CN111431770B - Terminal protocol consistency test system and method for 5G communication - Google Patents
Terminal protocol consistency test system and method for 5G communication Download PDFInfo
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Abstract
The invention relates to the technical field of mobile communication, and discloses a terminal protocol consistency test system for 5G communication, which comprises a test end and a tested end, wherein the test end comprises a user operation module, a test module, a system simulator, an abnormal memory module and a processing module, the test module can encode test information from the user operation module to generate a test command, the system simulator can test the tested terminal according to the test command and generate a test report by matching with an analysis unit of the test module, the verification unit can output a verification result containing a result value and abnormal characteristics according to the test report, when the result values are inconsistent, the abnormal memory module stores the abnormal characteristics, and the processing module takes the abnormal characteristics as an index to call and output a corresponding processing command. The invention also discloses a 5G communication terminal protocol consistency test method based on the 5G communication terminal protocol consistency test system.
Description
Technical Field
The invention relates to the technical field of mobile communication, in particular to a system and a method for testing the consistency of a 5G communication terminal protocol, and particularly relates to a protocol consistency test of different BWP configurations in a 5G communication-based terminal test.
Background
In the prior art, the 5G network architecture mode is divided into NSA (Non-standby dependent networking) and SA (standby independent networking). NSA adopts a double connection mode, the 5G NR control plane is anchored to the 4G LTE, and a 4G core network EPC is utilized; for SA, the 5G NR directly accesses the 5G core network, which is no longer dependent on 4G, and is a complete independent 5G network.
In a New Radio (NR) of 5G, a system Bandwidth, i.e., a Bandwidth of one carrier, may become very large (e.g., 200MHz or 400MHz), and some terminals have limited capabilities and cannot support the large Bandwidth, so that the network device configures a BWP (Bandwidth Part, BWP) to the terminal, i.e., a portion of the system Bandwidth, e.g., 20MHz, and the terminal may communicate with the network device over the BWP.
Under NSA networking, a terminal antenna needs to be connected with two wireless access technologies of LTE and NR; under the SA networking, only NR one wireless access technology is connected to the terminal antenna. When SABWP conversion is performed in a 5G network, terminal equipment needs to be tested; the current test of the terminal equipment mainly comprises the following steps: radio frequency index testing, protocol testing, radio resource management testing and other testing. The protocol test comprises a consistency test, a performance test, an interoperability test and a robustness test. Conformance testing is an important aspect of protocol testing and is the basis for performance testing, interoperability testing, and robustness testing.
In the existing terminal protocol consistency test method, when the result of the inconsistency of the terminal protocol can only be output when the abnormity occurs in the test process, the verification of the reason of the inconsistency of the terminal protocol can not be realized, and thus the overall efficiency of the terminal protocol consistency test is reduced.
Disclosure of Invention
The first purpose of the invention is to provide a terminal protocol consistency test system for 5G communication.
In order to achieve the above purpose, the basic scheme of the invention is as follows: a terminal protocol consistency test system for 5G communication comprises a test end and a tested end, wherein the test end carries out data transmission with the tested end through a 5G network;
the testing end comprises a user operation module, a testing module and a system simulator, wherein the user operation module is used for obtaining associated testing information according to a testing case selected by a user, the testing module can encode the testing information and generate a testing command which can be executed on the system simulator, and the system simulator can test a tested terminal according to the testing command and obtain a response message of the tested terminal;
the test module further comprises an analysis unit and a verification unit, the analysis unit can decode the response message and generate a test report, the verification unit can output a verification result according to the test report, and the verification result comprises a result value and an abnormal characteristic;
the test end is also provided with an abnormal memory module and a processing module, when the result values output by the verification unit are inconsistent, the abnormal memory module stores the abnormal features, the processing module is provided with a feature database, the feature database is provided with the abnormal features and processing commands corresponding to the abnormal features in a relevant mode, and the processing module calls the corresponding processing commands by taking the abnormal features as indexes and outputs the processing commands.
Further, when the abnormal feature is uplink user data and/or downlink user data are lost, calling a corresponding preset processing command from the feature database, wherein the processing command corresponding to the abnormal feature comprises a data supplement request sent by the processing module to a tested end according to a preset supplement sub-strategy, and the data supplement request carries breakpoint time information and flow time information; when the tested end receives the data supplement request, determining a corresponding target file according to breakpoint time information, and positioning the position of target data in the target file according to stream time information; and reading and sending target data to the test end.
