CN103188659B

CN103188659B - Verify the method and apparatus of Routing Area Update data configuration

Info

Publication number: CN103188659B
Application number: CN201110455469.0A
Authority: CN
Inventors: 阮一荻; 王晨
Original assignee: China Mobile Group Zhejiang Co Ltd
Current assignee: China Mobile Group Zhejiang Co Ltd
Priority date: 2011-12-30
Filing date: 2011-12-30
Publication date: 2015-10-07
Anticipated expiration: 2031-12-30
Also published as: CN103188659A

Abstract

The present invention relates to the method and apparatus of verifying Routing Area Update data configuration.The method comprises: log in DNS, obtains RAU data configuration; Log in SGSN, that lists this SGSN is using Gn address; According to above-mentioned Gn address, BSC and/or the RNC information of hanging under obtaining the processing data packets unit corresponding with Gn address, and extract corresponding RNCID and/or LAC-RAC information, thus, obtain SGSN with the corresponding relation between Gn address and RAC-LAC and/or RNCID; Using Gn address for each of each SGSN, the RAU data configuration of acquisition and the corresponding relation of acquisition are being checked; And preserve revised RAU data configuration according to checked result modified R AU data configuration.By said method and device, more convenient enforcement can check, ensure the comprehensive and accuracy of RAU data configuration, and then ensure RAU success rate.

Description

Verify the method and apparatus of Routing Area Update data configuration

Technical field

The present invention relates to the communications field, particularly the method and apparatus of Routing Area Update data configuration.

Background technology

Name server (DNS:Domain Name Server) in GPRS (GPRS:General Packet Radio Service) network is positioned at gn interface, is responsible for lane place coding (Location Area Code:LAC) in Routing Area Update (RAU:Routing Area Update) process, Routing Area Code (Routing Area Code:RAC) and radio network controller identifier (RNC ID) and resolves.When user moves to another Route Area from a Route Area, the original position district coding-Routing Area Code that DNS submits to according to user terminal goes out the Gn address of corresponding former Serving GPRS Support Node (Serving GPRS Support Node:SGSN) to (LAC-RAC) information analysis, the unit making the Gn address of the SGSN of this another Route Area corresponding (such as, processing data packets unit) to be addressed in former SGSN corresponding unit and to communicate, carry out the transmission of user data, realize stable Routing Area Update behavior.

In recent years, along with data service rapid growth, network size also increases thereupon day by day.The dilatation of SGSN and the planning that becomes more meticulous of wireless data, make DNS to need the resolution data of LAC-RAC, RNC ID and the Gn address configured also increase thereupon.The DNS data configuration of these magnanimity needs correct and accurately, can not be wrong and omit, otherwise can cause user RAU failure, and impact uses perception.

Such as, when wireless side has planned a LAC-RAC (such as LACXXXXRACYYYY) or a corresponding SGSN of RNC (such as RNCID is ZZZZ) one or several Gn address (such as AAA.BBB.CCC.DDD), existing DNS configuration increases data in the configuration file of DNS:

RACYYYY.LACXXXX IN A AAA.BBB.CCC.DDD

RNCZZZZ IN A AAA.BBB.CCC.DDD

Wherein RAC, LAC, RNCID adopt hexadecimal, and IP address adopts metric IPV4 form.

Then in like manner, if when the corresponding relation of Gn address and RNCID and/or LAC-RAC will be revised or delete to planning, then in the configuration file of DNS, corresponding amendment or deletion is carried out.

DNS data check method is: search in configuration file upon configuration

RACYYYY.LACXXXX or RNCZZZZ, finds corresponding Gn address, and is checked the Gn address of found Gn address and planning, determines whether the two conforms to, thus verifies.

Mainly there is following defect in this DNS data check method:

(1) only check with DNS configuration file when verifying, check range and verify result and affect by the scope of DNS configuration file and accuracy, and the corresponding relation of Gn address and RNCID and/or LAC-RAC is difficult to management maintenance, the comprehensive and accuracy checked is unsatisfactory.

