CN105208598A - Network access method and apparatus - Google Patents

Abstract

The invention discloses a network access method and apparatus. The method comprises the following steps: a GGSN-NET corresponding to an NET access point receiving a first data packet sent by user equipment through the NET access point, wherein the first data packet comprises a request message of the user equipment for accessing to a WEB server and an IP address distributed by the GGSN-NET to the user equipment; the GGSN-NET, according to a preset packaging technology, packaging the first data packet and sending a second data packet obtained after packaging to a WAP gateway; and the WAP gateway unpackaging the received second data packet so as to obtain the first data packet and send the first data packet to the WEB server. According to the technical scheme provided by the invention, through accessing a part of NET flow to the WAP gateway, the load of NET service of a current network can be reduced to a certain degree, and the utilization rate of the WAP gateway and the service control capability of a service provider are improved.

Description

A kind of method for network access and device

Technical field

The present invention relates to mobile communication technology, espespecially a kind of method for network access and device.

Background technology

Along with the continuous evolution of mobile network and intelligent terminal increasingly universal, the network access of mobile subscriber there occurs continuous change, the WAP business provided for user in the nascent telecom operators of mobile data services is by progressively marginalisation, in existing market, NET flow is increasing at the surf the Net proportion of total flow of user, reached the ratio of 90%, NET flow rapid growth also brings very large load to existing network.And along with the continuous expansion of intelligent terminal occupation rate of market, and the mobile network that user uses progressively evolves to 3G (G mobile communication) network, 4G (forth generation mobile communication technology) network, the trend in WAP business future can continuing shrinkage.

At present, the atrophy of WAP gateway along with traffic carrying capacity of one of the network management and control core network element of very large cost is dropped into as operator, compared with design capacity originally, WAP gateway in the last few years system utilization rate, in continuous decline, has arrived very low system availability degree; And, when current NET flow accounting is very high, user terminal is by Gateway GPRS Support Node (GatewayGPRSSupportNode, GGSN) the direct accessing Internet of network element, without the need to any network element device through operator in routing procedure, just may have access to the server of service provider, pure pipe provider has become in telecom operators, and business management and control ability is progressively being lost.

Summary of the invention

In order to solve the problems of the technologies described above, the invention provides a kind of method for network access and device, by by a part of NET flow access WAP gateway, the load of existing network NET business can be reduced to a certain extent, improve the utilance of WAP gateway and the business management and control ability of operator.

In order to reach the object of the invention, the invention provides a kind of method for network access, comprising:

The GGSN that NET access point is corresponding receives the first packet that subscriber equipment is sent by described NET access point; Wherein, the internet protocol address that the request message of described user equipment access network WEB server and described GGSN are described user equipment allocation is included in described first packet;

Described first packet carries out encapsulating and by the second Packet Generation of obtaining after encapsulation to WAP gateway according to presetting encapsulation technology by described GGSN;

Described WAP gateway to described second packet received carry out decapsulation with obtain described first packet and will described first Packet Generation to described WEB server.

Further, described method also comprises:

Described WEB server returns the 3rd packet to described WAP gateway; Wherein, the response message for responding WEB server described in described user equipment access is included in described 3rd packet;

Described 3rd packet carries out encapsulating according to described default encapsulation technology and by the 4th Packet Generation that obtains after encapsulation to described GGSN by described WAP gateway;

Described GGSN to described 4th packet received carry out decapsulation with obtain described 3rd packet and will described 3rd Packet Generation to described subscriber equipment.

Further, also comprise in described first packet: the mobile subscriber number MSISDN of described subscriber equipment;

Accordingly, described WAP gateway carries out decapsulation to obtain described first packet and by described first Packet Generation to described WEB server, specifically to comprise to described second packet received:

Described WAP gateway carries out decapsulation to obtain described first packet to described second packet received;

The described request message comprised in described first packet is sent to described WEB server to described WAP gateway and the MSISDN of the described subscriber equipment comprised in described first packet is sent to marketing service device by described WAP gateway.

