CN101364175A

CN101364175A - Configuration method and device for embedded system

Info

Publication number: CN101364175A
Application number: CNA2008100681996A
Authority: CN
Inventors: 李保华
Original assignee: Shenzhen Guoren Communication Co Ltd
Current assignee: Shenzhen Guoren Technology Co Ltd
Priority date: 2008-07-02
Filing date: 2008-07-02
Publication date: 2009-02-11
Anticipated expiration: 2028-07-02
Also published as: CN101364175B

Abstract

The invention relates to a collocation method for an embedded system. The method comprises the following steps: a data set is set, and parameters relevant to the system are stored in the data set; the parameters are described in the data set; a data collocation file is set, and the parameters required in the collocation is put in the collocation file; the parametric description in the data set is called out through reading the parameters in the collocation file, and the parameters is collocated to realize the collocation of the embedded system. The invention also discloses a device for realizing the collocation method for realizing the embedded system. The parameter supervising method and the device in the embedded system have the following advantages: when the supervising method of the equipment is changed, the application and structure part of a software is not required to be rewritten, a hardware interface is not required to be redeveloped, and the unified management of a multifunctional and multi-interface platform can be realized through a unified software platform.

Description

The collocation method of embedded system and device

[technical field]

The present invention relates to equipment configuration method and device in the communications field, more particularly, relate to a kind of collocation method and device of embedded system.

[background technology]

Monitoring has been played more and more crucial effect as the important component part of equipment control in communication facilities, be the basis of assurance equipment operate as normal and operation, also is the important step of remote device monitoring.And supervising device is normally determined by method for supervising.Particularly, the method for supervising of communication facilities is to embody by the monitoring software in this equipment, but there is the problem of overlapping development in present equipment component monitoring software.Along with the change of the detection mode of equipment, monitoring software all needs detection, controlled variable and function are changed, very big influence function program multiplexing, i.e. the change of each monitoring software all needs to reconfigure system.What still adopt in the exploitation of embedded system at present is the investigating method of simple sequential organization, simple parameter.This investigating method has following defective: the structure of embedded development can't be multiplexing, may there be the application of a plurality of functions of a plurality of systems on the embedded software developing, but develop new detection, control embedded software, application in the software and structure division need be write again; The interface of embedded development needs exploitation again, embedded software developing relies on the function of hardware interface to a great extent, change has taken place in the observing and controlling function as interface, so for traditional embedded development mode, need docking port to write again, and owing in different systems, can't obtain well multiplexing for former engineering method; Can't realize unified managements multi-functional, many interface platforms by unified software platform,, still overlap the basis of the corresponding program of source code one for the Embedded software development of series though the application of a lot of embedded softwares is very ripe.This has just caused very big problem of management for the groupware exploitation of complexity.

[summary of the invention]

The technical problem to be solved in the present invention is, when changing at the above-mentioned method for supervising when equipment of prior art, embodying the application and the structure division of the software of described method for supervising need write again, hardware interface needs exploitation again and can't realize multi-functional by unified software platform, the unified management defective of many interface platforms, when providing a kind of method for supervising to change when equipment, do not need to write again the application and the structure division of software, do not need to develop again hardware interface and can realize multi-functional by unified software platform, the collocation method of the embedded system of the unified management of many interface platforms and device.

The technical solution adopted for the present invention to solve the technical problems is: construct a kind of collocation method of embedded system, comprise the steps:

A) data set is set, the parameter that system is related to deposits described data centralization in;

B) in described data centralization described parameter is described;

C) data configuration file is set, the parameter that this configuration needs is put into described configuration file;

D) by reading the parameter in the described configuration file, access the parametric description of described data centralization, and dispose this parameter, realize the configuration of embedded system.

In embedded system of the present invention in the method for supervising of parameter, described steps A) parameter in comprises the monitoring parameter and/or the controlled variable of embedded system.

In the collocation method of embedded system of the present invention, described step B) by the inherent feature of described each data described data is described in.

In the collocation method of embedded system of the present invention, described inherent feature comprises a plurality of parameter items, and described parameter item comprises: parameter name, parameter type, parameter values, the definition of parameter physical interface, parametric technique interface definition are or/and the next node position.

