CN107087266B - Method and device for making industry customer short message office data - Google Patents
Method and device for making industry customer short message office data Download PDFInfo
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- H04—ELECTRIC COMMUNICATION TECHNIQUE
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- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/12—Messaging; Mailboxes; Announcements
- H04W4/14—Short messaging services, e.g. short message services [SMS] or unstructured supplementary service data [USSD]
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Abstract
The invention discloses a method and a device for making industry client short message office data, which are used for solving the problem that the industry client short message office data accessed by province companies is inconsistent with the group industry gateway standard short message office data and improving the accuracy of making the industry client short message office data. The industry client short message service bureau data making method comprises the following steps: receiving first network data synchronized by a central office data management platform NDMP, wherein the first network data is synchronized by a group NDMP to the central office NDMP; receiving first service data and second network data synchronized by an IAGW-M module of provincial industry application gateway management, wherein the first service data and the second network data are synchronized to the IAGW-M module of provincial industry by a CRM system through an EDSMP (integrated management platform); and if the second network data is consistent with the first network data, processing the first service data.
Description
Technical Field
The invention relates to the technical field of communication, in particular to a method and a device for making industry client short message service bureau data.
Background
The data making of the client short message bureau of the newly added industry of the province company is divided into the data making of the client short message bureau of the industry accessed by the newly added province and the data making of the client short message bureau of the industry accessed by the newly added province, and the data making of the client short message bureau of the industry accessed by the newly added province comprises the following steps: and newly adding the data of the whole network attribute of the province access to the industry client short message bureau and newly adding the data of the local attribute of the province access to the industry client short message bureau.
The process for making the data of the industry client short message office with the added whole network attribute accessed by the province comprises the steps shown in figure 1:
s11, the Service assistant initiates an industry client short message office data making request with the whole network attribute to the group company espp (client Service Operation Platform) through the Client Relationship Management (CRM) system of the province company.
S12, the provincial company CRM system receives the identification of the industry client short message office data production which is sent by the group company ESOP and allows the whole network attribute.
Specifically, after receiving a Data making request of an industry client short message office with the whole Network attribute initiated by a CRM of a province company, an ESOP of the group company generates an industry client short message office Data making work order with the whole Network attribute by a group EOMS (Electric Operation maintenance system) after the ESOP of the group company passes the approval of a headquarter government, the work order is sent to a Network part of the group company, the Network part of the group company is sent to a NDMP (Network Data management platform) of the group company and is synchronized to maintenance personnel of IAGWs (Identification Gateway) of each province, the maintenance personnel of each province GW make industry short message office Data according to the industry client short message office Data with the whole Network attribute, and the industry client short message office Data making work order is fed back to the ESOP of the CRM of the group company after the ESOP of the group company passes the approval after the making is finished, the local company CRM system receives the identification of the industry client short message office data production that allows for the full network attributes.
S13, the CRM System of provincial company synchronizes the network data and the service data to EDSMP (Enterprise data service Management Platform), and synchronizes the charging data to BOSS (Business Operation Support System).
Wherein the network data includes a service code, an enterprise code, an IP address, and a flow control value.
S14, EDSMP synchronizes the network data and service data to the provincial IAGW-M (Industry application gateway Management) module.
Specifically, the EDSMP synchronizes network data and service data into the provincial IAGW-M module through an MQ (Message Queue) interface.
The S15 module synchronizes the network data and the service data to the corresponding IAGW-A (industry application Gateway access Agent) module of the province.
And S16, completing the automatic production of the industry client short message service office data with the whole network attribute in the IAGW-A module.
The data of the business customer short message office with the whole network attribute accessed by the province is synchronized to EDSMP by the province CRM system, then the province IAGW-M module is synchronized by the EDSMP, and then the IAGW-M module is synchronized to the corresponding IAGW-A module of the province to complete the automatic manufacture of the data of the business customer short message office with the whole network attribute, because the data input by the province company CRM system is not strictly limited and checked by the work list of the business customer short message office with the whole network attribute issued by a group, namely, the network data and the business data are both manufactured by the business department, the network department can not control, when the group checks the current network data, the problem that the data of the business customer short message office with the whole network attribute accessed by the province is inconsistent with the data of the group industry customer short message office standard office with the whole network attribute accessed by the province is solved, and the flow of the data of the business customer short message office with the whole network attribute accessed by the province is modified and deleted and the data of the The making processes are consistent, so that the same problems exist in modifying and deleting the industry client short message service office data with the whole network attribute accessed in the province.
