CN114339799A

CN114339799A - Dual-card terminal test system and method and electronic equipment

Info

Publication number: CN114339799A
Application number: CN202011033780.1A
Authority: CN
Inventors: 沈鹏翀
Original assignee: Datang Linktester Technology Co ltd
Current assignee: Datang Linktester Technology Co ltd
Priority date: 2020-09-27
Filing date: 2020-09-27
Publication date: 2022-04-12

Abstract

The embodiment of the application provides a system and a method for testing a dual-card terminal and electronic equipment, wherein the system comprises: the system comprises a first script server, a second script server, a system simulator and a test terminal; the first script server tests the simulation service data sent by the first SIM card, and the second script server tests the simulation service data sent by the second SIM card; the thread resources simulated by the system simulator comprise first thread resources corresponding to the first SIM card and second thread resources corresponding to the second SIM card; and the system simulator determines a target SIM card corresponding to each target simulation service data, and sends the target simulation service data to a target script server corresponding to the target SIM card through a target thread resource corresponding to the target SIM card. The embodiment realizes that two SIM cards can be tested at the same time.

Description

Dual-card terminal test system and method and electronic equipment

Technical Field

The present application relates to the field of communications technologies, and in particular, to a system and a method for testing a dual card terminal, and an electronic device.

Background

At present, the dual cards are the essential functions of most terminals, but because two Subscriber Identity Module (SIM) cards have independent processes in the communication process, a mutual interference phenomenon is necessarily generated in the actual use, and such processes are not specified in the existing third Generation Partnership Project (3 GPP) protocol, so it is very necessary to design a set of test system of the dual card terminal to verify whether the signaling process of the terminal is reasonable and to count the data performance.

The existing test scheme of the dual-card terminal is a test scheme that two cards share the same thread for testing, so that only one SIM card can be interacted at the same time, and the test flow has large limitation; in addition, when a test environment is constructed using a real network, the construction of the test environment is labor intensive, which results in difficulty in modifying relevant test environment parameters and great test difficulty.

Disclosure of Invention

The embodiment of the application provides a system and a method for testing a dual-card terminal and electronic equipment, and aims to solve the problem that the existing dual-card terminal testing scheme is large in limitation of testing process.

The embodiment of the application provides a dual card terminal test system, includes:

the system comprises a first script server, a second script server, a system simulator and a test terminal;

the test terminal comprises a first Subscriber Identity Module (SIM) card and a second SIM card, the first script server tests the simulation service data sent by the first SIM card, and the second script server tests the simulation service data sent by the second SIM card;

the system simulator simulates thread resources, and the thread resources comprise first thread resources corresponding to the first SIM card and second thread resources corresponding to the second SIM card; wherein the content of the first and second substances,

the system simulator receives at least one target simulation service data sent by the test terminal, and determines a target SIM card corresponding to each target simulation service data in the at least one target simulation service data, wherein the target SIM card is the first SIM card or the second SIM card;

and the system simulator sends the target simulation service data to a target script server corresponding to the target SIM card through a target thread resource corresponding to the target SIM card, wherein the target thread resource is the first thread resource or the second thread resource, and the target script server is the first script server or the second script server.

Optionally, before the system simulator receives at least one target simulation service data sent by the test terminal, the method further includes:

the first script server allocates a first International Mobile Subscriber Identity (IMSI) for the first SIM card and sends the first IMSI to the system simulator, and the system simulator sends the first IMSI to the test terminal, so that the test terminal carries the first IMSI in target simulation service data when the test terminal sends the target simulation service data through the first SIM card;

the second script server allocates a second IMSI for the second SIM card and sends the second IMSI to the system simulator, and the system simulator sends the second IMSI to the test terminal, so that the test terminal carries the second IMSI in target simulation service data when the test terminal sends the target simulation service data through the second SIM card;

the method for determining the target SIM card corresponding to each target simulation service data in the at least one target simulation service data by the system simulator comprises the following steps:

the system simulator determines a target SIM card corresponding to the target simulation service data based on a target IMSI carried in the target simulation service data, wherein the target IMSI is the first IMSI or the second IMSI.

Optionally, the allocating, by the first script server, a first international mobile subscriber identity IMSI to the first SIM card includes:

when the system simulator receives first registration data sent by the test terminal, wherein the first registration data are registration data received by the system simulator for the first time and do not carry IMSI (international mobile subscriber identity), the system simulator sends the first registration data to the first script server; when the first script server detects that the first registration data does not carry IMSI, allocating a first IMSI for the first SIM card;

the second script server allocates a second IMSI for the second SIM card, including:

when the system simulator receives second registration data sent by the test terminal, wherein the second registration data is not registration data received by the system simulator for the first time and does not carry IMSI (international mobile subscriber identity), the system simulator sends the second registration data to the second script server; and when the second script server detects that the second registration data does not carry the IMSI, allocating a second IMSI for the second SIM card.