Further, described after the MSISDN of the described subscriber equipment comprised in described first packet is sent to marketing service device by described WAP gateway, described method also comprises:

Described marketing service device obtains the relevant information of described subscriber equipment according to described MSISDN from the business support system BSS of operator and generates marketing message according to described relevant information;

Described marketing message is sent to described WAP gateway by described marketing service device;

Accordingly, described WAP gateway according to described default encapsulation technology described 3rd packet carried out encapsulating and by encapsulation after the 4th Packet Generation that obtains to described GGSN before, described method also comprises:

Described marketing message is added in described 3rd packet after described WAP gateway receives described marketing message.

Further, the IP address field that the GGSN that the IP address field of described GGSN use is corresponding with WAP access point uses does not overlap.

Further, described default encapsulation technology comprises: generic route encapsulation GRE.

The invention provides a kind of gateway GGSN, comprising:

First receiving element, for receiving the first packet that subscriber equipment is sent to described GGSN by NET access point; Wherein, the internet protocol address that the request message of described user equipment access network WEB server and described GGSN are described user equipment allocation is included in described first packet;

Encapsulation unit, obtains the second packet for described first packet being carried out encapsulation according to default encapsulation technology;

First transmitting element, for by described second Packet Generation to WAP gateway.

Further, described GGSN also comprises:

Second receiving element, after encapsulation obtains the 4th packet, receives described 4th packet that WAP gateway sends for carrying out the 3rd packet received from described WEB server according to described default encapsulation technology when described WAP gateway; Wherein, the response message for responding WEB server described in described user equipment access is included in described 3rd packet;

Decapsulation unit, for carrying out decapsulation to obtain described 3rd packet to described 4th packet received;

Second transmitting element, for giving described subscriber equipment by described 3rd Packet Generation.

Further, described default encapsulation technology comprises: generic route encapsulation GRE.

The invention provides a kind of WAP gateway, comprising:

First receiving element, after encapsulation obtains the second packet, receives described second packet that described GGSN sends for carrying out the first packet received from subscriber equipment by described NET access point according to default encapsulation technology as GGSN corresponding to NET access point; And to described first packet; Wherein, the internet protocol address that the request message of described user equipment access network WEB server and described GGSN are described user equipment allocation is included in described first packet;

Decapsulation unit, for carrying out decapsulation to obtain described first packet to described second packet received;

First transmitting element, for giving described WEB server by described first Packet Generation.

Further, described WAP gateway also comprises:

Second receiving element, for receiving the 3rd packet that described WEB server sends to described WAP gateway; Wherein, the response message for responding WEB server described in described user equipment access is included in described 3rd packet;

Encapsulation unit, obtains the 4th packet after being encapsulated by described 3rd packet according to described default encapsulation technology;

Second transmitting element, for giving described GGSN by described 4th Packet Generation.

Further, described default encapsulation technology comprises: generic route encapsulation GRE.

Further, also comprise in described first packet: the mobile subscriber number MSISDN of described subscriber equipment; Accordingly,

Described first transmitting element specifically for: the described request message comprised in described first packet is sent to described WEB server;

Described WAP gateway also comprises:

3rd transmitting element, for sending to marketing service device by the MSISDN of the described subscriber equipment comprised in described first packet.

Further, described WAP gateway also comprises:

3rd receiving element, for to obtain the relevant information of described subscriber equipment when described marketing service device from the business support system BSS of operator according to described MSISDN and after generating marketing message according to described relevant information, receive the described marketing message that described marketing service device sends;

Adding device, for adding to the described marketing message received in described 3rd packet.