Further, when the abnormal feature is uplink user data and/or downlink user data are lost, calling a corresponding preset processing command from the feature database, wherein the processing command corresponding to the abnormal feature comprises a data supplement request sent by the processing module to a tested end according to a preset supplement sub-strategy, and the data supplement request carries breakpoint time information and flow time information; when the tested end receives the data supplement request, if a corresponding target file is not found according to the breakpoint time information, the tested end configures a calling module to generate data to be backed up according to the data supplement request, wherein the data to be backed up comprises a serial number, and the tested end sends the serial number to a preset backup data end; and when the backup data terminal receives the serial number, calling the target file to the tested terminal according to the serial number.
Further, when the abnormality is characterized by an abnormal test end address and/or an abnormal tested end address, the processing module performs priority configuration on the test end and the tested end according to a pre-configured priority policy; when the priority of the testing end is higher than that of the tested end, executing a processing command of the testing end; and when the priority of the tested end is higher than that of the testing end, executing the processing command of the tested end.
Further, when the characteristic database does not have corresponding abnormal characteristics, a test report is output and a processing command is waited for, and when the processing command is received by the processing module, the processing command is associated with the corresponding abnormal characteristics and stored in the characteristic database.
The second objective of the present invention is to provide a method for testing the consistency of a terminal protocol in 5G communication, which provides a test system, where the test system includes a test end and a tested end, the test end includes a processing module and an abnormal memory module, and the test end performs data transmission with the tested end through a 5G network; the test end includes user operation module, test module and system simulator, test module still includes analysis unit and check-up unit, its characterized in that: the method comprises the following steps:
step S1, the user operation module obtains the associated test information according to the test case selected by the user, and sends the test information to the test module;
step S2, the test module encodes the test information, generates a test command which can be executed in a system simulator, and sends the test command to the system simulator;
step S3, the system simulator tests the tested terminal according to the test command to obtain the response message of the tested terminal, and sends the response message to the analysis unit in the test module, and the analysis unit decodes the response message to generate a test report;
step S4, the checking unit outputs a checking result according to the test report, and the checking result comprises a result value and an abnormal characteristic;
and step S5, when the result values output by the check unit are inconsistent, the abnormal memory module stores the abnormal features, and the processing module calls and outputs the corresponding processing command by taking the abnormal features as indexes according to the abnormal features set in association with the feature database and the processing command corresponding to the abnormal features.
Further, still include: step S51, when the abnormal feature is the loss of uplink user data and/or downlink user data, calling a corresponding preset processing command from the feature database, wherein the processing command corresponding to the abnormal feature comprises that the processing module sends a data supplement request to a tested end according to a preset supplement sub-strategy, and the data supplement request carries breakpoint time information and flow time information; when the tested end receives the data supplement request, determining a corresponding target file according to breakpoint time information, and positioning the position of target data in the target file according to stream time information; reading and sending target data to the test end; steps S1 through S4 are repeated.
Further, still include: step S52, when the abnormal feature is the loss of uplink user data and/or downlink user data, calling a corresponding preset processing command from the feature database, wherein the processing command corresponding to the abnormal feature comprises that the processing module sends a data supplement request to a tested end according to a preset supplement sub-strategy, and the data supplement request carries breakpoint time information and flow time information; when the tested end receives the data supplement request, if a corresponding target file is not found according to the breakpoint time information, the tested end configures a calling module to generate data to be backed up according to the data supplement request, wherein the data to be backed up comprises a serial number, and the tested end sends the serial number to a preset backup data end; when the backup data terminal receives the serial number, calling a target file to the tested terminal according to the serial number; steps S1 through S4 are repeated.
Further, still include: step S53, when the abnormality is characterized by abnormal testing end address and/or abnormal tested end address, the processing module performs priority configuration on the testing end and the tested end according to a pre-configured priority strategy; when the priority of the testing end is higher than that of the tested end, executing a processing command of the testing end; when the priority of the tested end is higher than that of the testing end, executing a processing command of the tested end; steps S1 through S4 are repeated.
Further, still include: and step S54, when the characteristic database has no corresponding abnormal characteristic, outputting a test report and waiting for a processing command, when the processing module receives the processing command, associating the processing command with the corresponding abnormal characteristic and storing the processing command in the characteristic database, and repeating the steps S1 to S4.
Compared with the prior art, the scheme has the beneficial effects that:
1. according to the scheme, based on the existing terminal protocol consistency test method, a verification unit is additionally arranged, the verification result output by the verification unit comprises a result value and abnormal characteristics, and when the result value output by the verification unit is inconsistent, the abnormal memory module can store the abnormal characteristics and is matched with the processing module to process the abnormal characteristics, so that the consistency of the terminal protocol can be timely recovered; the abnormal memory module can also store the processing command corresponding to the abnormal characteristic, so that when the abnormal characteristic occurs again, the corresponding processing command can be quickly read from the abnormal memory module, and the consistency of the terminal protocol is recovered; therefore, the protocol development process of the terminal is greatly shortened, the overall efficiency of the terminal protocol consistency test is improved, and the industrial development of the terminal is promoted.
