WO2016127398A1 - 控制接入的装置、系统和方法 - Google Patents
控制接入的装置、系统和方法 Download PDFInfo
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- WO2016127398A1 WO2016127398A1 PCT/CN2015/073019 CN2015073019W WO2016127398A1 WO 2016127398 A1 WO2016127398 A1 WO 2016127398A1 CN 2015073019 W CN2015073019 W CN 2015073019W WO 2016127398 A1 WO2016127398 A1 WO 2016127398A1
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- service chain
- network element
- access network
- service
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/02—Network architectures or network communication protocols for network security for separating internal from external traffic, e.g. firewalls
- H04L63/0227—Filtering policies
- H04L63/0263—Rule management
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L45/00—Routing or path finding of packets in data switching networks
- H04L45/38—Flow based routing
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L45/00—Routing or path finding of packets in data switching networks
- H04L45/64—Routing or path finding of packets in data switching networks using an overlay routing layer
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L47/00—Traffic control in data switching networks
- H04L47/10—Flow control; Congestion control
- H04L47/24—Traffic characterised by specific attributes, e.g. priority or QoS
- H04L47/2483—Traffic characterised by specific attributes, e.g. priority or QoS involving identification of individual flows
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/02—Network architectures or network communication protocols for network security for separating internal from external traffic, e.g. firewalls
- H04L63/0227—Filtering policies
- H04L63/0236—Filtering by address, protocol, port number or service, e.g. IP-address or URL
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W48/00—Access restriction; Network selection; Access point selection
- H04W48/08—Access restriction or access information delivery, e.g. discovery data delivery
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W88/00—Devices specially adapted for wireless communication networks, e.g. terminals, base stations or access point devices
- H04W88/12—Access point controller devices
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L45/00—Routing or path finding of packets in data switching networks
- H04L45/74—Address processing for routing
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L47/00—Traffic control in data switching networks
- H04L47/10—Flow control; Congestion control
- H04L47/12—Avoiding congestion; Recovering from congestion
- H04L47/125—Avoiding congestion; Recovering from congestion by balancing the load, e.g. traffic engineering
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/08—Network architectures or network communication protocols for network security for authentication of entities
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L69/00—Network arrangements, protocols or services independent of the application payload and not provided for in the other groups of this subclass
- H04L69/22—Parsing or analysis of headers
Definitions
- the present invention relates to the field of communications, and in particular, to an apparatus, system, and method for controlling access.
- SDN Software-Defined Network
- control logic and forwarding functions of the network element are decoupled, and the control logic is deployed centrally.
- the controller (Controller) for implementing the network element control logic implements flexible control of the packet processing flow by controlling processing rules stored in a forwarding device (Switch) having a forwarding function.
- the forwarder matches the matching field of the packet with the matching field in the processing rule. If the matching succeeds, the packet is processed according to the corresponding action set in the processing rule.
- the SDN mechanism is mainly used for the service chaining scheme of the Gi-LAN (Local Area Network) domain.
- the Gi-LAN domain refers to the network domain between the core network gateway and the Packet Data Network (PDN).
- the basic idea of the service chain solution is to deploy a forwarder that is connected to a service function (SF) entity, and deploy a forwarding rule corresponding to the service packet feature on the forwarder through the controller.
- the forwarder forwards the packet according to the forwarding rule.
- the rule forwards the received packet, so that the packet flows through one or more SF entities, thereby completing the service processing of the packet.
- SF service function
- the foregoing SDN mechanism does not involve a radio access network including an access network element such as a base station, and the service chain identifier is used for routing in the Gi-LAN domain, and the tunnel identifier of the user packet is used in the radio access network. Routing and forwarding mechanisms are not the same. Therefore, different networks use different transponders
- the system causes the control function logic to be complex, and the forwarding mechanism between the Gi-LAN domain and the radio access network cannot be unified.
- the SDN mechanism in the mobile network cannot implement the control of the access NE.
- an embodiment of the present invention provides an apparatus, system, and method for controlling access to implement control of an access network element based on an SDN mechanism in a mobile network.
- the technical solution is as follows:
- an apparatus for controlling access comprising:
- a receiver configured to receive a first service chain forwarding rule sent by the controller, where the first service chain forwarding rule includes a first service chain identifier corresponding to the terminal, and a first identifier of the first access network element, where The first identifier of the first access network element corresponds to the first service chain identifier, and is further configured to receive a first packet sent by the classifier, where the first packet carries a service chain identifier;
- a processor configured to: when the service chain identifier carried in the first packet matches the first service chain identifier in the first service chain forwarding rule, according to the first Identifying that the first packet is sent to the first access network element;
- the receiver is further configured to:
- the processor is further configured to:
- a third service chain forwarding rule that is sent according to the terminal switching request, where the third service chain forwarding rule includes the first service chain identifier, the first identifier of the first access network element, and the second a second identifier of the access network element, where the second access network element is an access network element after the terminal is switched, and the first service chain identifier corresponds to the first identifier and the second identifier;
- Receiving a third packet sent by the classifier where the third packet carries a service chain identifier;
- the processor is further configured to:
- the receiver is further configured to:
- a fourth service chain forwarding rule that is sent according to the terminal service establishment request, where the fourth service chain forwarding rule includes a second service chain identifier corresponding to the service of the terminal, and one or more service processing networks.
- the processor is further configured to:
- the transmitter is also used to:
- the receiver is also used to:
- the processor is further configured to:
- the transmitter is also used to:
- the fourth packet carries the one or more service processing network elements to perform service processing As a result, the first access network element performs packet forwarding according to the result.
- the receiver is further configured to:
- the controller And receiving, by the controller, a fifth service chain forwarding rule that is sent according to the terminal idle state notification, where the fifth service chain forwarding rule includes the first service chain identifier and an identifier of one or more access network elements, where the one Or the access network element is an access network element in the paging group to which the terminal belongs, the first service chain identifier corresponds to an identifier of the first or multiple access network elements; and receiving the a fifth packet sent by the classifier, where the fifth packet carries a service chain identifier;
- the processor is further configured to:
- the transmitter is also used to:
- the transmitter is configured to:
- the first service chain forwarding rule further includes An identifier of at least one service processing network element corresponding to the first service chain identifier;
- the processor is used to:
- the transmitter is also used to:
- the receiver is also used to:
- the processor is further configured to:
- the transmitter is also used to:
- the service chain identifier carried in the to-be-forwarded packet is deleted, if the next If the network element is not the access network element, the service chain identifier carried in the to-be-forwarded packet is retained;
- the to-be-forwarded packet is the first packet or the first packet after the service is processed.