At the collocation method of embedded system of the present invention, a plurality of parameter items of a parameter join end to end and constitute the argument structure body of this parameter, and the argument structure body of a plurality of parameters joins end to end and constitutes described data set.

In the collocation method of embedded system of the present invention, described step C) comprise add to the parameter name of needs configuration in the described configuration file or from described configuration file deletion do not need the parameter name that disposes.

In the collocation method of embedded system of the present invention, described step D) further comprise:

D1) determine the parameter that to search position by adopting hashing algorithm to search parameter name in described data centralization;

D2) extract the particular content of each parameter item in this parameter;

D3) carry out respective handling according to the particular content of each parameter item.

In the collocation method of embedded system of the present invention, described step D2) further comprise the steps:

D21) the physical interface definition back that obtains the physics control address of described parameter by described parameter configuration files or extract described parameter, the physical interface definition back of extracting described parameter is obtained the physical detection address of described parameter by described parameter configuration files;

D22) obtain the function interface of this parametric technique by described parameter configuration files behind the method interface definition of the described parameter of extraction, thereby obtain the particular content of its control method or detection method.

In the collocation method of embedded system of the present invention, described step D3) respective handling described in comprises: the physical address that the data after will handling through described control method be sent to described parameter is exported or the information on the physical address of described parameter is sent to the corresponding interface after the method computing after testing.

The present invention has also disclosed a kind of device that is used to realize the collocation method of above-mentioned embedded system, comprise the primary module of realizing systemic-function, it is characterized in that, parameter configuration module and parameter of also comprise the parametric description module of describing these all parameter characteristics of system, being provided with this configuration desired parameters of this system are searched module, and described parameter configuration module is searched module by described parameter and is connected on the described parametric description module; Described parameter is searched module for providing logical channel between described primary module and the described parameter configuration module, and described parameter configuration module is searched module by described parameter and obtained the described specific descriptions of configuration parameter that need by described parametric description module and offer described primary module to finish configuration.

Implement the collocation method and the device of embedded system of the present invention, has following beneficial effect: do not obtain the parameter that it need be controlled or monitor because system is not a pattern by direct visit, but can obtain the parameter item particular location of data centralization relevant parameter and read its value by parameter name in the parameter configuration files, thereby when the method for supervising of equipment changes, do not need to write again the application and the structure division of software, do not need to develop again hardware interface and only need change configuration file and promptly can realize multi-functional by unified software platform, the unified management of many interface platforms.

[description of drawings]

The invention will be further described below in conjunction with drawings and Examples, in the accompanying drawing:

Fig. 1 is the formation process flow diagram of data set among collocation method first embodiment of embedded system of the present invention;

Fig. 2 is the parameter item structural representation of the single parameter of data centralization among collocation method first embodiment of embedded system of the present invention;

Fig. 3 is the structural representation of a plurality of parameters of data centralization among collocation method first embodiment of embedded system of the present invention;

Fig. 4 is the process flow diagram of searching the parameter position and this parameter being operated among collocation method first embodiment of embedded system of the present invention;

Fig. 5 is the process flow diagram of searching the parameter position and this parameter being operated among collocation method second embodiment of embedded system of the present invention;

Fig. 6 is the structured flowchart of the device embodiment of the present invention's collocation method of realizing embedded system.

[embodiment]

In an embodiment of the present invention, realize before the configuration of embedded system, at first will set up the data set of describing all parameters that native system relates to and set up parameter configuration files according to demand.

As shown in Figure 1, in collocation method first embodiment of embedded system of the present invention, comprise the steps:

S11 sets up blank data set: the data set of setting up a blank in system, this document is as a matrix, makes the user and to describe the value of the necessary parameter item of this parameter or point to the pointer value or the function interface input of this parameter item and be stored in this document parameter related in the system.

The S12 parameter that native system is related is input to above-mentioned data centralization: all related in native system parameters are input in the above-mentioned document data set; At this moment, data centralization may have only parameter and not have for the concrete parameter item of describing this parameter.

