CN102195860A - Method and platform for configuring network node interconnection data - Google Patents
Method and platform for configuring network node interconnection data Download PDFInfo
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Abstract
The invention provides a method and platform for configuring network node interconnection data. The method comprises the following steps of: receiving a configuration parameter of the network node interconnection data; and automatically generating a data configuration script of the network node interconnection data according to the configuration parameter and a preset script generating rule. By adopting the method and the platform, the problems of possible errors and low efficiency caused by offline manual making of the script are solved, and the configuration accuracy and efficiency of the network node interconnection data are increased.
Description
Technical field
The present invention relates to field of communication networks, be specifically related to a kind of collocation method and platform of network node internet data.
Background technology
Communication network is an interconnected network, and each node all needs with other nodes interconnected, and need dispose the data to adjacent node, and the node of intercommunication is more more needs the data that dispose just many more.Signal switching node with core net is an example, and whenever newly-increased direct-connected signaling node all needs signal switching node configuration internet data.At present, the mode that needs the keeper of two nodes to make script by hand by manual input or off line for this type of data is carried out the configuration of internet data, big, the consuming time length of workload and occur carelessness and leak easily.The telecommunications core network node types is varied at present, intercommunication data configuration rule at every category node has nothing in common with each other, adopt mode manually to write the data configuration script, a large amount of hand labour meetings that repeat cause office data making very consuming time, and are difficult to guarantee accuracy rate.
The configuring technical scheme of existing network node internet data has following deficiency:
(1) the mode efficient by manual input is low, accuracy is not high.
(2) to make the mode workload of script by hand bigger for off line, and efficient is low, accuracy is difficult to guarantee.
Summary of the invention
First purpose of the present invention is the collocation method of the high network node internet data of a kind of efficient height of proposition and accuracy rate.
Second purpose of the present invention is the configuration platform of the high network node internet data of a kind of efficient height of proposition and accuracy rate.
For realizing above-mentioned first purpose, the invention provides a kind of collocation method of network node internet data, comprise the configuration parameter that receives the network node internet data; According to configuration parameter and default script create-rule, generate the data configuration script that is used for configuration network node internet data automatically.
For realizing above-mentioned second purpose, the invention provides a kind of configuration platform of network node internet data, comprise the parameter receiver module, be used to receive the configuration parameter of network node internet data; Script generation module is used for generating the data configuration script that is used for configuration network node internet data automatically according to configuration parameter and default script create-rule.
Among each embodiment of the present invention, by reaching default script create-rule automatically generated data configuration script according to configuration parameter, avoid off line to make contingent mistake of script and the not high problem of efficient by hand, the configuration of network node internet data accuracy rate and efficient are arranged thereby improved.
Description of drawings
Accompanying drawing is used to provide further understanding of the present invention, and constitutes the part of specification, is used to explain the present invention in the lump with embodiments of the invention, is not construed as limiting the invention.In the accompanying drawings:
Fig. 1 is embodiment one flow chart of the collocation method of network node internet data of the present invention;
Fig. 2 is embodiment two flow charts of the collocation method of network node internet data of the present invention;
Fig. 3 is the example structure figure of the configuration platform of network node internet data of the present invention.
Embodiment
Below in conjunction with accompanying drawing the preferred embodiments of the present invention are described, should be appreciated that preferred embodiment described herein only is used for description and interpretation the present invention, and be not used in qualification the present invention.
Method embodiment
Fig. 1 is embodiment one flow chart of the collocation method of network node internet data of the present invention.As shown in Figure 1, present embodiment comprises:
Step S102: the configuration parameter that receives the network node internet data; Specific operation process is explained referring to step S201's among Fig. 2;
Step S104:, generate the data configuration script that is used for configuration network node internet data automatically according to configuration parameter and default script create-rule; Specific operation process is explained referring to step S202's among Fig. 2.
Present embodiment is by reaching default script create-rule automatically generated data configuration script according to configuration parameter, avoid off line to make contingent mistake of script and the not high problem of efficient by hand, the configuration of network node internet data accuracy rate and efficient are arranged thereby improved.
Fig. 2 is embodiment two flow charts of the collocation method of network node internet data of the present invention.As shown in Figure 2, present embodiment comprises:
Step S201: the configuration parameter that receives the network node internet data;
Step S202:, generate other configuration parameter according to configuration parameter and default parameter create-rule; May further comprise the steps during concrete operations:
A. according to the SoftSwitch title in the configuration parameter, local entity index, office direction title, signaling point code and mobile switching center number (Mobile Switch Center Identity, be called for short MSCID), generate office direction number;
B. according to " Call Control Unit (Call Control Unit is called for short CCU) module No. ", " Call Instance Code (Call Instance Code is called for short CIC) " in the configuration parameter, select " CIC number continuously ", generate " finishing CIC " automatically;
C. calculate " local terminal port " automatically according to office direction number and reach " Peer-Port ", and, obtain " local terminal IP address to " automatically according to the SoftSwitch title;
Step S203:, generate the data configuration script that is used for configuration network node internet data automatically according to configuration parameter and default script create-rule;
Step S204: visualization display data configuration script;
Step S205: the download instruction according to receiving is kept at the data configuration script under the specified path;
Step S206: according to the delete instruction that receives, the visualization display of the configuration script that clears data.