- the first service chain forwarding rule is the controller
- the second terminal access request is initiated by the terminal by using the first access network element
- the third terminal access request is sent by the second terminal access request and the third terminal access request.
- the terminal is initiated by the second access network element
- the first service chain forwarding rule further includes a second identifier of the second access network element, and the second identifier of the second access network element corresponds to The first service chain identifier;
- the first service chain forwarding rule is sent by the controller according to the second terminal access request and the third terminal access request, and the second terminal access request is used by the terminal to pass the first access network.
- the third terminal access request is initiated by the terminal by using the second access network element, and the first service link forwarding rule further includes a second identifier of the second access network element, where The second identifier of the second access network element corresponds to the first service chain identifier;
- the processor is used to:
- the transmitter is used to:
- an apparatus for controlling access comprising:
- a processor configured to generate a first service chain classification rule and a first service chain forwarding rule, where the first service chain classification rule includes a forwarding identifier allocated to the terminal and a first service chain identifier corresponding to the terminal, and The forwarding identifier corresponds to the first service chain identifier, and the first service chain forwarding rule includes at least the first service chain identifier and the first identifier of the first access network element, where the first service chain identifier corresponds to At the first identifier;
- a transmitter configured to send the first service chain classification rule to a classifier, where the first service chain is The class rule is used by the classifier to encapsulate the first service chain identifier on the received first packet that includes the forwarding identifier, and is further configured to send the first service chain forwarding rule to the forwarder, where The first service chain forwarding rule is used by the forwarder to forward the received first packet that includes the first service chain identifier to the first access network element.
- the device further includes:
- a receiver configured to receive a first terminal access request sent by the first access network element
- the receiver After the receiver receives the first terminal access request, the first service chain classification rule and the first service chain forwarding rule are generated.
- the receiver is further configured to: receive a first terminal handover request
- the receiver After the receiver receives the first terminal handover request, generating a second service chain forwarding rule, where the second service chain forwarding rule includes the first service chain identifier and the second access network element
- the second access network element is an access network element after the terminal is switched, and the first service chain identifier corresponds to the second identifier;
- the receiver is further configured to: receive a second terminal handover request
- the processor is further configured to:
- the third service chain forwarding rule includes the first service chain identifier, the first identifier of the first access network element, and the second identifier of the second access network element, where the second access network element
- the first service chain identifier corresponds to the first identifier and the second identifier, for the access network element after the terminal is switched;
- the transmitter is also used to:
- the receiver is further configured to: receive a terminal service establishment request;
- the processor is further configured to:
- the receiver After receiving the terminal service establishment request, the receiver generates a second service chain identifier corresponding to the requested service, and generates a second service chain classification rule and a fourth service chain forwarding rule, where the second service chain classification
- the rule includes a forwarding identifier of the terminal and the second service chain identifier, where the forwarding identifier corresponds to the second service chain identifier, and the fourth service chain forwarding rule includes the second service chain identifier and a processing center An identifier of one or more service processing network elements of the service, where the second service chain identifier corresponds to an identifier of the one of the multiple service processing network elements;
- the transmitter is also used to:
- the processor is further configured to:
- the third service chain classification rule includes a forwarding identifier of the terminal, the first service chain identifier, and a paging parameter, where the forwarding identifier corresponds to the first service chain identifier and The paging parameter;
- the processor is further configured to:
- the receiver After the receiver receives the second terminal access request and the third terminal access request, generating the first service chain classification rule and the first service chain forwarding rule;
- the forwarding identifier in the first service chain classification rule includes: a first forwarding identifier allocated to the terminal according to the second terminal access request, or according to the third terminal access request Determining a second forwarding identifier assigned by the terminal;
- the first service chain forwarding rule further includes an identifier of the at least one service processing network element, where the forwarder first forwards the first packet to the at least one service processing network element for service processing, and then the service The processed first packet is forwarded to the first access network element.
- a third aspect provides a system for controlling access, the system comprising: a controller, a classifier, a repeater, and an access network element; the controller comprising the apparatus according to the second aspect, wherein The repeater comprises the apparatus as described in the first aspect above;
- the classifier is configured to receive the first service chain classification rule sent by the controller, and when the first packet including the forwarding identifier of the terminal is received, the first packet is encapsulated Describe the first service chain identifier in the first service chain classification rule;
- the access network element is configured to receive the first packet sent by the forwarder and forward the packet to the terminal.
- the controller is further configured to:
- the second service chain classification rule After receiving the terminal idle state notification, the second service chain classification rule is generated, where the second service chain classification rule includes the forwarding identifier of the terminal, the first service chain identifier, and paging parameters, where the forwarding identifier corresponds to Transmitting, by the first service chain identifier and the paging parameter, the second service chain classification rule to the classifier;
- the controller is further configured to:
- the classifier is also used to:
- the third service chain classification rule sent by the controller is received, and when the third packet including the forwarding identifier of the terminal is received, the first service chain identifier is encapsulated for the third packet.
- system further includes:
- the at least one service processing network element is configured to receive the packet sent by the forwarder, perform service processing on the received packet, and send the service processed packet to the forwarder again.
- the access network element is further configured to:
- a method for controlling access comprising:
- the controller And receiving, by the controller, a first service chain forwarding rule, where the first service chain forwarding rule includes a first service chain identifier corresponding to the terminal, and a first identifier of the first access network element, where the first identifier Corresponding to the first service chain identifier;
- the first packet is forwarded to the first access network element.
- the first service link forwarding rule is sent by the controller according to a first terminal access request, where the first terminal access request is The terminal is initiated by the first access network element.
- the method further includes:
- the second packet is forwarded to the second access network element.
- the method further includes:
- the three packets are forwarded to the first access network element and the second access network element.