Disclosure of Invention
The invention provides a method and a device for making industry client short message office data, which are used for solving the problem that the industry client short message office data accessed by provincial companies is inconsistent with the group industry gateway standard short message office data and improving the accuracy of making the industry client short message office data.
The embodiment of the invention provides a method for making industry customer short message office data, which comprises the following steps:
receiving first network data synchronized by a central office data management platform NDMP, wherein the first network data is synchronized by a group NDMP to the central office NDMP;
receiving first service data and second network data synchronized by an IAGW-M module of provincial industry application gateway management, wherein the first service data and the second network data are synchronized to the IAGW-M module of provincial industry by a CRM system through an EDSMP (integrated management platform);
and if the second network data is consistent with the first network data, processing the first service data.
The embodiment of the invention provides a device for making industry client short message office data, which comprises:
a first receiving unit, configured to receive first network data synchronized by a central office data management platform NDMP, where the first network data is synchronized by a group NDMP to the central office NDMP;
the system comprises a first receiving unit, a second receiving unit and a third receiving unit, wherein the first receiving unit is used for receiving first service data and second network data synchronized by an IAGW-M module of the provincial industry application gateway management (IAGW), and the first service data and the second network data are synchronized to the IAGW-M module by a CRM system through an EDSMP (integrated management platform for group services);
and the determining unit is used for processing the first service data if the second network data is consistent with the first network data.
The beneficial effects of the invention include:
in the method and apparatus for manufacturing data of an industry client short message service bureau provided by the embodiment of the invention, a provincial industry application gateway IAGW-A module receives first network data synchronized by a provincial industry data management platform NDMP and first service data and second network data synchronized by a provincial industry application gateway management IAGW-M module, wherein the first network data is synchronized by a group NDMP to the provincial NDMP, the first service data and the second network data are synchronized by a provincial client relationship management CRM system to the provincial IAGW-M module through the group service integrated management platform EDSMP, if the second network data is determined to be consistent with the first network data, the first service data is processed, in the process, the provincial NDMP is added, the second network data synchronized to the provincial IAGW-A module by the provincial CRM system after being synchronized to the provincial IAGW-M module through the EDSMP is compared with whether the first network data synchronized to the provincial NDMP is consistent or not, and when the data are consistent, the first service data which is synchronized to the provincial IAGW-M module by the CRM system through the EDSMP and then is synchronized to the provincial IAGW-A module is processed, so that the second network data which is synchronized to the provincial IAGW-A module after being synchronized to the provincial IAGW-M module by the CRM system through the EDSMP is consistent with the data of the group industry gateway standard short message service bureau, and the accuracy of data making of the industry client short message service bureau is improved.
Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:
FIG. 1 is a schematic diagram of a process for creating data of a short message service bureau of an industry client with a new global network attribute accessed by the province in the prior art;
FIG. 2 is a schematic diagram of an implementation flow of a method for making data of an industry client short message service office according to an embodiment of the present invention;
FIG. 3 is a flowchart illustrating a process of determining whether second network data is consistent with first network data according to an embodiment of the present invention;
FIG. 4 is a flowchart illustrating a process of determining whether the second basic information table is consistent with the first basic information table according to an embodiment of the present invention;
fig. 5 is a flowchart illustrating a process of determining whether the second service code information table is consistent with the first service code information table according to an embodiment of the present invention;
fig. 6 is a schematic flowchart illustrating a process of determining whether a second local MO routing information table is consistent with a first local MO routing information table according to an embodiment of the present invention;
fig. 7 is a schematic structural diagram of an industrial customer short message service office data creation device in an embodiment of the present invention.
Detailed Description
The invention provides a method and a device for manufacturing industry client short message office data, aiming at solving the problem that the industry client short message office data accessed by province companies is inconsistent with the group industry gateway standard short message office data and improving the accuracy of manufacturing the industry client short message office data.