Optionally, the system simulator includes a data forwarding module and a protocol layer simulation module, where the protocol layer simulation module includes a simulated packet data convergence protocol PDCP layer, a radio link control RLC layer, a media access control MAC layer, and a physical layer, the PDCP layer, the RLC layer, and the MAC layer are all simulated with the first thread resource and the second thread resource, and the data forwarding module is connected to the PDCP layer.

Optionally, the sending, by the first script server, the first IMSI to the system simulator, where the system simulator sends the first IMSI to the test terminal, includes:

the first script server sends the first IMSI to the data forwarding module, and the data forwarding module sends the first IMSI to the test terminal through the first thread resource in the PDCP layer, the RLC layer and the MAC layer;

the second script server sends the second IMSI to the system simulator, and the system simulator sends the second IMSI to the test terminal, including:

and the second script server sends the second IMSI to the data forwarding module, and the data forwarding module sends the second IMSI to the test terminal through the second thread resources in the PDCP layer, the RLC layer and the MAC layer.

the first script server sends the first IMSI to the data forwarding module, and the data forwarding module combines the first IMSI and the path information of the first thread resource into first identification information and sends the first identification information to the MAC layer; the second script server sends the second IMSI to the data forwarding module, and the data forwarding module combines the second IMSI and the path information of the second thread resource into second identification information and sends the second identification information to the MAC layer;

the system simulator sends the target simulation service data to a target script server corresponding to the target SIM card through a target thread resource corresponding to the target SIM card, and the method comprises the following steps:

the MAC layer acquires target identification information corresponding to the target SIM card based on the target IMSI carried in the target analog service data, wherein the target identification information is the first identification information or the second identification information; and acquiring path information of a target thread resource corresponding to the target SIM card from the target identification information, and sending the target simulation service data to the target script server through the target thread resource based on the path information of the target thread resource.

Optionally, a communication connection is established between the first script server and the second script server, and the second script server sends the current test process of the second script server to the first script server.

The embodiment of the application provides a method for testing a dual-card terminal, which is applied to a system simulator and comprises the following steps:

receiving at least one target simulation service data sent by a test terminal, and determining a target SIM card corresponding to each target simulation service data in the at least one target simulation service data, wherein the target SIM card is a first SIM card or a second SIM card included by the test terminal;

sending the target simulation service data to a target script server corresponding to the target SIM card through a target thread resource corresponding to the target SIM card;

the system simulator simulates thread resources, the thread resources comprise first thread resources corresponding to the first SIM card and second thread resources corresponding to the second SIM card, the target thread resources are the first thread resources or the second thread resources, the target script server is a first script server or a second script server, the first script server is used for testing simulated service data sent by the first SIM card, and the second script server is used for testing the simulated service data sent by the second SIM card.

Optionally, before the receiving at least one target simulation service data sent by the test terminal, the method further includes:

receiving a first IMSI distributed by the first script server for the first SIM card and a second IMSI distributed by the second script server for the second SIM card; sending the first IMSI and the second IMSI to a test terminal, so that the test terminal carries the first IMSI in target simulation service data when sending the target simulation service data through the first SIM card, and carries the second IMSI in the target simulation service data when sending the target simulation service data through the second SIM card;

the determining a target SIM card corresponding to each target analog service data in the at least one target analog service data includes:

and determining a target SIM card corresponding to the target analog service data based on the target IMSI carried in the target analog service data, wherein the target IMSI is the first IMSI or the second IMSI.

Optionally, the receiving a first IMSI allocated by the first script server for the first SIM card and a second IMSI allocated by the second script server for the second SIM card includes:

when the system simulator receives first registration data sent by the test terminal, wherein the first registration data are registration data received by the system simulator for the first time and do not carry IMSI (international mobile subscriber identity), the first registration data are sent to the first script server through the first thread resource, so that the first script server allocates a first IMSI (international mobile subscriber identity) for the first SIM card and sends the first IMSI to the system simulator when detecting that the first registration data do not carry IMSI; when the system simulator receives second registration data sent by the test terminal, wherein the second registration data is not registration data received by the system simulator for the first time and does not carry IMSI, the second registration data is sent to the second script server through the second thread resource, so that the second script server allocates a second IMSI for the second SIM card and sends the second IMSI to the system simulator when detecting that the second registration data does not carry IMSI; and receiving a first IMSI sent by the first script server and a second IMSI sent by the second script server.

Optionally, after receiving the first IMSI allocated by the first script server for the first SIM card and the second IMSI allocated by the second script server for the second SIM card, the method further includes:

combining the first IMSI and the path information of the first thread resource into first identification information, and combining the second IMSI and the path information of the second thread resource into second identification information;

the sending the target simulation service data to a target script server corresponding to the target SIM card through the target thread resource corresponding to the target SIM card comprises the following steps:

acquiring target identification information corresponding to the target SIM card based on the target IMSI carried in the target simulation service data, wherein the target identification information is the first identification information or the second identification information; and acquiring path information of a target thread resource corresponding to the target SIM card from the target identification information, and sending the target simulation service data to the target script server through the target thread resource based on the path information of the target thread resource.

The embodiment of the application provides electronic equipment, which comprises a memory, a processor and a computer program which is stored on the memory and can run on the processor, wherein the steps of the dual-card terminal testing method are realized when the processor executes the computer program.

