CN101895441A - Service debugging device and method for JAVA application of terminal of Internet of things - Google Patents

Abstract

The invention discloses a service debugging device and a service debugging method for JAVA application of a terminal of the Internet of things. The interaction of an AT message is implemented between JAVA middleware and an M2M protocol stack through the set adaptive interaction interface; and the interaction of the AT message is implemented between the M2M protocol stack and an M2M platform through the set unified operating system for M2M service debugging. Due to the adoption of the service debugging device and the service debugging method, the JAVA application of an M2M terminal can perform equipment-irrelevant service debugging on a PC through a wired network. Therefore, the problems that the M2M terminal JAVA application development kit is not provided with a service emulator and the JAVA application cannot perform service debugging on the PC are solved; the debugging efficiency of the M2M terminal JAVA application is effectively improved; and the degree of satisfaction of secondary developers is increased.

Description

Service debugging device and method that a kind of internet-of-things terminal JAVA uses

Technical field

The present invention relates to the service debugging field of Internet of Things (M2M, Machine to Machine) terminal, service debugging device and method that particularly a kind of internet-of-things terminal JAVA uses.

Background technology

The sensing net also claims Internet of Things, combines transducer, low-power consumption, communication and micro electronmechanical or the like technology, and it is interconnected in order to realize thing and thing that its target is actually, and the network with present link information space extends to physical world then.

At present, the Internet of Things standard of operator's proposition mainly comprises: platform, business, terminal and terminal second development interface part; Consider the popularity that Internet of Things is used, its terminal need adapt to polytype application, as: application such as images that monitor procedure is required or sound, and logistics progress required report application such as temperature, so, operator has released the interface of C and two kinds of implementations of JAVA when releasing the second development interface standard, its objective is allow as far as possible application developers freely is selected, quick deployment, cross-platform operation.

In the prior art, various M2M terminal development external members mainly comprise: second development interface and development environment, basically all be not used in the simulator of service debugging, therefore, need with application deployment to hardware, on embedded platform, carry out commissioning test, yet, because operating system is limited in one's ability and the limitation of trace tool function, make to differ several times than the debugging efficiency on PC in the efficient of debugging on the embedded platform; In addition, owing to can not realize that on embedded platform the JAVA middleware calls the C physical layer interface, the debugging that makes JAVA use is difficult more; And the Internet of Things standard does not belong to the J2ME scope, is the privately owned standard of operator, and temporary transient J2ME does not also support, debugs so can't use corresponding JAVA in the standard J2ME environment on PC.

Summary of the invention

In view of this, main purpose of the present invention is to provide a kind of service debugging device and method of internet-of-things terminal JAVA application, can be to JAVA application carrying out service debugging, to improve the efficient of M2M service debugging on PC.

For achieving the above object, technical scheme of the present invention is achieved in that

The invention provides the service debugging device that a kind of Internet of Things (M2M) terminal JAVA uses, comprise M2M application, M2M application protocol stack and M2M platform; This device further comprises: be positioned at the JAVA middleware adaptation layer that M2M uses, and the operating system supporting layer that is positioned at the M2M application protocol stack; Wherein,

JAVA middleware adaptation layer is arranged in the bottom that M2M uses the JAVA middleware, is used for the interactive interface between adaptive JAVA middleware and the M2M protocol stack, and AT message is mutual between realization JAVA middleware and the M2M protocol stack;

The operating system supporting layer links to each other with M2M protocol stack in the M2M application protocol stack, is used to the M2M protocol stack that unified operating system interface is provided, and AT message is mutual between realization M2M protocol stack and the M2M platform.

In the such scheme, the interactive interface between adaptive JAVA middleware of described JAVA middleware adaptation layer and the M2M protocol stack, AT message is mutual between realization JAVA middleware and the M2M protocol stack, is specially:

When JAVA uses when the M2M protocol stack sends AT message, JAVA uses the JAVA middleware adaptation layer that AT message is sent to the JAVA middleware, call AT message transmission interface by JAVA middleware adaptation layer and AT message is sent to the M2M protocol stack, and wait for the feedback message of M2M protocol stack by interactive mode between process;

After interactive mode receives the feedback message of M2M protocol stack between JAVA middleware adaptation layer is by process, reinform the JAVA application and obtain described feedback message.

In the such scheme, the unified operating system interface that described operating system supporting layer provides comprises: internal memory operation interface, local file operation-interface, semaphore operations interface, network interaction interface and service analogue interface.