The implementation principle of the method for making the industry client short message office data provided by the embodiment of the invention is as follows: the IAGW-A module of the provincial industry application gateway receives first network data synchronized by an NDMP of a provincial bureau data management platform, and first service data and second network data synchronized by an IAGW-M module of the provincial industry application gateway, wherein the first network data are synchronized by a group NDMP to the provincial NDMP, the first service data and the second network data are synchronized by a CRM system to the IAGW-M module through the EDSMP of the provincial customer relationship management platform, if the second network data are consistent with the first network data, the first service data are processed, in the process, the provincial NDMP is added, the second network data synchronized to the IAGW-A module by the EDSMP are compared, whether the first network data synchronized to the provincial IAMP by the group NDMP are consistent or not is judged, and when the first network data are consistent, the second network data synchronized to the provincial IAGW-M module by the CRM system are synchronized to the IAGW-M module through the EDSMP, and the first network data synchronized to the NDMP by the CRM system, And the first service data synchronized to the provincial IAGW-A module is processed, so that the consistency of second network data synchronized to the provincial IAGW-A module by the provincial CRM system after being synchronized to the provincial IAGW-M module through the EDSMP and the data of the group industry gateway standard short message bureau is ensured, and the accuracy of manufacturing the data of the industry client short message bureau is improved.
The preferred embodiments of the present invention will be described below with reference to the accompanying drawings of the specification, it being understood that the preferred embodiments described herein are merely for illustrating and explaining the present invention, and are not intended to limit the present invention, and that the embodiments and features of the embodiments in the present invention may be combined with each other without conflict.
First, the embodiment of the present invention is described by taking an industry client short message service office data creation method with newly added global attributes of the province access as an example, and as shown in fig. 2, the embodiment of the present invention is an implementation flow diagram of the industry client short message service office data creation method provided in the embodiment of the present invention, and the implementation flow diagram may include the following steps:
s21, receiving first network data synchronized by a central office data management platform NDMP, wherein the first network data is synchronized to the central office NDMP by a group NDMP.
In this step, the provincial industry application gateway access agent IAGW-A module receives first network data synchronized by the provincial NDMP, wherein the first network data is synchronized to the provincial NDMP by a group NDMP, and the first network data is generated by informing a group electronic operation and maintenance system EOMS after the group NDMP generates a data making request according to an industry customer short message service bureau submitted by the provincial CRM system through a group customer service integrated operation platform ESOP.
Specifically, the business assistant initiates an industry short message data production request with a newly increased whole network attribute to a group ESOP through a province CRM system, and after the approval of headquarter government and enterprise, the group EOMS generates an industry client short message office data production work order with the newly increased whole network attribute, wherein the data production work order comprises newly increased first network data, and the first network data comprises: the group EOMS sends an industry customer short message service office data production work order with the whole network attribute to a group network part, the group network part synchronizes the data production work order containing the newly added first network data to a group NDMP, the group NDMP synchronizes the data work order to a provincial NDMP, namely, the first network data is synchronized to the provincial NDMP, and then the provincial NDMP sends the first network data to an provincial IAGW-A module.
S22, receiving first service data and second network data synchronized by an IAGW-M module of provincial industry application gateway management, wherein the first service data and the second network data are synchronized to the IAGW-M module of provincial industry by a CRM system through an EDSMP (integrated management platform for group services).
In this step, the provincial IAGW-A module receives first service data and second network data which are synchronized by the provincial IAGW-M module and need to be newly added, wherein the first service data and the second network data are synchronized to the provincial IAGW-M module by a provincial Customer Relationship Management (CRM) system through a group service integrated management platform EDSMP.
Specifically, in step S21, the group NDMP synchronizes the business customer sms office data creation work order with the global attributes to the province NDMP, and synchronizing to each province IAGW maintainer, each province IAGW maintainer manufactures work orders to manufacture industry client short message office data according to the industry client short message office data with the whole network attribute, after the manufacture is finished, the data is fed back to a CRM system of the province company through a group company ESOP after the approval of headquarter government and enterprise, the CRM system of the province company receives the identification for manufacturing the industry client short message office data with the whole network attribute, and synchronizing the first service data and the second network data to the EDSMP, synchronizing the charging data to the BOSS, synchronizing the first service data and the second network data to the provincial IAGW-M module through the MQ interface by the EDSMP, and synchronizing the first service data and the second network data to the provincial IAGW-A module through the provincial IAGW-M module.
And S23, if the second network data is consistent with the first network data, processing the first service data.
In this step, the IAGW-a module compares the second network data with the first network data, and processes the first service data when it is determined that the second network data is consistent with the first network data.
