CN114157761B - System and method for voice test of multipath voice gateway equipment based on router - Google Patents

Abstract

The invention discloses a system and a method for voice test of multipath voice gateway equipment based on a router, wherein the system comprises the following steps: the voice gateway equipment is equipment to be tested and comprises a plurality of paths of voice interfaces and an Ethernet interface, wherein the plurality of paths of voice interfaces are connected with an Abacus voice quality tester, and the Ethernet interface is connected with a test server; one end of the Abacus voice quality tester is connected with the test server, and the other end is connected with the voice gateway equipment; the test server is connected with an Ethernet interface of the voice gateway equipment and an Ethernet interface of the test instrument Abacus voice quality tester through a network cable, sends a test instruction to the Abacus voice quality tester, receives a voice message transmitted by the voice gateway equipment to analyze and judge voice call quality, and simultaneously analyzes and positions faults of the faulty voice gateway equipment so as to facilitate subsequent manual testing and overhaul. The invention can realize full-process automatic test, not only reduces human intervention, but also can improve the test efficiency and the accuracy of the test result.

Description

System and method for voice test of multipath voice gateway equipment based on router

Technical Field

The invention relates to the field of voice testing of voice gateways, in particular to a system and a method for voice testing of multipath voice gateway equipment based on a router.

Background

When the voice gateway leaves the factory, a factory test is carried out so as to ensure the normal use of the software and hardware systems of the voice gateway. The test of the voice system is mainly to verify whether the SLIC and the DSP in the voice system work normally. The SLIC function mainly relates to the detection of off-hook and on-hook of the telephone, and the DSP function mainly relates to the encoding and decoding of voice and the playing of various signal tones.

The invention patent application document with the application number of CN201110174883.4 provides a method for testing a voice media gateway, which is used for realizing media testing of the voice media gateway, and comprises the following specific steps: initiating call establishment; after the call is established successfully, sending test sound; judging whether a test sound is received, if so, determining that the test is successful, otherwise, determining that the test is failed. Among them, mention is made of: and in the new opening process, the narrow-band voice function opened on the voice media gateway equipment needs to be checked and accepted. The test is to test the terminal equipment to see if it can make normal voice call in and call out. The voice media gateway devices are usually distributed in various places, and a tester needs to connect a telephone to each test place to test, so that the test is very inconvenient. If the voice media gateway device is connected with the telephone set in the user's home, the telephone set needs to be cut off to test, and the difficulty of testing is increased.

To solve this problem, in the prior art, a call to a called user is simulated according to a request; when any one of the simulated calling office and the office where the called user is located is abnormal, judging that the call fails; and when all the offices in the simulated calling office and the office where the called user are located are normal, judging that the call is successful. The real call of the user is simulated, and when the real call is used for locating the fault in the call process, the test call is not required to be initiated to be specially used for fault location, so that the fault location efficiency and the satisfaction degree of the user are improved, the maintenance cost is saved, and the time for solving the problem is shortened.

The prior art is to determine whether a real call is successful or not at the service signaling layer device. However, when one end cannot hear the other end after the call is established, the prior art cannot determine that the call has failed. That is, the prior art cannot perform a test of whether streaming media is normal.

In the prior art, two voice gateways and a voice server are matched together to perform call test to determine the function of a voice system, and the call is performed manually, so that the problems of low efficiency and inaccurate test result exist.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides a system and a method for voice testing of multipath voice gateway equipment based on a router, and aims to solve the technical problems that in the prior art, the functions of a voice system are generally determined by carrying out call testing through the cooperation of two voice gateways and a voice server, the calls are carried out manually, the efficiency is low and the test result is inaccurate.

