CN107995026A - Management-control method, management node based on middleware, by pipe node and system - Google Patents

Abstract

Include the present invention provides a kind of management-control method based on middleware, management node, by pipe node and system, this method：Management node is issued management and control instruction to each by first message middleware communication module by pipe node, with to being respectively managed control by pipe node；Received by first message middleware communication module and respectively performed the result returned after management and control instruction by pipe node；The result returned by pipe node is parsed, and concentrates and shows respectively by the environment operating status of pipe node.The present invention establishes management node and the two-way communication between by pipe node by way of message-oriented middleware, management node is set quickly, flexibly to be sent control maintenance instruction by pipe node to each, and environment operation conditions is obtained in time or completes corresponding control operation, at the same time each environment operating condition is checked to concentrate, in a manner of close friend, avoid causing higher environment maintenance cost since environment is more, monitored item is miscellaneous, improve the work efficiency of environment maintenance personnel.

Description

Management-control method, management node based on middleware, by pipe node and system

Technical field

The invention belongs to banking system technical field of software development, relate generally to a kind of management-control method based on middleware, Management node, by pipe node and system.

Background technology

In bank application system software development process, in order to adapt to the different soft project stages, while in order to more preferable Completion software product research and development, different engineering phases carry out corresponding soft project activity using different hardware environment. Therefore, the environment that each product is related to is more, can not be managed control by unified approach, cause environment maintenance cost compared with It is high.Also, in terms of current bank internal system environmental regulatory control, mainly merchandised by performing timing in each environment, and with FTP Mode the operating status of respective environment is sent to management node, such management node does not simply fail to timely monitor each ring Border operating status, and this mode is a kind of passive management strategy, can not flexibly and effectively carry out environmental regulatory control, cause ring The maintenance in border is time-consuming and laborious and not in time, further influences the service efficiency of environment.

The content of the invention

In order to solve the above technical problems, an embodiment of the present invention provides a kind of management-control method based on middleware, management section Point, by pipe node and system.

On the one hand, an embodiment of the present invention provides a kind of management-control method based on middleware, the described method includes：

Management node is issued management and control instruction to each by first message middleware communication module by pipe node, with to each It is described to be managed control by pipe node；Wherein, the management and control instruction includes information collection instruction and/or environmental Kuznets Curves instruction；

After each management and control instruction by pipe node execution being received by the first message middleware communication module The result of return；

The result returned by pipe node is parsed, and concentrates and shows each environment operation shape by pipe node State.

On the other hand, the embodiment of the present invention additionally provides a kind of management-control method based on middleware, the described method includes：

Instructed by pipe node by the management and control that second message middleware communication module reception management node is sent；

Parse the management and control to instruct and classify to it, different types of management and control instruction is route respectively；It is described Instruction type includes information and collects instruction and/or environmental Kuznets Curves instruction；

The different types of management and control instruction is performed respectively, and implementing result is passed through into the second message middleware communication Module is sent to the management node.

On the one hand, an embodiment of the present invention provides a kind of management node based on middleware, the management node to include：Collection Middle control module, first message middleware communication module, instruction results processing module and concentration display module；Described instruction result Processing module is connected with the first message middleware communication module, concentration display module respectively；

The centralized control module is connected respectively by pipe node by the first message middleware communication module, for passing through The first message middleware communication module is issued management and control instruction to each by pipe node；Wherein, the management and control instruction includes letter Breath collects instruction and/or environmental Kuznets Curves instruction；

The first message middleware communication module is additionally operable to receive each described by the pipe node execution management and control instruction It is returning afterwards as a result, and being sent to described instruction result treatment module；

Described instruction result treatment module is used to parse the result returned by pipe node, and is sent to described Display module is concentrated to show each environment operating status by pipe node to concentrate.

On the other hand, the embodiment of the present invention additionally provide it is a kind of based on middleware by pipe node, it is described by pipe node bag Include：Second message middleware communication module, command analysis module and instruction execution module；

The second message middleware communication module is used to receive the management and control instruction that management node is sent, and is sent to described Command analysis module；

Described instruction parsing module is used to parse the management and control instruction and classifies to it, and different types of management and control is referred to Order is route respectively, and management and control instruction is distributed to corresponding instruction execution module；Described instruction type includes information collection and refers to Order and/or environmental Kuznets Curves instruction；

Each described instruction execution module performs the different types of management and control instruction respectively, and implementing result is passed through described Second message middleware communication module is sent to the management node.