In the such scheme, the described operating system interface that provides by the operating system supporting layer, AT message is mutual between realization M2M protocol stack and the M2M platform, is specially:

The M2M protocol stack calls AT message transmission interface and receives AT message by interactive mode between process, and after AT message handled, the network interaction interface by the operating system supporting layer provides sent to the M2M platform with AT message; The network interaction interface that the M2M protocol stack provides by the operating system supporting layer again receives the feedback message of M2M platform, feedback message is sent to M2M by interactive mode between process use.

In the such scheme, described JAVA middleware adaptation layer also is used for the adaptive of interface between JAVA middleware and the operating system;

Described adaptive being specially: when JAVA application need call operation system function, JAVA uses by the JAVA middleware adaptation layer of JAVA middleware and the operating system function interface between the operating system, call operation system function.

The service debugging method that the present invention also provides a kind of internet-of-things terminal JAVA to use, this method comprises:

Realize the mutual of AT message by the adaptive interactive interface that is provided with between JAVA middleware and the M2M protocol stack;

Realize the mutual of AT message by the unified operating system interface that is provided with between M2M protocol stack and the M2M platform, carry out the M2M service debugging.

In the such scheme, realize the mutual of AT message by adaptive interactive interface between described JAVA middleware and the M2M protocol stack, be specially:

When JAVA uses when the M2M protocol stack sends AT message, JAVA uses AT message is sent to the JAVA middleware, call AT message transmission interface by the JAVA middleware and AT message is sent to the M2M protocol stack, and wait for the feedback message of M2M protocol stack by interactive mode between process;

After interactive mode receives the feedback message of M2M protocol stack between the JAVA middleware is by process, reinform the JAVA application and obtain described feedback message.

In the such scheme, described unified operating system interface comprises: internal memory operation interface, local file operation-interface, semaphore operations interface, network interaction interface and service analogue interface

In the such scheme, realize the mutual of AT message by unified operating system interface between described M2M protocol stack and the M2M platform, be specially:

The M2M protocol stack receives AT message by interactive mode between process, and after AT message handled, by the network interaction interface AT message is sent to the M2M platform; The M2M protocol stack receives the feedback message of M2M platform again by the network interaction interface, feedback message is sent to M2M by interactive mode between process use.

In the such scheme, this method also comprises: when JAVA application need call operation system function, JAVA uses by adaptive operating system function interface between JAVA middleware and the operating system, call operation system function.

In the such scheme, when JAVA uses when the M2M protocol stack initiatively sends AT message, this method specifically comprises: the initialization of M2M protocol stack, and set up network with the M2M platform and be connected; JAVA application call AT message transmission interface sends to the M2M protocol stack by interactive mode between process with AT message; When the AT message that is received when the M2M protocol stack need send to the M2M platform, the M2M protocol stack called the network interaction interface, and AT message is sent to the M2M platform; The M2M platform sends feedback message to the M2M protocol stack, by the M2M protocol stack feedback message that receives is sent to JAVA again and uses.

In the such scheme, when JAVA use to receive the AT message that the M2M platform sends, this method specifically comprised: the initialization of M2M protocol stack, and set up network with the M2M platform and be connected; M2M platform invoke network interaction interface sends to the M2M protocol stack with AT message; The M2M protocol stack calls AT message transmission interface by interactive mode between process, AT message is sent to JAVA use.

Service debugging device and method that internet-of-things terminal JAVA provided by the present invention uses are based on realizing the mutual of AT message by the adaptive interactive interface that is provided with between JAVA middleware and the M2M protocol stack; Realize the mutual of AT message by the unified operating system interface that is provided with between M2M protocol stack and the M2M platform, carry out the M2M service debugging.Adopt apparatus and method of the present invention, its advantage is:

The present invention makes the JAVA of M2M terminal use and can carry out on PC and device-independent service debugging by cable network, M2M terminal JAVA application and development external member does not have the service analogue device, the JAVA application can't be in the problem of the enterprising industry affair of PC debugging thereby solved, effectively improve the debugging efficiency that M2M terminal JAVA uses, increased secondary development merchant's satisfaction.

Description of drawings

The service debugging device structural representation that Fig. 1 uses for internet-of-things terminal JAVA of the present invention;

Fig. 2 is the service debugging method flow diagram that internet-of-things terminal JAVA uses in the embodiment of the invention one;

Fig. 3 is the service debugging method flow diagram that internet-of-things terminal JAVA uses in the embodiment of the invention two.

Embodiment

Basic thought of the present invention is: based on realizing the mutual of AT message by the adaptive interactive interface that is provided with between JAVA middleware and the M2M protocol stack; Realize the mutual of AT message by the unified operating system interface that is provided with between M2M protocol stack and the M2M platform, carry out the M2M service debugging.