Specifically, it may be determined whether the second network data is consistent with the first network data according to the process shown in fig. 3, which may include the following steps:
s31, generating a first basic information table, a first service code information table and a first local MO routing information table according to the first network data.
In specific implementation, after the provincial NDMP synchronizes the first network data to the provincial IAGW-a module, the IAGW-a module generates the following three information tables: a first basic information table, a first service code information table, and a first local MO routing information table. The first basic information table includes a first enterprise code, a first IP address, and a first traffic control value, the first service code information table includes a first service code and a first enterprise code, and the first local MO routing information table includes a first service code and a first enterprise code.
S32, generating a second basic information table, a second service code information table and a second local MO routing information table according to the second network data.
In specific implementation, after the provincial IAGW-M module synchronizes the second network data to the provincial IAGW-a module, the IAGW-a module generates a second basic information table, a second service code information table, and a second local MO routing information table. The second basic information table includes a second enterprise code, a second IP address, and a second traffic control value, the second service code information table includes a second service code and a second enterprise code, and the second local MO routing information table includes a second service code and a second enterprise code.
S33, respectively comparing whether the data contained in the second basic information table and the first basic information table are consistent, whether the data contained in the second service code information table and the first service code information table are consistent, and whether the data contained in the second local MO routing information table and the first local MO routing information table are consistent.
S34, if the second basic information table is consistent with the data contained in the first basic information table, the second service code information table is consistent with the data contained in the first service code information table, and the second local MO routing information table is consistent with the data contained in the first local MO routing information table, determining that the second network data is consistent with the first network data.
And S35, if the data contained in any information table is inconsistent, determining that the second network data is inconsistent with the first network data.
Specifically, in step S33, it may be determined whether the data contained in the second basic information table and the first basic information table are consistent according to the flow shown in fig. 4, and the following steps may be included:
s41, respectively comparing whether the second enterprise code is consistent with the first enterprise code, whether the second IP address is consistent with the first IP address, and whether the second flow control value is consistent with the first flow control value.
In specific implementation, whether a second enterprise code in the second basic information table is consistent with a first enterprise code in the first basic information table, whether a second IP address in the second basic information table is consistent with a first IP address in the first basic information table, and whether a second flow control value in the second basic information table is consistent with a first flow control value in the first basic information table are respectively compared.
And S42, if the first basic information table and the second basic information table are consistent, determining that the second basic information table and the first basic information table are consistent.
And S43, if any one of the basic information tables is not consistent, determining that the second basic information table is not consistent with the first basic information table.
Specifically, when the second enterprise code in the second basic information table is the same as the first enterprise code in the first basic information table, the second IP address in the second basic information table is the same as the first IP address in the first basic information table, and the second flow control value in the second basic information table is the same as the first flow control value in the first basic information table, it is determined that the second basic information table is consistent with the first basic information table, and if any one of the first and second enterprise codes is inconsistent with the first basic information table, it is determined that the second basic information table is inconsistent with the first basic information table.
In step S33, it may be further determined whether the second service code information table is consistent with the first service code information table according to the flow shown in fig. 5, and the method may include the following steps:
s51, comparing whether the second service code is consistent with the first service code and whether the second enterprise code is consistent with the first enterprise code.
And S52, if the first service code information table and the second service code information table are consistent, determining that the second service code information table and the first service code information table are consistent.
S53, if any one of them is not consistent, determining that the second service code information table is not consistent with the first service code information table.
Specifically, when the second service code in the second service code information table is the same as the first service code in the first service information table, and the second enterprise code in the second service code information table is the same as the first enterprise code in the first service information table, it can be determined that the second service code information table is consistent with the first service code information table, and if any one of the second service code information table and the first enterprise code is inconsistent, it is determined that the second service code information table is inconsistent with the first service code information table.
Similarly, in step S33, it may be further determined whether the second local MO routing information table and the first local MO routing information table are consistent according to the flow shown in fig. 6, and the method may include the following steps:
s61, comparing whether the second service code is consistent with the first service code and whether the second enterprise code is consistent with the first enterprise code.
S62, if they are consistent, determining that the second local MO routing information table is consistent with the first local MO routing information table.
S63, if any one of the tables is not consistent, determining that the second local MO routing information table is not consistent with the first local MO routing information table.