- the method further includes:
- the controller And receiving, by the controller, a fourth service chain forwarding rule that is sent according to the terminal service establishment request, where the fourth service chain forwarding rule includes a second service chain identifier corresponding to the service of the terminal, and a Or the identifier of the service processing network element, where the one or more service processing network elements are network elements that process the service, and the second service chain identifier corresponds to the identifier of the one or more service processing network elements. ;
- the fourth packet of the service carries the result of the service processing performed by the one or more service processing network elements, and is used by the first access network element to forward the packet according to the result.
- the method further includes:
- the controller And receiving, by the controller, a fifth service chain forwarding rule that is sent according to the terminal idle state notification, where the fifth service chain forwarding rule includes the first service chain identifier and an identifier of one or more access network elements, where the one Or the multiple access network elements are the access network elements in the paging group to which the terminal belongs, and the first service chain identifier corresponds to the identifier of the first or multiple access network elements;
- the fifth packet is forwarded to the one or more access network elements, to trigger the One or more access network elements paging the terminal, including:
- the first service chain forwarding rule further includes An identifier of at least one service processing network element corresponding to the first service chain identifier;
- the method further includes:
- the next network element Before forwarding the to-be-forwarded packet to the next network element, if the next network element is the access network element, Deleting the service chain identifier carried in the to-be-forwarded packet, and if the next network element is not the access network element, retaining the service chain identifier carried in the to-be-forwarded packet;
- the to-be-forwarded packet is the first packet or the first packet after the service is processed.
- the first service chain forwarding rule is sent by the controller according to the second terminal access request and the third terminal access request, and the second terminal access request is used by the terminal to pass the first access network.
- the third terminal access request is initiated by the terminal by using the second access network element, and the first service link forwarding rule further includes a second identifier of the second access network element, where The second identifier of the second access network element corresponds to the first service chain identifier;
- the first service chain forwarding rule is sent by the controller according to the second terminal access request and the third terminal access request, and the second terminal access request is used by the terminal to pass the first access network.
- the third terminal access request is initiated by the terminal by using the second access network element, and the first service link forwarding rule further includes a second identifier of the second access network element, where The second identifier of the second access network element corresponds to the first service chain identifier;
- a method for controlling access comprising:
- the first service chain identifier includes: the first service chain identifier and the first identifier of the first access network element, where the first service chain identifier corresponds to the first Identification
- the generating the first service chain classification rule and the first service chain forwarding rule including:
- the method further includes:
- the fifth service chain forwarding rule includes the first service chain identifier and an identifier of one or more access network elements, the one or more The access network element is an access network element in the paging group to which the terminal belongs, and the first service chain identifier corresponds to an identifier of the one or more access network elements;
- the fifth service chain forwarding rule further includes a preset policy, where the forwarder is configured according to the preset policy And transmitting, to the one or more access network elements, the fifth packet that is received by the first service chain identifier.
- the method further includes:
- the fourth service chain classification rule After receiving the indication that the terminal sent by the terminal after being successfully paged to exit the idle state, generating a fourth service chain classification rule, where the fourth service chain classification rule includes the forwarding identifier of the terminal and the first a service chain identifier, where the forwarding identifier corresponds to the first service chain identifier;
- FIG. 2 is a schematic diagram of a network architecture according to another embodiment of the present invention.
- FIG. 3 is an interaction diagram of a terminal access scenario according to another embodiment of the present invention.
- FIG. 6 is an interaction diagram of a terminal idle state paging according to another embodiment of the present invention.
- FIG. 9 is a flowchart of a method for controlling access of a repeater according to another embodiment of the present invention.
- FIG. 11 is a structural diagram of an apparatus for controlling access of a repeater according to another embodiment of the present invention.
- FIG. 12 is a structural diagram of an apparatus for controlling access of a controller according to another embodiment of the present invention.
- the embodiment of the invention relates to an apparatus, a system and a method for controlling access, and implements control of an access network element in a mobile network based on an SDN mechanism, and can be applied to the network architecture shown in FIG. 1 .
- the network structure includes: a terminal S1, an access network element S2, a controller S3, a classifier S4, and a repeater S5.
- the terminal S1 includes, but is not limited to, a mobile station (Mobile Station, MS: Mobile), a User Terminal (UT), a User Device (UD), or a user equipment. (User Equipment, referred to as: UE).
- the access network element S2 directly interacts with the terminal S1.
- the access network element S2 includes, but is not limited to, a radio base station, a home base station, an evolved Node B (eNodeB), and a base station (Base Station, referred to as: BS), Access Point (AP), Wireless-Fidelity (WiFi), or Digital Subscriber Line Access Multiplexer (DSLAM).
- the controller S3 is a device that is responsible for performing the entire network access and mobility management in the mobile network.
- the specific implementation may be composed of one or more physical devices, which is not specifically limited in this embodiment.
- the forwarding device S5 is a device that is responsible for packet forwarding, and can be directly interacted with the access network element S2.
- the specific implementation may be composed of one or more physical devices, which is not specifically limited in this embodiment.
- the controller S3 may issue a service chain forwarding rule to the forwarder S5, which may be separately sent to the multiple physical devices, and is not specifically stated below.
- the classifier S4 is configured to perform service chain classification on the packet and encapsulate the corresponding service chain identifier.
- the specific classifier may be a separate physical device or integrated with the forwarder S5 on one physical device. This is not specifically limited.
- the foregoing network architecture may further include a service processing network element.
- the network architecture adds a service processing network element S6 to FIG.
- the service processing network element S6 is responsible for processing the service of the terminal.
- the service processing network element S6 includes, but is not limited to, a service function (Service Function, SF) entity, and may be deep packet inspection (Deep Packet Inspection, for short). : DPI), anti-virus gateway, charging gateway, video optimizer, service stream compressor, data buffer, HyperText Transfer Protocol (HTTP) header enhancer, and so on.
- DPI service function
- anti-virus gateway for short
- charging gateway for short
- video optimizer service stream compressor
- HTTP HyperText Transfer Protocol
- the controller implements the control of the access network element in the mobile network by sending the service chain classification rule to the classifier and delivering the service chain forwarding rule to the forwarder.
- the service chain classification rule includes a forwarding identifier and a service chain identifier (CID) of the terminal
- the service chain forwarding rule includes a service chain identifier and an identifier of the access network element.