(2) need according to each LAC-RAC or RNCID when checking, check the Gn address of its correspondence.Because LAC-RAC and RNCID data volume is huge, travel through mode that this information compares and easily cause and omit and repeat, check efficiency lower.

(3) existing verification technology is only limitted to artificial verification, and artificial burden is comparatively large, operating efficiency and accuracy undesirable.

Summary of the invention

The object of the invention is to solve the aforementioned problems in the prior at least in part.

According to the embodiment of the present invention, a kind of method verifying Routing Area Update data configuration is provided, comprises:

Log in domain name server (DNS), obtain routing area updating RAU data configuration;

Sign-On services GPRS support node SGSN, that lists this SGSN is using Gn address;

According to above-mentioned Gn address, the base station controller hung under obtaining the processing data packets unit corresponding with Gn address and/or radio network controller (RNC) information, and extract corresponding lane place coding-Routing Area Code to LAC-RAC and/or radio network controller identifier RNCID information, thus, obtain SGSN with the corresponding relation between Gn address and RAC-LAC and/or RNCID;

Using Gn address for each of each SGSN, the RAU data configuration of acquisition and the corresponding relation of acquisition are being checked; And

Revised RAU data configuration is preserved according to checked result modified R AU data configuration.

Preferably, in the above-mentioned methods, instant or obtain described RAU data configuration and described corresponding relation with predetermined time interval simultaneously.

Preferably, in the above-mentioned methods, modified R AU configuration data comprises:

The corresponding relation of Gn address that comprised by the corresponding relation of acquisition, that do not have in RAU data configuration and RNCID and/or LAC-RAC, adds in RAU data configuration;

By comprise in the RAU data configuration of acquisition, the corresponding relation that do not have in the corresponding relation that obtains, delete from RAU data configuration; Or

The all SGSN hung under the corresponding relation obtained is DNS at the corresponding relation with Gn address time, directly use the corresponding relation obtained to substitute corresponding relation in RAU data configuration.

Preferably, in the above-mentioned methods, modified R AU data configuration is not carried out with the corresponding relation of the Gn address relevant to specific RNC comprised in the corresponding relation obtained and RNCID and/or LAC-RAC.

Preferably, said method comprises further: export checked result.

According to the embodiment of the present invention, a kind of device of verifying Routing Area Update data configuration is provided, comprises:

Routing area updating RAU data configuration acquisition module, for logging in domain name server (DNS) to obtain RAU data configuration;

Serving general radio packet service support node SGSN data acquisition module, for log in SGSN to list this SGSN Gn address, according to the base station controller hung under the processing data packets unit that above-mentioned Gn address acquisition is corresponding with Gn address and RNC information, and extract corresponding lane place coding-Routing Area Code to LAC-RAC and or radio network controller identifier RNCID information, thus acquisition SGSN with the corresponding relation between Gn address and RNCID and/or LAC-RAC;

Comparing module, is using Gn address for each of SGSN, checks the RAU data configuration of RAU data configuration acquisition module acquisition and the corresponding relation of SGSN data acquisition module acquisition; And

Data correction module, preserves revised RAU data configuration according to checked result modified R AU data configuration.

Preferably, in said apparatus, RAU data configuration acquisition module and SGSN data acquisition module are instant or obtain described RAU data configuration and described corresponding relation with predetermined time interval simultaneously.

Preferably, in said apparatus, modified R AU configuration data comprises:

Preferably, said apparatus comprises further: screening remarks module, remarks are carried out to specific RNC, the corresponding relation between the Gn address relevant to specific RNC got from SGSN and RNCID and/or LAC-RAC is not joined in RAU data configuration by data correction module.

Preferably, said apparatus comprises further: input/output module, for providing man-machine interface, allowing to be verified for specific SGSN by the operation of user, or verifying respectively LAC-RAC, RNCID data, or exports verification result.