Specifically, since the data contained in the first local MO routing information table is the same as the data contained in the first service code information table, the data contained in the second local MO routing information table is also the same as the data contained in the second service code information table, and the flow for determining whether the second service code information table is consistent with the first service code information table is the same, when the second service code in the second local MO routing information table is the same as the first service code in the first local MO routing information table, and the second enterprise code in the second MO routing information table is the same as the first enterprise code in the first MO routing information table, it can be determined that the second MO routing information table is consistent with the first MO routing information table, and if any one of the two is not consistent, it is determined that the second MO routing information table is not consistent with the first MO routing information table.
When the data contained in the second basic information table and the first basic information table, the data contained in the second service code information table and the first service code information table, and the data contained in the second local MO routing information table and the first local MO routing information table are all consistent, the second network data is determined to be consistent with the first network data, the first service data is processed, if the data contained in any one of the information tables is inconsistent, the second network data is determined to be inconsistent with the first network data, the first service data is not processed, the industry client short message office data with the whole network attribute manufactured by the group side is taken as the standard, and an error is returned.
Specifically, when the second network data is consistent with the first network data, adding the corresponding service data in the first service data to the corresponding positions of the service data in the first basic data table, the first service code information table, and the first local MO routing information table, and adding, but not limited to, the following information tables: and corresponding data in the first network data and the first service data are added to corresponding positions of the first IP authentication table, the first control information table, the first signature information table and the first audit sending configuration information table, so that the manufacture of the industry client short message office data with the newly added local province access whole network attribute is completed.
Preferably, in another embodiment of the present invention, when the industry client short message service bureau data making of the whole network attribute accessed by the province is modified, the first network data is modified first network data, the second network data is modified second network data, the first service data is modified first service data, different from the production of the industry client short message service bureau data with the added whole network attribute accessed by the province, only the comparison of whether the second enterprise code is the same as the first enterprise code and whether the second service code is the same as the first service code are required, according to the CRM system side, after the CRM system side synchronizes the CRM system to the provincial IAGW-M module through EDSMP, the second network data synchronized to the IAGW-A module and the first service data modify office data, data except the enterprise code and the service code can be modified, and the enterprise code and the service code are not modified; the method includes that an IP address and a flow control value can be modified according to office data synchronized from a provincial NDMP to an IAGW-A module, data except the IP address and the flow control value are subjected to modification on office data synchronized to the provincial IAGW-M module through an EDSMP and then synchronized to the IAGW-A module through second network data and first service data according to a CRM system side, it needs to be explained that the sequence of modification of the two modification processes is not limited, wherein the final flow control value is subjected to modification on the flow control value of the subsequent modification process, and the final IP address is subjected to modification on the IP address according to office data synchronized from the provincial NDMP to the IAGW-A module, so that modification on customer industry short message office data with the whole network property accessed in the provincial is completed.
Preferably, in another embodiment of the present invention, when the industry customer short message service office data of the entire network attribute accessed by the province is deleted, the first network data is the first network data to be deleted, the second network data is the second network data to be deleted, the first service data is the first service data to be deleted, and the manufacture of the industry customer short message service office data of the entire network attribute accessed by the province is different from the manufacture of the industry customer short message service office data of the entire network attribute accessed by the new province, only comparing whether the second enterprise code is the same as the first enterprise code and whether the second service code is the same as the first service code, if the first enterprise code is synchronized to the province IAGW-M module from the CRM system side through the EDSMP, and then the second network data synchronized to the IAGW-a module is deleted from the first service data, only the basic information table, the service code information table and other tables except the local MO routing information table can be deleted, that is, the IP authentication table, the control information table, the signature information table and the audit delivery configuration information table can only be deleted, and the basic information table, the service code information table and the local MO routing information table are deleted by office data which is synchronized from the provincial NDMP to the IAGW-A module; if the office data synchronized from the provincial NDMP to the IAGW-A module is deleted, all the tables can be deleted, when the second network data and the first service data are deleted, the error is returned and reported after the second network data and the first service data are synchronized to the provincial IAGW-M module from the CRM system side through the EDSMP, and then the second network data and the first service data are deleted, and the process of deleting the industry client short message office data with the whole network attribute accessed by the province is completed.