S13 is according to the inherent feature of each parameter, add or revise the parameter item content of parameter: because the numerous types of the parameter that system relates to, and each parameter all has the characteristics of himself respectively, so describing the concrete parameter item of each parameter may be different, after the parameter input, the user also may increase and decrease or the concrete parameter item of characterising parameter is increased and decreased or revises parameter, so in this step, the concrete parameter item that to describe a certain parameter respectively is grouped into below its described parameter, and can add or revise.Take the structure of above-mentioned frame-type, above-mentioned data set can be set up and revise more neatly.

S14 arranges the parameter and the parameter item thereof of described data centralization, obtain complete data set: in this step, emphasis is to set up complete data set, because the difference between the parameter, the data volume of its description can not be identical, so after description is finished, need arrange above-mentioned parameter, it is joined end to end, be convenient to call and search.In the present embodiment, data centralization has comprised the related parameter of all native systems.Wherein, parameter is described by a plurality of parameter items of representing its inherent feature, and this parameter item arranges by certain mode, obtains changing the argument structure body of parameter; Also arrange between the argument structure body of a plurality of parameters and obtain above-mentioned data set by certain mode.Fig. 2 shows parameter item arrangement mode in the argument structure body of single parameter, and Fig. 3 shows the arrangement mode between its argument structure body between a plurality of parameters, the arrangement mode between promptly a plurality of parameters; In Fig. 2, the parameter item of single parameter comprises: parameter name, parameter type, parameter values, the definition of parameter physical interface, parametric technique interface definition and next node position; The parameter item of above-mentioned single parameter joins end to end by prior predetermined data length, constitutes the argument structure body of this parameter; And in Fig. 3, arrange according to the mode of Fig. 2 equally between the parameter item of each parameter, obtaining its argument structure body separately, and also join end to end between its argument structure body, promptly above-mentioned data set has formed a chained list in the present embodiment.Wherein, the position that last single parameter of this chained list is not pointed out next chained list node, but expression has not had next node.

After having set up a complete parameter set, also need to set up a configuration file, this Profile Description in current configuration parameters needed, parameter at this configuration file all can find in above-mentioned data centralization, but the parameter of above-mentioned data centralization not necessarily is included in this configuration file, those are not included in the configuration file and are input to the parameter of data set, may be to be input to data centralization in advance, but not use now or prepare to use in the future.As total A1, A2, N parameters such as A3, A4......An in the parameter configuration files, now only need A1, A3, A4 just can satisfy the demands, only need when therefore setting up configuration file the parameters needed title to be configured into configuration file or the deletion of the parameter name in above-mentioned configuration file is got final product.

After the foundation of finishing data set shown in Fig. 1 and configuration file, just can carry out system configuration, wherein most step is identical with step of the prior art, but difference is arranged also, search parameter and to its process of handling, it comprises the steps: in above-mentioned data centralization shown in Fig. 4

S41 determines parameter to be detected: system is by the parameter to be detected that obtains in the described configuration file disposing, searching and detecting and make target for next step.

S42 retrieve data collection, determine the reference position of this parameter: in this step, system obtains the parameter name of parameter according to step S41, be parameter I D, search the residing position of this parameter in above-mentioned data centralization, this position refers to the argument structure body be made up of a plurality of parameter items reference position in described data centralization; Simultaneously, in the present embodiment, be to find this argument structure body in the position of described data centralization with the parameter I D of this parameter as ferret out by hashing algorithm.For example, need query argument A1, then, adopt the HASH algorithm to search in data centralization, then the reference position in described data centralization of pointed parameter A 1 by being ferret out with the parameter I D in the parameter item of parameter A 1.

S43 determines the position of each parameter item in this argument structure body: obtain the reference position of argument structure body in step S42 after, according to the Rankine-Hugoniot relations of the parameter item of prior setting and the data length of each parameter item, can calculate the particular location of certain parameter item of this parameter to be detected.So can obtain the position of each parameter item in this parameter one by one.

S44 obtains the physical interface address of this parameter: in the present embodiment, the particular content of this parameter physical interface address is placed in the physical interface address in the argument structure body.In this step, by the physical interface address of this parameter that obtains among the step S43.

