CN108134709A - A kind of test method and device applied to protenchyma networking transport - Google Patents

Abstract

An embodiment of the present invention provides a kind of test methods and device applied to protenchyma networking transport, should include applied to the test method of protenchyma networking transport：First flag information generation upstream data based on input；The upstream data is sent to simulation application server-side module；The downlink data from the simulation application server module is received, wherein, second identifier information is carried in the downlink data；According to the first flag information and the second identifier information, the transmission quality of the narrowband Internet of Things is assessed.Flexibility and testing efficiency when being tested so as to effectively raise the service surface of narrowband Internet of things system, and improve the convenience and user experience of test.

Description

A kind of test method and device applied to protenchyma networking transport

Technical field

The present embodiments relate to the communications field more particularly to a kind of test method applied to protenchyma networking transport and Device.

Background technology

Narrowband Internet of Things NB-IOT (Narrow Band Internet of Things) is one of Internet of Things field new Emerging technology.At present, it is typically by the testing scheme applied to conventional access network service surface for the testing scheme of narrowband Internet of Things Applied in narrowband Internet of Things.

But the testing scheme of conventional access network service surface, it usually needs based on AMR (Adaptive Multi-Rate, Adaptive multi-rate) encoding and decoding speech, RTP (Real-time Transport Protocol, real-time transport protocol) transmission association The processing functions such as view are tested, and therefore, the test system structure of conventional access network service surface is complicated and of a high price.So And narrowband Internet of things system is during routine use, is generally only the transmission for carrying out sensing data, that is to say, that right When the transmission quality of narrowband Internet of things system is tested, it is only necessary to for simple protocol, such as：UDP(User Datagram Protocol, User Datagram Protocol) data packet of agreement tested.

In addition, the test model of existing conventional access network service surface Yi Dan start after, then cannot change, cause user without Method can not be controlled accurately single when the test model using conventional access network service surface tests narrowband Internet of things system The business surface test data of user.

Therefore, in the prior art using the testing scheme of conventional access network service surface to the service surface of narrowband Internet of things system It is tested, there are the problem of test structure is complicated, flexibility is poor, resource utilization is low.In view of the above-mentioned problems, it not yet carries at present Go out effective solution.

Invention content

The embodiment of the present invention provides a kind of test method and device applied to protenchyma networking transport, to solve existing skill When being tested in art the service surface of narrowband Internet of things system, there are test structure is complicated, flexibility is poor, resource utilization is low The problem of.

To solve the above-mentioned problems, the invention discloses a kind of test method applied to protenchyma networking transport, applications Pseudo-terminal side form block in narrowband Internet of Things, method include：

First flag information generation upstream data based on input；

Upstream data is sent to simulation application server-side module；

The downlink data from simulation application server module is received, wherein, second identifier letter is carried in downlink data Breath；

According to first flag information and second identifier information, the transmission quality of narrowband Internet of Things is assessed.

In a preferred embodiment of the invention, first flag information includes：Source address, destination address, data class Type and data length.

In a preferred embodiment of the invention, the first flag information based on input generates the step of upstream data Before, it further includes：

Stochastic inputs data type and data length；

According to the address of simulation application server module, destination address is inputted；And

Input the source address that public network is pseudo-terminal side module assignment.

In a preferred embodiment of the invention, the step of the first flag information generation upstream data based on input Suddenly, it specifically includes：

According to data length, test data is generated；

Based on first flag information and test data, upstream data is generated.

In a preferred embodiment of the invention, according to first flag information and second identifier information, to narrowband The step of transmission quality of Internet of Things is assessed specifically includes：

First flag information and second identifier information are compared；

Based on comparing result, the transmission quality of narrowband Internet of Things is assessed.

The present invention also provides a kind of test method applied to protenchyma networking transport, applied in narrowband Internet of Things Simulation application server-side module, method include：

The upstream data from pseudo-terminal side form block is received, first flag information is carried in upstream data, wherein, the One identification information includes the address of pseudo-terminal side form block, the address of simulation application server-side module and data type And data length；

Second identifier information is generated, and generate downlink data according to second identifier information based on first flag information；

Downlink data is sent to pseudo-terminal side form block so that pseudo-terminal side form root tuber according to first flag information and The second identifier information carried in downlink data assesses the transmission quality of narrowband Internet of Things.