Present embodiment avoids off line to make contingent mistake of script and the not high problem of efficient by hand by the automatically generated data configuration script, thereby improved the configuration of network node internet data accuracy rate and efficient is arranged; Only need fill on a small quantity simultaneously and must fill out parameter, quantity of parameters is that platform generates automatically according to the rule of setting in advance, need not manual intervention, further reduces the amount of labour, effectively presses to subtract intercommunication data creating duration.
Platform embodiment
Fig. 3 is the example structure figure of the configuration platform of network node internet data of the present invention.Each embodiment of above-mentioned Fig. 1 and the invention of Fig. 2 method all can realize in the platform of structure shown in Fig. 3 structure chart.As shown in Figure 3, this platform comprises: parameter receiver module 31 is used to receive the configuration parameter of network node internet data; Script generation module 32 is used for generating the data configuration script that is used for configuration network node internet data automatically according to configuration parameter and default script create-rule.
During concrete operations, this platform can also comprise: parameter generation module 33, be used for configuration parameter that receives according to the parameter receiver module and the parameter create-rule of presetting, and the configuration parameter that generates other generates the data configuration script to be used for script generation module; Display module 34 is used for visualization display data configuration script; Preserve administration module 35, be used for the data configuration script being kept under the path of appointment according to the download instruction that receives; Deletion administration module 36 is used for removing the visualization display of display module 34 according to the delete instruction that receives.
According to the design needs, parameter receiver module 31 can be set to inputting interface form (below be reduced to the table 1-4 form); Parameter generation module 33 can comprise:
Basic parameter generation module 332 is used for the SoftSwitch title according to configuration parameter, local entity index, office direction title, signaling point code and MSCID, generates office direction number; As shown in table 1: as by selected SoftSwitch title of the drop-down choice menus in the parameter receiver module 31 and local entity index to be, by manual input " office direction title ", " signaling point code " and " MSCID "; After treating the above-mentioned parameter input, basic parameter generation module 332 is according to default parameter create-rule, automatically generate office direction number, as identification for convenience, regulation office direction title front adds that 5 are office direction number in the office data standard, like this, number is 527 corresponding to the office direction of WHGS27, if be not set to 5 also can, in system, adjust in advance and get final product;
Table 1 basic parameter
| Parameter name | Parameter value |
| The SoftSwitch title | WHSSA1 |
| Local entity index | 0-11FB00-WHSSA1 |
| The office direction title | WHGS27 |
| Office direction number | 527 |
| Signaling point code | 17-255-34 |
| MSCID | 13444715 |
M3UA (the transmission of messages third level (Message Transfer Part 3, be called for short MTP-3) user's adapting protocol) link generation module 334, be used for reaching " Peer-Port " according to office direction number automatic calculate " local terminal port ", and, obtain " local terminal IP address to " automatically according to the SoftSwitch title; As shown in table 2: M3UA link generation module 334 can comprise: office direction of partly importing according to the basic parameter of parameter receiver module 31 number and built-in port computation rule, automatically calculate " local terminal port " and " Peer-Port ", add " office direction number " for " 2 " as Local port number and add in " 1,3,5,7 " more in proper order; Peer port number for " 2 " add " office direction number " again order add in " 0,2,4,6 " one, as long as imported the port numbers of first row, 1,3,5,7 and 0,2,4,6 of back can write automatically; If the user is revised as a certain preset value with any one " Peer-Port ",, automatically all the other " Peer-Ports " unifications are revised as 2905 as 2905; Because the IP address of local terminal interlink node equipment is to being fixed value, for example: 10.1.9.4 and 10.1.9.5 are filled in the system in that the interface is set in advance, when needing herein to use this value, directly read and get final product from internal system, that is to say, according to " the SoftSwitch title " that basic parameter certain customers are selected, from database, read and insert " the local terminal IP address to " of this node automatically; Fill in " peer IP address to ", two IP address ﹠amp; Connect; The user imports the 1st row " broadband signalling processing module (Broadband Signal Group; be called for short BSG) module No. ", automatically fill in the BSG module No. of subsequent rows, the BSG module No. computation rule of subsequent rows can freely be set, as adding " 1 " for lastrow BSG module No.; The user imports " link No. " of the 1st row, employs this link No. certainly and is filled into remaining row;