The invention provides a method for making industry customer short message service bureau data, wherein a province IAGW-A module receives first network data synchronized by province NDMP and first service data and second network data synchronized by a province IAGW-M module, wherein the first network data is synchronized by a group NDMP to the province NDMP, the first service data and the second network data are synchronized to the province IAGW-M module by an province CRM system through EDSMP, if the second network data is determined to be consistent with the first network data, the first service data is processed, in the process, the province NDMP is added, the second network data synchronized to the province IAGW-A module by the province CRM system through EDSMP is compared with the first network data synchronized to the province NDMP by the group NDMP, whether the second network data synchronized to the province IAGW-A module by the province CRM system through EDSMP is consistent with the province IAGW-M module or not is compared, and when the second network data is consistent with the second network data synchronized to the province IAGW-A module by the, And the first service data synchronized to the provincial IAGW-A module is processed, so that the consistency of second network data synchronized to the provincial IAGW-A module by the provincial CRM system after being synchronized to the provincial IAGW-M module through the EDSMP and the data of the group industry gateway standard short message bureau is ensured, and the accuracy of manufacturing the data of the industry client short message bureau is improved.
Based on the same inventive concept, the embodiment of the invention provides an industry client short message service office data making device, and as the principle of solving the problems of the industry client short message service office data making device is similar to the method, the implementation of the device can refer to the implementation of the method, and repeated parts are not described again.
As shown in fig. 7, which is a schematic structural diagram of an industry client short message service office data creation apparatus provided in an embodiment of the present invention, the apparatus may include:
a first receiving unit 71, configured to receive first network data synchronized by a central office data management platform NDMP, where the first network data is synchronized by a group NDMP to the central office NDMP;
a second receiving unit 72, configured to receive first service data and second network data synchronized by an IAGW-M module of a provincial industry application gateway management, where the first service data and the second network data are synchronized to the IAGW-M module by a provincial customer relationship management CRM system through a group service integrated management platform EDSMP;
a determining unit 73, configured to determine that the second network data is consistent with the first network data, and process the first service data.
Preferably, the first network data is generated by notifying the group electronic operation and maintenance system of the EOMS after the group NDMP makes a request according to the industry customer short message service bureau data submitted by the province CRM system through the group customer service integrated operation platform ESOP.
Preferably, the determining unit 73 is specifically configured to determine whether the second network data is consistent with the first network data according to the following procedure: generating a first basic information table, a first service code information table and a first local MO routing information table according to the first network data; generating a second basic information table, a second service code information table and a second local MO routing information table according to the second network data; respectively comparing whether the data contained in the second basic information table and the first basic information table are consistent, whether the data contained in the second service code information table and the first service code information table are consistent, and whether the data contained in the second local MO routing information table and the first local MO routing information table are consistent; if the second basic information table is consistent with the data contained in the first basic information table, the second service code information table is consistent with the data contained in the first service code information table, and the second local MO routing information table is consistent with the data contained in the first local MO routing information table, determining that the second network data is consistent with the first network data; and if the data contained in any information table is inconsistent, determining that the second network data is inconsistent with the first network data.
Preferably, the first basic information table includes a first enterprise code, a first IP address, and a first traffic control value; the second basic information table comprises a second enterprise code, a second IP address and a second flow control value; and
the determining unit 73 may be further configured to determine whether the second basic information table is consistent with the first basic information table according to the following method: respectively comparing whether the second enterprise code is consistent with the first enterprise code, whether the second IP address is consistent with the first IP address, and whether the second flow control value is consistent with the first flow control value; if the first basic information table and the second basic information table are consistent, determining that the second basic information table is consistent with the first basic information table; and if any one of the basic information tables is inconsistent, determining that the second basic information table is inconsistent with the first basic information table.
Preferably, the first service code information table includes a first service code and a first enterprise code; the second service code information table comprises a second service code and a second enterprise code; and
the determining unit 73 may be further configured to determine whether the second service code information table is consistent with the first service code information table according to the following method: respectively comparing whether the second service code is consistent with the first service code or not and whether the second enterprise code is consistent with the first enterprise code or not; if the service codes are consistent, determining that the second service code information table is consistent with the first service code information table; and if any one of the service codes is inconsistent, determining that the second service code information table is inconsistent with the first service code information table.
