CN102083132B - Automatic management system for soft switch equipment port resource - Google Patents

Abstract

The present invention discloses an automatic management system for soft switch equipment port resource, wherein the soft switch equipment comprises a mobile switch control server (MSC server) and a media gateway (MGW), and the automatic management system includes a collecting machine. The collecting machine comprises: a collecting module, used for sending a command of collecting port resource raw data respectively to the MSC server and the MGW and receiving the port resource raw data returned respectively by the MSC server and the MGW; a parsing module, used for parsing the port resource raw data received by the collecting module; and a management module, used for generating information of soft switch equipment port resource according to the parsing result for the port resource raw data by the parsing module, wherein the port resource raw data are respectively returned by the MSC server and the MGW. The adoption of the automatic management system provided by the invention allows that the accuracy of obtained information of soft switch equipment port resource is increased.

Description

A kind of Softswitch port resource automated management system

Technical field

The present invention relates to the core network technology field, relate in particular to a kind of Softswitch port resource automated management system.

Background technology

At present, Softswitch specialty attendant is by the most original port assignment Microsoft Excel operation realizes the port resource management to Softswitch, and current Softswitch port resource information is very huge and the change frequent, even if very little port resource information-change, will be referred to the renewal of many association table, this original manual update mode is inaccurate through the very easy Softswitch port resource information that causes of accumulation of certain hour.

Further, because Softswitch port resource lack of control promptness and sharing can't provide the automatic early-warning effect simultaneously, this brings many puzzlements also for professional's maintenance work.

Summary of the invention

In view of this, the purpose of the embodiment of the invention is to provide a kind of Softswitch port resource automated management system, the accuracy of the Softswitch port resource information of obtaining with raising.

For achieving the above object, the technical scheme of the embodiment of the invention specifically is achieved in that

A kind of Softswitch port resource automated management system, described Softswitch comprise mobile exchange Control Server MSC Server and media gateway MGW, and this system comprises harvester, and described harvester comprises:

Acquisition module sends the order of gathering the port resource initial data to MSC Server and MGW respectively;

Receiver module receives the port resource initial data that MSC Server and MGW return respectively;

Parsing module is resolved the port resource initial data that receiver module receives;

Administration module, the analysis result of the analysis result of the port resource initial data of MSC Server being returned according to parsing module and port resource initial data that MGW is returned generates the port resource information of Softswitch.

As seen from the above technical solution, the port resource initial data that the present invention gathers Softswitch automatically by harvester generates port resource information according to this initial data then.Particularly, send the order of gathering the port resource initial data to MSC Server and MGW respectively by acquisition module, receive the port resource initial data that MSC Server and MGW return respectively by receiver module, resolve described port resource initial data by parsing module, the analysis result of the port resource initial data of being returned according to the analysis result of the port resource initial data that MSC Server is returned with to MGW by administration module generates the port resource information of Softswitch.Because the initial data of soft switch port resource is directly to be returned according to acquisition by Softswitch, it can accurately reflect the port resource situation of Softswitch, thereby can improve the accuracy of the port resource information of generation.

Description of drawings

Fig. 1 is first structure chart of Softswitch port resource automated management system provided by the invention.

Fig. 2 is second structure chart of Softswitch port resource automated management system provided by the invention.

Fig. 3 is the workflow diagram of system shown in Figure 2.

Embodiment

For making purpose of the present invention, technical scheme and advantage clearer, below with reference to the accompanying drawing embodiment that develops simultaneously, the present invention is described in more detail.

Softswitch port resource automated management system provided by the present invention, its at Softswitch comprise mobile exchange Control Server (MSC Server) and media gateway (MGW), this system comprises harvester at least, also may further include database server or database server, the Internet (WEB) server and client side.Illustrated for embodiment respectively below.

Fig. 1 is first structure chart of Softswitch port resource automated management system provided by the invention, and as shown in Figure 1, this system comprises harvester, and this harvester comprises acquisition module 1011, parsing module 1012 and administration module 1013, wherein:

Acquisition module 1011 sends the order of gathering the port resource initial data to MSC Server and MGW respectively, receives the port resource initial data that MSC Server and MGW return respectively.