According to another aspect of the present invention, a kind of test device applied to protenchyma networking transport is provided, is applied to Pseudo-terminal side form block in narrowband Internet of Things, the device include：

Generation module generates upstream data for the first flag information based on input；

Sending module, for upstream data to be sent to simulation application server-side module；

Receiving module, for receiving the downlink data from simulation application server module, wherein, it is carried in downlink data There is second identifier information；

Evaluation module, for according to first flag information and second identifier information, to the transmission quality of narrowband Internet of Things It is assessed.

In a preferred embodiment of the invention, first flag information includes：Source address, destination address, data class Type and data length.

In a preferred embodiment of the invention, device further comprises：

Input module, for stochastic inputs data type and data length；And

According to the address of simulation application server module, destination address is inputted；And

Input the source address that public network is pseudo-terminal side module assignment.

In a preferred embodiment of the invention, generation module is further used for according to data length, generation test Data；And

Based on first flag information and test data, upstream data is generated.

In a preferred embodiment of the invention, evaluation module is further used for first flag information and the second mark Know information to be compared；And

Based on comparing result, the transmission quality of narrowband Internet of Things is assessed.

In accordance with a further aspect of the present invention, a kind of test device applied to protenchyma networking transport is provided, is applied to Simulation application server-side module in narrowband Internet of Things, the device include：

For receiving the upstream data from pseudo-terminal side form block, the first mark is carried in upstream data for receiving module Know information, wherein, first flag information include the address of pseudo-terminal side form block, simulation application server-side module ground Location and data type and data length；

Generation module for being based on first flag information generation second identifier information, and is generated according to second identifier information Downlink data；

Sending module, for downlink data to be sent to pseudo-terminal side form block, so that pseudo-terminal side form root tuber is according to The second identifier information carried in one identification information and downlink data assesses the transmission quality of narrowband Internet of Things.

Compared with prior art, upstream data is generated by the first flag information based on input in the present invention；By described in Upstream data is sent to simulation application server-side module；The downlink data from the simulation application server module is received, Wherein, second identifier information is carried in the downlink data；Believed according to the first flag information and the second identifier Breath, assesses the transmission quality of the narrowband Internet of Things.So as to effectively raise the business to narrowband Internet of things system Flexibility and testing efficiency when face is tested, and improve the convenience and user experience of test.

Description of the drawings

In order to illustrate the technical solution of the embodiments of the present invention more clearly, below by institute in the description to the embodiment of the present invention Attached drawing to be used is needed to be briefly described, it should be apparent that, the accompanying drawings in the following description is only some implementations of the present invention Example, for those of ordinary skill in the art, without having to pay creative labor, can also be according to these attached drawings Obtain other attached drawings.

Fig. 1 is a kind of flow chart of test method applied to protenchyma networking transport of the embodiment of the present invention；

Fig. 2 is a kind of flow chart of test method applied to protenchyma networking transport of the embodiment of the present invention；

Fig. 3 is a kind of structure diagram of test device applied to protenchyma networking transport of the embodiment of the present invention；

Fig. 4 is a kind of structure diagram of test device applied to protenchyma networking transport of the embodiment of the present invention.

Specific embodiment

In order to make the foregoing objectives, features and advantages of the present invention clearer and more comprehensible, it is below in conjunction with the accompanying drawings and specific real Applying mode, the present invention is described in further detail.

With reference to Fig. 1, a kind of flow of test method applied to protenchyma networking transport of the embodiment of the present invention is shown Figure, this method are applied to the pseudo-terminal side form block in narrowband Internet of Things, specifically may comprise steps of：

Step 101, the first flag information generation upstream data based on input.

Specifically, in an embodiment of the present invention, pseudo-terminal side form block is used to simulate narrowband Internet of Things NB-IOT systems In end side, the end side of simulation includes：UE (User Equipment, user equipment) and ENB (Evolved Node B, Evolved base station).Pseudo-terminal side form block and the simulation of simulation application journey server end in the embodiment of the present invention can be set In server or terminal, the present invention does not limit this.

One or more UE can be simulated in pseudo-terminal side form block by exterior terminal program.In the implementation of the present invention In example, illustrated with the test process for simulating a UE, the simulation of more than one UE and the test of test process and a UE Process is similar, and the present invention repeats no more.