Finally, the embodiment of the present invention additionally provides a kind of managing and control system based on middleware, the system comprises：One institute The management node stated and at least one described by pipe node；

The first message middleware communication module of the management node leads to the second message middleware by pipe node Believe module connection, be used for realization the management node and the two-way communication between by pipe node.

This have the advantage that establishing management node by way of message-oriented middleware and between by pipe node Two-way communication, management node quickly, flexibly can send control maintenance instruction by pipe node to each, and obtain ring in time Border operation conditions completes corresponding control operation, at the same to concentrate, it is friendly in a manner of check each environment operating condition, avoid by Cause higher environment maintenance cost in environment is more, monitored item is miscellaneous, improve the work efficiency of environment maintenance personnel.

Brief description of the drawings

In order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing There is attached drawing needed in technology description to be briefly described, it should be apparent that, drawings in the following description are only this Some embodiments of invention, for those of ordinary skill in the art, without creative efforts, can be with Other attached drawings are obtained according to these attached drawings.

Fig. 1 is the structure diagram of the management node provided in an embodiment of the present invention based on middleware；

Fig. 2 is the management-control method flow diagram of management node one end provided in an embodiment of the present invention；

Fig. 3 is the structure diagram by pipe node provided in an embodiment of the present invention based on middleware；

Fig. 4 is the management-control method flow diagram provided in an embodiment of the present invention by pipe node one end；

Fig. 5 is the structure diagram of the managing and control system provided in an embodiment of the present invention based on middleware.

Embodiment

Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, those of ordinary skill in the art are obtained every other without making creative work Embodiment, belongs to the scope of protection of the invention.

Fig. 1 be the management node provided in an embodiment of the present invention based on middleware structure diagram, the management node example It such as can be environmental Kuznets Curves central server.As shown in Figure 1, the management node mainly includes with lower part：Centralized control module 11st, first message middleware communication module 12, instruction results processing module 13 and concentration display module 14.Wherein, instruction results Processing module 13 is connected with first message middleware communication module 12, concentration display module 14 respectively.

First message middleware communication module 12 is usually connected with the message-oriented middleware communication module by pipe node, and such one Come, centralized control module 11 can be by first message middleware communication module 12 with respectively being communicated by pipe node.

In embodiments of the present invention, can be established by the message-oriented middleware mode such as Websphere MQ management node with by The two-way communication of pipe node, enables management node quickly, flexibly to control maintenance instruction to each sent by pipe node, and and When obtain and completed corresponding control operation by pipe node by the environment operation conditions of pipe node or control.

Normally, centralized control module 11 can be by first message middleware communication module 12 to each under by pipe node Management and control instruction is sent out, management and control instruction includes information and collects instruction and/or environmental Kuznets Curves instruction.Wherein, it is main to collect instruction for information For controlling default monitored item parameter, and the result group bag that will be collected into are collected by pipe node accordingly；Environmental Kuznets Curves instruct It is mainly used for controlling the modification of monitored item attribute.

After implementing result is produced according to above-mentioned management and control instruction by pipe node, first message middleware communication module 12 is also Each implementing result returned by pipe node by middleware communication module is received, and is sent to instruction results processing module 13. Then, the implementing result returned by pipe node is parsed by instruction results processing module 13, and obtained result will be parsed It is sent to and concentrates display module 14 to show each environment operating status by pipe node to concentrate.

This have the advantage that establishing management node by way of message-oriented middleware and between by pipe node Two-way communication, management node quickly, flexibly can send control maintenance instruction by pipe node to each, and obtain ring in time Border operation conditions completes corresponding control operation, at the same to concentrate, it is friendly in a manner of check each environment operating condition, avoid by Cause higher environment maintenance cost in environment is more, monitored item is miscellaneous, improve the work efficiency of environment maintenance personnel.