Table 2 M3UA link parameter
| Sequence number | The BSG module No. | Link No. | Local terminal IP address is right | The local terminal port | Peer IP address is right | Peer-Port |
| 1 | ?133 | 52 | 10.0.47.5&10.0.169.4 | 25271 | 10.25.5.18& 10.25.6.18 | 25270 |
| 2 | ?134 | 52 | 10.0.47.5&10.0.169.4 | 25273 | 10.25.5.18& 10.25.6.18 | 25272 |
| 3 | ?135 | 52 | 10.0.47.6&10.0.169.5 | 25275 | 10.25.5.19& 10.25.6.19 | 25274 |
| 4 | ?136 | 52 | 10.0.47.6&10.0.169.5 | 25277 | 10.25.5.19& 10.25.6.19 | 25276 |
CIC parameter generation module 336 is used for " CCU module No. ", " initial CIC " according to configuration parameter, selects " CIC number continuously ", generates " finishing CIC " automatically; Concrete operations can be as shown in table 3: the function of CIC parameter generation module 336 can comprise: at first by " CCU module No. ", " the initial CIC " of parameter receiver module 31 inputs the 1st row, " the CIC number continuously " selected, automatically generate " finishing CIC ", as: the continuous CIC number of the initial CIC+ of CIC=finished; By the CCU module No. of parameter receiver module 31 inputs the 2nd row, generate subsequent parameter automatically again, as above-mentioned " finishing the continuous CIC number of the initial CIC+ of CIC="; In addition, can also reselect continuous CIC number, and recomputate automatically; If finished the input of multirow parameter, can take office any parameter of delegation's modification except that the CCU module No., also can finish one's own profession parameter modifications of all row afterwards automatically, as carrying out self adaptation and revise according to " finishing CIC "=" initial CIC "+" CIC number continuously "; And, since initial CIC to require be 32 integral multiple, so if initial CIC is not 32 integral multiple, calculating automatically is revised as the numerical value less than 32 integral multiple of currency.
Table 3 CIC parameter
| Sequence number | The CCU module No. | Initial CIC | Continuous CIC number | Finish CIC |
| 1 | ?26 | ?0 | ?256 | ?255 |
| 2 | ?30 | ?256 | ?256 | ?511 |
| 3 | ?42 | ?512 | ?256 | ?767 |
| 4 | ?50 | ?768 | ?256 | ?1023 |
This parameter receiver module 31 can also be used to receive routing parameter, and is as shown in table 4: import standby " sub-routing number " and corresponding " percentage ", can be sky, can import four at most.The user can revise percentage as required, and this parameter receiver module 31 can guarantee that the percentage sum of all sub-routes is 100.After above-mentioned each module is finished and filled in and generate all parameters, click the button (not shown) of " checking instruction ", script generation module 32 can generate the data creating MML instruction of this node in the instruction area; After all instructions generate and finish, can click the button (not shown) of " download ", the instruction that preservation administration module 35 will generate is saved in this locality, and perhaps the mode that copies by text selecting pastes instruction in the text and preserves; Click the button (not shown) of " flush instructions ", but preserve the full content in administration module 36 flush instructions districts.
Table 4 routing parameter
| Standby sub-route | Sub-routing number | Percentage |
| SR2 | 25 | 33 |
| SR3 | 26 | 33 |
| SR4 | 27 | 34 |
| SR5 |
Need to prove that this platform can be the platform of a cover B-S framework.Because the B-S framework does not need to install local client, just can move by browser, make the keeper be in the data that a place promptly can dispose each office point, the whole nation; Each parameter of configuration data and parameter fill in the rule all can in the debugging design module of platform, revise, standard, guarantee this cover platform go for more eurypalynous node intercommunication data configuration; Preserving administration module 35 can be used for display module 34 data presented configuration scripts are kept under the path of appointment.
In the present embodiment, by configuring rule in advance, when the configuration internet data, only need fill on a small quantity and must fill out parameter, all the other parameters can generate according to rule automatically, and can realize the output of the complete intercommunication data configuration script that moves, and improve the efficient and the accuracy of data configuration; Owing to need not to install client, on browser, can move simultaneously, just can finish other place node intercommunication data configurations of the whole nation, further press the internet data that subtracts network node to make duration at the three unities; In addition, can revise arbitrarily, guarantee that platform goes for more dissimilar node intercommunication data configuration, supports the access way of dissimilar nodes parameter name and the corresponding rule of filling in.
It should be noted that at last: above only is the preferred embodiments of the present invention, be not limited to the present invention, although the present invention is had been described in detail with reference to previous embodiment, for a person skilled in the art, it still can be made amendment to the technical scheme that aforementioned each embodiment put down in writing, and perhaps part technical characterictic wherein is equal to replacement.Within the spirit and principles in the present invention all, any modification of being done, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.