UE (hereinafter referred to as UE) the input first flag information of pseudo-terminal side module simulation, in the embodiment of the present invention In, UE input first flag information the step of, specifically include：UE is random in predetermined data types and tentation data length range Selection needs the data type inputted and data length.In an embodiment of the present invention, predetermined data types include but not limited to: UDP、ICMP(Internet Control Message Protocol).And UE is according to the ground of simulation application server module Location inputs destination address, that is, the address of simulation application server module is set as to the destination address of upstream data, it will be upper Row data are sent to emulating server module.And the UE inputs address that public network is distributed for it during signaling plane is established, and Using the address as the source address of upstream data.As it can be seen that the first flag information of input includes：Data type, data length, Source address and destination address.

Then, first flag information generation upstream datas of the UE based on input.Specifically, in an embodiment of the present invention, UE calls pseudo-terminal side form upstream data compiling function in the block, which is used for according to specified parameter (the present embodiment middle finger Parameter is determined for institute's containing parameter in first flag information) generation upstream data.Specifically calling process is：UE calls compiling function, should The data length that function is inputted according to UE generates test data.In an embodiment of the present invention, compiling record in function has length Correspondence between test data, that is, the function of different length corresponds to different test datas respectively.It illustrates：If The data length of UE inputs is 10 bytes, then after UE call functions, by the test data that corresponding generation data length is 10 bytes. The content of test data can be arbitrary binary data, and the present invention does not limit this.Then, UE is by function, based on One identification information and the test data of generation generate upstream data.Wherein, include but not limited in upstream data：Source address (address of UE), destination address (address of simulation application server-side module), data type, data length, test data, with And other protocol contents such as listening port.In an embodiment of the present invention, listening port is transmitted for monitoring corresponding agreement Data packet, illustrate：If the data type in upstream data is UDP, listening port is set as 400, then pseudo-terminal side Module and simulation application side form block are when listening to port 400 and receiving data packet, it may be determined that current data Packet type is UDP numbers According to packet, and carry out respective handling.In an embodiment of the present invention, UE only needs to input parameter contained in first flag information, Other information can compile function by calling and generate in upstream data, so as to reduce the operation difficulty of UE sides, further letter Change integrated testability step, while reduce system burden.Also, UE is different according to the first flag information of input, can pass through Compiling function is called so as to generate different upstream datas, so as to fulfill business surface test model is dynamically changed in calling procedure, It and can be according to the granularity flexible configuration various businesses face test model of single UE.

In one embodiment of the invention, if the data type that UE is selected is UDP, the upstream data of UE generations is UDP message packet.In another embodiment of the present invention, if the data type that UE is selected is ICMP, the uplink of UE generations Data are PING Request (PING requests) message.

Step 102, upstream data is sent to simulation application server-side module.

Specifically, in an embodiment of the present invention, server or terminal and EPC where pseudo-terminal side form block It is communicatively coupled between (Evolved Packet Core, evolution block core) by S1 links, that is, pseudo-terminal side form Data between block and EPC pass through ENAS (Evolved Non Access Stratum) protocol encapsulation in S1 link protocol stacks It sends.The upstream data of generation is packaged by pseudo-terminal side form block, and is sent to EPC.EPC will be after the encapsulation that received Upstream data is decapsulated, and to obtain the upstream data that solution is honored as a queen, and upstream data (upstream data that solution is honored as a queen) is passed through SGI (Short Guard Interval, the short interval of wireless data block) interface is sent to access net (public network), with by accessing net Upstream data is transmitted to simulation application server-side module.In an embodiment of the present invention, simulation application server-side module For simulating the application server side in narrowband Internet of Things NB-IOT systems.

With reference to Fig. 2, a kind of flow of test method applied to protenchyma networking transport of the embodiment of the present invention is shown Figure, this method are applied to the simulation application server-side module in narrowband Internet of Things.It specifically includes：

Step 201, the upstream data from pseudo-terminal side form block is received, first flag letter is carried in upstream data Breath, wherein, first flag information include the address of pseudo-terminal side form block, simulation application server-side module address, with And data type and data length.