2. Compared with a 4G network, the 5G network has larger data transmission quantity, more transmission contents in unit time and higher requirement on the consistency of protocols; the system and the method for testing the consistency of the terminal protocol can test the consistency of the protocol more quickly and accurately, process and store abnormal characteristics in the test process in time and recover the consistency of the terminal protocol in time, thereby ensuring that data is transmitted more quickly and accurately in a 5G network.
Drawings
FIG. 1 is a schematic structural diagram of a system for testing consistency of a 5G communication terminal protocol according to the present invention;
fig. 2 is a schematic flow chart of a method for testing consistency of a terminal protocol in 5G communication according to the present invention.
Reference numerals in the drawings of the specification include: the device comprises a test end 1, a user operation module 2, a test module 3, an analysis unit 31, a verification unit 32, a system simulator 4, a tested terminal 5, an abnormal memory module 6 and a processing module 7.
Detailed Description
The invention will be described in further detail by means of specific embodiments with reference to the accompanying drawings:
example (b):
a terminal protocol consistency test system for 5G communication comprises a test end 1 and a tested end, wherein the test end 1 performs data transmission with the tested end through a 5G network;
the testing terminal 1 comprises a user operation module 2, a testing module 3 and a system simulator 4, wherein the user operation module 2 is used for obtaining associated testing information according to a testing case selected by a user, the testing module 3 can encode the testing information and generate a testing command which can be executed in the system simulator 4, and the system simulator 4 can test a tested terminal 5 according to the testing command and obtain a response message of the tested terminal 5;
the test module 3 further includes an analysis unit 31 and a verification unit 32, the analysis unit 31 can decode the response message and generate a test report, and the verification unit 32 can output a verification result according to the test report, where the verification result includes a result value and an abnormal feature;
the testing terminal 1 is further configured with an exception memory module 6 and a processing module 7, when the result values output by the verification unit 32 are inconsistent, the exception memory module 6 stores the exception characteristics, the processing module 7 is configured with a characteristic database, the characteristic database is provided with exception characteristics and processing commands corresponding to the exception characteristics in an associated manner, and the processing module 7 uses the exception characteristics as an index to call and output the corresponding processing commands.
When the abnormal features are uplink user data and/or downlink user data are lost, calling corresponding preset processing commands from the feature database, wherein the processing commands corresponding to the abnormal features comprise data supplement requests sent to a tested end by the processing module 7 according to preset supplement sub-strategies, and the data supplement requests carry breakpoint time information and stream time information; when the tested end receives the data supplement request, determining a corresponding target file according to breakpoint time information, and positioning the position of target data in the target file according to stream time information; and reading and sending target data to the test terminal 1.
When the abnormal features are uplink user data and/or downlink user data are lost, calling corresponding preset processing commands from the feature database, wherein the processing commands corresponding to the abnormal features comprise data supplement requests sent to a tested end by the processing module 7 according to preset supplement sub-strategies, and the data supplement requests carry breakpoint time information and stream time information; when the tested end receives the data supplement request, if a corresponding target file is not found according to the breakpoint time information, the tested end configures a calling module to generate data to be backed up according to the data supplement request, wherein the data to be backed up comprises a serial number, and the tested end sends the serial number to a preset backup data end; and when the backup data terminal receives the serial number, calling the target file to the tested terminal according to the serial number.
When the abnormality is characterized by an abnormal address of the testing terminal 1 and/or an abnormal address of the tested terminal, the processing module 7 performs priority configuration on the testing terminal 1 and the tested terminal according to a pre-configured priority policy; when the priority of the test end 1 is higher than that of the tested end, executing a processing command of the test end 1; and when the priority of the tested end is higher than the priority of the testing end 1, executing the processing command of the tested end.
When the characteristic database has no corresponding abnormal characteristic, a test report is output and a processing command is waited, and when the processing command is received by the processing module 7, the processing command is associated with the corresponding abnormal characteristic and is stored in the characteristic database.