In one embodiment, the management node shown in Fig. 1 also typically includes an environmental regulatory control registration module 15, the module It is mainly used for tieing up to the parameter that issued by pipe node being connected with current management node by first message middleware communication module 12 Finger shield makes, to being carried out state-maintenance and the corresponding parameter information of configuration by pipe node accordingly.Except to by tube coupling Point is carried out outside management and control, and environmental regulatory control registration module 15 is additionally operable to accept newly by the registration request of pipe node, at management node end Registration is newly by the information of pipe node, and is newly to be generated corresponding configuration script by pipe node, and realizes to new by pipe node Deployment.

Can flexibly it be realized using environmental regulatory control registration module 15 to being managed maintenance by the state of pipe node and being matched somebody with somebody Put, and conveniently control in global scope registered by pipe node, and disposed easy to newly-increased by pipe node.

Fig. 2 is the management-control method flow diagram provided in an embodiment of the present invention in management node one end.As shown in Fig. 2, This method mainly includes the following steps that：

Step 21, centralized control module 11 is issued pipe to each by first message middleware communication module 12 by pipe node Control instruction, to be managed control by pipe node to each.Wherein, above-mentioned management and control instruction include information collect instruct and/or Environmental Kuznets Curves instruct.

Step 22, each performed after management and control instructs by pipe node is received by first message middleware communication module 12 to return As a result, and being sent to instruction results processing module 13.

Step 23, described instruction result treatment module 13 parses the result returned by pipe node, is recorded, concurrently Give and concentrate display module 14 to show each environment operating status by pipe node to concentrate.

In one embodiment, can also be managed to what is be connected with management node by first message middleware communication module 12 Node issues parameter maintenance instruction, with to being carried out state-maintenance and configuration by pipe node.

Fig. 3 is the structure diagram by pipe node provided in an embodiment of the present invention based on middleware, as shown in figure 3, should Mainly included by pipe node with lower part：Second message middleware communication module 31, command analysis module 32 and instruction perform mould Block 33.

Second message middleware communication module 31 is mainly used for receiving the management and control instruction that management node is sent, and is sent to finger Parsing module 32 is made, is worked with triggering command parsing module 32.Command analysis module 32 receives second message middleware communication mould After the instruction that block 31 is sent, management and control instruction is parsed and is classified to it, is referred to different management and control according to classes of instructions Order is distributed to corresponding instruction execution module, i.e., the management and control instruction of same type is routed to same finger according to the type of instruction Make in execution module 33, which includes information and collect instruction and/or environmental Kuznets Curves instruction.Each instruction execution module 33 is divided Not Zhi Hang corresponding types management and control instruction, and by implementing result by second message middleware communication module 31 be sent to management section Point.

In one embodiment, the quantity of above-mentioned instruction execution module 33 is usually multiple, including information collection module, At least one of environmental control module.

When above-mentioned management and control instruction, which includes information, collects instruction, after the parsing of command analysis module 32, which collects Instruction can be routed in information collection module, and information collection module then collects instruction acquisition currently by pipe node according to the information Environment operating parameter, also, after collection, information collection module leads to collected environment operating parameter group bag Cross second message middleware communication module 31 and be sent to management node.

When above-mentioned management and control instruction includes environmental Kuznets Curves instruction, after the parsing of command analysis module 32, the environmental Kuznets Curves Instruction can be routed in environmental control module, and environmental control module is then according to the environmental Kuznets Curves instruction modification currently by pipe node Monitored item attribute safeguarded, and amended monitored item attribute is sent to by second message middleware communication module 31 Management node.

In one embodiment, second message middleware communication module 31 is additionally operable to receive the environmental regulatory control in management node The parameter maintenance instruction that registration module 15 issues, and the parsing of described instruction parsing module and route are sent to, so that corresponding finger Execution module is made to carry out state-maintenance and configuration to the monitored item parameter by pipe node according to parameter maintenance instruction.