It is sent specifically, simulation application server-side module receives pseudo-terminal side form block via EPC and access net Upstream data.In one embodiment of the invention, if up the data type in data be UDP, simulation application service Device side form block is by monitoring the corresponding port of udp protocol, so that it is determined that the upstream data type received is UDP, simulation application Server-side module obtains the first flag information carried in upstream data and other data portions.Wherein, first flag is believed Include but not limited to the address (source address) of pseudo-terminal side form block, the address (purpose of simulation application server-side module in breath Address) and data type and data length.

Step 202, second identifier information is generated, and generate lower line number according to second identifier information based on first flag information According to.

Specifically, source address and destination address of the simulation application server-side module in first flag information, generation Second identifier information.That is, the source address in second identifier information is set as to the address of simulation application server-side module, purpose Address is set as the address of pseudo-terminal side form block, and other data are unchanged.Simulation application server-side module is according to second Identification information generates downlink data, and in an embodiment of the present invention, downlink data is except source address and destination address and upstream data Inconsistent, other data are consistent, so as to fulfill the loopback effect of business face data.In one embodiment of the invention, such as Data type in fruit upstream data is ICMP, i.e., the upstream data that simulation application server module receives is Ping Request message, then the upper strata operating system of simulation application server module will respond the Ping Request message automatically, i.e., Generate Ping Response message (downlink data i.e. in the embodiment of the present invention).

Step 203, downlink data is sent to pseudo-terminal side form block, so that pseudo-terminal side form root tuber is according to first flag The second identifier information carried in information and downlink data assesses the transmission quality of narrowband Internet of Things.

Specifically, in an embodiment of the present invention, the downlink data of generation is sent to by simulation application server-side module Pseudo-terminal side form block.Downlink data return course is still to be transmitted to pseudo-terminal side form block to EPC, then by EPC through accessing net, Detail is similar to the above embodiments, does not repeat herein.

With continued reference to Fig. 1, step 103, the downlink data from simulation application server module is received, wherein, lower line number Second identifier information is carried in.

Specifically, in an embodiment of the present invention, pseudo-terminal side form UE in the block receives simulation application server module The downlink data sent via access net, EPC.Since EPC in repeating process carries out downlink data packet according to ENAS agreements Encapsulation, therefore, pseudo-terminal side form block need to decapsulate the downlink data after the encapsulation that receives, to obtain lower line number According to.Then, UE calls pseudo-terminal side form decoding functions in the block, to extract second in downlink data by the decoding functions Identification information.

Step 104, according to first flag information and second identifier information, the transmission quality of narrowband Internet of Things is commented Estimate.

Specifically, in an embodiment of the present invention, pseudo-terminal side form block can be marked according to first flag information and second Know information, the transmission quality of narrowband Internet of Things is assessed.In one embodiment of the invention, pseudo-terminal side form block can First flag information and second identifier information are compared, and based on comparing result, to the transmission quality of narrowband Internet of Things into Row assessment.Such as：It, should if the data type in second identifier information and the data type in first flag information are inconsistent The upstream data that downlink data corresponding to second identifier information is sent with UE is not corresponding.That is, the downlink data likely corresponds to The upstream data that other UE are sent, therefore, pseudo-terminal side form block can determine that mistake occurs in transmission process in narrowband Internet of Things. Alternatively, if UE has sent 10 upstream datas to simulation application server-side module, i.e. the UE has invoked 10 compiling functions, But UE receives only 8 downlink datas of simulation application server side return, i.e. the UE only has invoked 8 decoding functions, then Pseudo-terminal side form block can determine that narrowband Internet of Things has packet loss in transmission process.In an embodiment of the present invention, Pseudo-terminal side form block can also be by the analysis to upstream data and downlink data, so as to further to the biography of narrowband Internet of Things The qualitative items such as defeated delay are assessed.

Further, in a preferred embodiment of the invention, pseudo-terminal mould UE in the block can also will be inputted First flag information and the second identifier information deposit database that gets, and pass through and call information in database and right The information of calling is analyzed and is handled, so as to assess the transmission quality of narrowband Internet of Things.

To sum up, the technical solution in the embodiment of the present invention generates upstream data by the first flag information based on input； The upstream data is sent to simulation application server-side module；Receive the downlink from the simulation application server module Data, wherein, second identifier information is carried in the downlink data；According to the first flag information and second mark Know information, the transmission quality of the narrowband Internet of Things is assessed.So as to which test system be allow to be deployed in common server And under terminal, and independent of any special hardware platform, and the industry of the multi-user under narrowband Internet of things system can be met Business face testing requirement.Meanwhile the pseudo-terminal side form block in the embodiment of the present invention builds upstream data by oneself, so as to effectively Overhead is reduced, improves the flexibility use and user experience of test.