- the forwarding identifier of the terminal includes, but is not limited to, the IPv4 address of the Internet Protocol (IP) of the terminal, the IPv6 address of the sixth edition of the Internet Protocol, and the Generic Routing Encapsulation (GRE)/ GPRS Tunneling Protocol (GTP) tunnel identification.
- the identifier of the access network element includes, but is not limited to, an IPv4 address of the access network element, an IPv6 address, a Media Access Control (MAC) address, or a port number that can be connected to the access network element.
- the processing result of the packet processed by the service processing network element such as the video stream code rate obtained after the video codec processes the message
- the forwarder may encapsulate the report of the processing result.
- the file is forwarded to the access network element to implement information sharing between multiple network elements.
- the device, the system and the method are implemented by using the SDN service routing mode to implement SDN control on the session after the terminal accesses the mobile network, and the service packet is controlled by the unified SDN mechanism in the mobile network, according to the access network corresponding to the service chain identifier.
- the identifier of the element is used to complete the forwarding of the packet to the access network element.
- the forwarding of the packet to the access network element does not need to use the tunnel identifier for routing, and the simplification and function unification of the forwarding plane device in the mobile network are realized.
- the following embodiments use the downlink packet to the terminal as an example to describe how to forward the packet to the access NE through the controller, the repeater, and the classifier.
- Forward downlink packets to the terminal the controller, the forwarder, and the classifier can also be used to control and forward the packets sent by the access network element.
- the classifier can be deployed on the access network element device.
- the uplink packet is classified and then sent to the forwarder for SDN-controlled packet forwarding.
- the implementation of the downlink packet is similar to that of the following downlink packet.
- the access network element may also encapsulate the access information such as the air interface bandwidth and the congestion information into the packet, and forward the packet to the subsequent service processing network element.
- the service processing network element performs service processing according to the access related information, thereby implementing information sharing among multiple network elements in the uplink packet forwarding process.
- the controller may be an independent network element, or may be a function set composed of multiple physical or logical entities.
- a Mobility Management Entity MME
- S-GW Serving Gateway
- PDN Gateway P-GW
- the functions, as well as the SDN controller functions, are combined to form the controller of the present invention.
- the access control message such as the access request message, the handover request message, and the idle state request message, received by the controller may be directly sent by the access network element to the controller, or may be through other network elements.
- the module forwards the message or part of the parameters of the message to the controller. The above deployment and the message forwarding manner do not affect the technical implementation of the embodiments of the present invention, which is not limited by the present invention.
- this embodiment provides a method for controlling access, which is applied to a scenario in which a terminal requests access, including:
- the terminal initiates an access request to the access network element.
- the access network element refers to an access device that provides access capability for the terminal, such as a wireless base station and a home base.
- the access network element After receiving the access request of the terminal, the access network element sends an access request to the controller, where the access request carries the identity identifier of the terminal or the identity identifier of the user who uses the terminal.
- the identity of the terminal includes, but is not limited to, an International Mobile Equipment Identification Number (IMEI).
- IMEI International Mobile Equipment Identification Number
- IMSI International Mobile Subscriber Identification Number
- the controller After receiving the access request sent by the access network element, the controller allocates a forwarding identifier to the terminal, determines a service chain identifier, and generates a service chain classification rule and a service chain forwarding rule.
- the service chain classification rule includes a forwarding identifier of the terminal and a corresponding service chain identifier, and a service chain identifier may be corresponding to a forwarding identifier of the terminal, or may correspond to a combination of multiple forwarding identifiers of the terminal. This is not limited.
- the service chain forwarding rule includes a service chain identifier and a corresponding network element identifier
- the network element identifier may be an identifier of a network element, or may be an identifier of multiple network elements.
- at least the access network element is included.
- the identifier may further include an identifier of another network element.
- the other network element may be a service processing network element.
- the identifier of the network element may be obtained in advance by the controller, for example, the identifier of the access network element is obtained by using an access request message sent by the access network element, and so on.
- the forwarding identifier of the terminal may be an IPv4 address, an IPv6 address, a terminal service flow source/destination IP address, a source/destination port number, a tunnel identifier, and the like.
- the service chain identifier may be a new service chain identifier that is generated by the controller separately for the terminal, and may be reused for the service chain identifier that has been generated before, which is not specifically limited in this embodiment.
- the network element identifier may be an IP address, a MAC address, or a connected port number, etc., and is not limited herein.
- business chain classification rules are as follows:
- Dst_IP represents the target IP address
- ChainID represents the service chain identifier.
- the service chain classification rule indicates that the corresponding service chain identifier is CID1 when the destination IP address of the packet is IP1.
- the service chain forwarding rules are as follows:
- the ChainID indicates the service chain identifier
- the Forwarding indicates the identifier of the network element.
- the service chain forwarding rule indicates that the packet whose service chain is identified as CID1 is forwarded to the network element whose network identifier is AF1, where AF1 is the identifier of the access network element.
- the service chain forwarding rules can also be as follows:
- the ChainID indicates the service chain identifier
- the Forwarding indicates the identifier of the network element.
- the service chain forwarding rule indicates that the packet whose service chain is identified as CID1 is forwarded to the network element whose network element identifiers are SF1, SF2, and AF1, where AF1 is the identifier of the access network element, and SF1 and SF2 respectively indicate The identifier of a business function entity and the identifier of the second business function entity.
- the controller may perform access authentication on the terminal and obtain a service policy of the terminal.
- the controller sends the foregoing service chain classification rule to the classifier.
- the controller sends the foregoing service chain forwarding rule to the forwarder.
- the service chain forwarding rule can be implemented in different technical manners. For example, when the OpenFlow mode is adopted, the foregoing service chain forwarding rule can be added to the service index and through multiple flow table rules matching the service index+Chain ID. to realise.
- service chain forwarding rules are as follows:
- the ChainID is the service chain identifier
- the ServiceIndex is the service index
- the action is the action.
- the forwarder forwards the packet to the NE identified as AF1, and the packet is forwarded. After the service, the ServiceIndex value is decremented by one, and finally it is 0. If AF1 is the last hop, the forwarding will not be continued.