This have the advantage that establishing management node by way of message-oriented middleware and between by pipe node Two-way communication, management node quickly, flexibly can send control maintenance instruction by pipe node to each, and obtain ring in time Border operation conditions completes corresponding control operation, at the same to concentrate, it is friendly in a manner of check each environment operating condition, avoid by Cause higher environment maintenance cost in environment is more, monitored item is miscellaneous, improve the work efficiency of environment maintenance personnel.

Fig. 4 is the management-control method flow diagram provided in an embodiment of the present invention by pipe node one end.As shown in figure 4, should Method mainly includes the following steps that：

Step 41, referred to by pipe node by the management and control that the reception of second message middleware communication module 31 management node is sent Order, and it is sent to command analysis module 32.

Step 42, command analysis module 32 parses above-mentioned management and control and instructs and classify to it, to different types of management and control Instruction is route respectively.Above-metioned instruction type includes information and collects at least one of instruction, environmental Kuznets Curves instruction.

Step 43, the management and control for performing corresponding types respectively using corresponding instruction execution module 33 instructs, and will perform knot Fruit is sent to management node by second message middleware communication module 31.

This have the advantage that establishing management node by way of message-oriented middleware and between by pipe node Two-way communication, management node quickly, flexibly can send control maintenance instruction by pipe node to each, and obtain ring in time Border operation conditions completes corresponding control operation, at the same to concentrate, it is friendly in a manner of check each environment operating condition, avoid by Cause higher environment maintenance cost in environment is more, monitored item is miscellaneous, improve the work efficiency of environment maintenance personnel.

In one embodiment, at step 43, when management and control instruction, which includes information, collects instruction, then the instruction can quilt Command analysis module 32 is routed in the instruction execution module that instruction is collected for execution information, is collected instruction according to the information and is received The environment operating parameter being collected into is passed through second message middleware communication mould by collection currently by the environment operating parameter of pipe node Block 31 is sent to management node.

When management and control instruction includes environmental Kuznets Curves instruction, then the instruction can be commanded parsing module 32 and be routed to for holding In the instruction execution module of row environmental Kuznets Curves instruction, according to the environmental Kuznets Curves instruction modification currently by the monitored item category of pipe node Property, and amended monitored item attribute is sent to management node by second message middleware communication module 31.

In another embodiment, in addition to the management and control instruction that management node issues is received, management section can be also received by pipe node Point environmental regulatory control registration module issue parameter maintenance instruction, using dedicated for perform the execution module of the instruction according to Parameter maintenance instruction carries out state-maintenance and configuration to the monitored item parameter currently by pipe node.In addition, parameter maintenance instructs It is similar with environmental Kuznets Curves instruction property, all it is that some parameters of managed node side are modified or safeguarded, accordingly it is also possible to sharp Instructed with the instruction execution module of above-mentioned performing environment control instruction to perform the parameter maintenance, this executive mode is only this One embodiment of invention, the present invention are not limited thereto, in the specific implementation, can be set by the user and specifically be held by which module Which instruction of row.

Fig. 5 is the structure diagram of the managing and control system provided in an embodiment of the present invention based on middleware.As shown in figure 5, should Managing and control system includes a management node and multiple by pipe node, wherein, management node and set respectively by pipe node both ends There is message-oriented middleware communication module, two class nodes realize two-way communication by message-oriented middleware communication module.Solid line is pipe in figure The flow that node sends instruction is managed, dotted line is the flow of managed node feeding back instruction execution result.

When it is implemented, the centralized control module 11 of management node issue management and control instruction (generally include collect instruction and/or Control instruction), management and control instruction is sent to accordingly by pipe node, example by the message-oriented middleware communication module 12 of management node Such as by pipe node 1.Wherein, the operating parameter that instruction is mainly used for collecting each managed (environment) node, control instruction master are collected It is used for the monitored item attribute for changing each managed (environment) node.

Triggering command parsing module 32 after management and control instructs, docking are received by the message-oriented middleware communication module 31 of pipe node Received management and control instruction is parsed and classified to it, and different types of management and control instruction is routed to different instructions respectively In execution module 33.For example, by information collect instruction be distributed to one be used for perform collect instruct instruction execution module in, root The parameter in the monitored item state set in by pipe node is collected one by one according to the instruction, collection, which finishes, passes through implementing result group bag The message-oriented middleware communication module 12 of management node is back to by the message-oriented middleware communication module 31 of pipe node；By control instruction It is distributed in an instruction execution module for performing control instruction, according to the instruction to the monitored item attribute in by pipe node 1 Modify, modification result pipe can be sent to by the message-oriented middleware communication module 31 by pipe node 1 after modification Manage the message-oriented middleware communication module 12 of node.