According to the method and apparatus of the embodiment of the present invention, by on Real-time Obtaining RAU data configuration from existing network and SGSN with the corresponding relation between Gn address and RNCID and/or LAC-RAC, and the two is checked, modified R AU data configuration can be carried out according to the corresponding relation of the real Gn address of existing network and RNCID and/or LAC-RAC, compare the checking method of existing RAU data configuration, the real deployment of the whole network can be obtained adaptively, the comprehensive of RAU data configuration and accuracy can be ensured, and then ensure RAU success rate.Further, the automatic checking of RAU data configuration can be realized by above method, the efficiency and accuracy checked can be improved.In addition, with Gn address for benchmark checks LAC-RAC and RNCID data, Gn number of addresses because of core-network side is far smaller than the quantity of LAC-RAC, RNCID data, and the regularity of distribution, so to come to substitute with LAC-RAC, RNCID data for benchmark checks the method for Gn address in this way, can implement more easily to check.

Accompanying drawing explanation

Fig. 1 shows the flow chart of the method for verifying Routing Area Update (RAU) data configuration according to the embodiment of the present invention;

Fig. 2 shows the screenshotss obtained according to the method for this embodiment at an example with Gn address;

Fig. 3 shows the screenshotss obtained according to the method for this embodiment at another example with Gn address;

Fig. 4 shows the screenshotss of the example obtaining the corresponding relation between Gn address and RNCID and/or LAC-RAC from SGSN;

Fig. 5 shows the screenshotss of the example obtaining the corresponding relation between Gn address and LAC-RAC from SGSN; And

Fig. 6 shows the block diagram of the example of the device for verifying RAU data configuration according to the embodiment of the present invention.

Embodiment

According to the corresponding relation obtaining the real Gn address of existing network and RNCID and/or LAC-RAC for the method and apparatus of verifying Routing Area Update (RAU) data configuration from existing network equipment of the embodiment of the present invention, verification and the comparison of RAU data configuration is carried out based on the corresponding relation obtained, RAU data configuration and state of the current network repugnancy is revised, the failure of the RAU business avoiding factor data mistake to cause with Timeliness coverage.Further, the method and apparatus of the foundation embodiment of the present invention also provides the automatic modify feature of RAU data configuration.

Below in conjunction with accompanying drawing, for GPRS network, to being explained in detail for the method and apparatus of verifying RAU data configuration according to the embodiment of the present invention.

Fig. 1 is the flow chart of the method for verifying RAU data configuration according to the embodiment of the present invention.As shown in Figure 1, the method comprises the following steps.

In step S101, log in DNS, obtain RAU data configuration.RAU data configuration refers to and switches relevant data configuration with RAU, the corresponding relation namely between the Gn address of SGSN and RAC-LAC and/or RNC ID.This corresponding relation is configured in the file of DNS, this file is such as/etc/named.data path under db.mnc000h file.Usually can obtain this file by FTP mode, also can log on DNS by telnet and check this file, thus obtain RAU data configuration.

In step S102, log in SGSN, that lists this SGSN is using Gn address.Can by input command list SGSN Gn address.

Such as, for the western SGSN of promise, when input command QRI:PAPU order, there will be the screen shown in Fig. 2, wherein, the address in circle is Gn address 221.177.59.104 corresponding to processing data packets unit PAPU0.With this, all of this SGSN can be obtained and using Gn address.

Again such as, for Motorola or Huawei SGSN, as input command LSTBRD:BP=IO, BT=UGTP, GTPT-GTPC, OS=ENABLE, AS=UNLOCK, RS=ACTIVE, there will be screen as shown in Figure 3, wherein, what the address in circle was this SGSN is using Gn address.

It should be noted that and there is no sequencing between above step S101 and step S102, the two synchronously can carry out or asynchronously to carry out.Certainly, in order to realize the real-time verification of RAU data, preferably synchronous execution step S101 and S102.That is, instant or perform step S101 and S102 with predetermined time interval (such as, one hour) simultaneously.Described predetermined time interval can be arranged as required.