The aim of the invention is realized by the following technical scheme:

the system for voice testing of the multipath voice gateway equipment based on the router comprises voice gateway equipment with multipath voice interfaces, a testing instrument Abacus voice quality tester and a testing server; wherein:

the voice gateway equipment is equipment to be tested and comprises a plurality of paths of voice interfaces and an Ethernet interface, wherein the plurality of paths of voice interfaces are connected with an Abacus voice quality tester, and the Ethernet interface is connected with a test server;

One end of the Abacus voice quality tester is connected with the test server, and the other end of the Abacus voice quality tester is connected with the voice gateway equipment and is used for receiving a test instruction issued by the test server, carrying out voice communication and testing whether a voice link is smooth or not through a simulation key;

The test server is connected with the Ethernet interface of the voice gateway equipment through a network cable, is connected with the Ethernet interface of the testing instrument Abacus voice quality tester through the network cable, sends a test instruction to the Abacus voice quality tester, receives a voice message transmitted by the voice gateway equipment to analyze and judge voice call quality, and simultaneously performs fault analysis and positioning on the faulty voice gateway equipment so as to facilitate subsequent manual testing and overhaul.

Preferably, the Abacus voice quality tester is a test meter of the milone company, and is provided with a voice test script and a test program.

Preferably, test system software and voice message receiving server software are installed in the test server, wherein:

The test system software logs in the voice gateway equipment through telnet to execute a test command, and controls the start and stop of a test script on an Abacus voice quality tester;

The voice message receiving server software receives the voice message transmitted from the voice gateway device through the Ethernet port.

Preferably, the voice gateway device uses an RJ11 telephone line to connect the voice interface to the voice port of the Abacus voice quality tester.

A method for voice testing of a router-based multipath voice gateway device, comprising the steps of:

S1: the test system software in the test server starts the voice system test;

s2: the Abacus voice quality tester performs call test on the voice gateway equipment according to the test script, and voice message receiving server software in the test server receives messages from the voice gateway equipment;

S3: and automatically ending the test, automatically analyzing the test result by the Abacus voice quality tester and the voice message receiving server software, summarizing the test result to the test system software, and finally generating the test result.

Preferably, the step S1 specifically includes the following substeps:

s11: test system software in the test server logs on the voice gateway equipment through telnet, and executes the start test command;

S12: after receiving the start test command, the voice gateway equipment automatically pairs adjacent voice interfaces in pairs;

S13: the method comprises the steps that voice message receiving server software in a test server starts a voice message interception program and prepares to receive voice messages of voice gateway equipment;

S14: the test system software in the test server calls the test script of the Abacus voice quality tester, and starts the voice system test.

Preferably, the step S2 specifically includes the following substeps:

S21: setting two adjacent voice ports as a voice port 1 and a voice port 2 respectively, and enabling the Abacus voice quality tester to simulate a telephone connected to the voice port 1 to send an off-hook signal to the voice port 1 of the voice gateway equipment through RJ 11;

s22: after the voice port 1 of the voice gateway equipment detects an off-hook signal, a ring back tone is sent to the voice port 1 of the Abacus voice quality tester, and a ringing tone is sent to the voice port 2 of the Abacus voice quality tester;

s23: after the Abacus voice quality tester detects ringing sound at the voice port 2, after ringing sounds, an off-hook signal is sent to the voice port 2 of the voice gateway equipment;

S24: after the voice port 2 of the voice gateway device detects the off-hook signal, stopping sending the ring back tone to the voice port 1 of the Abacus voice quality tester, and stopping sending the ringing tone to the voice port 2 of the Abacus voice quality tester;

S25: the voice gateway equipment establishes internal channels of voice port 1 and voice port 2 voice messages internally, and then forwards the messages of the voice port 1 to the voice port 2 and forwards the messages of the voice port 2 to the voice port 1;

s26: the voice gateway equipment forwards voice messages of the voice port 1 and the voice port 2 to voice message receiving server software in the test server at the same time;

S27: the voice of the Abacus voice quality tester can respectively send analog key sounds at a voice port 1 and a voice port 2 to detect the working condition of a voice system;

S28: the voice of the Abacus voice quality tester can respectively send on-hook signals at a voice port 1 and a voice port 2;

S29: the same test is performed by exchanging voice port 1 and voice port 2 according to the steps of S21 to S28.

Preferably, the step S3 specifically includes the following substeps:

S31: after the test is finished, the test system software in the test server automatically analyzes the test result of the Abacus voice quality tester;

S32: the test system software in the test server automatically analyzes the message received by the voice message receiving server software in the test server, and analyzes whether the voice message has a problem or not;

s33: and the test system software in the test server automatically generates an analysis message of the voice test and performs fault analysis and positioning on the voice gateway equipment with faults.