Parsing module 1012 is resolved the port resource initial data that acquisition module 1011 receives.

Administration module 1013, the analysis result of the analysis result of the port resource initial data of returning according to 1012 couples of MSC Server of parsing module and port resource initial data that MGW is returned generates the port resource information of Softswitch.

Acquisition module 1011 wherein sends the order of gathering the port resource initial data to MSC Server earlier, sends the order of gathering the port resource initial data to MGW again.

Acquisition module 1011 is when sending the order of gathering the port resource initial data to MSC Server, send the order of gathering office direction information to MSC Server earlier, send the order of gathering the repeat circuit distributed data to MSC Server again, and correspondingly receive office direction information and the repeat circuit distributed data that MSC Server returns.

Wherein, the order of described collection office direction information is " LST OFC:OFCTYPE=ALL; ", the order of described collection repeat circuit distributed data is " LST TKCDIST:ON=＜#DIRECTION#〉", office direction name parameter＜#DIRECTION#〉the office direction information acquisition that returns according to MSC Server.

Parsing module 1012 is when the port resource initial data that parsing MSC Server returns, when the office direction information of returning as MSCServer is expert at and is matched the office direction title, if match as a result number then finish at this row and resolve, otherwise read the data in preceding 7 territories in this row and be stored in first tables of data; When the repeat circuit data of returning as MSCServer are expert at and are matched the office direction title, if match as a result number at this row then finish to resolve, otherwise read the data in 8 territories in this row and be stored in second tables of data.

It is to send order " DSP:CFG to MGW that acquisition module 1011 sends the order of gathering the port resource initial data to MGW; ".

Parsing module 1012 is when the port resource initial data that parsing MGW returns, when the port resource initial data of returning as MGW is expert at and is matched " ADD SPC ", the value that reads 22 territories from this line data is stored among the 3rd tables of data CM_HW_SPC, when the port resource initial data of returning as MGW is expert at and is matched " ADD MTP2LINK ", the value that reads 11 territories from this line data is stored among the 4th tables of data CM_HW_MTP2LINK, when the port resource initial data of returning as MGW was expert at and is matched " ADD N7LINK ", the value that reads 7 territories from this line data was stored among the 5th tables of data CM_HW_N7LINK.

The port resource information that administration module 1013 generates can comprise 2M port resource information, S2L port resource information, signaling link resource information and/or semipermanent resource information.

Wherein, described 2M port resource information can comprise: device name, board No., frame number, groove number, port numbers, system's 1 road electrical interface (One Electrical interface board, E1) number, mobile network's 32 road E1 interface boards (Mobile network 32port E1 interface board, ME32) switching port, digital distribution frame (Digital Distribution Frame, DDF), channel number, office direction, the trunk group title, cic circuit identification code (Circuit Identification Code, CIC) value, initialization circuit identification code (Start Circuit Identification Code, SCIC), termination circuit identification code (End CircuitIdentification Code, ECIC), initial terminal recognition sign indicating number (Terminal Identification Code, TID), terminating terminal identification code TID, control module unit (Control Module Unit, CMU) module No., control module number, link number (Signaling Link Code, SLC), link No., whether master control, remarks and/or availability.

Described S2L light mouth resource information can comprise: device name, board No., frame number, groove number, light slogan, time slot, system E1 number, ODF frame end mouth, channel number, office direction, trunk group title, CIC value, SCIC, ECIC, play TID, whole TID, CMU module No., control module number, link number SLC, link No., whether master control, remarks and/or availability.

One of parameter that to be mobile local exchange switch MSOFTX3000 dock with opposite end exchange of whether master control wherein, when the circuit selection mode of this trunk group was " master control/non-master control " mode, this parameter was used for the sign local exchange to the control mode of initialization circuit.After the control mode of having determined initialization circuit, the control mode of remaining circuit is also just corresponding in this trunk group has determined.According to the suggestion of ITU-T, for avoiding simultaneous hold as far as possible, the exchange master control CIC that the operated by rotary motion signaling point code is big is the circuit of even number, and the exchange master control CIC that signaling point code is little is the circuit of odd number.