In step S103, according to above-mentioned Gn address, the base station controller (BSC) hung under obtaining the processing data packets unit corresponding with Gn address and RNC information, and extract corresponding RNCID and/or LAC-RAC information, thus, obtain SGSN with the corresponding relation between Gn address and RAC-LAC and/or RNCID.This corresponding relation can by obtaining SGSN input command.

Concrete, for the western SGSN of promise, for the situation of 3G, can E6I::RT=ALL be used:; Order obtains all RNC information under this SGSN, as Fig. 4 as shown on screen.Wherein, that " RNCIDENTIFICATION " field provides is metric RNCID; What " PAPU UNIT INDEX " field provided is PAPU numbering, finds corresponding Gn address according to PAPU numbering.And the region of this RNC is also corresponding a LAC-RAC (see Fig. 4 bottom), therefore can obtain the corresponding informance of one group of LAC-RAC and Gn address simultaneously.That is, by mentioned order, the corresponding relation of all RNCID and the Gn in 3G situation can be obtained, and the corresponding relation of LAC-RAC and Gn address.

In addition, for the situation of 2G, can EJL:PAPU=0 be used:; All RAC-LAC information corresponding to the Gn address of PAPU0 are found in order (this is RAC and LAC under inquiry PAPU0, such as, will inquire about the data under PAPU2, correspondingly need input PAPU=2), as shown below.All LAC and RAC information that this order is hung under exporting the PAPU0 of this SGSN, as the LAC-RAC couple illustrated in Fig. 5 circle, LAC-22670RAC-071 represent that metric LAC is 22670, metric RAC=071.When verifying, metric data need be converted into hexadecimal to represent.Thus, inquired about by all PAPU unit for SGSN, can obtain the SGSN in 2G situation at the corresponding relation with Gn address and RAL-LAC.

In step S104, using Gn address for each of each SGSN, the corresponding relation obtained in the RAU data configuration obtained in step S101 and step S103 is being checked.

Checked result can represent in table form, as shown in the table.

Table 1 verification of data result

Wherein, comprise NO corresponding relation in step S103 in the RAU data configuration obtained in " doing " expression step S101 in form more, " doing less " in form represents that the corresponding relation obtained in step s 103 comprises the corresponding relation of Gn address and RNCID and/or LAC-RAC do not had in RAU data configuration, and " remarks " in form are generally used for the remarks to the test RNC mentioned hereinafter.

In step S105, preserve revised RAU data configuration according to checked result modified R AU data configuration.

In step S105, modified R AU data configuration includes but not limited to:

(1) increase: the corresponding relation of Gn address that comprised by the corresponding relation obtained in step s 103, that do not have in RAU data configuration and RNCID and/or LAC-RAC, adds in RAU data configuration;

(2) delete: by comprise in the RAU data configuration obtained in step S101, NO corresponding relation in step S103, delete from RAU data configuration; Or

(3) substitute: when the corresponding relation obtained in step s 103 is the corresponding relation of the Gn address of all SGSN hung under DNS, the corresponding relation directly using step S103 to obtain substitutes the corresponding relation in RAU data configuration.

In addition, in the network of such as GPRS network, the situation for the RNC tested may be there is.In test process, tested RNC can to SGSN reporting information, and the information reported can be recorded on SGSN.Thus, the corresponding relation between the RNCID corresponding with tested RNC and LAC-RAC and Gn address can be obtained in above-mentioned steps S103.And tested RNC may can not be put into existing network use, therefore, DNS can not configure the RAU data configuration corresponding with it usually.So, in order to avoid in above-mentioned steps S104 and S105 by SGSN gets, corresponding relation between Gn address that the RNC that is used for testing is corresponding and RNCID and/or LAC-RAC joins in the RAU data configuration of DNS, RNCID and/or LAC-RAC corresponding with the RNC being used for testing can be carried out remarks, and be not increased in step S105 in the RAU data configuration of DNS.