With reference to Fig. 3, a kind of structure of test device applied to protenchyma networking transport of the embodiment of the present invention is shown Block diagram, applied to the pseudo-terminal side form block in narrowband Internet of Things, which can specifically include with lower module：

Generation module 301 generates upstream data for the first flag information based on input.

Sending module 302, for upstream data to be sent to simulation application server-side module.

Receiving module 303, for receiving the downlink data from simulation application server module, wherein, in downlink data Carry second identifier information.

Evaluation module 304, for according to first flag information and second identifier information, to the transmission matter of narrowband Internet of Things Amount is assessed.

In a preferred embodiment of the invention, first flag information includes：Source address, destination address, data class Type and data length.

In a preferred embodiment of the invention, device may further include：

Input module (not shown), for stochastic inputs data type and data length；It and should according to simulation With the address of server module, destination address is inputted；And the source address that input public network is pseudo-terminal side module assignment.

In a preferred embodiment of the invention, generation module 301 can be further used for according to data length, raw Into test data；And based on first flag information and test data, generate upstream data.

In a preferred embodiment of the invention, evaluation module 304 can be further used for first flag information It is compared with second identifier information；And based on comparing result, the transmission quality of narrowband Internet of Things is assessed.

With reference to Fig. 4, a kind of structure of test device applied to protenchyma networking transport of the embodiment of the present invention is shown Block diagram, applied to the simulation application server-side module in narrowband Internet of Things, which specifically includes with lower module：

For receiving the upstream data from pseudo-terminal side form block, first is carried in upstream data for receiving module 401 Identification information, wherein, first flag information include the address of pseudo-terminal side form block, simulation application server-side module ground Location and data type and data length.

Generation module 402 for being based on first flag information generation second identifier information, and is given birth to according to second identifier information Into downlink data.

Sending module 403, for downlink data to be sent to pseudo-terminal side form block, so that pseudo-terminal side form root tuber evidence The second identifier information carried in first flag information and downlink data assesses the transmission quality of narrowband Internet of Things.

In conclusion the technical solution in the embodiment of the present invention, uplink is generated by the first flag information based on input Data；The upstream data is sent to simulation application server-side module；It receives from the simulation application server module Downlink data, wherein, second identifier information is carried in the downlink data；According to the first flag information and described Second identifier information assesses the transmission quality of the narrowband Internet of Things.So as to effectively raise to narrowband Internet of Things Flexibility and testing efficiency when the service surface of system is tested, and improve the convenience and user's body of test It tests.

For apparatus embodiments, since it is basicly similar to embodiment of the method, so description is fairly simple, it is related Part illustrates referring to the part of embodiment of the method.

Each embodiment in this specification is described by the way of progressive, the highlights of each of the examples are with The difference of other embodiment, just to refer each other for identical similar part between each embodiment.

The embodiment of the present invention can be described in the general context of computer executable instructions, example Such as program module.Usually, program module include routines performing specific tasks or implementing specific abstract data types, program, Object, component, data structure etc..The present invention can also be put into practice in a distributed computing environment, in these Distributed Calculation rings In border, by performing task by communication network and connected remote processing devices.In a distributed computing environment, program mould Block can be located in the local and remote computer storage media including storage device.

Finally, it is to be noted that, herein, relational terms such as first and second and the like be used merely to by One entity or operation are distinguished with another entity or operation, without necessarily requiring or implying these entities or operation Between there are any actual relationship or orders.Moreover, term " comprising ", "comprising" or its any other variant meaning Covering non-exclusive inclusion, so that process, method, commodity or equipment including a series of elements not only include that A little elements, but also including other elements that are not explicitly listed or further include for this process, method, commodity or The intrinsic element of equipment.In the absence of more restrictions, the element limited by sentence "including a ...", is not arranged Except also there are other identical elements in the process including the element, method, commodity or equipment.