S45 carries out and detects interface method: in the present embodiment, what deposit in the address of the detection interface method of this parameter in the argument structure body is the function interface of this detection method.In this step,, call its corresponding detection method function, finish the detection of this parameter by this function interface by the function interface of the detection interface method in this argument structure body that obtains among the step S43.For example, if A3 is a parameter that need detect, then extract the detection method of A3 by above-mentioned steps, after the information of the physical address reaction of the A3 that obtains by step S44 is carried out the algorithm computing of detection method, be sent to CPU carry out computing or preserve after leave other algorithms for and use.

The parameter that S46 is still waiting to detect? judge whether the parameter that is still waiting to detect, in this way, return execution in step S41, as not, execution in step S47; After executing the algorithm of parameter current, inquire about the next node parameter item in the current parameter, as also having the argument structure body thereafter, then continue the detection of parameter, after for example parameter A 3 executes algorithm, show that back one node is a parameter A 4, then enter parameter A 4, carry out the processing of A4 parameter; If the subsequent node of parameter A 3 is empty, represent that then current retrieval finishes, withdraw from retrieval this time.

S47 finishes: finish the configuration of this detected parameters.

Above-mentioned institute in steps, i.e. step S11-S14 and step S41-S47 constitute in the embedded system of the first embodiment of the present invention collocation method to detected parameters.

The second embodiment of the present invention has then disclosed in the embedded system collocation method to controlled variable, in the second embodiment of the present invention, the method for building up of its parameter configuration files and data set is identical with first embodiment, and when system configuration parameter search with treatment step in slightly different.

As shown in Figure 5, the parameter of second embodiment of the invention is searched and is handled and comprises the steps:

S51 determines parameter to be controlled: system determines by the parameter that will control that obtains in the described configuration file disposing, searching and controlling and make target for next step.

S52 retrieve data collection, determine this parameter reference position: in this step, system makes the parameter name of parameter according to step S51, be parameter I D, search the residing position of this parameter in above-mentioned data centralization, this position refers to the argument structure body be made up of a plurality of parameter items reference position in described data centralization; Simultaneously, in the present embodiment, be to find this argument structure body in the position of described data centralization with the parameter I D of this parameter as ferret out by hashing algorithm.For example, need query argument A0, then, adopt the HASH algorithm to search in data centralization, then the reference position in described data centralization of pointed parameter A 0 by being ferret out with the parameter I D in the parameter item of parameter A 0.

S53 determines the position of each parameter item in this argument structure body: obtain the reference position of argument structure body in step S52 after, according to the Rankine-Hugoniot relations of the parameter item of prior setting and the data length of each parameter item, can calculate the position of certain parameter item of this parameter to be detected.So can obtain the position of each parameter item in this parameter one by one.

S54 obtains the physical interface address of this parameter: in this step, and by the position of the physical interface address of this argument structure body that obtains among the step S53, by the physical interface address of wherein taking out this actual parameter.

S55 carries out the control interface method: in the present embodiment, what deposit in the data centralization parameter control interface method parameter item is the function interface of this control method.In this step,,, call its corresponding control method function, finish this parameter control by this function interface by wherein taking out above-mentioned function interface by the address of the definition of the control interface method in this argument structure body that obtains among the step S53.For example, establish A2 and be a parameter that needs control, then by the control method of above-mentioned steps extracting parameter A2, carry out computing after, be sent to the physical address of the A2 that obtains by step S54.

The parameter that S56 is still waiting to control? judge whether the parameter that is still waiting to control, in this way, return execution in step S51, as not, execution in step S57; After executing the algorithm of parameter current, inquire about the next node parameter item in the current argument structure body,, then continue, after for example parameter A 2 executes algorithm, show that back one node is a parameter A 5, then enter parameter A 5, carry out the processing of A5 parameter as also having parameter thereafter; If the subsequent node of parameter A 2 is empty, represent that then current retrieval finishes, withdraw from retrieval this time.

S57 finishes: finish the configuration of this controlled variable.