- the service chain forwarding rules in the following embodiments may also be implemented in this manner, and are not described herein again.
- the ChainID is the service chain identifier
- the ServiceIndex is the service index
- the action is the action.
- the forwarder forwards the packets to the network elements identified as SF1, SF2, and AF1 in sequence, and the ServiceIndex value is decremented by one after each packet is forwarded, and finally 0, thereby implementing multiple networks.
- the service chain forwarding rule in the subsequent embodiments may also be implemented in this manner, and details are not described herein.
- the classifier receives the downlink packet sent to the terminal, and matches the forwarding identifier in the packet with the forwarding identifier in the service chain classification rule. If the matching succeeds, the service chain identifier in the service chain classification rule is encapsulated. Go to the message.
- the matching success means that the forwarding identifier in the packet is the same as the forwarding identifier in the service chain classification rule. If the two are different, the matching failure is considered.
- Each service chain classification rule has a different service chain identifier.
- the forwarding identifier in the packet can be used as an index to search for each service chain classification.
- the rule is that if the forwarding identifier of the service chain classification rule is the same as the index, the matching is successful, and the service chain identifier is obtained from the matched service chain classification rule and encapsulated into the packet.
- the service chain identifier is encapsulated in the packet header, and no description is provided here.
- the classifier sends a packet carrying the service chain identifier to the forwarder.
- the forwarder After receiving the packet, the forwarder matches the service chain identifier carried in the packet with the service chain identifier in the service chain forwarding rule. If the packet is successfully matched, the network element in the service chain forwarding rule is obtained.
- the identifier is the identifier of the access network element and the serving network element in this embodiment.
- the service chain identifier carried in the packet is the same as the service chain identifier in the service chain forwarding rule. If the two are different, the matching failure is considered.
- the obtained network element identifier may be one or more.
- at least the identifier of the access network element is included, so as to implement control of the access network element based on the SDN mechanism.
- the packets are forwarded to the multiple network elements in sequence.
- the forwarder may determine, according to the type of the next hop network element, whether the service chain identifier is carried in the forwarded packet. If the type of the hop network element is SF, the forwarded packet can carry the service chain identifier. If the type of the hop network element is the access network element, the forwarded packet does not need to carry the service chain identifier.
- the forwarder forwards the packet to the corresponding access NE according to the identifier of the obtained access NE.
- the access network element is the last hop in the packet processing network element. Therefore, the forwarder can remove the service chain identifier carried in the packet and then forward the packet to the access network element.
- the packets are forwarded to each SF for service processing, and then forwarded to the access network element, and sent to SF1 and SF2 for service as indicated by the dotted line in the figure. After processing, it is sent to the access NE.
- the processing result may be encapsulated into the packet by using the metadata, and then sent to the access network element via the forwarder, so that the access network can be implemented.
- the shared information between the element and the service processing network element is if the identifiers of the multiple network elements are obtained, the packets are forwarded to each SF for service processing, and then forwarded to the access network element, and sent to SF1 and SF2 for service as indicated by the dotted line in the figure. After processing, it is sent to the access NE.
- the processing result may be encapsulated into the packet by using the metadata, and then sent to the access network element via the forwarder, so that the access network can be implemented.
- the shared information between the element and the service processing network element may be encapsulated into the packet by
- the access NE After receiving the packet, the access NE forwards the packet to the terminal, so that the terminal receives the packet.
- the controller generates a service chain forwarding rule according to the access request of the terminal, and completes the packet to the access network element according to the identifier of the access network element corresponding to the service chain identifier in the service chain forwarding rule.
- Forwarding in which the forwarding of the packet to the access network element does not require the use of the tunnel identifier for routing, and the control of the access network element based on the SDN mechanism in the scenario in which the terminal requests access is implemented, in the process As a hop in the service chain forwarding, the access network element performs unified control through the service chain mechanism.
- the control plane can implement forwarding control on the access network and the service processing network based on the unified forwarding control mode, and implements the mobile network. Service chain based SDN access management and mobility management.
- this embodiment provides a method for controlling access, which is applied to a scenario of terminal handover, and includes:
- the terminal performs the access process by accessing the network element AF1, and the process is the same as the foregoing steps 301-310, and details are not described herein.
- the terminal prepares to switch from the access network element AF1 to the access network element AF2, and sends a handover request to the controller.
- the terminal may send the handover request to the controller through AF1 or AF2.
- the controller After receiving the handover request, the controller generates a new service chain forwarding rule or modifies the original service chain forwarding rule to obtain a new service chain forwarding rule, and sends the new service chain forwarding rule to the forwarder for updating.
- the difference between the new service chain forwarding rule and the original service chain forwarding rule is that the network element identifier of the original service chain forwarding rule is the identifier of the AF1, and the network element identifier of the new service chain forwarding rule is the AF2. logo.
- the forwarder After receiving the new service chain forwarding rule, the forwarder replaces the original service chain forwarding rule with the new service chain forwarding rule, which is not described here.
- the message sent to the terminal may be forwarded by the AF1 and the AF2 in the dual-cast mode. Therefore, the network element identifier in the new service chain forwarding rule may also be The identification of AF1 and the identification of AF2.
- the classifier When the classifier receives the downlink packet, the classifier classifies the packet according to the service chain classification rule, encapsulates the service chain identifier into the packet, and forwards the packet to the forwarder.
- the forwarder After receiving the packet, the forwarder performs the service chain identifier matching according to the new service chain forwarding rule. After the matching is successful, the forwarder forwards the packet to the access network element AF2 according to the network element identifier in the new service chain forwarding rule.
- the packet is forwarded to the AF1 and the AF2 in the dual-cast mode to prevent packet loss and improve the success rate of packet transmission. .
- the packets are forwarded to the other network elements in the order, and then forwarded to the access network element.
- the packet is forwarded to SF1 and SF2 for service processing according to the network element identifier, and then forwarded to AF2 or forwarded to AF1 and AF2.
- the method may further include:
- the forwarder forwards the packet to the access NE AF1 according to the new service chain forwarding rule.
- the forwarder Before forwarding the packet to the access NE, the forwarder can delete the service chain identifier carried in the packet and then forward the packet.