Described signaling link resource information can comprise: device name, link No., link name, board No., DDF information and/or exchange end slogan.

Described semipermanent resource information can comprise: device name, call number, title, source exchange end slogan, source frame, source groove, source port, source time slot, purpose exchange end slogan, purpose frame, purpose groove, destination interface and/or purpose time slot.

Fig. 2 is second structure chart of Softswitch port resource automated management system provided by the invention, and Fig. 2 further comprises database server 102, WEB server 103 and client 104 on the basis of Fig. 1.

Wherein, database server 102 is used for the port resource information that storage of collected machine 101 generates.

Client 104 links to each other with database server 102 by WEB server 103, is used for obtaining the port resource information that database server 102 is stored by WEB server 103, and is represented or export.

Softswitch port resource automated management system as shown in Figure 2, Softswitch MSCServer wherein and MGW are by collecting device, the port resource initial data that harvester 101 is responsible for gathering MSC Server and MGW, to deposit in the database server 102 after the initial data parsing, client 104 all can be obtained Softswitch port resource information in the database server 102 by WEB server 103 in all nets, and is represented or export.

As seen, Softswitch port resource automated management system shown in Figure 2 has following characteristics:

(1) automaticity: adopt automated manner login Softswitch MSC SERVER and MGW, adopt sql like language to gather automatically and obtain Softswitch port resource related data, realize the automation of Softswitch port resource management; (2) promptness: the time of implementation by program setting can be realized upgrading in time of port resource information so that harvester is gathered port resource in real time; (3) sharing: represent the port resource important information by utilize the WEB friendly interface in client, realize that the attendant checks the shared of port resource information; (4) early warning: the user can in time understand taking and idle condition of port resource by the port resource at client real time inspection WEB interface, can initiatively control port resource information; (5) device is simple: the research staff be need not to possess professional signaling research, need not to carry out extra hardware platform exploitation, cheap.

The course of work to system shown in Figure 2 describes in detail below, specifically sees also Fig. 3.

Fig. 3 is the workflow diagram of system shown in Figure 2, and as shown in Figure 3, this flow process comprises:

Step 301, harvester are logined MSC Server automatically, send order " LSTOFC:OFCTYPE=ALL to MSC Server; " obtain office direction information.

Step 302, harvester is resolved the office direction information that collects.

In this step, harvester is resolved office direction information according to the output call by result java class LSTOFCParser.java of MSC Server, and the office direction information that parses is write among the first tables of data CM_HW_DIRECTION.

Wherein, the process of analysis of class LSTOFCParser.java comprises:

Step 11 enters step 12, otherwise will not resolve when the row coupling is " office direction title ", continue to read line data.

Step 12, the explanation data have finished when the row coupling is " number as a result ", then withdraw from analysis program, otherwise enter step 13.

Step 13 with space-separated, reads the data in preceding 7 territories in this row respectively, and the data of resolving are write among the first tables of data CM_HW_DIRECTION, returns to enter step 12 continuation parsing.

Class LSTOFCParser.java original program is as follows:

public class LSTOFCParser extends FileParser

{ public LSTOFCParser()throws SQLException

{ super()；}

public void parse(String devName，StringBuffer buff)

{ boolean start＝false；

String line＝″″；

Pattern pattern＝Pattern.compile(″+″)；

try{setTable(″CM_HW_DIRECTION″)；

String fieldList ＝

″DEV_NAME，DIREC_NAME，LINK_TYPE，DEST_TYPE″，

valList＝″″；

delete(devName)；

while((line＝readLine(buff))！＝null)

{String[]param＝pattern.split(line)；

If (param[0] .equals (" office direction title "))

{start＝true；continue；}

An else if (line.indexOf (" number as a result ")!=-1)

{ break；}

if(start){valList＝″″′+devName+″′，sysdate″；

for(int i＝0；i＜7；i++)

{ valList＝valList+″，″′+param[i]+″″′；}

insert(fieldList，valList)；

} } }

catch(IOException e){e.printStackTrace()；}

finally{close()；}}}

Step 303, harvester sends order " LSTTKCDIST:ON=＜#DIRECTION#〉" to MSC Server and obtains the repeat circuit distributed data.