The second objective of the present invention is to provide a method for testing consistency of a terminal protocol of 5G communication, which provides a test system, where the test system includes a test end 1 and a tested end, the test end 1 includes a processing module 7 and an abnormal memory module 6, and the test end 1 performs data transmission with the tested end through a 5G network; the test end 1 comprises a user operation module 2, a test module 3 and a system simulator 4, wherein the test module 3 further comprises an analysis unit 31 and a verification unit 32, and is characterized in that: the method comprises the following steps:
step S1, the user operation module 2 obtains the associated test information according to the test case selected by the user, and sends the test information to the test module 3;
step S2, the test module 3 encodes the test information, generates a test command executable by the system simulator 4, and sends the test command to the system simulator 4;
step S3, the system simulator 4 tests the terminal to be tested 5 according to the test command to obtain a response message of the terminal to be tested 5, and sends the response message to the parsing unit 31 in the test module 3, and the parsing unit 31 decodes the response message to generate a test report;
step S4, the verification unit 32 outputs a verification result according to the test report, where the verification result includes a result value and an abnormal feature;
step S5, when the result values output by the verification unit 32 are inconsistent, the exception memory module 6 stores the exception characteristics, and the processing module 7 invokes and outputs the corresponding processing command with the exception characteristics as an index according to the exception characteristics set in association with the characteristic database and the processing policy corresponding to the exception characteristics.
Step S51, when the abnormal feature is uplink user data and/or downlink user data lost, invoking a corresponding preset processing command from the feature database, where the processing command corresponding to the abnormal feature includes that the processing module 7 sends a data supplement request to a tested end according to a preset supplement sub-policy, and the data supplement request carries breakpoint time information and flow time information; when the tested end receives the data supplement request, determining a corresponding target file according to breakpoint time information, and positioning the position of target data in the target file according to stream time information; reading and sending target data to the test terminal 1; steps S1 through S4 are repeated.
Step S52, when the abnormal feature is uplink user data and/or downlink user data lost, invoking a corresponding preset processing command from the feature database, where the processing command corresponding to the abnormal feature includes that the processing module 7 sends a data supplement request to a tested end according to a preset supplement sub-policy, and the data supplement request carries breakpoint time information and flow time information; when the tested end receives the data supplement request, if a corresponding target file is not found according to the breakpoint time information, the tested end configures a calling module to generate data to be backed up according to the data supplement request, wherein the data to be backed up comprises a serial number, and the tested end sends the serial number to a preset backup data end; when the backup data terminal receives the serial number, calling a target file to the tested terminal according to the serial number; steps S1 through S4 are repeated.
Step S53, when the abnormality is characterized by an abnormal address of the testing end 1 and/or an abnormal address of the tested end, the processing module 7 performs priority configuration on the testing end 1 and the tested end according to a pre-configured priority policy; when the priority of the test end 1 is higher than that of the tested end, executing a processing command of the test end 1; when the priority of the tested end is higher than the priority of the testing end 1, executing a processing command of the tested end; steps S1 through S4 are repeated.
And step S54, when the characteristic database has no corresponding abnormal characteristic, outputting a test report and waiting for a processing command, when the processing module 7 receives the processing command, associating the processing command with the corresponding abnormal characteristic and storing the processing command in the characteristic database, and repeating the steps S1 to S4.
The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.
Claims (8)
1. A terminal protocol conformance testing system for 5G communication is characterized in that: the device comprises a test end and a tested end, wherein the test end carries out data transmission with the tested end through a 5G network;
the testing end comprises a user operation module, a testing module and a system simulator, wherein the user operation module is used for obtaining associated testing information according to a testing case selected by a user, the testing module can encode the testing information and generate a testing command which can be executed on the system simulator, and the system simulator can test a tested terminal according to the testing command and obtain a response message of the tested terminal;
the test module further comprises an analysis unit and a verification unit, the analysis unit can decode the response message and generate a test report, the verification unit can output a verification result according to the test report, and the verification result comprises a result value and an abnormal characteristic;
the test end is also provided with an abnormal memory module and a processing module, when the result values output by the check unit are inconsistent, the abnormal memory module stores the abnormal features, the processing module is provided with a feature database, the feature database is associated with the abnormal features and processing commands corresponding to the abnormal features, and the processing module calls the corresponding processing commands by taking the abnormal features as indexes and outputs the processing commands;
when the abnormal features are uplink user data and/or downlink user data are lost, calling corresponding preset processing commands from the feature database, wherein the processing commands corresponding to the abnormal features comprise data supplement requests sent to a tested end by the processing module according to preset supplement sub-strategies, and the data supplement requests carry breakpoint time information and stream time information; when the tested end receives the data supplement request, determining a corresponding target file according to breakpoint time information, and positioning the position of target data in the target file according to stream time information; and reading and sending target data to the test end.