- the AF2 After receiving the packet sent by the forwarder, the AF2 sends the packet to the terminal to complete the transmission of the packet.
- the method may further include:
- the AF1 After receiving the packet sent by the forwarder, the AF1 sends the packet to the terminal to complete the transmission of the packet.
- the method may further include the following steps:
- the terminal After the terminal completes the switching of the air interface, the terminal sends a handover completion indication to the access network element AF2.
- the access network element AF2 After receiving the access NE2, the access network element AF2 sends a handover completion indication to the controller.
- the controller After receiving the handover completion indication, the controller generates a new service chain forwarding rule again, and replaces the identifier of the network element identifier AF1 and the identifier of the AF2 with the identifier of the AF2, and forwards the re-initiation.
- the new service chain forwarding rules are updated for the forwarder.
- the classifier When the classifier receives the downlink packet, the classifier encapsulates the service chain identifier according to the service chain classification rule, and then forwards the service chain identifier to the forwarder.
- the forwarder After receiving the packet, the forwarder forwards the packet to AF2 according to the updated new service chain forwarding rule.
- the packet may be sent to other packet processing network elements first, and then forwarded to AF2, which is not described here.
- AF2 receives the packet and forwards the packet to the terminal.
- the controller after the terminal completes the access process, the controller generates a service chain forwarding rule according to the handover request of the terminal, and completes the packet according to the network element identifier corresponding to the service chain identifier in the service chain forwarding rule.
- the network element identifier may be the changed network element identifier, or the network element identifier before the handover and the network element identifier after the handover, and the access network element is implemented based on the SDN mechanism in the scenario of the terminal handover.
- the access network element in the process, is used as a hop in the forwarding of the service chain, and the forwarding of the packet to the access network element does not need to use the tunnel identifier for routing, and the unified control is performed through the service chain mechanism, and the control plane can be based on
- the unified forwarding control mode realizes the forwarding control of the access network and the service processing network, and realizes the service chain-based SDN access management and mobility management in the mobile network.
- this embodiment provides a method for controlling access, which is applied to a scenario in which a terminal requests to establish a service, and distinguishes an access request and a service establishment request by using different service chain identifiers, including:
- the terminal initiates an access request to the access network element AF1.
- the access network element AF1 sends an access request to the controller after receiving.
- the controller After receiving the access request sent by the access network element, the controller allocates a forwarding identifier to the terminal, determines a service chain identifier CID1, and generates a service chain classification rule and a service chain forwarding rule.
- the service chain classification rule includes the forwarding identifier of the terminal and the corresponding service chain identifier CID1, and the service chain forwarding rule includes the service chain identifier CID1 and the corresponding network element identifier, that is, the identifier of the AF1.
- business chain classification rules are as follows:
- Dst_IP represents the target IP address
- ChainID represents the service chain identifier.
- the service chain classification rule indicates that the corresponding service chain identifier is CID1 when the destination IP address of the packet is IP1.
- the service chain forwarding rules are as follows:
- the ChainID indicates the service chain identifier
- the Forwarding indicates the identifier of the network element.
- the service chain forwarding rule indicates that the packet whose service chain is identified as CID1 is forwarded to the access network element AF1.
- the controller may perform access authentication on the terminal and obtain a service policy of the terminal.
- the controller sends the foregoing service chain classification rule to the classifier.
- the controller sends the foregoing service chain forwarding rule to the forwarder.
- the terminal When the terminal initiates the service, the terminal sends a service establishment request to the controller, where the service establishment request carries the service flow information corresponding to the service.
- the service requested by the terminal may be any type of service, and is not limited herein, such as a VoIP service, a download service, a short message, a multimedia message, or a WeChat service.
- the service flow information includes, but is not limited to, an IP quintuple (a source IP address, a destination IP address, a source port number, a destination port number, and a protocol type).
- the controller After receiving the service establishment request, the controller allocates a corresponding service chain identifier CID2 for the service, and generates a new service chain classification rule and a new service chain forwarding rule based on the CID2.
- the new service chain classification rule includes a service feature and a corresponding service chain identifier CID2.
- the business characteristics include, but are not limited to, various information related to the business.
- the new business chain classification rules are as follows:
- the Src_IP is the source IP address
- the Dst_IP is the destination IP address
- the Dst_Port is the destination port number
- the ChainID is the service chain identifier.
- the new service chain classification rule indicates that the source IP address of the packet is IP2, the destination IP address is IP1, and the destination port number is 8080, and the corresponding service chain identifier is CID2.
- the new service chain forwarding rules are as follows:
- the ChainID indicates the service chain identifier
- the Forwarding indicates the identifier of the network element.
- the new service chain forwarding rule indicates that the service chain identifier is CID2 and the packets are forwarded to SF1 and SF2.
- the controller may set the priority of the service chain CID2 determined according to the service establishment request to be higher than the service chain CID1 determined according to the access request, and correspondingly
- the service chain forwarding rule including the CID2 has a higher priority than the service chain forwarding rule including the CID1, so that the packet is processed first and then forwarded to the access NE.
- the controller sends a new service chain classification rule to the classifier for updating.
- the controller sends a new service chain forwarding rule to the forwarder for updating.
- the classifier After the downlink packet sent to the terminal arrives at the classifier, the classifier matches the original service chain classification rule and the new service chain classification rule according to the forwarding identifier in the packet, and if the matching is successful, the Two service chain identifiers CID1 and CID2 are encapsulated on the packet.
- the packet encapsulated by the classifier carries two service chain identifiers as an example.
- the packet encapsulated by the classifier can also carry more service chain identifiers.
- the specific number of the service chain identifier carried in the packet is not limited in this embodiment.
- the message carries three service chain identifiers, such as CID1, CID2, and CID3.
- the classifier sends a packet carrying the foregoing two service chain identifiers to the forwarder.
- the forwarder matches the original service chain forwarding rule and the new service chain forwarding rule according to the service chain identifier carried in the packet, if one of the service chain identifiers carried in the packet is forwarded to the original service chain. If the rules match and the other matches the new service chain forwarding rules, then the two services are indicated. If the link forwarding rules are matched successfully, the packets are forwarded to SF1 and SF2 according to the NE ID corresponding to CID2.