Claims (10)
1. the collocation method of a network node internet data is characterized in that, may further comprise the steps:
Receive the configuration parameter of network node internet data;
According to described configuration parameter and default script create-rule, generate the data configuration script that is used for configuration network node internet data automatically.
2. the collocation method of network node internet data according to claim 1 is characterized in that, described according to described configuration parameter and default script create-rule, the step that generates the data configuration script that is used for configuration network node internet data automatically comprises:
According to described configuration parameter and default parameter create-rule, generate other configuration parameter;
According to described configuration parameter, other configuration parameter and script create-rule, generate described data configuration script.
3. the collocation method of network node internet data according to claim 2 is characterized in that, described according to described configuration parameter and default parameter create-rule, the step that generates other configuration parameter comprises:
According to described configuration parameter and parameter create-rule, generate office direction number, call instance code parameters and M3UA link parameter.
4. the collocation method of network node internet data according to claim 3 is characterized in that, and is described according to described configuration parameter and parameter create-rule, and the step that generates office direction number, call instance code parameters and M3UA link parameter comprises:
According to the SoftSwitch title in the described configuration parameter, local entity index, office direction title, signaling point code and mobile switching center number, generate office direction number;
According to the Call Control Unit module No. in the described configuration parameter, originated call example code and subsequenct call example yardage, generate automatically " terminated call example code ";
Automatically calculate " local terminal port " according to described office direction number and reach " Peer-Port ", and obtain " local terminal IP address to " automatically according to described SoftSwitch title.
5. require the collocation method of each described network node internet data among the 1-4 according to aforesaid right, it is characterized in that, according to described configuration parameter and default script create-rule, the step that generates the data configuration script that is used for configuration network node internet data automatically also comprises afterwards described:
The described data configuration script of visualization display;
Download instruction according to receiving is kept at described data configuration script under the specified path;
According to the delete instruction that receives, remove the visualization display of described data configuration script.
6. the configuration platform of a network node internet data is characterized in that, this platform comprises:
The parameter receiver module is used to receive the configuration parameter of network node internet data;
Script generation module is used for generating the data configuration script that is used for configuration network node internet data automatically according to described configuration parameter and default script create-rule.
7. the configuration platform of network node internet data according to claim 6 is characterized in that, also comprises:
The parameter generation module is used for configuration parameter that receives according to described parameter receiver module and the parameter create-rule of presetting, and the configuration parameter that generates other generates described data configuration script to be used for described script generation module.
8. the configuration platform of network node internet data according to claim 7 is characterized in that, described parameter generation module comprises:
The basic parameter generation module is used for the SoftSwitch title according to described configuration parameter, local entity index, office direction title, signaling point code and mobile switching center number, generates office direction number;
Call instance code parameters generation module is used for Call Control Unit module No., originated call example code, subsequenct call example yardage according to described configuration parameter, generates automatically " terminated call example code ";
M3UA link generation module is used for calculating " local terminal port " automatically according to described office direction number and reaches " Peer-Port ", and obtains " local terminal IP address to " automatically according to described SoftSwitch title.
9. require the configuration platform of each described network node internet data of 6-8 according to aforesaid right, it is characterized in that, also comprise:
Display module is used for the described data configuration script of visualization display;
Preserve administration module, be used for described data configuration script being kept under the path of appointment according to the download instruction that receives;
The deletion administration module is used for removing the visualization display of described display module according to the delete instruction that receives.
10. the configuration platform of network node internet data according to claim 9 is characterized in that, it is the B-S framework.
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Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN103186639A (en) * | 2011-12-31 | 2013-07-03 | 腾讯科技(北京)有限公司 | Data generation method and system |
| CN103365638A (en) * | 2012-03-29 | 2013-10-23 | 北京九州华海科技有限公司 | Single-chip microcomputer development system and method based on ECUCoder |
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| CN1980144A (en) * | 2005-12-09 | 2007-06-13 | 中兴通讯股份有限公司 | Method for quickly configurating large data-quantity network management data |
| CN101242305A (en) * | 2008-02-25 | 2008-08-13 | 中兴通讯股份有限公司 | Parameter configuration method and device for network device |
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| CN103186639A (en) * | 2011-12-31 | 2013-07-03 | 腾讯科技(北京)有限公司 | Data generation method and system |
| CN103186639B (en) * | 2011-12-31 | 2017-10-10 | 腾讯科技(北京)有限公司 | Data creation method and system |
| CN103365638A (en) * | 2012-03-29 | 2013-10-23 | 北京九州华海科技有限公司 | Single-chip microcomputer development system and method based on ECUCoder |
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