A kind of method for network access that the embodiment of the present invention provides and device, the GGSN that NET access point is corresponding receives the first packet that subscriber equipment is sent by NET access point; Wherein, the internet protocol address that the request message of described user equipment access network WEB server and described GGSN are described user equipment allocation is included in described first packet; Described first packet carries out encapsulating and by the second Packet Generation of obtaining after encapsulation to WAP gateway according to presetting encapsulation technology by described GGSN; Described WAP gateway to described second packet received carry out decapsulation with obtain described first packet and will described first Packet Generation to described WEB server.In the technical scheme that the embodiment of the present invention provides, by by a part of NET flow access WAP gateway, the load of existing network NET business can be reduced to a certain extent, improve the utilance of WAP gateway and the business management and control ability of operator.

Other features and advantages of the present invention will be set forth in the following description, and, partly become apparent from specification, or understand by implementing the present invention.Object of the present invention and other advantages realize by structure specifically noted in specification, claims and accompanying drawing and obtain.

Accompanying drawing explanation

Accompanying drawing is used to provide the further understanding to technical solution of the present invention, and forms a part for specification, is used from and explains technical scheme of the present invention, do not form the restriction to technical solution of the present invention with the embodiment one of the application.

The schematic flow sheet one of the method for a kind of network insertion that Fig. 1 provides for the embodiment of the present invention;

The schematic flow sheet two of the method for a kind of network insertion that Fig. 2 provides for the embodiment of the present invention;

The structural representation one of a kind of GGSN that Fig. 3 provides for the embodiment of the present invention;

The structural representation two of a kind of GGSN that Fig. 4 provides for the embodiment of the present invention;

The structural representation of a kind of WAP gateway that Fig. 5 provides for the embodiment of the present invention;

The enforcement schematic diagram of the specific embodiment that Fig. 6 provides for the embodiment of the present invention;

The schematic diagram of gre tunneling is set up between GGSN-NET and WAP gateway in the specific embodiment that Fig. 7 provides for the embodiment of the present invention.

Embodiment

For making the object, technical solutions and advantages of the present invention clearly understand, hereinafter will be described in detail to embodiments of the invention by reference to the accompanying drawings.It should be noted that, when not conflicting, the embodiment in the application and the feature in embodiment can combination in any mutually.

Can perform in the computer system of such as one group of computer executable instructions in the step shown in the flow chart of accompanying drawing.Further, although show logical order in flow charts, in some cases, can be different from the step shown or described by order execution herein.

The embodiment of the present invention provides a kind of method for network access, and as shown in Figure 1, the method comprises:

The GGSN that step 101, NET access point are corresponding receives the first packet that subscriber equipment is sent by described NET access point; Wherein, Internet protocol (InternetProtocol, the IP) address that the request message of described user equipment access network WEB server and described GGSN are described user equipment allocation is included in described first packet.

It should be noted that, in the network system of operator, the GGSN (hereinafter referred to as GGSN-WAP) that the GGSN (hereinafter referred to as GGSN-NET) that NET access point is corresponding is corresponding with WAP access point can be directly independent mutually physically, also can be logically mutually independently, physically be integrated on same physical entity, the business datum of the subscriber equipment accessed by NET access point of GGSN-NET process, and GGSN-WAP process is the business datum of the subscriber equipment accessed by WAP access point.

Described first packet carries out encapsulating and by the second Packet Generation of obtaining after encapsulation to WAP gateway according to presetting encapsulation technology by step 102, described GGSN.

Further, described default encapsulation technology comprises: generic route encapsulation (GenericRoutingEncapsulation, GRE).

It should be noted that, because the business of the business of NET access point and WAP access point is completely independently in existing network environment, so the IP address field that in existing network environment, GGSN-NET uses and the IP address field that GGSN-WAP uses also are separate, therefore, in existing network environment, GGSN-NET uses IP address field and the IP address field that GGSN-WAP uses be can be identical be also that IP address field can be multiplexing; In the technical scheme that the embodiment of the present invention provides, because GGSN-NET needs the business datum of NET access point to be linked into WAP gateway, by gre tunneling, GGSN-NET is accessed WAP gateway, make the IP address of the subscriber equipment of NET access point to WAP gateway transparence, thus the situation of the IP address conflict of the IP address of the subscriber equipment of NET access point and the subscriber equipment of WAP access point can not be caused; Preferred, in the technical scheme that the embodiment of the present invention provides, the IP address field that can use both GGSN-NET and GGSN-WAP divides, and the IP address field that both are used does not overlap, and like this, more ensures the situation that there will not be both conflicts.