Parameter＜#DIRECTION# wherein〉from first tables of data that step 302 generates, obtain.

Step 304, harvester is resolved the repeat circuit distributed data that collects.

In this step, harvester calls java class LSTTKCParser.java and resolves the repeat circuit distributed data that collects, and analysis result is write among the second tables of data CM_HW_PCM.

Wherein, the process of analysis of class LSTTKCParser.java comprises:

Step 21 when row coupling " office direction title ", enters step 22, otherwise will not resolve, and continues to read this line data.

Step 22, the explanation data have finished when the row coupling is " number as a result ", then withdraw from analysis program, otherwise enter step 23.

Step 23 with space-separated, reads the data in 8 territories in this row respectively, when running into the 6th and the 7th territory, isolate the value of SCIC, ECIC and STID, ETID respectively with "-", and data are write among the second tables of data CM_HW_PCM, return step 22 and continue to resolve.

Class LSTTKCParser.java original program is as follows:

public class LSTTKCParser extends FileParser

{ public LSTTKCParser()throws SQLException

{ super()； }

public void parse(String devName，StringBuffer buff)

{ boolean start＝false，delFlag＝false；

String line＝″″；

Pattern pattern＝Pattern.compile(″+″)；

try{setTable(″CM_HW_PCM″)；

String fieldList＝″DEV_NAME，PCM，SCIC，ECIC，STID，ETID″，

valList＝″″；

while((line＝readLine(buff))！＝null)

{ String[]param＝pattern.split(line)；

If (param[0] .equals (" office direction title "))

{ start＝true；continue；}

An else if (line.indexOf (" number as a result ")!=-1)

{ break；}

if(start){valList＝″″′+devName+″′，sysdate″；

for(int i＝0；i＜8；i++)

{ if(！delFlag){

delete(devName，null，″direc_name＝″′+param[0]+″″′)；

delFlag＝true；}

if(i＝＝2)continue；

if(i＝＝5||i＝＝6){String val[]＝param[i].split(″-″)；

valList＝valList+″，″+val[0]+″，″+val[1]；}

else{valList＝valList+″，″′+param[i]+″″′；} }

insert(fieldList，valList)； } } }

catch(IOException e){e.printStackTrace()；}

finally{close()；} } }

By step 302-304, obtain the configuration distributed intelligence of repeat circuit data on each module of each office direction.

Step 305, harvester sends order " DSP:CFG to MGW; " obtain MGW configuration informations such as semipermanent, signaling link.

Step 306, harvester is resolved the MGW configuration information that obtains.

In this step, harvester calls java class DSPCFGParser.java and resolves the configuration information that MGW returns, and analysis result is write respectively among the 3rd tables of data CM_HW_SPC, the 4th tables of data CM_HW_MTP2LNK and the 5th tables of data CM_HW_N7LNK.

Wherein, the process of analysis of class DSPCFGParser.java parsing comprises:

When this row coupling " ADD SPC ", read ID respectively, SPCN, CT, CD, the value in 22 territories such as STFN is written among the 3rd tables of data CM_HW_SPC; When this row coupling " ADD MTP2LNK ", read LNKNO respectively, LNKNAME, the value in 11 territories such as IFBT is written among the 4th tables of data CM_HW_MTP2LNK; When this row coupling " ADD N7LNK ", read IND respectively, NAME, the value in 7 territories such as LKSIDX is written among the 5th tables of data CM_HW_N7LNK; When this is capable when not belonging to above three types, will not resolve, directly abandon.