Because the M2M business mainly is the message interaction of M2M terminal and M2M platform, be characterized in: order as interactive mode with AT, use general packet radio service (GPRS, General Packet RadioService) as transmission bearer, use transmission control protocol/User Datagram Protocol/network interconnection agreement (TCP/UDP/IP, Transmission Control Protocol/User Datagram Protocol/InternetProtocol) as host-host protocol; On business characteristic, the type of interaction of M2M business is more single, unified service protocol is arranged, use general host-host protocol.Utilize the message interaction mode of AT order, can debug the M2M business; If do not consider the debugging of equipment relevant layers, for example: the debugging of M2M terminal and underlying device such as camera, then on PC, carry out with device-independent service debugging be feasible fully.Therefore, the present invention JAVA of being primarily aimed at the M2M terminal is applied in and carries out on the PC and device-independent service debugging.

Generally, as the M2M terminal, another machine such as PC B are as the M2M platform with a machine such as PC A, and two machines are communicated with by local area network (LAN).Operation M2M terminal JAVA uses and the M2M protocol stack on the PC A, when M2M terminal JAVA application and the operation of M2M protocol stack, can be two independent processes, and interactive mode has multiple, all suitable in the present invention between process; Operation M2M platform as long as can pass through the TCP/UDP/IP normal communication with the M2M terminal, need not to consider the concrete operational mode of M2M platform here on the PC B.

The service debugging square law device that internet-of-things terminal JAVA provided by the invention uses, as shown in Figure 1, this device comprises: M2M application, M2M application protocol stack and M2M platform, this device further comprises: be positioned at the JAVA middleware adaptation layer that M2M uses, and the operating system supporting layer that is positioned at the M2M application protocol stack; Wherein,

JAVA middleware adaptation layer is positioned at the bottom of the JAVA middleware that M2M uses, and is used for the interactive interface between adaptive JAVA middleware and the M2M protocol stack, realize AT message between JAVA middleware and the M2M protocol stack alternately;

The operating system supporting layer links to each other with the M2M protocol stack, is used to the M2M protocol stack that unified operating system interface is provided, and AT message is mutual between realization M2M protocol stack and the M2M platform.

The unified operating system interface that described operating system supporting layer provides comprises: interfaces such as internal memory operation, local file operation, semaphore operations, network interaction and service analogue; Wherein, the operating system supporting layer can be unified the interface function of different operating system, and unified interface is offered the M2M protocol stack, thus the difference of shielding different operating system, and JAVA is used can the cross operating system operation.

M2M protocol stack in this device is mainly used in the reception and the processing of AT order, comprising: command format conversion, logic determines, local processing, encoding and decoding and with the exchange of M2M platform etc.The M2M protocol stack runs on the operating system supporting layer, and basic and device independent is so the M2M protocol stack can the cross operating system operation.

Described JAVA middleware adaptation layer, the interactive interface between adaptive JAVA middleware and the M2M protocol stack, AT message is mutual between realization JAVA middleware and the M2M protocol stack, is specially:

When JAVA uses when the M2M protocol stack sends AT message, JAVA uses the JAVA middleware adaptation layer that AT message is sent to the JAVA middleware, call AT message transmission interface by JAVA middleware adaptation layer and AT message is sent to the M2M protocol stack, and wait for the feedback message of M2M protocol stack by interactive mode between process;

After interactive mode receives the feedback message of M2M protocol stack between JAVA middleware adaptation layer is by process, reinform the JAVA application and obtain described feedback message.

The described operating system interface that provides by the operating system supporting layer, AT message is mutual between realization M2M protocol stack and the M2M platform, be specially: the M2M protocol stack calls AT message transmission interface and receives AT message by interactive mode between process, and after AT message handled, network interaction interface by the operating system supporting layer provides sends to the M2M platform with AT message; The network interaction interface that provides by the operating system supporting layer receives the feedback message of M2M platform again, feedback message is sent to M2M by interactive mode between process use.

Described JAVA middleware adaptation layer also is used for the adaptive of interface between JAVA middleware and the operating system; Be specially: when JAVA application need call operation system function, JAVA uses by the operating system function interface between JAVA middleware adaptation layer and the operating system, call operation system function.

Based on said apparatus, the invention provides the service debugging method that a kind of internet-of-things terminal JAVA uses, below by specific embodiment method of the present invention is described in detail.