Step 103, described WAP gateway to described second packet received carry out decapsulation with obtain described first packet and will described first Packet Generation to described WEB server.

It should be noted that, the reverse deblocking of mode when encapsulating according to GRE when WAP gateway carries out decapsulation to described second packet in step 103, the encapsulation in GRE technology and decapsulation all belong to existing technological means, do not repeat in the present invention to this.

Further, as shown in Figure 2, described method can also comprise:

Step 104, described WEB server return the 3rd packet to described WAP gateway; Wherein, the response message for responding WEB server described in described user equipment access is included in described 3rd packet.

Concrete, step 104 belongs to existing technological means, and those skilled in the art can understand with reference to prior art, do not repeat at this.

Described 3rd packet carries out encapsulating according to described default encapsulation technology and by the 4th Packet Generation that obtains after encapsulation to described GGSN by step 105, described WAP gateway.

Concrete, described WAP gateway carries out GRE encapsulation to described 3rd packet and by the 4th Packet Generation that obtains after encapsulation to GGSN-NET.

Step 106, described GGSN to described 4th packet received carry out decapsulation with obtain described 3rd packet and will described 3rd Packet Generation to described subscriber equipment.

Further, can also comprise in described first packet: the mobile subscriber number (MobileSubscriberInternationalISDNnumber, MSISDN) of described subscriber equipment;

Accordingly, as shown in Figure 2, step 103 can specifically comprise:

Step 103a, described WAP gateway carry out decapsulation to obtain described first packet to described second packet received.

The described request message comprised in described first packet is sent to described WEB server for step 103b, described WAP gateway and the MSISDN of the described subscriber equipment comprised in described first packet is sent to marketing service device by described WAP gateway.

Further, as shown in Figure 2, after step 103b, described method can also comprise:

Step 107, described marketing service device obtain the relevant information of described subscriber equipment according to described MSISDN from the business support system (Bussinesssupportsystem, BSS) of operator and generate marketing message according to described relevant information.

Described marketing message is sent to described WAP gateway by step 108, described marketing service device.

Concrete, step 107,108 belongs to existing technological means, and those skilled in the art can understand with reference to prior art, do not repeat at this.

Accordingly, as shown in Figure 2, between step 104 and step 105, described method can also comprise:

Described marketing message is added in described 3rd packet after step 104', described WAP gateway receive described marketing message.

A kind of method for network access that the embodiment of the present invention provides, GGSN-NET receives the first packet that subscriber equipment is sent by NET access point; Wherein, the internet protocol address that the request message of described user equipment access network WEB server and described GGSN-NET are described user equipment allocation is included in described first packet; Described first packet carries out encapsulating and by the second Packet Generation of obtaining after encapsulation to WAP gateway according to presetting encapsulation technology by described GGSN-NET; Described WAP gateway to described second packet received carry out decapsulation with obtain described first packet and will described first Packet Generation to described WEB server.In the technical scheme that the embodiment of the present invention provides, by by a part of NET flow access WAP gateway, the load of existing network NET business can be reduced to a certain extent, improve the utilance of WAP gateway and the business management and control ability of operator.

The embodiment of the present invention provides a kind of gateway GGSN10, as shown in Figure 3, comprising:

First receiving element 11, for receiving the first packet that subscriber equipment is sent to described GGSN by NET access point; Wherein, the IP address that the request message of described user equipment access WEB server and described GGSN are described user equipment allocation is included in described first packet;

Encapsulation unit 12, obtains the second packet for described first packet being carried out encapsulation according to default encapsulation technology;

First transmitting element 13, for by described second Packet Generation to WAP gateway.

