a change-over mode for signal sampling; the oscilloscope is used as a signal receiving test device to finally receive the signal sent by the tested device and judge whether the test result meets the standard requirement. The whole testing process does not need human intervention, can realize the consistency test of all network ports, directly outputs a test report, improves the testing efficiency and reduces the personnel cost of the test.

Description

Ethernet port consistency test method and system

Technical Field

The invention relates to the technical field of communication, in particular to a method and a system for testing the consistency of an Ethernet port.

Background

In the research and development test process of the network communication equipment, for the consistency test of the network ports, the test model is complex, the operation process is all manual operation, after one network port is tested, the next network port needs to be manually plugged and unplugged for testing, and the related configuration of the network ports needs to be manually carried out again, so that the test efficiency is low, and the labor cost is high.

Disclosure of Invention

The present invention provides a method and a system for testing ethernet port consistency, which is directed to the above-mentioned deficiencies of the prior art. After the testing environment is built by the testing personnel, the whole testing process does not need human intervention, the consistency test of all network ports can be realized, the test report is directly output, the testing efficiency is improved, and the cost of the testing personnel is reduced

In order to solve the problems, the technical scheme adopted by the invention is as follows:

a system for testing the consistency of Ethernet ports comprises a PC (personal computer), tested equipment, a test fixture with a change-over switch and an oscilloscope, wherein the PC is used as an upper computer to issue a configuration instruction to the tested equipment, and simultaneously provides a test control instruction to the oscilloscope for test execution and controls the test fixture with the change-over switch; the tested equipment is controlled by the PC, and simultaneously the tested network port is interconnected with the test fixture with the change-over switch; the test fixture with the change-over switch is used for receiving all network port signals of the tested equipment and selectively transmitting the network port signals of the tested equipment to the oscilloscope in a change-over mode for signal sampling; the oscilloscope is used as a signal receiving test device to finally receive the signal sent by the tested device and judge whether the test result meets the standard requirement.

The further technical scheme is that the tested equipment is network communication equipment with a network port.

The further technical scheme is that the tested device is a switch.

The Ethernet port consistency test method comprises the following steps:

s1, electrifying the tested equipment to start normally;

s2, after the PC carries out mode configuration on the first network port0 of the tested device, the PC interface controls the oscilloscope to initiate a network port consistency test, and at the moment, the test fixture with the switch is switched to the first network port0 of the tested device by default;

s3, after the oscilloscope completes one time of network port consistency test, outputting a report, triggering an output signal to the PC at the moment, informing the PC that the test is finished, and performing mode configuration of the next network port 1;

s4, after receiving a trigger signal sent by an oscilloscope, the PC controls a test fixture with a change-over switch to switch channels, namely to switch to the next network port of the tested equipment, then performs mode configuration on the port1 of the tested equipment, controls the oscilloscope after the configuration is completed, and initiates a network port consistency test again;

and S5, repeating the steps S3 and S4 until the test of the last network port of the tested device is completed.

Adopt the produced beneficial effect of above-mentioned technical scheme to lie in: after the testing environment is built by the testing personnel, the whole testing process does not need human intervention, the consistency test of all network ports can be realized, the test report is directly output, the testing efficiency is improved, and the testing personnel cost is reduced.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention;

FIG. 2 is a flow chart of the method of the present invention.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

A system for testing the consistency of Ethernet ports is shown in figure 1 and comprises a PC (personal computer), tested equipment, a test fixture with a change-over switch and an oscilloscope, wherein the PC is used as an upper computer to issue a configuration instruction to the tested equipment, simultaneously provides a test control instruction to the oscilloscope for test execution and controls the test fixture with the change-over switch; the tested equipment is controlled by the PC, and simultaneously the tested network port is interconnected with the test fixture with the change-over switch; the test fixture with the change-over switch is used for receiving all network port signals of the tested equipment and selectively transmitting the network port signals of the tested equipment to the oscilloscope in a change-over mode for signal sampling; the oscilloscope is used as a signal receiving test device to finally receive the signal sent by the tested device and judge whether the test result meets the standard requirement.

The tested equipment is network communication equipment with a network port. The device to be tested is specifically a switch.

A method for testing ethernet port conformance, as shown in fig. 2, includes the following steps:

s1, electrifying the tested equipment to start normally;

s2, after the PC carries out mode configuration on a first network port0 of a tested device (network communication device with a network port) through an RS232 interface, the PC controls an oscilloscope through a USB interface to initiate a network port consistency test, and at the moment, a test fixture with a switch is switched to the first network port0 of the tested device by default;

s3, after the oscilloscope completes one time of network port consistency test, outputting a report, triggering an output signal to the PC at the moment, informing the PC that the test is finished, and performing mode configuration of the next network port 1;

s4, after receiving a trigger signal sent by the oscilloscope, the PC controls the test fixture with the switch to switch channels, namely to switch to the next network port of the tested equipment, then performs mode configuration on the port1 of the tested equipment, and after the configuration is completed, the PC controls the oscilloscope through the USB interface and initiates the network port consistency test again;

and S5, repeating the steps S3 and S4 until the test of the last network port of the tested device is completed.

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 (4)

1. The Ethernet port consistency test system is characterized by comprising a PC (personal computer), tested equipment, a test fixture with a change-over switch and an oscilloscope, wherein the PC is used as an upper computer to issue a configuration instruction to the tested equipment, simultaneously provides a test control instruction to the oscilloscope for test execution and controls the test fixture with the change-over switch; the tested equipment is controlled by the PC, and simultaneously the tested network port is interconnected with the test fixture with the change-over switch; the test fixture with the change-over switch is used for receiving all network port signals of the tested equipment and selectively transmitting the network port signals of the tested equipment to the oscilloscope in a change-over mode for signal sampling; the oscilloscope is used as a signal receiving test device to finally receive the signal sent by the tested device and judge whether the test result meets the standard requirement.

2. The Ethernet port conformance testing system of claim 1, wherein the device under test is a network communication device with a port.

3. The Ethernet port conformance testing system of claim 1, wherein the device under test is a switch.

4. A method for testing Ethernet port consistency is characterized by comprising the following steps:

s1, electrifying the tested equipment to start normally;

s2, after the PC carries out mode configuration on the first network port0 of the tested device, the PC interface controls the oscilloscope to initiate a network port consistency test, and at the moment, the test fixture with the switch is switched to the first network port0 of the tested device by default;

s3, after the oscilloscope completes one time of network port consistency test, outputting a report, triggering an output signal to the PC at the moment, informing the PC that the test is finished, and performing mode configuration of the next network port 1;

s4, after receiving a trigger signal sent by an oscilloscope, the PC controls a test fixture with a change-over switch to switch channels, namely to switch to the next network port of the tested equipment, then performs mode configuration on the port1 of the tested equipment, controls the oscilloscope after the configuration is completed, and initiates a network port consistency test again;

and S5, repeating the steps S3 and S4 until the test of the last network port of the tested device is completed.

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