Preferably, the first local MO routing information table includes a first service code and a first enterprise code; the second local MO routing information table comprises a second service code and a second enterprise code; and
the determining unit 73 may be further configured to determine whether the second local MO routing information table is consistent with the first local MO routing information table according to the following method:
respectively comparing whether the second service code is consistent with the first service code or not and whether the second enterprise code is consistent with the first enterprise code or not; if the first local MO routing information table and the second local MO routing information table are consistent, determining that the second local MO routing information table and the first local MO routing information table are consistent; and if any one of the local MO routing information tables is inconsistent, determining that the second local MO routing information table is inconsistent with the first local MO routing information table.
For convenience of description, the above parts are separately described as modules (or units) according to functional division. Of course, the functionality of the various modules (or units) may be implemented in the same or in multiple pieces of software or hardware in practicing the invention.
As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.
The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.
These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.
While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. Therefore, it is intended that the appended claims be interpreted as including preferred embodiments and all such alterations and modifications as fall within the scope of the invention.
It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.
Claims (10)
1. A method for making industry client short message service bureau data is characterized by comprising the following steps:
receiving first network data synchronized by a central office data management platform NDMP, wherein the first network data is synchronized by a group NDMP to the central office NDMP;
receiving first service data and second network data synchronized by an IAGW-M module of provincial industry application gateway management, wherein the first service data and the second network data are synchronized to the IAGW-M module of provincial industry by a CRM system through an EDSMP (integrated management platform);
if the second network data is consistent with the first network data, processing the first service data;
determining whether the second network data is consistent with the first network data according to the following procedures:
generating a first basic information table, a first service code information table and a first local MO routing information table according to the first network data;
generating a second basic information table, a second service code information table and a second local MO routing information table according to the second network data;
respectively comparing whether the data contained in the second basic information table and the first basic information table are consistent, whether the data contained in the second service code information table and the first service code information table are consistent, and whether the data contained in the second local MO routing information table and the first local MO routing information table are consistent;
if the second basic information table is consistent with the data contained in the first basic information table, the second service code information table is consistent with the data contained in the first service code information table, and the second local MO routing information table is consistent with the data contained in the first local MO routing information table, determining that the second network data is consistent with the first network data;
and if the data contained in any information table is inconsistent, determining that the second network data is inconsistent with the first network data.
2. The method of claim 1, wherein the first network data is generated by notifying a corporate Electronic Operation and Maintenance System (EOMS) of the corporate NDMP according to a business customer short message service bureau data creation request submitted by a provincial CRM system through a corporate customer service integrated operation platform (ESOP).
3. The method of claim 1, wherein the first basic information table includes a first enterprise code, a first IP address, and a first traffic control value; the second basic information table comprises a second enterprise code, a second IP address and a second flow control value; and
determining whether the second basic information table is consistent with the first basic information table according to the following method:
respectively comparing whether the second enterprise code is consistent with the first enterprise code, whether the second IP address is consistent with the first IP address, and whether the second flow control value is consistent with the first flow control value;
if the first basic information table and the second basic information table are consistent, determining that the second basic information table is consistent with the first basic information table;
and if any one of the basic information tables is inconsistent, determining that the second basic information table is inconsistent with the first basic information table.
4. The method of claim 1, wherein the first service code information table includes a first service code and a first enterprise code; the second service code information table comprises a second service code and a second enterprise code; and
determining whether the second service code information table is consistent with the first service code information table according to the following method:
respectively comparing whether the second service code is consistent with the first service code or not and whether the second enterprise code is consistent with the first enterprise code or not;
if the service codes are consistent, determining that the second service code information table is consistent with the first service code information table;
and if any one of the service codes is inconsistent, determining that the second service code information table is inconsistent with the first service code information table.
5. The method of claim 1, wherein the first local MO routing information table includes a first service code and a first enterprise code; the second local MO routing information table comprises a second service code and a second enterprise code; and
determining whether the second local MO routing information table is consistent with the first local MO routing information table according to the following method:
respectively comparing whether the second service code is consistent with the first service code or not and whether the second enterprise code is consistent with the first enterprise code or not;
if the first local MO routing information table and the second local MO routing information table are consistent, determining that the second local MO routing information table and the first local MO routing information table are consistent;
and if any one of the local MO routing information tables is inconsistent, determining that the second local MO routing information table is inconsistent with the first local MO routing information table.