By the first embodiment of the present invention and second embodiment are described as can be known, in the above-described embodiments, when at different type of machines, need increase or when delete parameter, need not revise source code, only need the described data set of modification to get final product; When the parameter change of needs configurations, need not revise source code equally, only need rebulid parameter configuration files and get final product.

The present invention has also disclosed a kind of device of realizing parameter monitoring method in the embedded system, as shown in Figure 6, realize among the embodiment of the device of parameter monitoring method in the embedded system at this, this device comprises that primary module 61, parameter search module 62, parameter configuration module 63 and parametric description module 64, wherein, primary module 61 is used to the function of the system that finishes, as the main control module of system and exist; Preserve the parameter name that needs configuration in the parameter configuration module 63, comprise the description of all parameters that native system is related in the parametric description module 64, wherein, the description of each parameter is formed by a plurality of parameter items, the parameter item that belongs to same parameter all concentrates in together, and is kept in the scope of this parameter; Parameter is searched module 62 and is used for providing logical channel between above-mentioned parameter describing module 64 and parameter configuration module 63, when parameter configuration module 63 provides certain search condition, parameter is searched module 62 under the qualification of above-mentioned search condition, search in above-mentioned parametric description module 64, the parameter that finds its search condition to limit, and these parameters are offered primary module 61, be used to dispose this embedded system.In the present embodiment, the whole parameters in the parameter configuration module 63 have been comprised in the parametric description module 64, and be index with the parameter project of these parameters respectively, make parameter search module 62 can obtain the parameter item that needs in parametric description module 64 under the search condition restriction of parameter configuration module 63 content.Like this, these content of parameter can be provided to described primary module 61 and finish the configuration of embedded system.

The above embodiment has only expressed several embodiment of the present invention, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to claim of the present invention.Should be pointed out that for the person of ordinary skill of the art without departing from the inventive concept of the premise, can also make some distortion and improvement, these all belong to protection scope of the present invention.Therefore, the protection domain of patent of the present invention should be as the criterion with claims.

Claims

1, a kind of collocation method of embedded system is characterized in that, comprises the steps:

B) in described data centralization described parameter is described;

2, the collocation method of embedded system according to claim 1 is characterized in that, described steps A) in parameter comprise the monitoring parameter and/or the controlled variable of embedded system.

3, the collocation method of embedded system according to claim 2 is characterized in that, described step B) in by the inherent feature of described each data described data are described.

4, the collocation method of embedded system according to claim 3, it is characterized in that, described inherent feature comprises a plurality of parameter items, and described parameter item comprises: parameter name, parameter type, parameter values, the definition of parameter physical interface, parametric technique interface definition are or/and the next node position.

5, the collocation method of embedded system according to claim 4 is characterized in that, a plurality of parameter items of a parameter join end to end and constitute the argument structure body of this parameter, and the argument structure body of a plurality of parameters joins end to end and constitutes described data set.

6, the collocation method of embedded system according to claim 5 is characterized in that, described step C) comprise add to the parameter name of needs configurations in the described configuration file or from described configuration file deletion do not need the parameter name that disposes.

7, the collocation method of embedded system according to claim 6 is characterized in that, described step D) further comprise:

D2) extract the particular content of each parameter item in this parameter;

8, the collocation method of embedded system according to claim 7 is characterized in that, described step D2) further comprise the steps:

9, the collocation method of embedded system according to claim 8, it is characterized in that described step D3) described in respective handling comprise: the physical address that the data after will handling through described control method be sent to described parameter is exported or the information on the physical address of described parameter is sent to the corresponding interface after the method computing after testing.

10, a kind of device of realizing the collocation method of the described embedded system of claim 1, comprise the primary module of realizing systemic-function, it is characterized in that, parameter configuration module and parameter of also comprise the parametric description module of describing these all parameter characteristics of system, being provided with this configuration desired parameters of this system are searched module, and described parameter configuration module is searched module by described parameter and is connected on the described parametric description module; Described parameter is searched module for providing logical channel between described primary module and the described parameter configuration module, and described parameter configuration module is searched module by described parameter and obtained the described specific descriptions of configuration parameter that need by described parametric description module and offer described primary module to finish configuration.