Embodiments of the present application provide a non-transitory computer readable storage medium, on which a computer program is stored, and the computer program, when executed by a processor, implements the steps of the dual card terminal testing method.

The dual-card terminal test system, the method and the electronic equipment provided by the embodiment of the application respectively test the simulation service data of the first SIM card and the second SIM card by using the first script server and the second script server, and the system simulator simulates a first thread resource corresponding to the first SIM card and a second thread resource corresponding to the second SIM card respectively, at the moment, the system simulator can determine a target SIM card corresponding to each target simulation service data when receiving at least one target simulation service data sent by the test terminal, and then, the target simulation service data is sent to a target script server corresponding to the target SIM card through the target thread resource corresponding to the target SIM card, so that the two SIM cards can be respectively tested by using one thread resource, and the two SIM cards can be tested at the same time.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a block diagram of a dual card terminal test system according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a system simulator according to an embodiment of the present application;

FIG. 3 is a schematic diagram illustrating a testing process of a dual-card terminal testing system according to an embodiment of the present application;

FIG. 4 is a flowchart illustrating steps of a method for a dual card terminal test system according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of an electronic device in an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

As shown in fig. 1, which is a schematic structural diagram of a dual-card terminal testing system in an embodiment of the present application, the dual-card terminal testing system includes:

the system comprises a first script server 1, a second script server 2, a system simulator 3 and a test terminal 4;

the test terminal 4 comprises a first SIM card and a second SIM card, the first script server 1 tests the simulation service data sent by the first SIM card, and the second script server 2 tests the simulation service data sent by the second SIM card;

the system simulator 3 simulates thread resources, and the thread resources comprise first thread resources corresponding to the first SIM card and second thread resources corresponding to the second SIM card; wherein the content of the first and second substances,

the system simulator 3 receives at least one target simulation service data sent by the test terminal 4, and determines a target SIM card corresponding to each target simulation service data in the at least one target simulation service data, wherein the target SIM card is a first SIM card or a second SIM card;

and the system simulator 3 sends the target simulation service data to a target script server corresponding to the target SIM card through a target thread resource corresponding to the target SIM card, wherein the target thread resource is a first thread resource or a second thread resource, and the target script server is a first script server 1 or a second script server 2.

Specifically, the first script server 1 is provided with a test script, and the test script is compiled by using a test and test control expression method (TTCN-3 for short) as a scripting language and is responsible for testing the simulated service data sent by the first SIM card; in addition, the first script server 1 may be used as a main test flow to be responsible for processing and sending information of the first SIM card, and in the test process, the main signaling flow is an air interface signaling flow of the first SIM card, and includes a cell registration process, an IP Multimedia Subsystem (IMS) initial registration process, other signaling flows such as Carrier Aggregation (CA) and non-independent Networking (NSA), and a subsequent service data interaction process with the first SIM card.

A test script is arranged in the second script server 2, and the test script is also compiled by using TTCN-3 as a script language and is responsible for testing the simulation service data sent by the second SIM card; in addition, the second script server 2 may be used as an auxiliary test flow to be responsible for processing and sending information of the second SIM card, and in the test process, the main signaling flow is an air interface signaling flow of the second SIM card, including a cell registration process, an IMS initial registration process, other signaling flows such as CA and NSA, and a subsequent service data interaction process with the second SIM card.

In addition, the system simulator 3 simulates a first thread resource and a second thread resource which are mutually irrelevant, the first thread resource corresponds to a first SIM card, and the second thread resource corresponds to a second SIM card, at this time, because the first script server 1 tests the simulation service data sent by the first SIM card, the second script server 2 tests the simulation service data sent by the second SIM card, that is, the first script server 1 occupies the first thread resource and the second script server 2 occupies the second thread resource, the first SIM card, the first thread resource and the first script server are a test line, and the second SIM card, the second thread resource and the second script server are a test line, thereby ensuring that the data interaction processes of the two SIM cards do not affect each other.

It should be noted here that, one interface is respectively provided between the first script server 1 and the system simulator 3, and between the second script server 2 and the system simulator 3, so as to realize information interaction between the first script server 1 and the system simulator 3 and information interaction between the second script server 2 and the system simulator 3.

On the basis of the system, the test terminal 4 may send at least one target simulation service data to the system simulator 3, the system simulator 3 determines a target SIM card corresponding to each target simulation service data, where the target SIM card is a first SIM card or a second SIM card, that is, the test terminal 4 may send the target simulation service data through the first SIM card, or may send the target service data through the second SIM card, and at this time, the system simulator 3 determines whether the target SIM card sending each target simulation data service is the first SIM card or the second SIM card. Specifically, the system simulator 3, after determining the target SIM card to which the target simulated data service is to be transmitted, the target simulation service data can be sent to the target script server corresponding to the target SIM card through the target thread resource corresponding to the target SIM card, that is, when the target SIM card is the first SIM card, the system simulator 3 sends the target simulation service data to the first script server 1 corresponding to the first SIM card through the first thread resource corresponding to the first SIM card, when the target SIM card is a second SIM card, the system simulator 3 sends the target simulation service data to a second script server 2 corresponding to the second SIM card through a second thread resource corresponding to the second SIM card, therefore, the first script server 1 can test the target simulation service data sent by the first SIM card, and the second script server 2 can test the target simulation service data sent by the second SIM card.