Further, as shown in Figure 4, described GGSN10 can also comprise:

Second receiving element 14, after encapsulation obtains the 4th packet, receives described 4th packet that WAP gateway sends for carrying out the 3rd packet received from described WEB server according to described default encapsulation technology when described WAP gateway; Wherein, the response message for responding WEB server described in described user equipment access is included in described 3rd packet;

Decapsulation unit 15, for carrying out decapsulation to obtain described 3rd packet to described 4th packet received;

Second transmitting element 16, for giving described subscriber equipment by described 3rd Packet Generation.

Further, described default encapsulation technology comprises: GRE.

The present embodiment is used for realizing above-mentioned each embodiment of the method, and in the present embodiment, the workflow of unit and operation principle are see the description in above-mentioned each embodiment of the method, do not repeat them here.

A kind of GGSN that the embodiment of the present invention provides, receives the first packet that subscriber equipment is sent to described GGSN by NET access point; Wherein, the internet protocol address that the request message of described user equipment access WEB server and described GGSN are described user equipment allocation is included in described first packet; According to default encapsulation technology, described first packet is carried out encapsulation and obtain the second packet; By described second Packet Generation to WAP gateway.In the technical scheme that the embodiment of the present invention provides, by by a part of NET flow access WAP gateway, the load of existing network NET business can be reduced to a certain extent, improve the utilance of WAP gateway and the business management and control ability of operator.

The embodiment of the present invention provides a kind of WAP gateway 20, as shown in Figure 5, comprising:

First receiving element 21, after encapsulation obtains the second packet, described second packet that described GGSN sends is received for carrying out the first packet received from subscriber equipment by described NET access point according to default encapsulation technology as GGSN corresponding to NET access point; And to described first packet; Wherein, the IP address that the request message of described user equipment access WEB server and described GGSN are described user equipment allocation is included in described first packet;

Decapsulation unit 22, for carrying out decapsulation to obtain described first packet to described second packet received;

First transmitting element 23, for giving described WEB server by described first Packet Generation;

Further, described WAP gateway can also comprise:

Second receiving element 24, for receiving the 3rd packet that described WEB server sends to described WAP gateway; Wherein, the response message for responding WEB server described in described user equipment access is included in described 3rd packet;

Encapsulation unit 25, obtains the 4th packet after being encapsulated by described 3rd packet according to described default encapsulation technology;

Second transmitting element 26, for giving described GGSN by described 4th Packet Generation.

Further, described default encapsulation technology comprises: GRE.

Further, also comprise in described first packet: the MSISDN of described subscriber equipment; Accordingly,

Described first transmitting element 23 specifically for: the described request message comprised in described first packet is sent to described WEB server;

Described WAP gateway 20 can also comprise:

3rd transmitting element 27, for sending to marketing service device by the MSISDN of the described subscriber equipment comprised in described first packet.

Further, described WAP gateway 20 can also comprise:

3rd receiving element 28, for to obtain the relevant information of described subscriber equipment when described marketing service device from the business support system BSS of operator according to described MSISDN and after generating marketing message according to described relevant information, receive the described marketing message that described marketing service device sends;

Adding device 29, for adding to the described marketing message received in described 3rd packet.

The present embodiment is used for realizing above-mentioned each embodiment of the method, and in the present embodiment, the workflow of unit and operation principle are see the description in above-mentioned each embodiment of the method, do not repeat them here.