6. An industry customer short message service bureau data making device is characterized by comprising:
a first receiving unit, configured to receive first network data synchronized by a central office data management platform NDMP, where the first network data is synchronized by a group NDMP to the central office NDMP;
the system comprises a first receiving unit, a second receiving unit and a third receiving unit, wherein the first receiving unit is used for receiving first service data and second network data synchronized by an IAGW-M module of the provincial industry application gateway management (IAGW), and the first service data and the second network data are synchronized to the IAGW-M module by a CRM system through an EDSMP (integrated management platform for group services);
a determining unit, configured to determine that the second network data is consistent with the first network data, and process the first service data;
the determining unit is specifically configured to determine whether the second network data is consistent with the first network data according to the following procedure: generating a first basic information table, a first service code information table and a first local MO routing information table according to the first network data; generating a second basic information table, a second service code information table and a second local MO routing information table according to the second network data; respectively comparing whether the data contained in the second basic information table and the first basic information table are consistent, whether the data contained in the second service code information table and the first service code information table are consistent, and whether the data contained in the second local MO routing information table and the first local MO routing information table are consistent;
if the second basic information table is consistent with the data contained in the first basic information table, the second service code information table is consistent with the data contained in the first service code information table, and the second local MO routing information table is consistent with the data contained in the first local MO routing information table, determining that the second network data is consistent with the first network data;
and if the data contained in any information table is inconsistent, determining that the second network data is inconsistent with the first network data.
7. The apparatus of claim 6, wherein the first network data is generated by notifying a corporate electronic operation and maintenance system EOMS after the corporate NDMP requests the corporate NDMP to generate data according to a business customer short message service bureau data submitted by a corporate customer service integrated operation platform (ESOP) by a provincial CRM system.
8. The apparatus of claim 6, wherein the first basic information table comprises a first enterprise code, a first IP address, and a first traffic control value; the second basic information table comprises a second enterprise code, a second IP address and a second flow control value; and
the determining unit is further configured to determine whether the second basic information table is consistent with the first basic information table according to the following method: respectively comparing whether the second enterprise code is consistent with the first enterprise code, whether the second IP address is consistent with the first IP address, and whether the second flow control value is consistent with the first flow control value; if the first basic information table and the second basic information table are consistent, determining that the second basic information table is consistent with the first basic information table; and if any one of the basic information tables is inconsistent, determining that the second basic information table is inconsistent with the first basic information table.
9. The apparatus of claim 6, wherein the first service code information table includes a first service code and a first enterprise code; the second service code information table comprises a second service code and a second enterprise code; and
the determining unit is further configured to determine whether the second service code information table is consistent with the first service code information table according to the following method: respectively comparing whether the second service code is consistent with the first service code or not and whether the second enterprise code is consistent with the first enterprise code or not; if the service codes are consistent, determining that the second service code information table is consistent with the first service code information table; and if any one of the service codes is inconsistent, determining that the second service code information table is inconsistent with the first service code information table.
10. The apparatus of claim 6, wherein the first local MO routing information table includes a first service code and a first enterprise code; the second local MO routing information table comprises a second service code and a second enterprise code; and
the determining unit is further configured to determine whether the second local MO routing information table is consistent with the first local MO routing information table according to the following method:
respectively comparing whether the second service code is consistent with the first service code or not and whether the second enterprise code is consistent with the first enterprise code or not; if the first local MO routing information table and the second local MO routing information table are consistent, determining that the second local MO routing information table and the first local MO routing information table are consistent; and if any one of the local MO routing information tables is inconsistent, determining that the second local MO routing information table is inconsistent with the first local MO routing information table.
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CN101969620A (en) * | 2009-07-28 | 2011-02-09 | 中兴通讯股份有限公司 | Method for charging industry short messages and short message gateway for implementing same |
CN102316479A (en) * | 2010-07-07 | 2012-01-11 | 中国电信股份有限公司 | Network service monitoring system, and network service synchronization and running state monitoring methods |
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US8839387B2 (en) * | 2009-01-28 | 2014-09-16 | Headwater Partners I Llc | Roaming services network and overlay networks |
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CN101848456A (en) * | 2009-03-25 | 2010-09-29 | 华为技术有限公司 | Service processing method, communication system and related equipment |
CN101969620A (en) * | 2009-07-28 | 2011-02-09 | 中兴通讯股份有限公司 | Method for charging industry short messages and short message gateway for implementing same |
CN102316479A (en) * | 2010-07-07 | 2012-01-11 | 中国电信股份有限公司 | Network service monitoring system, and network service synchronization and running state monitoring methods |
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