In the said method of the foundation embodiment of the present invention, by on Real-time Obtaining RAU data configuration from existing network and SGSN with the corresponding relation between Gn address and RNCID and/or LAC-RAC, and the two is checked, modified R AU data configuration can be carried out according to the corresponding relation of the real Gn address of existing network and RNCID and/or LAC-RAC, compare the checking method of existing RAU data configuration, the real deployment of the whole network can be obtained adaptively, the comprehensive of RAU data configuration and accuracy can be ensured, and then ensure RAU success rate.Further, the automatic checking of RAU data configuration can be realized by above method, the efficiency and accuracy checked can be improved.

In addition, in the above-mentioned methods, with Gn address for benchmark checks RNCID and/or LAC-RAC data, Gn number of addresses because of core-network side is far smaller than the quantity of LAC-RAC, RNCID data, and the regularity of distribution, so to come to substitute with LAC-RAC, RNCID data for benchmark checks the method for Gn address in this way, can implement more easily to check.

In addition, in the implementation process of said method, except directly automatically implementing except the method, also can carry out artificial operation by user by man-machine interface to verify for specific SGSN, and carry out respectively the operation such as verifying to LAC-RAC, RNCID data, and verification result can be exported further.

Fig. 6 shows the block diagram of the example of the device for verifying RAU data configuration according to the embodiment of the present invention.As shown in Figure 6, this device at least comprises RAU data configuration acquisition module, SGSN data acquisition module, comparing module and data modification module.

RAU data configuration acquisition module, for logging in DNS to obtain RAU data configuration.RAU data configuration refers to and switches relevant data configuration with RAU, the corresponding relation namely between the Gn address of SGSN and RAC-LAC and/or RNCID.This corresponding relation is configured in the file of DNS, this file is such as/etc/named.data path under db.mnc000h file.Usually can obtain this file by FTP mode, also can log on DNS by telnet and check this file, thus obtain RAU data configuration.This RAU data configuration acquisition module can obtain the RAU data configuration on DNS immediately or with predetermined time interval (such as, one hour).

SGSN data acquisition module, for log in SGSN to list this SGSN Gn address, according to BSC and the RNC information of hanging under the processing data packets unit that above-mentioned Gn address acquisition is corresponding with Gn address, and extract corresponding RNCID and/or LAC-RAC information, obtain thus SGSN with the corresponding relation between Gn address and RNCID and/or LAC-RAC.This SGSN data acquisition module can immediately or with predetermined time interval (such as, one hour) obtain on SGSN with the corresponding relation between Gn address and RNCID and/or LAC-RAC.

Comparing module, is using Gn address for each of SGSN, checks the RAU data configuration of RAU data configuration acquisition module acquisition and the corresponding relation of SGSN data acquisition module acquisition.This comparing module can have the caching function of buffer memory above-mentioned RAU data configuration and above-mentioned corresponding relation.

Modified R AU data configuration includes but not limited to:

(1) increase: the corresponding relation of Gn address that comprised by the corresponding relation that SGSN data acquisition module obtains, that do not have in RAU data configuration and RNCID and/or LAC-RAC, adds in RAU data configuration;

(2) delete: by RAU data configuration acquisition module obtain RAU data configuration in comprise, the NO corresponding relation of SGSN data acquisition module, delete from RAU data configuration; Or

(3) substitute: during the relevant corresponding relation in the Gn address of all SGSN hung under the corresponding relation that SGSN data acquisition module obtains is DNS, the corresponding relation directly using SGSN data acquisition module to obtain substitutes the corresponding relation in RAU data configuration.

Further, this device also comprises screening remarks module, screening remarks module carries out remarks to specific RNC, and the corresponding relation between the Gn address relevant to specific RNC got from SGSN and RNCID and/or LAC-RAC is not joined in RAU data configuration by data correction module.