Embodiment one: when JAVA uses when the M2M protocol stack initiatively sends AT message, the service debugging method that internet-of-things terminal JAVA provided by the invention uses as shown in Figure 2, may further comprise the steps:

The initialization of step 201:M2M protocol stack;

Step 202:M2M protocol stack is set up network by distributing operation system interface with the M2M platform and is connected;

In this step, the M2M protocol stack is set up network with the M2M platform by TCP/UDP/IP and is connected by operating system supporting layer distributing operation system interface.

The AT message transmission interface of JAVA middleware adaptation layer sends to JAVA middleware adaptation layer with AT message in the step 203:JAVA application call JAVA middleware;

Step 204:JAVA middleware adaptation layer is called AT message transmission interface, by interactive mode between process, AT message is sent to the M2M protocol stack;

Step 205:M2M protocol stack is handled the AT message that receives, and when working as the AT message that is received and need send to the M2M platform, execution in step 206; When the AT message that is received did not need to send to the M2M platform, the M2M protocol stack sent to the JAVA middleware adaptation layer that M2M uses with feedback message, and execution in step 208;

In this step, after the M2M protocol stack receives AT message, can judge which AT message according to the M2M agreement and can handle in M2M protocol stack inside, which AT message need send to the M2M platform, and when working as the AT message that is received and need send to the M2M platform, execution in step 206; When the AT message that is received did not need to send to the M2M platform, the M2M protocol stack sent to the JAVA middleware adaptation layer that M2M uses with feedback message, and execution in step 208; Wherein, this deterministic process can be passed through existing techniques in realizing, does not belong to emphasis of the present invention, does not do detailed description at this.

The network interaction interface of step 206:M2M protocol stack call operation system supporting layer sends to the M2M platform with AT message;

Step 207:M2M platform sends feedback message to the M2M protocol stack, and the M2M protocol stack calls AT message transmission interface by interactive mode between process, and the feedback message that receives is sent to the JAVA middleware adaptation layer that M2M uses;

In this step, the M2M protocol stack can listen to feedback message from the M2M platform by the network interaction interface, and after the feedback message that receives handled, call AT message transmission interface and send to the JAVA middleware adaptation layer that M2M uses by the process interaction mode.

Step 208:JAVA middleware adaptation layer sends to JAVA with the feedback message that receives and uses.

Embodiment two: when JAVA used the AT message that receives the transmission of M2M platform, the service debugging method that internet-of-things terminal JAVA provided by the invention uses as shown in Figure 3, may further comprise the steps:

The initialization of step 301:M2M protocol stack;

Step 302:M2M protocol stack is set up network by distributing operation system interface with the M2M platform and is connected;

The network interaction interface of step 303:M2M platform invoke operating system supporting layer sends to the M2M protocol stack with AT message;

Step 304:M2M protocol stack calls AT message transmission interface by interactive mode between process, and AT message is sent to the JAVA middleware adaptation layer that M2M uses;

Step 305:JAVA middleware adaptation layer sends to JAVA with the AT message that receives and uses.

In above-mentioned service debugging process, realized AT message mutual of JAVA middleware adaptation layer and M2M protocol stack by JAVA middleware adaptation layer, and AT message mutual of having realized M2M protocol stack and M2M platform by the operating system supporting layer, the JAVA application of M2M terminal is carried out on PC and device-independent service debugging by cable network, thereby solved M2M terminal JAVA application and development external member and do not had the service analogue device, JAVA uses can't be in the problem of the enterprising industry affair of PC debugging, improve the development efficiency that M2M terminal JAVA uses, increased secondary development merchant's satisfaction.

The above is preferred embodiment of the present invention only, is not to be used to limit protection scope of the present invention, all any modifications of being done within the spirit and principles in the present invention, is equal to and replaces and improvement etc., all should be included within protection scope of the present invention.

Claims (12)

1. the service debugging device of an Internet of Things (M2M) terminal JAVA application comprises M2M application, M2M application protocol stack and M2M platform; It is characterized in that this device further comprises: be positioned at the JAVA middleware adaptation layer that M2M uses, and the operating system supporting layer that is positioned at the M2M application protocol stack; Wherein,

JAVA middleware adaptation layer is arranged in the bottom that M2M uses the JAVA middleware, is used for the interactive interface between adaptive JAVA middleware and the M2M protocol stack, and AT message is mutual between realization JAVA middleware and the M2M protocol stack;

The operating system supporting layer links to each other with M2M protocol stack in the M2M application protocol stack, is used to the M2M protocol stack that unified operating system interface is provided, and AT message is mutual between realization M2M protocol stack and the M2M platform.