It should be noted that the at least one piece of target analog service data may simultaneously include the target analog service data sent by the first SIM card and the target analog service data sent by the second SIM card, that is, the system can simultaneously enable two SIM cards to work in parallel.

In addition, it should be noted that the target analog service data may be voice service data or IP data service; of course, when the target analog service data is the voice service data, the test terminal can only send the voice service data through the first SIM card or the second SIM card at one time node, and when the target analog service data is the IP data service, the test terminal can send the IP data service through the first SIM card and the second SIM card at the same time at one time node, and may also send the IP data service through the first SIM card or the second SIM card, which is not limited herein. In addition, the target simulation service data may be transmitted by the service simulation server.

Thus, the dual-card terminal test system provided by the application tests the first SIM card and the second SIM card respectively by using the first script server and the second script server, the system simulator simulates a first thread resource corresponding to the first SIM card and a second thread resource corresponding to the second SIM card respectively, at the moment, the system simulator can determine a target SIM card corresponding to each target simulation service data when receiving at least one target simulation service data sent by the test terminal, and then sends the target simulation service data to a target script server corresponding to the target SIM card by using the target thread resource corresponding to the target SIM card, so that the two SIM cards can be tested by using one thread resource respectively, thereby enabling the two SIM cards to be tested at the same time, namely, the two SIM cards can work in parallel, and the related function test of the double-card terminal, parameter modification and data condition observation of each layer can be conveniently and effectively completed.

Furthermore, optionally, in this embodiment, before the system simulator receives at least one target simulation service data sent by the test terminal, the first script server 1 allocates a first International Mobile Subscriber Identity (IMSI) to the first SIM card, and sends the first IMSI to the system simulator 3, and the system simulator 3 sends the first IMSI to the test terminal 4, so that when the test terminal 4 sends the target simulation service data through the first SIM card, the first IMSI is carried in the target simulation service data; the second script server 2 allocates a second IMSI for the second SIM card, and sends the second IMSI to the system simulator 3, and the system simulator 3 sends the second IMSI to the test terminal 4, so that the test terminal carries the second IMSI in the target simulation service data when sending the target simulation service data through the second SIM card;

at this time, when the system simulator determines the target SIM card corresponding to each target analog service data in the at least one target analog service data, the system simulator may determine the target SIM card corresponding to the target analog service data based on the target IMSI carried in the target analog service data, where the target IMSI is the first IMSI or the second IMSI.

Specifically, the first script server may allocate a dedicated first IMSI for the first SIM card and send the first IMSI to the test terminal through the system simulator, and the second script server allocates a dedicated second IMSI for the second SIM card and send the second IMSI to the test terminal through the system simulator, so that the test terminal can carry the first IMSI in the target analog service data when the target analog service data is sent through the first SIM card, and can carry the second IMSI in the target analog service data when the target analog service data is sent through the second SIM card, that is, the first IMSI and the second IMSI are used as identifiers for distinguishing the SIM card that sends the target analog service data, so that the system simulator can determine whether the target SIM card that sends the target analog service data is the first SIM card or the second SIM card based on the first IMSI or the second IMSI carried in the target analog service data, of course, if the first IMSI is carried in the target analog service data, determine the target SIM card as the first SIM card, and if the target analog service data carries the second IMSI, determining that the target SIM card is the second SIM card.

Therefore, the system distributes IMSI for the test terminal through the script server, so that the test terminal can carry IMSI in the sent target simulation service data, the system simulator can distinguish the target SIM card sending the target simulation service data based on the IMSI when receiving the target simulation service data, and further the target simulation service data can be sent to the script server corresponding to the target SIM card through the thread resource corresponding to the target SIM card, thereby realizing that each card of two SIM cards is respectively tested by one set of resource thread, and avoiding the problem of large limitation of the test flow caused by the fact that only one SIM card can be tested at the same time.

Optionally, when the first SIM card is assigned with the first IMSI by the first script server, the system simulator may send the first registration data to the first script server when the system simulator receives the first registration data sent by the test terminal, where the first registration data is registration data that the system simulator receives for the first time and the first registration data does not carry the IMSI; and then, when the first script server detects that the first registration data does not carry the IMSI, allocating the first IMSI for the first SIM card.

Specifically, when the test terminal sends the first registration data to the system simulator, and the first registration data is sent for the first time and does not carry the first IMSI, the system simulator may preferentially send the first registration data to the first script server through the first thread resource, and at this time, the first script server allocates the first IMSI for the first SIM card.

In addition, when the second script server allocates the second IMSI to the second SIM card, the system simulator may send the second registration data to the second script server when the system simulator receives the second registration data sent by the test terminal, where the second registration data is not the registration data first received by the system simulator and does not carry the IMSI; and at the moment, when the second script server detects that the second registration data does not carry the IMSI, allocating a second IMSI for the second SIM card.