ADD_SPC wherein increases semipermanent connection, is used for the semipermanent connection of two end points of configuration.Endpoint type can be the subscriber frame end points, also can be IP end points, perhaps TDM termination.The direction that connects have forward direction, back to, two-way.If the subscriber frame end points needs to reserve time slot for end points in advance.For example: set up semipermanent connection, title ISO-XCDR30602, direction is two-way, endpoint type all is TDM termination, and the source time slot is 4 frames, 14 grooves, 1 port, timeslot number is 3, the purpose time slot is 4 frames, 14 grooves, and 15 ports, timeslot number are 25 order following (22 territories are the field before the equal sign in following each equal sign expression formula):

ADD SPC:ID＝208，SPCN＝″ISO-XCDR30602″，CT＝TDM_TDM，CD＝DDIR，STFN＝4，STSN＝14，SPN＝1，STS＝3，SRFN＝0，SRSN＝0，SRPN＝0，SISA＝″0.0.0.0″，SIAD＝0，DTFN＝4，DTSN＝14，DPN＝15，DTS＝25，DRFN＝0，DRSN＝0，DRPN＝0，DISA＝″0.0.0.0″，DIAD＝0。

ADD_MTP2LNK increases the MTP2 signaling link, and this order is used for increasing a MTP2 signaling link data record at configuration database.For example: the link that increases a MTP2 64K, link No. is 321, link name is BSC30602_6, and the interface board type is E32L, and the interface board board No. is 50, port numbers is 28, the beginning timeslot number is 16, and finishing timeslot number is that 16, SPF board No. is 14, the SPF buckle number is 0, and Linktype is the order following (11 territories are the field before the equal sign in following each equal sign expression formula) of the MTP2 link that uses 64K:

ADD MTP2LNK:LNKNO＝321，LNKNAME＝″BSC30602_6″，IFBT＝E32，IFBN＝50，E1T1N＝28，STRTTS＝16，ENDTS＝16，SPFBN＝14，SUBBN＝0，SUBBCID＝8，LNKTYPE＝MTP364K。

ADD_N7LNK increases the signalling system No.7 link, and this order is used for increasing a MTP3 link record at configuration database.For example: increase by 1 MTP3 link, " link index " is 321, it is 21 that name is called " BSC30602_6 " " link set index ", " Signaling Link Code " is 9, " link code that signaling link sends " is 9, " test patterns " is 170, and " MTP2 link No. " is 321 order following (7 territories are the field before the equal sign in following each equal sign expression formula):

ADD N7LNK:INDEX＝321，NAME＝″BSC30602_6″，LKSIDX＝21，SLC＝6，SNDSLC＝6，TESTCODE＝170，MTP2NO＝321。

Class DSPCFGParser.java original program is as follows:

public class DSPCFGParser extends FileParser

{ private Properties prop＝null；

private String col[]＝null；

public DSPCFGParser()throws SQLException

{ super()；}

public void parse(String devName，StringBuffer buff)

{ String line＝″″；

String types＝″SPC MTP2LNK N7LNK″，val＝″″；

int type＝-1，oldType＝-1；

String fields[]＝{″ID，SPCN， SRPN，SISA，SIAD，DTFN，DTSN，

″，″LNKNO，LNKNAME，IFBT，

SUBBCID，LNKTYPE″，″IND，NAME，LKSIDX，SLC″}；

boolean[]delFlag＝{false，false，false}；

try{ while((line＝readLine(buff))！＝null)

{ int ind＝line.indexOf(″ADD″)；

if(ind＝＝-1){continue；}

line＝line.substring(ind)；

ind＝line.indexOf(″:″)；

if(ind＝＝-1){continue；}

val＝line.substring(4，ind).trim()；

if(CommonUtil.wordMatch(types，val)){

line＝line.substring(ind+2，line.length()-1)；

prop＝CommonUtil.analyze(line，″，″，″[＝\″]+″)；

if(val.equals(″SPC″)){type＝0；}

else if(val.equals(″MTP2LNK″)){type＝1；}

else if(val.equals(″N7LNK″)){type＝2；}

if(oldType！＝type){oldType＝type；

setTable(″CM_HW_″+val)；

setField(″DEV_NAME，DATA_TIME，″+fields[type])；

col＝fields[type].split(″，″)；

if(！delFlag[type]){

delete(devName)；

delFlag[type]＝true；}}

setVal(″″′+devName+″′，sysdate，″+getVal(type))；

insert()；}

An else if (line.indexOf (" number as a result ")!=-1) { break;

catch(IOException e){e.printStackTrace()；}

finally{close()；}}

Step 307, harvester generate port resource information and also deposit database server in according to step 302,304 and 306 analysis result.