The invention has the beneficial effects that:

(1) Only a single multipath voice gateway device is used for testing, and a plurality of multipath voice gateway devices and voice servers are not required to be used at the same time;

(2) The starting of the test and the ending of the monitoring test are controlled through the test system software on the test server, the test is automatically carried out, the test result of the Abacus voice quality tester can be automatically analyzed, the voice message received by the voice message receiving server software can be automatically analyzed, and finally a test report is automatically generated;

(3) Error information in the test can be collected, and fault analysis and positioning can be carried out on the faulty voice gateway equipment so as to facilitate subsequent manual test and overhaul;

(4) The whole process automatic test reduces human intervention, improves the test efficiency and improves the accuracy of the test result.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained according to the structures shown in these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic diagram of the system architecture of the present invention.

The achievement of the objects, functional features and advantages of the present invention will be further described with reference to the accompanying drawings, in conjunction with the embodiments.

Detailed Description

In order to make the technical features, objects and effects of the present invention more clearly understood, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments of the present invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In this embodiment, as shown in fig. 1, a system for voice testing of a multi-path voice gateway device based on a router includes a voice gateway device with a multi-path voice interface, a testing instrument Abacus voice quality tester, and a testing server; wherein:

the voice gateway equipment is equipment to be tested and comprises a plurality of paths of voice interfaces and an Ethernet interface, wherein the plurality of paths of voice interfaces are connected with an Abacus voice quality tester, and the Ethernet interface is connected with a test server;

One end of the Abacus voice quality tester is connected with the test server, and the other end of the Abacus voice quality tester is connected with the voice gateway equipment and is used for receiving a test instruction issued by the test server, carrying out voice communication and testing whether a voice link is smooth or not through a simulation key;

The test server is connected with the Ethernet interface of the voice gateway equipment through a network cable, is connected with the Ethernet interface of the testing instrument Abacus voice quality tester through the network cable, sends a test instruction to the Abacus voice quality tester, receives a voice message transmitted by the voice gateway equipment to analyze and judge voice call quality, and simultaneously performs fault analysis and positioning on the faulty voice gateway equipment so as to facilitate subsequent manual testing and overhaul.

In this embodiment, the Abacus voice quality tester is a test meter of the milan company, and is provided with a voice test script and a test program.

In this embodiment, test system software and voice message receiving server software are installed in the test server, where:

The test system software logs in the voice gateway equipment through telnet to execute a test command, and controls the start and stop of a test script on an Abacus voice quality tester;

The voice message receiving server software receives the voice message transmitted from the voice gateway device through the Ethernet port.

In this embodiment, the voice gateway device uses an RJ11 phone line to connect the voice interface to the voice interface of the Abacus voice quality tester.

A method for voice testing of a router-based multipath voice gateway device, comprising the steps of:

S1: the test system software in the test server starts the voice system test;

s2: the Abacus voice quality tester performs call test on the voice gateway equipment according to the test script, and voice message receiving server software in the test server receives messages from the voice gateway equipment;

S3: and automatically ending the test, automatically analyzing the test result by the Abacus voice quality tester and the voice message receiving server software, summarizing the test result to the test system software, and finally generating the test result.

In this embodiment, the step S1 specifically includes the following substeps:

S11, executing an opening test command of echo 1>/tmp/local_test on test system software telnet in a test server to the multipath voice gateway equipment;

S12, after receiving the starting test command, the multipath voice gateway equipment automatically pairs adjacent voice interfaces in pairs, and decides the port number of each voice port for transmitting RTP messages, wherein the number is 40000 plus 2 times of the voice ports in general;

S13, the voice message receiving server software in the test server starts a voice message interception program, prepares to receive voice messages of the multi-path voice gateway equipment, and the specific intercepted port is a port number for transmitting RTP messages at a voice port determined on the multi-path voice gateway equipment, so that the caught voice messages can be determined to correspond to the voice ports on the multi-path voice gateway equipment through the port number.