Above to a kind of test method and device applied to protenchyma networking transport provided by the present invention, carry out in detail Thin to introduce, specific case used herein is expounded the principle of the present invention and embodiment, and above example is said The bright method and its core concept for being merely used to help understand the present invention；Meanwhile for those of ordinary skill in the art, foundation The thought of the present invention, there will be changes in specific embodiments and applications, in conclusion the content of the present specification is not It is interpreted as limitation of the present invention.

Claims (12)

1. a kind of test method applied to protenchyma networking transport, which is characterized in that applied in the narrowband Internet of Things Pseudo-terminal side form block, the method includes：

First flag information generation upstream data based on input；

The upstream data is sent to simulation application server-side module；

The downlink data from the simulation application server module is received, wherein, the second mark is carried in the downlink data Know information；

According to the first flag information and the second identifier information, the transmission quality of the narrowband Internet of Things is commented Estimate.

2. according to the method described in claim 1, it is characterized in that, the first flag information includes：Source address, destination Location, data type and data length.

3. the according to the method described in claim 2, it is characterized in that, upper line number of first flag information generation based on input According to the step of before, further include：

Data type described in stochastic inputs and the data length；

According to the address of the simulation application server module, the destination address is inputted；And

Input the source address that public network is pseudo-terminal side module assignment.

4. the according to the method described in claim 3, it is characterized in that, upper line number of first flag information generation based on input According to the step of, specifically include：

According to the data length, test data is generated；

Based on the first flag information and the test data, the upstream data is generated.

It is 5. according to the method described in claim 1, it is characterized in that, described according to the first flag information and described second Identification information the step of assessment the transmission quality of the narrowband Internet of Things, specifically includes：

The first flag information and the second identifier information are compared；

Based on comparing result, the transmission quality of the narrowband Internet of Things is assessed.

6. a kind of test method applied to protenchyma networking transport, which is characterized in that applied in the narrowband Internet of Things Simulation application server-side module, the method includes：

The upstream data from pseudo-terminal side form block is received, first flag information is carried in the upstream data, wherein, institute State first flag information include the address of the pseudo-terminal side form block, the simulation application server-side module address, And data type and data length；

Second identifier information is generated, and generate downlink data according to the second identifier information based on the first flag information；

The downlink data is sent to the pseudo-terminal side form block, so that the pseudo-terminal side form root tuber is according to described first The second identifier information carried in identification information and the downlink data to the transmission quality of the narrowband Internet of Things into Row assessment.

7. a kind of test device applied to protenchyma networking transport, which is characterized in that applied in the narrowband Internet of Things Pseudo-terminal side form block, described device include：

Generation module generates upstream data for the first flag information based on input；

Sending module, for the upstream data to be sent to simulation application server-side module；

Receiving module, for receiving the downlink data from the simulation application server module, wherein, in the downlink data Carry second identifier information；

Evaluation module, for according to the first flag information and the second identifier information, to the narrowband Internet of Things Transmission quality is assessed.

8. device according to claim 7, which is characterized in that the first flag information includes：Source address, destination Location, data type and data length.

9. device according to claim 8, which is characterized in that described device further comprises：

Input module, for data type described in stochastic inputs and the data length；And

According to the address of the simulation application server module, the destination address is inputted；And

Input the source address that public network is pseudo-terminal side module assignment.

10. device according to claim 9, which is characterized in that the generation module is further used for according to the data Length generates test data；And

Based on the first flag information and the test data, the upstream data is generated.

11. device according to claim 7, which is characterized in that the evaluation module is further used for marking described first Know information to be compared with the second identifier information；And

Based on comparing result, the transmission quality of the narrowband Internet of Things is assessed.

12. a kind of test device applied to protenchyma networking transport, which is characterized in that applied in the narrowband Internet of Things Simulation application server-side module, described device include：

For receiving the upstream data from pseudo-terminal side form block, the first mark is carried in the upstream data for receiving module Know information, wherein, the first flag information includes the address of the pseudo-terminal side form block, the simulation application server The address of side form block and data type and data length；

Generation module, for being based on the first flag information generation second identifier information, and according to the second identifier information Generate downlink data；

Sending module, for the downlink data to be sent to the pseudo-terminal side form block, so that the pseudo-terminal side form Root tuber is according to the second identifier information carried in the first flag information and the downlink data to the narrowband Internet of Things The transmission quality of net is assessed.