A kind of WAP gateway that the embodiment of the present invention provides, when GGSN corresponding to NET access point to carry out the first packet received from subscriber equipment by described NET access point according to default encapsulation technology after encapsulation obtains the second packet, receiving described second packet that described GGSN sends; And to described first packet; Wherein, the internet protocol address that the request message of described user equipment access WEB server and described GGSN are described user equipment allocation is included in described first packet; Decapsulation is carried out to obtain described first packet to described second packet received; Described WEB server is given by described first Packet Generation.In the technical scheme that the embodiment of the present invention provides, by by a part of NET flow access WAP gateway, the load of existing network NET business can be reduced to a certain extent, improve the utilance of WAP gateway and the business management and control ability of operator.

In order to enable those skilled in the art more clearly understand technical scheme provided by the invention, below by specific embodiment, technical scheme provided by the invention is described in detail:

In following specific embodiment, as shown in Figure 6, comprise the following steps:

Step 1, by subscriber equipment access GGSN in units of, according to subscriber equipment distribution situation and NET flow load situation choose need shunting GGSN-NET, will need shunting GGSN-NET NET flow access WAP gateway, carry out NET flow shunt.

Step 2, to GGSN-NET use IP address field and GGSN-WAP use IP address field carry out unified planning, the IP address field that GGSN-NET is used and GGSN-WAP use IP address field do not repeat.

Step 3, the selected connected mode adopting gre tunneling between GGSN-NET and WAP gateway;

Exemplary, such as, shown in Fig. 7.

Step 4, subscriber equipment to be encapsulated by sending to the private ip packet of GGSN-NET during NET access point accesses network, after GGSN is transferred to WAP gateway by gre tunneling after being encapsulated by the private ip packet of subscriber equipment, WAP gateway is resolved encapsulated data packet, gets the private ip packet that subscriber equipment sends to GGSN-NET.

Wherein, the WAP mode of existing network is surfed the Net in environment, only has GGSN-WAP address pool to be connected with WAP gateway, and GGSN-NET address pool is connected with not existing between WAP gateway.

Concrete, in order to realize that NET flow is introduced WAP gateway, key sets up gre tunneling between GGSN-NET and WAP gateway.

The object setting up gre tunneling has two:

(1) routing mode of NET flow is changed, encapsulated by the packet of gre tunneling by subscriber equipment script access WEB server, GGSN-NET only need by gre tunneling by data packet transmission to WAP gateway, after WAP gateway is resolved packet, obtain the IP address that subscriber equipment needs the WEB server of access, then routing forwarding is carried out to packet;

(2) because GGSN-WAP and GGSN-NET belonged to mutually independently business originally, the IP address pool of two class business allows mutually multiplexing, if so NET flow is directly introduced WAP gateway, the IP address conflict of the inner WAP user of WAP gateway and NET user can be caused, by gre tunneling, GGSN-NET is accessed WAP gateway, make the IP address of NET user to WAP gateway transparence, the situation that NET IP address conflicts with WAP IP address can not be caused.After WAP gateway receives the service request of NET user, laggard walking along the street is resolved by being distributed to corresponding WEB server to packet, after WAP gateway receives the packet of the information of the subscriber equipment including WEB server response NET access point, only need to be back to GGSN-NET by after packet encapsulation by gre tunneling, then return to subscriber equipment by GGSN-NET.Remote customer dialing authentication service request (RemoteAuthenticationDialInUserServiceRequest, RadiusRequest) message (this message is included in GGSN-NET and issues in the packet of WAP gateway)

Step 5, WAP gateway contain the request message of user equipment access WEB server from the packet receiving of GGSN-NET termination, the content of RadiusRequest message comprises IP address and the MSISDN of subscriber equipment, and WAP gateway is responsible for the IP address of maintenance customer's equipment and the corresponding relation of Mobile Subscriber International ISDN Number during session.WAP gateway by the Mobile Subscriber International ISDN Number routing forwarding of subscriber equipment to marketing service device, marketing service device identifies user by MSISDN, according to this unique identification field of MSISDN, from the relevant information that the BSS of operator obtains subscriber equipment, following field can be included but not limited to:

1	Residue telephone expenses	5	Contract due date
				2	Residual flow	6	User type (2G/3G/4G)
3	The residue air time	7	User terminal model
				4	Residue note quantity	8	Latest activity information

Step 6, marketing service device generate marketing message according to the relevant information of the subscriber equipment obtained and marketing message are returned to WAP gateway.