In this embodiment, the step S2 specifically includes the following substeps:

S21, the Abacus voice quality tester simulates a telephone connected to the voice port 1 to send an off-hook signal to the voice port 1 of the multipath voice gateway equipment through RJ 11;

S22, after the voice port 1 of the multipath voice gateway equipment detects an off-hook signal, a ring back tone is sent to the voice port 1 of the Abacus voice quality tester, and a ringing tone is sent to the voice port 2 of the Abacus voice quality tester; if the Abacus voice quality tester does not detect the ring-back tone on the voice port 1, recording that the voice port 1 has no ring-back tone error, and ending the test of the voice port 1 and the voice port 2;

S23, after the Abacus voice quality tester detects ringing sound at the voice port 2, after ringing sounds, off-hook signals are sent to the voice port 2 of the road voice gateway equipment; if the Abacus voice quality tester does not detect the ringing tone on the voice port 2, recording that the voice port 2 has no ringing tone error, and ending the test of the voice port 1 and the voice port 2;

S24, after the voice port 2 of the multipath voice gateway equipment detects an off-hook signal, stopping sending a ring back tone to the voice port 1 of the Abacus voice quality tester, and stopping sending a ringing tone to the voice port 2 of the Abacus voice quality tester;

S25, the multipath voice gateway equipment establishes internal channels of voice port 1 and voice port 2 voice messages internally, and then forwards the messages of the voice port 1 to the voice port 2 and forwards the messages of the voice port 2 to the voice port 1;

s26, the multipath voice gateway equipment forwards voice messages of the voice port 1 and the voice port 2 to voice message receiving server software in the test server at the same time;

S27, the voice of the Abacus voice quality tester can respectively send analog key sounds at a voice port 1 and a voice port 2 to detect the working condition of a voice system; if the Abacus voice quality tester does not detect the key sound sent by the opposite end on the voice port 1, recording that the voice port 1 fails to detect the key sound; if the Abacus voice quality tester does not detect the key sound sent by the opposite end on the voice port 2, recording that the voice port 2 fails to detect the key sound;

s28, the voice of the Abacus voice quality tester can send on-hook signals at a voice port 1 and a voice port 2 respectively;

s29, exchanging the voice port 1 and the voice port 2 according to the steps from S21 to S28 to perform the same test.

And step S3, the test is automatically ended, the Abacus voice quality tester and the voice message receiving server software automatically analyze the test result, the test result is summarized to the test system software, and the specific content of the finally generated test result is as follows:

S31, after the test is finished, testing system software in a test server automatically analyzes a test result of the Abacus voice quality tester; if the Abacus voice quality tester has error information for recording the voice port test, recording test error information;

S32, the test system software in the test server automatically analyzes the message received by the voice message receiving server software in the test server, and analyzes whether the voice message has a problem or not; and if the test system software analyzes and discovers that the voice message only has the voice 1 port or the voice 2 port, recording error information of single pass of the voice message.

S33, the test system software in the test server automatically generates an analysis report of the voice test, and performs fault analysis and positioning on the voice gateway equipment with faults.

Description: this figure 1 shows only two paths of speech, and multiple paths of speech interfaces may exist in a practical system.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The system for voice testing of the multipath voice gateway equipment based on the router is characterized by comprising voice gateway equipment with multipath voice interfaces, a testing instrument Abacus voice quality tester and a testing server; wherein:

the voice gateway equipment is equipment to be tested and comprises a plurality of paths of voice interfaces and an Ethernet interface, wherein the plurality of paths of voice interfaces are connected with an Abacus voice quality tester, and the Ethernet interface is connected with a test server;

The Abacus voice quality tester is also connected with a test server and is used for receiving a test instruction issued by the test server, carrying out voice communication and testing whether a voice link is smooth or not through a simulation key;

The test server sends a test instruction to the Abacus voice quality tester, receives a voice message transmitted by the voice gateway equipment to analyze and judge voice call quality, and simultaneously analyzes and locates faults of the faulty voice gateway equipment so as to facilitate subsequent manual testing and overhaul;

The voice gateway equipment connects the voice interface with the voice interface of the Abacus voice quality tester by using an RJ11 telephone line;

Test system software and voice message receiving server software are installed in the test server, wherein: the test system software logs in the voice gateway equipment through telnet to execute a test command, and controls the start and stop of a test script on an Abacus voice quality tester; the voice message receiving server software receives the voice message transmitted from the voice gateway device through the Ethernet port.