Specifically, when the test terminal sends the second registration data to the system simulator, and the second registration data is not the first-sent registration data and does not carry the second IMSI, the system simulator may preferentially send the second registration data to the second script server through the second thread resource, and at this time, the second script server allocates the second IMSI to the second SIM card.

Thus, the first script server allocates the first IMSI for the first SIM card and the second script server allocates the second IMSI for the second SIM card are realized through the above process.

Furthermore, optionally, in this embodiment, as shown in fig. 2, the system simulator includes a data forwarding module and a protocol layer simulation module, where the protocol layer simulation module includes a simulated Packet Data Convergence Protocol (PDCP) layer, a Radio Link Control (RLC) layer, a Medium Access Control (MAC) layer, and a physical layer, a first thread resource and a second thread resource are simulated in each of the PDCP layer, the RLC layer, and the MAC layer, and the data forwarding module is connected to the PDCP layer.

Specifically, the data forwarding configuration module establishes two sets of data transceiving ports with the first script server 1 and the second script server 2 respectively to process data of the two script servers, and transmits the data of the corresponding script servers to resources of different SIM cards of the PDCP layer. In addition, the data forwarding configuration module 31 receives and stores the first IMSI provided by the first script server 1 and the second IMSI provided by the second script server 2. In addition, the data forwarding configuration module stores path information of the first thread resource and path information of the second thread resource, and can control a forwarding path of data transmitted by the first script server and the second script server.

Different resources are distinguished in the PDCP layer, the RLC layer and the MAC layer, namely a first thread resource and a second thread resource are distinguished, so that different SIM cards can transmit data through different thread resources, and the two SIM cards can work in parallel.

In addition, the PDCP layer is configured to process data of the SIM card 1 and the SIM card 2 from the first script server and the second script server, and complete parsing and compiling of a PDCP data header; the RLC layer is used for processing the data of the SIM card 1 and the SIM card 2 from the PDCP layer to complete the analysis and the compilation of an RLC data header, and the MAC layer is used for processing the data of the SIM card 1 and the SIM card 2 from the RLC layer to complete the analysis and the compilation of an MAC data header; the physical layer is used to perform the modem functions of the physical layer.

Optionally, on the basis of the above structure of the system simulator, the first script server sends the first IMSI to the system simulator, and when the system simulator sends the first IMSI to the test terminal, the first script server may send the first IMSI to the data forwarding module, and the data forwarding module sends the first IMSI to the test terminal through the first thread resource in the PDCP layer, the RLC layer, and the MAC layer.

In addition, the second script server sends the second IMSI to the system simulator, and when the system simulator sends the second IMSI to the test terminal, the second script server may send the second IMSI to the data forwarding module, and the data forwarding module sends the second IMSI to the test terminal through a second thread resource in the PDCP layer, the RLC layer, and the MAC layer.

Therefore, the script server sends the IMSI to the test terminal from the data forwarding module and each layer of protocol layer of the system server through the process.

In addition, optionally, in this embodiment, before the system simulator receives at least one target analog service data sent by the test terminal, the first script server in this embodiment further sends the first IMSI to the data forwarding module, and the data forwarding module combines the first IMSI and the path information of the first thread resource into first identification information and sends the first identification information to the MAC layer; and the second script server sends the second IMSI to the data forwarding module, and the data forwarding module combines the second IMSI and the path information of the second thread resource into second identification information and sends the second identification information to the MAC layer.

At this time, when the system simulator sends the target simulation service data to a target script server corresponding to the target SIM card through a target thread resource corresponding to the target SIM card, the MAC layer acquires target identification information corresponding to the target SIM card based on a target IMSI carried in the target simulation service data, wherein the target identification information is first identification information or second identification information; and then the system simulator acquires the path information of the target thread resource corresponding to the target SIM card from the target identification information, and sends the target simulation service data to the target script server through the target thread resource based on the path information of the target thread resource.

That is, the data forwarding module may combine and convert the path information of the first IMSI and the first thread resource into first identification information, then directly send the first identification information to the MAC layer, combine and convert the path information of the second IMSI and the second thread resource into second identification information, and then directly send the second identification information to the MAC layer, so that the MAC layer can determine, when receiving the target analog service data, the identification information corresponding to the target analog service data, that is, the target identification information corresponding to the target SIM card, based on the first IMSI or the second IMSI carried in the target analog service data and the IMSI carried in the identification information, and further can obtain the path information of the target thread resource from the first identification information or the second identification information serving as the target identification information, and send the target analog service data to the target script through the target thread resource based on the path information, the data transmission process is realized through different thread resources, and then the two SIM cards can work in parallel.

In addition, optionally, in this embodiment, a communication connection is established between the first script server and the second script server, and the second script server sends the current test process of the second script server to the first script server.