2. device according to claim 1 is characterized in that, the interactive interface between adaptive JAVA middleware of described JAVA middleware adaptation layer and the M2M protocol stack, and AT message is mutual between realization JAVA middleware and the M2M protocol stack, is specially:

When JAVA uses when the M2M protocol stack sends AT message, JAVA uses the JAVA middleware adaptation layer that AT message is sent to the JAVA middleware, call AT message transmission interface by JAVA middleware adaptation layer and AT message is sent to the M2M protocol stack, and wait for the feedback message of M2M protocol stack by interactive mode between process;

After interactive mode receives the feedback message of M2M protocol stack between JAVA middleware adaptation layer is by process, reinform the JAVA application and obtain described feedback message.

3. device according to claim 1, it is characterized in that the unified operating system interface that described operating system supporting layer provides comprises: internal memory operation interface, local file operation-interface, semaphore operations interface, network interaction interface and service analogue interface.

4. device according to claim 3 is characterized in that, the described operating system interface that provides by the operating system supporting layer, and AT message is mutual between realization M2M protocol stack and the M2M platform, is specially:

The M2M protocol stack calls AT message transmission interface and receives AT message by interactive mode between process, and after AT message handled, the network interaction interface by the operating system supporting layer provides sent to the M2M platform with AT message; The network interaction interface that the M2M protocol stack provides by the operating system supporting layer again receives the feedback message of M2M platform, feedback message is sent to M2M by interactive mode between process use.

5. according to each described device of claim 1 to 4, it is characterized in that described JAVA middleware adaptation layer also is used for the adaptive of interface between JAVA middleware and the operating system;

Described adaptive being specially: when JAVA application need call operation system function, JAVA uses by the JAVA middleware adaptation layer of JAVA middleware and the operating system function interface between the operating system, call operation system function.

6. the service debugging method used of an internet-of-things terminal JAVA is characterized in that this method comprises:

Realize the mutual of AT message by the adaptive interactive interface that is provided with between JAVA middleware and the M2M protocol stack;

Realize the mutual of AT message by the unified operating system interface that is provided with between M2M protocol stack and the M2M platform, carry out the M2M service debugging.

7. method according to claim 6 is characterized in that, realizes the mutual of AT message by adaptive interactive interface between described JAVA middleware and the M2M protocol stack, is specially:

When JAVA uses when the M2M protocol stack sends AT message, JAVA uses AT message is sent to the JAVA middleware, call AT message transmission interface by the JAVA middleware and AT message is sent to the M2M protocol stack, and wait for the feedback message of M2M protocol stack by interactive mode between process;

After interactive mode receives the feedback message of M2M protocol stack between the JAVA middleware is by process, reinform the JAVA application and obtain described feedback message.

8. method according to claim 6 is characterized in that, described unified operating system interface comprises: internal memory operation interface, local file operation-interface, semaphore operations interface, network interaction interface and service analogue interface.

9. method according to claim 8 is characterized in that, realizes the mutual of AT message by unified operating system interface between described M2M protocol stack and the M2M platform, is specially:

The M2M protocol stack receives AT message by interactive mode between process, and after AT message handled, by the network interaction interface AT message is sent to the M2M platform; The M2M protocol stack receives the feedback message of M2M platform again by the network interaction interface, feedback message is sent to M2M by interactive mode between process use.

10. according to each described method of claim 6 to 9, it is characterized in that, this method also comprises: when JAVA application need call operation system function, JAVA uses by adaptive operating system function interface between JAVA middleware and the operating system, call operation system function.

11., it is characterized in that when JAVA uses when the M2M protocol stack initiatively sends AT message, this method specifically comprises according to each described method of claim 6 to 9: the initialization of M2M protocol stack, and set up network with the M2M platform and be connected; JAVA application call AT message transmission interface sends to the M2M protocol stack by interactive mode between process with AT message; When the AT message that is received when the M2M protocol stack need send to the M2M platform, the M2M protocol stack called the network interaction interface, and AT message is sent to the M2M platform; The M2M platform sends feedback message to the M2M protocol stack, by the M2M protocol stack feedback message that receives is sent to JAVA again and uses.

12., it is characterized in that when JAVA use to receive the AT message that the M2M platform sends, this method specifically comprised according to each described method of claim 6 to 9: the initialization of M2M protocol stack, and set up network with the M2M platform and be connected; M2M platform invoke network interaction interface sends to the M2M protocol stack with AT message; The M2M protocol stack calls AT message transmission interface by interactive mode between process, AT message is sent to JAVA use.

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