- the forwarder After completing the forwarding process corresponding to the CID2, the forwarder forwards the packet to the AF1 according to the network element identifier corresponding to the CID1.
- the AF1 After receiving the packet, the AF1 forwards the packet to the terminal, so that the terminal receives the packet.
- the embodiment provides a method for controlling access, which is applied to a scenario in which a terminal is idle, including:
- the controller sends a service chain forwarding rule to the forwarder to update according to the notification that the terminal enters the idle state.
- the service chain forwarding rule includes: a service chain identifier CID1 and a network element identifier corresponding to the terminal, where the network element identifier is an identifier of one or more access network elements in the paging group to which the terminal belongs, in this embodiment,
- the paging group includes two access NEs as an example, including AF1 and AF2.
- This step is an optional step, and the controller sends a service chain classification rule to the classifier for updating.
- the service chain classification rule includes the forwarding identifier of the terminal and the corresponding service chain identifier CID1, and includes parameters required for the forwarder to implement terminal paging, which may be one or more, such as paging discontinuous reception (Discontinuous Receive)
- paging discontinuous reception discontinuous Receive
- DRX paging discontinuous reception
- paging priority paging priority
- the step can be canceled, and the classifier can use the service chain classification rule stored in the access process.
- the classifier When the classifier receives the packet sent to the forwarding identifier corresponding to the terminal, the classifier encapsulates the service chain identifier CID1 into the packet according to the service chain classification rule.
- the classifier may also encapsulate the foregoing paging parameter into the packet in a metadata manner.
- the classifier sends the encapsulated packet to the forwarder.
- the forwarder After receiving the packet, the forwarder forwards the paging group to which the terminal belongs according to the service chain forwarding rule. An identifier of one or more access network elements in the paging group, forwarding the message to one or more access network elements in the paging group, by one or more access network element pairs in the paging group The terminal performs paging.
- the forwarder forwards the packet by using any one of the following methods A and B.
- Method A includes 706a-706d, which broadcasts the message to each access network element in the paging group.
- the method B includes 706h-706l, and sequentially sends the message to the access network element in the paging group in a specified order until the paging terminal of one access network element succeeds or all the access network elements fail to page.
- the forwarder sends the message broadcast to the access network elements AF1 and AF2 according to the identifiers of the AF1 and the AF2 included in the service chain forwarding rule, or sends the message to AF1 and AF2 in sequence.
- the forwarder forwards the packet to each access network element in the paging group by means of simultaneous broadcast, or uses the method of sending the message in succession to each access network element in the paging group. No specific restrictions. Specifically, the forwarder may perform the forwarding according to the preset policy, or may be forwarded according to the policy carried in the service chain forwarding rule sent by the controller, which is not specifically limited in this embodiment.
- AF1 pages the terminal to determine whether the terminal is within its own coverage.
- the metadata of the foregoing packet includes a paging parameter, and therefore, the access network elements AF1 and AF2 can page the terminal according to the paging parameter.
- the forwarder first forwards the packet to the first access NE AF1 in the paging group in the specified order.
- the AF1 paging terminal fails, and the message is returned to the repeater.
- the forwarder After receiving the packet returned by AF1, the forwarder continues to forward the packet to AF2 according to the above sequence, and triggers AF2 to continue paging to the terminal.
- the metadata in the packet received by the access network element in the paging group includes a paging parameter, and the access network elements AF1 and AF2 can page the terminal according to the paging parameter, where not Narration.
- the AF2 paging terminal succeeds as an example.
- the terminal receives the paging message sent by the AF2, and sends an exit idle state indication to the controller through the AF2 to indicate that the controller terminal can perform the service.
- any one of the foregoing service chain forwarding rules may further include an identifier of another network element, such as an identifier of the SF, and the like, before sending the packet to the access network element, the packet needs to be sent to the other device.
- the network element performs service processing.
- the controller after the terminal enters the idle state, the controller generates a service chain forwarding rule according to the notification that the terminal enters the idle state, according to one or more of the paging groups to which the terminal carried in the service chain forwarding rule belongs.
- the access network element is forwarded to the one or more access network elements to implement the control of the access network element based on the SDN mechanism in the scenario of the idle state paging of the terminal, and the access will be performed in the process.
- the network element is used as a hop in the forwarding of the service chain.
- the packet is forwarded to the access NE without using the tunnel identifier for routing.
- the service chain mechanism is used for unified control.
- the control plane can implement access based on the unified forwarding control mode.
- the forwarding control of the network and the service processing network realizes the service chain-based SDN access management and mobility management in the mobile network.
- the embodiment provides a method for controlling access, which is applied to a scenario in which multiple network elements share information, including:
- the forwarding identifier in the packet is matched with the forwarding identifier in the service chain classification rule. If the matching succeeds, the service chain identifier CID1 is encapsulated into the packet. .
- the classifier sends the packet encapsulated with the service chain identifier to the forwarder.
- the service processing network element SF1 After receiving the packet, the service processing network element SF1 performs service processing on the packet, and encapsulates the result of the service processing into the packet, and returns the processed packet to the forwarder.
- the forwarder After receiving the packet returned by the SF1, the forwarder forwards the packet to the service processing network element SF2 according to the sequence of the foregoing network element identifier.
- the service processing network element SF2 After receiving the packet, the service processing network element SF2 performs service processing on the packet, and encapsulates the result of the service processing into the packet, and returns the processed packet to the forwarder.
- SF2 may encapsulate the result 2 of the service processing into the message in the manner of metadata.
- the video stream rate corresponding to the message may be encapsulated into the message by means of metadata.
- the AF1 determines the forwarding mode according to the processing result carried in the packet.
- AF1 determines the forwarding priority required for the packet; according to the video stream rate provided by SF2, AF1 determines the forwarding bandwidth of the packet.
- AF1 can also remove the service chain identifier and metadata encapsulated in the packet and then forward the packet.
- the AF1 forwards the packet to the terminal according to the determined forwarding manner.
- the embodiment provides a method for controlling access, which is applied to a scenario in which a terminal requests access by multiple access network elements, including:
- the terminal initiates an access request to the access network elements AF1 and AF2, respectively.
- the access network elements AF1 and AF2 can be connected to the terminal by using the same type of access technology.