Wherein, monitored item parameter set generally includes system environments class parameter (such as disk space/CPU implementation rates etc.), disappears Breath middleware class parameter (such as queue management device state, queue depth, intercept state, channel status etc.), application server class Parameter (such as WAS operating statuses, CICS operating statuses etc.), text class parameter (such as CICS application configurations file, WAS Application configuration file, FTP configurations parameter) and data class parameter (such as each code table data etc.).

Above-mentioned monitored item state set mainly includes system environments class state (such as disk space, when disk space takes Yellow early warning is sent during more than 50%, more than 80% when sends red early warning), message-oriented middleware class state (such as channel status For one kind in RUNNING/RETRYING/BINDING) and application server class state (such as the operating status of CICS is One kind in ACTIVE/INOPERATIVE etc.) etc., above-mentioned state by way of example only, is not intended to limitation of the present invention.

The instruction execution result received is sent at instruction results by the message-oriented middleware communication module 12 of management node Module 13 is managed, when it is implemented, can be first by instruction execution result storage into instruction results text set, the instruction of management node Result treatment module 13 again parses it after concentrating acquisition instruction execution result from the text, according to the receipts of monitored item parameter Collect the operating status of result and/or amended monitored item attributive analysis by pipe node, judge by pipe node monitored item whether It is abnormal.After parsing, analysis result is sent to analysis result database, finally by concentration display module 14 to it is each by The operation conditions of pipe node is uniformly showed, and carries out early warning to the state of monitored item exception.Management node, which is concentrated, shows mould Block 14 is mainly concentrated using unified page style shows each managed node environment operating status, and the pin in a manner of more friendly Management and control item to abnormal condition carries out early warning.

In addition, further including an environmental regulatory control registration module 15 in management node, which is mainly used for being managed by pipe node Maintenance state and configuration are managed, including the state-maintenance by pipe node is disposed with newly-increased by pipe node, it is convenient in the overall situation In the range of control registered by pipe node, disposed easy to newly-increased by pipe node.During normal environment maintenance, if do not had There are newly-increased environment nodes and need the environment nodes of change management state, then the step of step nonessential operation, the i.e. module It is the supplementary module of whole data processing.

When there are new environment nodes to be intended to add current managing and control system, accepted newly by tube coupling by environmental regulatory control registration module 15 The registration of point, is completed newly by the registration of pipe node and generating for configuration script at management node end, and in new managed node side Complete the execution and deployment of script, in order to management node and this newly realize two-way communication between by pipe node, convenient management section Point is to the management and control by pipe node.

When needing to being carried out parameter maintenance or state-maintenance by pipe node, it is necessary to by environmental regulatory control registration module 15 Corresponding parameter maintenance instruction (instruction is mainly used for the monitored item parameter of each managed (environment) node) is generated, and passes through pipe The message-oriented middleware communication module 12 of reason node, which is sent to, to be waited to safeguard the message-oriented middleware communication module 31 by pipe node, and by treating Safeguard to be sent to after being parsed by the command analysis module 32 of pipe node in corresponding instruction execution module and perform the instruction, such as can Parameter maintenance instruction is performed to be sent to control instruction execution module, the corresponding monitored item parameter by pipe node is tieed up Shield, safeguards that result can feed back to management node by middleware, can not also feed back to management node, the present invention is not with this It is limited.

The advantage of the invention is that management node is established and by tube coupling by the message-oriented middleware mode such as Websphere MQ The two-way communication of point, enables management node quickly, flexibly to be sent control maintenance instruction by pipe node to each, and obtains in time Corresponding control operation must be completed by pipe node by the environment operation conditions of pipe node or control, while to concentrate, in a manner of close friend Check each environment operating condition, avoid causing higher environment maintenance cost since environment is more, monitored item is miscellaneous, improve ring The work efficiency of border maintenance personnel.