Concrete, form above-mentioned in integrating step 5, can have 3 kinds of situations:

(1) at the inner telephone expenses for user of marketing service device, flow, call, note, contract, due date, threshold value was set, during the customer charging information activation threshold value got from BSS territory, marketing service device generates notification message, and notification message is returned to WAP gateway.

(2) when there being new advertising campaign, advertising campaign information is returned to WAP gateway by marketing service device.

(3) for 2G and 3G subscription, and the user that terminal is old, return for encouraging customer upgrade network formats and upgrading the PUSH message of intelligent machine to WAP gateway.

After step 7, WAP gateway receive the packet of subscriber equipment from GGSN-NET end, packet is resolved, give corresponding WEB server by the service request routing forwarding of user equipment access WEB server, WEB server returns response message to WAP gateway after receiving request.

Two parts message can merge after receiving response message that WEB server returns and the marketing message that marketing service device returns by step 8, WAP gateway, and the message after merging comprises and sends corresponding GGSN-NET by gre tunneling in the packet by WAP gateway.

Step 9, GGSN-NET receive the packet that WAP gateway sends, message after getting WAP gateway merging is resolved to the message of encapsulation, be transmitted to corresponding subscriber equipment again, thus the subscriber equipment realizing NET access point accesses WEB server by WAP gateway, in addition owing to there being the marketing message for subscriber equipment in return messages, operator's realization promotion to a certain degree can be helped.

Although the execution mode disclosed by the present invention is as above, the execution mode that described content only adopts for ease of understanding the present invention, and be not used to limit the present invention.Those of skill in the art belonging to any the present invention; under the prerequisite not departing from the spirit and scope disclosed by the present invention; any amendment and change can be carried out in the form implemented and details; but scope of patent protection of the present invention, the scope that still must define with appending claims is as the criterion.

Claims (14)

1. a method for network access, is characterized in that, comprising:

The GGSN that NET access point is corresponding receives the first packet that subscriber equipment is sent by described NET access point; Wherein, the internet protocol address that the request message of described user equipment access network WEB server and described GGSN are described user equipment allocation is included in described first packet;

Described first packet carries out encapsulating and by the second Packet Generation of obtaining after encapsulation to WAP gateway according to presetting encapsulation technology by described GGSN;

Described WAP gateway to described second packet received carry out decapsulation with obtain described first packet and will described first Packet Generation to described WEB server.

2. method according to claim 1, is characterized in that, described method also comprises:

Described WEB server returns the 3rd packet to described WAP gateway; Wherein, the response message for responding WEB server described in described user equipment access is included in described 3rd packet;

Described 3rd packet carries out encapsulating according to described default encapsulation technology and by the 4th Packet Generation that obtains after encapsulation to described GGSN by described WAP gateway;

Described GGSN to described 4th packet received carry out decapsulation with obtain described 3rd packet and will described 3rd Packet Generation to described subscriber equipment.

3. method according to claim 2, is characterized in that, also comprises in described first packet: the mobile subscriber number MSISDN of described subscriber equipment;

Accordingly, described WAP gateway carries out decapsulation to obtain described first packet and by described first Packet Generation to described WEB server, specifically to comprise to described second packet received:

Described WAP gateway carries out decapsulation to obtain described first packet to described second packet received;

The described request message comprised in described first packet is sent to described WEB server to described WAP gateway and the MSISDN of the described subscriber equipment comprised in described first packet is sent to marketing service device by described WAP gateway.