Specifically, in the testing process, the first script server can use the interaction between the script servers to monitor the running condition of the second script server in real time, and the second script server can feed back the current running condition and the completed step number to the first script server through the interaction instruction between the script servers after completing the corresponding testing step, i.e. reporting the current testing process, so that the first script server can confirm the subsequent instruction of the test case and the judgment of the test result according to the current testing process fed back by the second script server.

The following describes a specific flow of the present application with reference to specific examples.

As shown in fig. 3, the overall test flow of the present application includes:

firstly, first registration data of a test terminal reaches an MAC layer through a physical layer of a system simulator, and the MAC layer preferentially transmits the first registration data to a first thread resource corresponding to a first SIM card of an RLC layer and a PDCP layer; then the PDCP layer sends the first registration data to a data forwarding configuration module, and the data forwarding configuration module detects that the first thread resource of the PDCP corresponds to the first SIM card and sends the first registration data to a first script server; and then the first script server completes processing of the first registration data, allocates a first IMSI for the first SIM card, sends the first IMSI to the data forwarding configuration module, the data forwarding configuration module detects whether the first IMSI is sent by the first script server or the second script server, then transmits the first IMSI to a first thread resource corresponding to the first SIM card in a PDCP layer and an RLC layer based on the detection result, transmits the first IMSI to the MAC layer by the RLC layer, modulates the first IMSI by the physical layer, and sends the first IMSI to the test terminal.

Then, after the first script server sends the first IMSI to the data forwarding configuration module, the data forwarding configuration module combines the first IMSI and the path information of the first thread resource into first identification information of the first SIM card and sends the first identification information to the MAC layer, at this time, the MAC layer may determine, based on the first identification information, whether the target analog service data sent by the terminal is sent by the first SIM card, and send the target analog service data to the first script server based on the path information of the first thread when it is determined.

In addition, the distribution flow of the second IMSI of the second SIM card is the same as the distribution flow of the first IMSI of the first SIM card. The second registration data of the test terminal reaches the MAC layer through the physical layer of the system simulator, and the MAC layer transmits the second registration data to a second thread resource corresponding to a second SIM card in the RLC layer and the PDCP layer; then the PDCP layer sends the second registration data to a data forwarding configuration module, and the data forwarding configuration module detects a second SIM card corresponding to a second thread resource of the PDCP layer and sends the second registration data to a second script server; and then the second script server completes the processing of second registration data, allocates a second IMSI for the second SIM card, sends the second IMSI to the data forwarding configuration module, the data forwarding configuration module detects whether the second IMSI is sent by the first script server or the second script server, then transmits the second IMSI to a second thread resource corresponding to the second SIM card in the PDCP layer and the RLC layer based on the detection result, and transmits the second IMSI to the MAC layer by the RLC layer and sends the second IMSI to the test terminal after being modulated by the physical layer.

Then, after the second script server sends the second IMSI to the data forwarding configuration module, the data forwarding configuration module combines the second IMSI and the path information of the second thread resource into second identification information of the second SIM card and sends the second identification information to the MAC layer, at this time, the MAC layer may determine, based on the second identification information, whether the target analog service data sent by the terminal is sent by the second SIM card, and send the target analog service data to the second script server based on the path information of the second thread when it is determined.

After the test terminal receives the first IMSI and the second IMSI and the MAC layer stores the first identification information and the second identification information, the test terminal sends one or more target simulation service data, at the moment, the target simulation service data reaches the MAC layer through the physical layer, the MAC layer identifies the card number to which the received target simulation service data belongs according to the configured identification information, namely identifies whether the received target simulation service data is the first SIM card or the second SIM card, transmits the target simulation service data to the corresponding line resources of the RLC layer and the PDCP layer according to the identified card number, and finally transmits the target simulation service data to the corresponding script server through the corresponding line resources of the PDCP layer.

Therefore, the dual-card terminal test system provided by the embodiment performs the test of the simulation service data on the first SIM card and the second SIM card respectively by using the first script server and the second script server, and the system simulator simulates the first thread resource corresponding to the first SIM card and the second thread resource corresponding to the second SIM card respectively, so that the two SIM cards can be tested by using the thread resources respectively, thereby enabling the two SIM cards to be tested at the same time, realizing the parallel test of the two SIM cards, improving the test efficiency, knowing the performance of the two SIM cards when working simultaneously or independently, and avoiding the problem of small test limitation.

In addition, as shown in fig. 4, a flowchart of steps of a method for testing a dual card terminal in the embodiment of the present application is shown, where the method includes the following steps:

step 401: receiving at least one target simulation service data sent by the test terminal, and determining a target SIM card corresponding to each target simulation service data in the at least one target simulation service data.

Specifically, a first SIM card and a second SIM card are arranged in the test terminal, and the target SIM card is the first SIM card or the second SIM card included in the test terminal.

The system simulator can determine whether each target simulation service data is sent by the first SIM card or the second SIM card when receiving one or more target simulation service data sent by the test terminal, thereby enabling selection of a transmission link resource of the target simulation service data based on the determined target SIM card.

Step 402: and sending the target simulation service data to a target script server corresponding to the target SIM card through the target thread resource corresponding to the target SIM card.