It should be understood by those skilled in the art that, the embodiment of the present invention can be provided as method, system or computer program Product.Therefore, the present invention can use the reality in terms of complete hardware embodiment, complete software embodiment or combination software and hardware Apply the form of example.Moreover, the present invention can use the computer for wherein including computer usable program code in one or more The computer program production that usable storage medium is implemented on (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.) The form of product.

The present invention be with reference to according to the method for the embodiment of the present invention, the flow of equipment (system) and computer program product Figure and/or block diagram describe.It should be understood that it can be realized by computer program instructions every first-class in flowchart and/or the block diagram The combination of flow and/or square frame in journey and/or square frame and flowchart and/or the block diagram.These computer programs can be provided The processors of all-purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices is instructed to produce A raw machine so that the instruction performed by computer or the processor of other programmable data processing devices, which produces, to be used in fact The device for the function of being specified in present one flow of flow chart or one square frame of multiple flows and/or block diagram or multiple square frames.

These computer program instructions, which may also be stored in, can guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works so that the instruction being stored in the computer-readable memory, which produces, to be included referring to Make the manufacture of device, the command device realize in one flow of flow chart or multiple flows and/or one square frame of block diagram or The function of being specified in multiple square frames.

These computer program instructions can be also loaded into computer or other programmable data processing devices so that counted Series of operation steps is performed on calculation machine or other programmable devices to produce computer implemented processing, thus in computer or The instruction performed on other programmable devices is provided and is used for realization in one flow of flow chart or multiple flows and/or block diagram one The step of function of being specified in a square frame or multiple square frames.

Apply specific embodiment in the present invention to be set forth the principle of the present invention and embodiment, above example Explanation be only intended to help understand the present invention method and its core concept；Meanwhile for those of ordinary skill in the art, According to the thought of the present invention, there will be changes in specific embodiments and applications, in conclusion in this specification Appearance should not be construed as limiting the invention.

Claims (12)

1. A kind of 1. management-control method based on middleware, it is characterised in that the described method includes：

   Management node is issued management and control instruction to each by first message middleware communication module by pipe node, with to each described Control is managed by pipe node；Wherein, the management and control instruction includes information collection instruction and/or environmental Kuznets Curves instruction；

   Each described performed after the management and control instructs by pipe node is received by the first message middleware communication module to return Result；

   The result returned by pipe node is parsed, and concentrates and shows each environment operating status by pipe node.
2. 2. the management-control method according to claim 1 based on middleware, it is characterised in that the method further includes：Pass through The first message middleware communication module is issued parameter maintenance instruction by pipe node to what is be connected with the management node, with right It is described to be carried out state-maintenance and configuration by pipe node.
3. A kind of 3. management-control method based on middleware, it is characterised in that the described method includes：

   Instructed by pipe node by the management and control that second message middleware communication module reception management node is sent；

   Parse the management and control to instruct and classify to it, different types of management and control instruction is route respectively；Described instruction Type includes information and collects instruction and/or environmental Kuznets Curves instruction；

   The different types of management and control instruction is performed respectively, and implementing result is passed through into the second message middleware communication module It is sent to the management node.
4. 4. the management-control method according to claim 3 based on middleware, it is characterised in that perform the different type respectively Management and control instruction, and implementing result is sent to the management node by the second message middleware communication module, specifically Including：

   When management and control instruction, which includes information, collects instruction, by pipe node according to described information collects instruction acquisition Environment operating parameter, and the environment operating parameter is sent to the management by the second message middleware communication module Node；

   When management and control instruction includes environmental Kuznets Curves instruction, by pipe node according to the environmental Kuznets Curves instruction modification Monitored item attribute, and amended monitored item attribute is sent to the management by the second message middleware communication module Node.
5. 5. the management-control method according to claim 3 based on middleware, it is characterised in that the method further includes：Receive The parameter maintenance instruction that the management node issues, and the monitored item by pipe node is joined according to parameter maintenance instruction Number carries out state-maintenance and configuration.
6. 6. a kind of management node based on middleware, it is characterised in that the management node includes：Centralized control module, first Message-oriented middleware communication module, instruction results processing module and concentration display module；Described instruction result treatment module respectively with The first message middleware communication module, concentrate display module connection；