Utilize the said apparatus of the embodiment of the present invention, by on Real-time Obtaining RAU data configuration from existing network and SGSN with the corresponding relation between Gn address and RNCID and/or LAC-RAC, and the two is checked, modified R AU data configuration can be carried out according to the corresponding relation of the real Gn address of existing network and RNCID and/or LAC-RAC, compare the checking method of existing RAU data configuration, the real deployment of the whole network can be obtained adaptively, the comprehensive of RAU data configuration and accuracy can be ensured, and then ensure RAU success rate.Further, the automatic checking of RAU data configuration can be realized by above method, the efficiency and accuracy checked can be improved.

In addition, utilize said apparatus, with Gn address for benchmark checks RNCID and/or LAC-RAC data, Gn number of addresses because of core-network side is far smaller than the quantity of LAC-RAC, RNCID data, and the regularity of distribution, so to come to substitute with LAC-RAC, RNCID data for benchmark checks the method for Gn address in this way, can implement more easily to check.

Further, said apparatus can further include input/output module, and it provides man-machine interface, allows to be verified for specific SGSN by the operation of user, and carries out respectively the operation such as verifying to LAC-RAC, RNCID data.Further, where necessary, input/output module can export data.

For GRPS network, the method and apparatus for verifying RAU data configuration of the present invention is described in detail above, but the present invention is not limited to this.Be understandable that for those skilled in the art, method and apparatus for verifying RAU data configuration of the present invention at least can also extend to EPC (Evolved Packet Core: block core evolution) network, as the core network part of LTE and the evolution of GPRS core net, EPC network has similar feature in RAU process.Gn interface in GPRS network is the interface between SGSN and other SGSN, evolve to EPC network and be S10 interface between MME and MME, or in the evolution transitional period, time SGSN and MME coexists, interface is between the two S3 interface.Method and apparatus for verifying RAU data configuration of the present invention is consistent for the principle of Gn, S3, S10 interface in RAU process.

Although for describing the present invention with clear disclosed specific embodiment completely, but claims are not limited thereto, but be interpreted as comprising any modifications and changes in the basic teaching falling within to those skilled in the art and set forth herein.

Claims

1. verify a method for Routing Area Update data configuration, comprising:

According to above-mentioned Gn address, the base station controller hung under obtaining the processing data packets unit corresponding with Gn address and/or radio network controller (RNC) information, and extract corresponding lane place coding-Routing Area Code to LAC-RAC and/or radio network controller identifier RNC id information, thus, obtain SGSN with the corresponding relation between Gn address and LAC-RAC and/or RNC ID;

2. method according to claim 1, wherein,

Instant or obtain described RAU data configuration and described corresponding relation with predetermined time interval simultaneously.

3. method according to claim 1, wherein, modified R AU configuration data comprises:

4. method according to claim 1, wherein,

Modified R AU data configuration is not carried out with the corresponding relation of the Gn address relevant to specific RNC comprised in the corresponding relation obtained and RNC ID and/or LAC-RAC.

5. method according to claim 1, comprises further:

Export checked result.

6. verify a device for Routing Area Update data configuration, comprising:

Serving general radio packet service support node SGSN data acquisition module, for log in SGSN to list this SGSN Gn address, according to the base station controller hung under the processing data packets unit that above-mentioned Gn address acquisition is corresponding with Gn address and RNC information, and extract corresponding lane place coding-Routing Area Code to LAC-RAC and/or radio network controller identifier RNC id information, thus acquisition SGSN with the corresponding relation between Gn address and RNC ID and/or LAC-RAC;

7. device according to claim 6, wherein, RAU data configuration acquisition module and SGSN data acquisition module are instant or obtain described RAU data configuration and described corresponding relation with predetermined time interval simultaneously.

8. device according to claim 6, wherein, modified R AU configuration data comprises:

9. device according to claim 6, comprises further:

Screening remarks module, carries out remarks to specific RNC, the corresponding relation between the Gn address relevant to specific RNC got from SGSN and RNC ID and/or LAC-RAC is not joined in RAU data configuration by data correction module.

10. device according to claim 6, comprises further:

Input/output module, for providing man-machine interface, being allowed to be verified for specific SGSN by the operation of user, or verifying respectively LAC-RAC, RNC ID data, or exports verification result.