Specifically, the system simulator simulates thread resources, and the thread resources include a first thread resource corresponding to the first SIM card and a second thread resource corresponding to the second SIM card.

After determining the target SIM card, the system simulator can send the target simulation service data to a target script server corresponding to the target SIM card through the target thread resource corresponding to the target SIM card.

The target thread resource is the first thread resource or the second thread resource, the target script server is a first script server or a second script server, the first script server is used for testing the simulation service data sent by the first SIM card, and the second script server is used for testing the simulation service data sent by the second SIM card.

When the target SIM card is determined to be the first SIM card, the target simulation service data is sent to the first script server through the first thread resource corresponding to the first SIM card, and when the target SIM card is determined to be the first SIM card, the target simulation service data is sent to the second script server through the second thread resource corresponding to the second SIM card, so that the first SIM card and the second SIM card respectively occupy one thread resource, and the data interaction process of the two SIM cards is ensured not to have related influence.

In addition, optionally, in this embodiment, before the system simulator receives at least one target analog service data sent by the test terminal, the system simulator may further receive a first IMSI allocated by the first script server for the first SIM card and a second IMSI allocated by the second script server for the second SIM card; and then the first IMSI and the second IMSI are sent to a test terminal, so that the test terminal carries the first IMSI in the target simulation service data when the test terminal sends the target simulation service data through the first SIM card, and carries the second IMSI in the target simulation service data when the test terminal sends the target simulation service data through the second SIM card.

In addition, specifically, when the system simulator receives a first IMSI allocated by the first script server for the first SIM card and a second IMSI allocated by the second script server for the second SIM card, when the system simulator receives first registration data sent by the test terminal, the first registration data being registration data received by the system simulator for the first time and the first registration data not carrying the IMSI, the first registration data is sent to the first script server through the first thread resource, so that the first script server allocates the first IMSI for the first SIM card and sends the first IMSI to the system simulator when detecting that the first registration data does not carry the IMSI; when the system simulator receives second registration data sent by the test terminal, the second registration data is not registration data received by the system simulator for the first time and the second registration data does not carry IMSI, the second registration data is sent to a second script server through a second thread resource, so that the second script server distributes a second IMSI for a second SIM card and sends the second IMSI to the system simulator when detecting that the second registration data does not carry IMSI; then, a first IMSI sent by the first script server and a second IMSI sent by the second script server are received.

In addition, optionally, in this embodiment, after the system simulator receives the first IMSI allocated by the first script server for the first SIM card and the second IMSI allocated by the second script server for the second SIM card, the system simulator may further combine the first IMSI and the path information of the first thread resource into the first identification information, and combine the second IMSI and the path information of the second thread resource into the second identification information;

at this time, when the system simulator sends the target simulation service data to the target script server corresponding to the target SIM card through the target thread resource corresponding to the target SIM card, the system simulator may obtain target identification information corresponding to the target SIM card based on the target IMSI carried in the target simulation service data, where the target identification information is the first identification information or the second identification information; and then acquiring path information of a target thread resource corresponding to the target SIM card from the target identification information, and sending the target simulation service data to a target script server through the target thread resource based on the path information of the target thread resource.

It should be noted that, for specific contents of the foregoing process in this embodiment, reference may be made to related contents at the system embodiment side, and details are not described herein again.

In this way, in the embodiment, by receiving at least one target simulation service data sent by the test terminal, determining the target SIM card corresponding to each target simulation service data in the at least one target simulation service data, and then sending the target simulation service data to the target script server corresponding to the target SIM card through the target thread resource corresponding to the target SIM card, it is achieved that the two SIM cards of the first SIM card and the second SIM card can be respectively tested by using one thread resource, so that the two SIM cards can be tested at the same time, the parallel testing of the two SIM cards is achieved, the testing efficiency is improved, the performance of the two SIM cards in simultaneous or separate working can be known, and the problem of small testing limitation is avoided.

In addition, as shown in fig. 5, for an entity structural schematic diagram of the electronic device provided in the embodiment of the present application, the electronic device may include: a processor (processor)510, a communication Interface (Communications Interface)520, a memory (memory)530 and a communication bus 540, wherein the processor 510, the communication Interface 520 and the memory 530 communicate with each other via the communication bus 540. Processor 510 may invoke a computer program stored on memory 530 and executable on processor 510 to perform the following steps:

the system simulator simulates a threaded resource, the threaded resource comprises a first threaded resource corresponding to the first SIM card and a second threaded resource corresponding to the second SIM card, the target threaded resource is the first threaded resource or the second threaded resource, the target script server is a first script server or a second script server, the first script server is used for testing simulated service data sent by the first SIM card, and the second script server is used for testing the simulated service data sent by the second SIM card.

Furthermore, the logic instructions in the memory 530 may be implemented in the form of software functional units and stored in a computer readable storage medium when the software functional units are sold or used as independent products. Based on such understanding, the technical solution of the present application or portions thereof that substantially contribute to the prior art may be embodied in the form of a software product stored in a storage medium and including instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present application. And the aforementioned storage medium includes: a U-disk, a removable hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and other various media capable of storing program codes.