   The centralized control module is connected respectively by pipe node by the first message middleware communication module, for by described First message middleware communication module is issued management and control instruction to each by pipe node；Wherein, the management and control instruction includes information receipts Collection instruction and/or environmental Kuznets Curves instruction；

   The first message middleware communication module is additionally operable to return after receiving each management and control instruction by pipe node execution It is returning as a result, and being sent to described instruction result treatment module；

   Described instruction result treatment module is used to parse the result returned by pipe node, and is sent to the concentration Display module shows each environment operating status by pipe node to concentrate.
7. 7. the management node according to claim 6 based on middleware, it is characterised in that the management node further includes： Environmental regulatory control registration module, for managed to being connected with the management node by the first message middleware communication module Node issues parameter maintenance instruction, to be carried out state-maintenance and configuration by pipe node to described.
8. 8. it is a kind of based on middleware by pipe node, it is characterised in that it is described to be included by pipe node：Second message middleware communication Module, command analysis module and instruction execution module；

   The second message middleware communication module is used to receive the management and control instruction that management node is sent, and is sent to described instruction Parsing module；

   Described instruction parsing module is used to parse the management and control instruction and classifies to it, to different types of management and control instruction point It is not route, management and control instruction is distributed to corresponding instruction execution module；Described instruction type include information collect instruction and/ Or environmental Kuznets Curves instruction；

   Each described instruction execution module performs the different types of management and control instruction respectively, and implementing result is passed through described second Message-oriented middleware communication module is sent to the management node.
9. 9. it is according to claim 8 based on middleware by pipe node, it is characterised in that described instruction execution module bag Include：Information collection module and/or environmental control module；

   When management and control instruction, which includes information, collects instruction, described information collection module, which is used to be collected according to described information, to be referred to The environment operating parameter by pipe node is collected in order, and the environment operating parameter is led to by the second message middleware Letter module is sent to the management node；

   When management and control instruction includes environmental Kuznets Curves instruction, the environmental control module is used to be referred to according to the environmental Kuznets Curves Safeguarded described in order modification by the monitored item attribute of pipe node, and amended monitored item attribute is passed through into the second message Middleware communication module is sent to the management node.
10. 10. it is according to claim 8 based on middleware by pipe node, it is characterised in that the second message middleware Communication module is additionally operable to receive the parameter maintenance instruction that the management node issues, and is sent to the parsing of described instruction parsing module And route so that it is corresponding instruction execution module according to the parameter maintenance instruct to the monitored item parameter by pipe node into Row state-maintenance and configuration.
11. A kind of 11. managing and control system based on middleware, it is characterised in that the system comprises：One such as 6 or 7 institute of claim The management node and at least one such as claim 8-10 any one of them stated are by pipe node；

    The first message middleware communication module of the management node and the second message middleware communication mould by pipe node Block connects, and is used for realization the management node and the two-way communication between by pipe node.
12. 12. the managing and control system according to claim 11 based on middleware, it is characterised in that

    The centralized control module of the management node is used to instruct down management and control by the first message middleware communication module It is dealt into each second message middleware communication module by pipe node；

    The management and control instruction that the second message middleware communication module is used to receive is instructed described in being sent to by pipe node Parsing module；

    Described instruction parsing module is used to parse management and control instruction and classify to it, to different types of management and control Instruction is route respectively, and management and control instruction is distributed to the command adapted thereto execution module by pipe node；

    Each described instruction execution module is respectively used to perform different types of management and control instruction, and implementing result is passed through described second Message-oriented middleware communication module is sent to the first message middleware communication module；

    The first message middleware communication module is additionally operable to the implementing result being sent to the instruction knot of the management node Fruit processing module, to be parsed to the implementing result, and is sent to the management node by the implementing result after parsing Concentrate display module；

    It is described to concentrate display module to be used to show each environment operation shape by pipe node according to the implementing result concentration after parsing State.