2. The system for testing the consistency of the terminal protocols for 5G communication according to claim 1, wherein: when the abnormal features are uplink user data and/or downlink user data are lost, calling corresponding preset processing commands from the feature database, wherein the processing commands corresponding to the abnormal features comprise data supplement requests sent to a tested end by the processing module according to preset supplement sub-strategies, and the data supplement requests carry breakpoint time information and stream time information; when the tested end receives the data supplement request, if a corresponding target file is not found according to the breakpoint time information, the tested end configures a calling module to generate data to be backed up according to the data supplement request, wherein the data to be backed up comprises a serial number, and the tested end sends the serial number to a preset backup data end; and when the backup data terminal receives the serial number, calling the target file to the tested terminal according to the serial number.
3. The system for testing the consistency of the terminal protocols for 5G communication according to claim 1, wherein: when the abnormality is characterized by abnormal test end address and/or abnormal tested end address, the processing module performs priority configuration on the test end and the tested end according to a pre-configured priority strategy; when the priority of the testing end is higher than that of the tested end, executing a processing command of the testing end; and when the priority of the tested end is higher than that of the testing end, executing the processing command of the tested end.
4. The system for testing the consistency of the terminal protocols for 5G communication according to claim 1, wherein: and when the processing module receives the processing command, executing the processing command, associating the processing command with the corresponding abnormal feature and storing the processing command and the corresponding abnormal feature into the feature database.
5. A5G communication terminal protocol consistency test method provides a test system, the test system comprises a test end and a tested end, the test end comprises a processing module and an abnormal memory module, and the test end performs data transmission with the tested end through a 5G network; the test end includes user operation module, test module and system simulator, test module still includes analysis unit and check-up unit, its characterized in that: the method comprises the following steps:
step S1, the user operation module obtains the associated test information according to the test case selected by the user, and sends the test information to the test module;
step S2, the test module encodes the test information, generates a test command which can be executed in a system simulator, and sends the test command to the system simulator;
step S3, the system simulator tests the tested terminal according to the test command to obtain the response message of the tested terminal, and sends the response message to the analysis unit in the test module, and the analysis unit decodes the response message to generate a test report;
step S4, the checking unit outputs a checking result according to the test report, and the checking result comprises a result value and an abnormal characteristic;
step S5, when the result value output by the check unit is inconsistent, the abnormal memory module stores the abnormal feature, and the processing module calls and outputs the corresponding processing command by taking the abnormal feature as an index according to the abnormal feature set in association with the feature database and the processing command corresponding to the abnormal feature;
further comprising:
step S51, when the abnormal feature is the loss of uplink user data and/or downlink user data, calling a corresponding preset processing command from the feature database, wherein the processing command corresponding to the abnormal feature comprises that the processing module sends a data supplement request to a tested end according to a preset supplement sub-strategy, and the data supplement request carries breakpoint time information and flow time information; when the tested end receives the data supplement request, determining a corresponding target file according to breakpoint time information, and positioning the position of target data in the target file according to stream time information; reading and sending target data to the test end; steps S1 through S4 are repeated.
6. The method for testing consistency of terminal protocols for 5G communication according to claim 5, wherein the method comprises the following steps: further comprising:
step S52, when the abnormal feature is the loss of uplink user data and/or downlink user data, calling a corresponding preset processing command from the feature database, wherein the processing command corresponding to the abnormal feature comprises that the processing module sends a data supplement request to a tested end according to a preset supplement sub-strategy, and the data supplement request carries breakpoint time information and flow time information; when the tested end receives the data supplement request, if a corresponding target file is not found according to the breakpoint time information, the tested end configures a calling module to generate data to be backed up according to the data supplement request, wherein the data to be backed up comprises a serial number, and the tested end sends the serial number to a preset backup data end; when the backup data terminal receives the serial number, calling a target file to the tested terminal according to the serial number; steps S1 through S4 are repeated.
7. The method for testing consistency of terminal protocols for 5G communication according to claim 5, wherein the method comprises the following steps: further comprising:
step S53, when the abnormality is characterized by abnormal testing end address and/or abnormal tested end address, the processing module performs priority configuration on the testing end and the tested end according to a pre-configured priority strategy; when the priority of the testing end is higher than that of the tested end, executing a processing command of the testing end; when the priority of the tested end is higher than that of the testing end, executing a processing command of the tested end; steps S1 through S4 are repeated.
8. The method for testing consistency of terminal protocols for 5G communication according to claim 5, wherein the method comprises the following steps: further comprising:
and step S54, when the characteristic database has no corresponding abnormal characteristic, outputting a test report and waiting for a processing command, when the processing module receives the processing command, associating the processing command with the corresponding abnormal characteristic and storing the processing command in the characteristic database, and repeating the steps S1 to S4.
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