The embodiments of the present application further provide a non-transitory computer-readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the computer program is implemented to perform the methods provided in the foregoing embodiments and achieve the same technical effects, which are not described herein again.

The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application has been described in detail with reference to the foregoing embodiments, it should 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 in the embodiments of the present application.

Claims

1. A dual card terminal test system, comprising:

2. The dual card terminal test system of claim 1,

before the system simulator receives at least one target simulation service data sent by the test terminal, the method further comprises the following steps:

3. The dual card terminal test system of claim 2,

the first script server allocates a first international mobile subscriber identity IMSI for the first SIM card, including:

when the system simulator receives first registration data sent by the test terminal, wherein the first registration data are registration data received by the system simulator for the first time and do not carry IMSI (international mobile subscriber identity), the system simulator sends the first registration data to the first script server;

when the first script server detects that the first registration data does not carry IMSI, allocating a first IMSI for the first SIM card;

when the system simulator receives second registration data sent by the test terminal, wherein the second registration data is not registration data received by the system simulator for the first time and does not carry IMSI (international mobile subscriber identity), the system simulator sends the second registration data to the second script server;

and when the second script server detects that the second registration data does not carry the IMSI, allocating a second IMSI for the second SIM card.

4. The dual card terminal test system according to claim 2, wherein the system simulator comprises a data forwarding module and a protocol layer simulation module, the protocol layer simulation module comprises a simulated packet data convergence protocol PDCP layer, a radio link control RLC layer, a medium access control MAC layer and a physical layer, the first thread resource and the second thread resource are simulated in the PDCP layer, the RLC layer and the MAC layer, and the data forwarding module is connected to the PDCP layer.

5. The dual card terminal test system of claim 4,

the first script server sends the first IMSI to the system simulator, and the system simulator sends the first IMSI to the test terminal, including:

6. The dual card terminal test system of claim 4,

before the system simulator receives at least one target simulation service data sent by the test terminal, the method further includes:

the first script server sends the first IMSI to the data forwarding module, and the data forwarding module combines the first IMSI and the path information of the first thread resource into first identification information and sends the first identification information to the MAC layer;

the second script server sends the second IMSI to the data forwarding module, and the data forwarding module combines the second IMSI and the path information of the second thread resource into second identification information and sends the second identification information to the MAC layer;

the MAC layer acquires target identification information corresponding to the target SIM card based on the target IMSI carried in the target analog service data, wherein the target identification information is the first identification information or the second identification information;

and acquiring path information of a target thread resource corresponding to the target SIM card from the target identification information, and sending the target simulation service data to the target script server through the target thread resource based on the path information of the target thread resource.

7. The dual-card terminal test system according to claim 1, wherein a communication connection is established between the first script server and the second script server, and the second script server sends a current test progress of the second script server to the first script server.

8. A double-card terminal test method is applied to a system simulator and is characterized by comprising the following steps:

9. The dual card terminal test method of claim 8,

before the receiving at least one target simulation service data sent by the test terminal, the method further includes:

receiving a first IMSI distributed by the first script server for the first SIM card and a second IMSI distributed by the second script server for the second SIM card;

sending the first IMSI and the second IMSI to a test terminal, so that the test terminal carries the first IMSI in target simulation service data when sending the target simulation service data through the first SIM card, and carries the second IMSI in the target simulation service data when sending the target simulation service data through the second SIM card;

10. The dual card terminal test method of claim 9,

the receiving a first IMSI allocated by the first script server for the first SIM card and a second IMSI allocated by the second script server for the second SIM card includes:

when the system simulator receives first registration data sent by the test terminal, wherein the first registration data are registration data received by the system simulator for the first time and do not carry IMSI (international mobile subscriber identity), the first registration data are sent to the first script server through the first thread resource, so that the first script server allocates a first IMSI (international mobile subscriber identity) for the first SIM card and sends the first IMSI to the system simulator when detecting that the first registration data do not carry IMSI;

when the system simulator receives second registration data sent by the test terminal, wherein the second registration data is not registration data received by the system simulator for the first time and does not carry IMSI, the second registration data is sent to the second script server through the second thread resource, so that the second script server allocates a second IMSI for the second SIM card and sends the second IMSI to the system simulator when detecting that the second registration data does not carry IMSI;

and receiving a first IMSI sent by the first script server and a second IMSI sent by the second script server.

11. The dual card terminal test method of claim 9,

after receiving the first IMSI allocated by the first script server for the first SIM card and the second IMSI allocated by the second script server for the second SIM card, the method further includes:

acquiring target identification information corresponding to the target SIM card based on the target IMSI carried in the target simulation service data, wherein the target identification information is the first identification information or the second identification information;

12. An electronic device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the steps of the dual card terminal testing method according to any of claims 8 to 11 are implemented by the processor when executing the computer program.

13. A non-transitory computer readable storage medium, having stored thereon a computer program, characterized in that the computer program, when being executed by a processor, implements the steps of the dual card terminal testing method according to any one of claims 8 to 11.