4. method according to claim 3, is characterized in that, described after the MSISDN of the described subscriber equipment comprised in described first packet is sent to marketing service device by described WAP gateway, described method also comprises:

Described marketing service device obtains the relevant information of described subscriber equipment according to described MSISDN from the business support system BSS of operator and generates marketing message according to described relevant information;

Described marketing message is sent to described WAP gateway by described marketing service device;

Accordingly, described WAP gateway according to described default encapsulation technology described 3rd packet carried out encapsulating and by encapsulation after the 4th Packet Generation that obtains to described GGSN before, described method also comprises:

Described marketing message is added in described 3rd packet after described WAP gateway receives described marketing message.

5. method according to claim 1, is characterized in that, the IP address field that the GGSN that the IP address field that described GGSN uses is corresponding with WAP access point uses does not overlap.

6. the method according to any one of claim 1 to 5, is characterized in that, described default encapsulation technology comprises: generic route encapsulation GRE.

7. a gateway GGSN, is characterized in that, comprising:

First receiving element, for receiving the first packet that subscriber equipment is sent to described GGSN by NET access point; Wherein, the internet protocol address that the request message of described user equipment access network WEB server and described GGSN are described user equipment allocation is included in described first packet;

Encapsulation unit, obtains the second packet for described first packet being carried out encapsulation according to default encapsulation technology;

First transmitting element, for by described second Packet Generation to WAP gateway.

8. GGSN according to claim 7, is characterized in that, described GGSN also comprises:

Second receiving element, after encapsulation obtains the 4th packet, receives described 4th packet that WAP gateway sends for carrying out the 3rd packet received from described WEB server according to described default encapsulation technology when described WAP gateway; Wherein, the response message for responding WEB server described in described user equipment access is included in described 3rd packet;

Decapsulation unit, for carrying out decapsulation to obtain described 3rd packet to described 4th packet received;

Second transmitting element, for giving described subscriber equipment by described 3rd Packet Generation.

9. the GGSN according to claim 7 or 8, is characterized in that, described default encapsulation technology comprises: generic route encapsulation GRE.

10. a WAP gateway, is characterized in that, comprising:

First receiving element, after encapsulation obtains the second packet, receives described second packet that described GGSN sends for carrying out the first packet received from subscriber equipment by described NET access point according to default encapsulation technology as GGSN corresponding to NET access point; And to described first packet; Wherein, the internet protocol address that the request message of described user equipment access network WEB server and described GGSN are described user equipment allocation is included in described first packet;

Decapsulation unit, for carrying out decapsulation to obtain described first packet to described second packet received;

First transmitting element, for giving described WEB server by described first Packet Generation.

11. WAP gateways according to claim 10, is characterized in that, described WAP gateway also comprises:

Second receiving element, for receiving the 3rd packet that described WEB server sends to described WAP gateway; Wherein, the response message for responding WEB server described in described user equipment access is included in described 3rd packet;

Encapsulation unit, obtains the 4th packet after being encapsulated by described 3rd packet according to described default encapsulation technology;

Second transmitting element, for giving described GGSN by described 4th Packet Generation.

12. WAP gateways according to claim 10 or 11, it is characterized in that, described default encapsulation technology comprises: generic route encapsulation GRE.

13. WAP gateways according to claim 10 or 11, is characterized in that, also comprise in described first packet: the mobile subscriber number MSISDN of described subscriber equipment; Accordingly,

Described first transmitting element specifically for: the described request message comprised in described first packet is sent to described WEB server;

Described WAP gateway also comprises:

3rd transmitting element, for sending to marketing service device by the MSISDN of the described subscriber equipment comprised in described first packet.

14. WAP gateways according to claim 13, is characterized in that, described WAP gateway also comprises:

3rd receiving element, for to obtain the relevant information of described subscriber equipment when described marketing service device from the business support system BSS of operator according to described MSISDN and after generating marketing message according to described relevant information, receive the described marketing message that described marketing service device sends;

Adding device, for adding to the described marketing message received in described 3rd packet.