2. The system for voice testing of a router-based multipath voice gateway device according to claim 1, wherein the Abacus voice quality tester is a testing meter of the milan company, and is provided with a voice test script and a test program.

3. The method for testing the voice of the multipath voice gateway equipment based on the router is realized based on the system for testing the voice of the multipath voice gateway equipment based on the router as claimed in any one of claims 1 to 2, and is characterized by comprising the following steps:

S1: the test system software in the test server starts the voice system test, which comprises the following substeps:

s11: test system software in the test server logs on the voice gateway equipment through telnet, and executes the start test command;

S12: after receiving the start test command, the voice gateway equipment automatically pairs adjacent voice interfaces in pairs;

S13: the method comprises the steps that voice message receiving server software in a test server starts a voice message interception program and prepares to receive voice messages of voice gateway equipment;

S14: the test system software in the test server calls a test script of the Abacus voice quality tester, and starts a voice system test;

s2: the Abacus voice quality tester performs call test on the voice gateway equipment according to test scripts, and voice message receiving server software in a test server receives messages from the voice gateway equipment, and specifically comprises the following substeps:

s21: the Abacus voice quality tester simulates a telephone connected to the voice port 1 to send an off-hook signal to the voice port 1 of the voice gateway equipment through RJ 11;

s22: after the voice port 1 of the voice gateway equipment detects an off-hook signal, a ring back tone is sent to the voice port 1 of the Abacus voice quality tester, and a ringing tone is sent to the voice port 2 of the Abacus voice quality tester; if the Abacus voice quality tester does not detect the ring-back tone on the voice port 1, recording that the voice port 1 has no ring-back tone error, and ending the test of the voice port 1 and the voice port 2;

S23: after the Abacus voice quality tester detects ringing sound at the voice port 2, after ringing sounds, an off-hook signal is sent to the voice port 2 of the voice gateway equipment; if the Abacus voice quality tester does not detect the ringing tone on the voice port 2, recording that the voice port 2 has no ringing tone error, and ending the test of the voice port 1 and the voice port 2;

S24: after the voice port 2 of the voice gateway device detects the off-hook signal, stopping sending the ring back tone to the voice port 1 of the Abacus voice quality tester, and stopping sending the ringing tone to the voice port 2 of the Abacus voice quality tester;

S25: the voice gateway equipment establishes internal channels of voice port 1 and voice port 2 voice messages internally, and then forwards the messages of the voice port 1 to the voice port 2 and forwards the messages of the voice port 2 to the voice port 1;

s26: the voice gateway equipment forwards voice messages of the voice port 1 and the voice port 2 to voice message receiving server software in the test server at the same time;

S27: the voice of the Abacus voice quality tester can respectively send analog key sounds at a voice port 1 and a voice port 2 to detect the working condition of a voice system; if the Abacus voice quality tester does not detect the key sound sent by the opposite end on the voice port 1, recording that the voice port 1 fails to detect the key sound; if the Abacus voice quality tester does not detect the key sound sent by the opposite end on the voice port 2, recording that the voice port 2 fails to detect the key sound;

S28: the voice of the Abacus voice quality tester can respectively send on-hook signals at a voice port 1 and a voice port 2;

S29: exchanging the voice port 1 and the voice port 2 according to the steps of S21 to S28 to perform the same test;

S3: and automatically ending the test, automatically analyzing the test result by the Abacus voice quality tester and the voice message receiving server software, summarizing the test result to the test system software, and finally generating the test result.

4. A method for voice testing of a router-based multipath voice gateway device according to claim 3, characterized in that S3 comprises the following specific sub-steps:

S31: after the test is finished, the test system software in the test server automatically analyzes the test result of the Abacus voice quality tester;

S32: the test system software in the test server automatically analyzes the message received by the voice message receiving server software in the test server, and analyzes whether the voice message has a problem or not;

s33: and the test system software in the test server automatically generates an analysis message of the voice test and performs fault analysis and positioning on the voice gateway equipment with faults.