The port resource initial data that obtains from MSC server and a part of information that all can only reflect port resource from the port resource initial data that MGW obtains, in this step, harvester can obtain complete port resource information by the analysis result of the port resource initial data of MSC Server and the analysis result of MGW port resource initial data are integrated.

Step 308, each client are obtained port resource information by the WEB server and are represented or export from database server.

In this step, the user can browse or derive port resource information by client, and the respective handling flow process of client can comprise:

Step 31: when the user selects " inquiry " button, enter step 32, enter step 33 when selecting " deriving Excel ".

Step 32: read to such an extent that filtercondition calls the listdata interface obtain corresponding data from database server in the applying step 31, and represent the paging of 200 records by every page and represent in the data list of client the flow process that client end process " inquiry " is ordered.

Step 33: read to such an extent that filtercondition calls the copyAllExcelFile interface obtain corresponding data from database server in the applying step 31, and one by one data are write the Excel file, the prompting user opens and checks or be saved in local directory, the flow process of client end process the Export command.

In the system shown in Figure 2, the port resource initial data that Softswitch is returned is resolved and also can be arranged in the database server according to the module that analysis result generates port resource information, and harvester only is used for sending the order of gathering the port resource initial data to Softswitch; Perhaps also can send described order and the port resource initial data that Softswitch returns is resolved by harvester, then analysis result be deposited in the database server, generate port resource information by database server according to described analysis result.In a word, be used for realizing that sending module, receiver module, parsing module and the administration module of management can be arranged on the different equipment or be integrated in same equipment the Softswitch port resource according to circumstances automatically.

We can say, the present invention is based on automated manner login Softswitch MSC SERVER and MGW, adopt sql like language to gather automatically and obtain Softswitch port resource related data, coding realizes that the close friend of Softswitch port resource important information at the WEB interface represents.Device of the present invention is simple, realize easily, broken through Softswitch port resource manual administration mode traditionally, defectives such as automaticity that original way to manage lacks, promptness, sharing, early warning have been solved, improved Softswitch specialty attendant greatly to the efficient of port resource management, for the research staff need not to possess specialty signaling research, need not to carry out extra hardware platform exploitation, research and develop simple, cheap.

The above is preferred embodiment of the present invention only, is not for limiting protection scope of the present invention, all any modifications of making within the spirit and principles in the present invention, is equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (9)

1. Softswitch port resource automated management system, described Softswitch comprise mobile exchange Control Server MSC Server and media gateway MGW, it is characterized in that this system comprises harvester, and described harvester comprises:

Acquisition module sends the order of gathering the port resource initial data to MSC Server and MGW respectively, receives the port resource initial data that MSC Server and MGW return respectively;

Parsing module is resolved the port resource initial data that acquisition module receives;

Administration module, the analysis result of the analysis result of the port resource initial data of MSC Server being returned according to parsing module and port resource initial data that MGW is returned generates the port resource information of Softswitch;

Wherein, described parsing module when the office direction information of returning as MSC Server is expert at and is matched the office direction title, if match as a result number at this row then finish to resolve, otherwise reads the data in preceding 7 territories in this row and is stored in first tables of data; And/or:

Described parsing module when the repeat circuit data of returning as MSC Server are expert at and are matched the office direction title, if match as a result number at this row then finish to resolve, otherwise reads the data in 8 territories in this row and is stored in second tables of data; And/or:

Described parsing module, when the port resource initial data of returning as MGW is expert at and is matched " ADD SPC ", the value that reads 22 territories from this line data is stored among the 3rd tables of data CM_HW_SPC, when the port resource initial data of returning as MGW is expert at and is matched " ADD MTP2LINK ", the value that reads 11 territories from this line data is stored among the 4th tables of data CM_HW_MTP2LINK, when the port resource initial data of returning as MGW was expert at and is matched " ADD N7LINK ", the value that reads 7 territories from this line data was stored among the 5th tables of data CM_HW_N7LINK;

Wherein, described number as a result is to finish, need withdraw from the end mark of parsing for the explanation data; The described data that read 8 territories in this row are to read the data in preceding 8 territories in this row; Described 22 territories are ID territory, SPCN territory, CT territory, CD territory, STFN territory, STSN territory, SPN territory, STS territory, SRFN territory, SRSN territory, SRPN territory, SISA territory, SIAD territory, DTFN territory, DTSN territory, DPN territory, DTS territory, DRFN territory, DRSN territory, DRPN territory, DISA territory and DIAD territory; Described 11 territories are LNKNO territory, LNKNAME territory, IFBT territory, IFBN territory, E1T1N territory, STRTTS territory, ENDTS territory, SPFBN territory, SUBBN territory, SUBBCID territory and LNKTYPE territory; Described 7 territories are INDEX territory, NAME territory, LKSIDX territory, SLC territory, SNDSLC territory, TESTCODE territory and MTP2NO territory.

2. system according to claim 1 is characterized in that,

Described acquisition module sends the order of gathering the port resource initial data to MSC Server earlier, sends the order of gathering the port resource initial data to MGW again.

3. system according to claim 2 is characterized in that,

Described acquisition module sends the order of gathering office direction information to MSC Server earlier, sends the order of gathering the repeat circuit distributed data to MSC Server again, receives office direction information and repeat circuit distributed data that MSC Server returns.

4. system according to claim 3 is characterized in that,

The order of described collection office direction information is " LST OFC:OFCTYPE=ALL; ", the order of described collection repeat circuit distributed data is " LST TKCDIST:ON=＜#DIRECTION#〉".

5. system according to claim 3 is characterized in that,

Described order to MGW transmission collection port resource initial data is to send order " DSP:CFG to MGW; ".

6. system according to claim 1 is characterized in that, the port resource information that described administration module generates comprises 2M port resource information, S2L light mouth resource information, signaling link resource information and/or semipermanent resource information.

7. system according to claim 6 is characterized in that,

Described 2M port resource information comprises: device name, board No., frame number, groove number, port numbers, 1 road electrical interface E1 of system number, mobile network's 32 road E1 interface board ME32 switching ports, digital distribution frame DDF, channel number, office direction, the trunk group title, cic circuit identification code CIC value, initialization circuit identification code SCIC, termination circuit identification code ECIC, initial terminal recognition sign indicating number TID, terminating terminal identification code TID, control module unit CMU module No., control module number, link number SLC, link No., whether master control, remarks and/or availability;

Described S2L light mouth resource information comprises: device name, board No., frame number, groove number, light slogan, time slot, system E1 number, ODF frame end mouth, channel number, office direction, trunk group title, CIC value, SCIC, ECIC, play TID, whole TID, CMU module No., control module number, link number SLC, link No., whether master control, remarks and/or availability;

Described signaling link resource information comprises: device name, link No., link name, board No., DDF information and/or exchange end slogan;

Described semipermanent resource information comprises: device name, call number, title, source exchange end slogan, source frame, source groove, source port, source time slot, purpose exchange end slogan, purpose frame, purpose groove, destination interface and/or purpose time slot.

8. according to the described system of the arbitrary claim of claim 1 to 7, it is characterized in that this system further comprises database server;

Described database server is used for the port resource information that the described administration module of storage generates.

9. system according to claim 8 is characterized in that, this system further comprises the Internet WEB server and client side;

Described client links to each other with described database server by described WEB server, for obtaining the port resource information that database server is stored by the WEB server, and is represented or exports.

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