- the inbound services such as the LTE eNodeBs, may also provide access services for the terminals by using different types of access technologies, such as one for the LTE eNodeB and the other for the WiFi AP, which is not specifically limited in this embodiment.
- the access network elements AF1 and AF2 respectively send an access request to the controller.
- the controller generates a service chain classification rule and a service chain forwarding rule.
- business chain classification rules are as follows:
- the Dst_IP is the destination IP address
- the ChainID is the service chain identifier.
- the service chain classification rule indicates that when the destination IP address of the packet is IP1 or IP2, the corresponding service chain identifier is CID1.
- service chain forwarding rules are as follows:
- the ChainID is the service chain identifier and the Forwarding is the NE identifier.
- the service chain forwarding rule indicates that the service chain is identified as CID1, and then forwarded to the service processing network element with the network element identifiers SF1 and SF2, and then broadcast to AF1 and AF2.
- the ChainID is the service chain identifier and the Forwarding is the NE identifier.
- the service chain forwarding rule indicates that the service chain is identified as the CID1 packet, and is forwarded to the service processing network element whose network element identifier is SF1 and SF2, and then an access network element is selected in the AF1 and AF2, and the packet is sent. To the selected access NE.
- one access NE may be selected in AF1 and AF2 in a load balancing manner.
- the classifier After the downlink packet sent to the terminal arrives at the classifier, the classifier matches the forwarding identifier in the packet with the forwarding identifier in the service chain classification rule. If the matching succeeds, the service chain identifier corresponding to the packet is encapsulated.
- the forwarder After receiving the packet, the forwarder matches the service chain identifier carried in the packet with the service chain identifier in the service chain forwarding rule. If the packet is successfully matched, the network element identifier in the service chain forwarding rule is obtained.
- the network element identifier includes the identifier of the service processing network element and the identifier of the access network element, and the packet is sent to the corresponding service processing network element for service processing according to the sequence of the network element identifier.
- the service chain identifier carried in the packet matches the service chain identifier in the service chain forwarding rule.
- the success is that the service chain identifier carried in the packet is the same as the service chain identifier in the service chain forwarding rule. If the two are different, the matching fails.
- the forwarder first forwards the packet to SF1 and SF2 for service processing.
- the forwarder forwards the packet according to the identifier of the access network element included in the foregoing service chain forwarding rule. If it is a dual-cast mode, it is forwarded to AF1 and AF2 respectively. If it is in the load balancing mode, an access network element is selected in AF1 and AF2, and the packet is forwarded to the selected access NE.
- the foregoing service chain forwarding rule may further include the identifier of the AF1 and the identifier of the AF2, and the forwarder may forward the packet according to the local policy. If the local policy is a dual-cast policy, the packet is forwarded to AF1 and AF2 respectively; For the load balancing policy, an access NE is selected in AF1 and AF2 to forward the packet to the selected access NE.
- AF1 and AF2 send the received message to the terminal, so that the terminal can receive the message.
- the forwarding does not need to use the tunnel identifier for routing, and the unified control is performed through the service chain mechanism, and the control plane can
- the forwarding control of the access network and the service processing network is implemented based on the unified forwarding control mode, and the SDN access management and mobility management based on the service chain in the mobile network are realized.
- the forwarder can also configure the forwarding policy as a dual-cast policy or a load balancing policy locally, and forward the packet according to the local policy.
- the control mode is also flexible.
- the first service chain forwarding rule is sent by the controller according to the first terminal access request, and the first terminal access request is initiated by the terminal by using the first access network element.
- the method may further include:
- the second service chain forwarding rule may include the first service chain identifier and a second identifier of the second access network element, where the second access network The element is an access network element after the terminal is switched, and the second identifier corresponds to the first service chain identifier;
- the second packet is forwarded according to the second identifier of the second access network element. To the second access network element.
- the method may further include:
- the third service chain forwarding rule may include the first service chain identifier, the first identifier of the first access network element, and the second access network. a second identifier of the element, where the second access network element is an access network element after the terminal is switched, and the first service chain identifier corresponds to the first identifier and the second identifier;
- the third packet is forwarded to the first packet according to the first identifier and the second identifier.
- the method may further include:
- the fourth service chain forwarding rule may include a second service chain identifier corresponding to the service of the terminal, and one or more service processing network elements.
- the identifier of the one or more service processing network elements is a network element that processes the service, and the second service chain identifier corresponds to an identifier of the one or more service processing network elements;
- the network element is processed according to the one or more services.
- the identifier is forwarded to the one or more service processing network elements for service processing;
- One of the at least two service chain identifiers carried in the fourth packet processed by the service has a service And when the chain identifier is matched with the first service chain identifier in the first service chain forwarding rule, the fourth packet that is processed by the service is forwarded to the first access network element according to the first identifier.
- the fourth packet of the service carries the result of the service processing performed by the one or more service processing network elements, where the first access network element reports according to the result. Text forwarding.
- the method may further include:
- the controller And receiving, by the controller, a fifth service chain forwarding rule sent according to the terminal idle state notification, where the fifth service chain forwarding rule may include the first service chain identifier and an identifier of one or more access network elements, the one or more The access network element is an access network element in the paging group to which the terminal belongs, and the first service chain identifier corresponds to the identifier of the first or multiple access network elements;
- the fifth packet is forwarded according to the identifier of the one or more access network elements. And the one or more access network elements to trigger the one or more access network elements to page the terminal.
- the forwarding the fifth packet to the one or more access network elements to trigger the one or more access network elements to page the terminal may include:
- the first service chain forwarding rule may further include an identifier of the at least one service processing network element corresponding to the first service chain identifier;
- the first access network element may include:
- the service chain identifier carried in the first packet matches the first service chain identifier in the first service chain forwarding rule, the first packet is forwarded to the identifier according to the identifier of the at least one service processing network element.
- the service processing network element corresponding to the identifier of the at least one service processing network element performs service processing;
- the method may further include:
- the service chain identifier carried in the to-be-forwarded packet is deleted, if the next network element is not the access network
- the element retains the service chain identifier carried in the to-be-forwarded packet
- the to-be-forwarded packet is the first packet or the first packet after the service is processed.
- the first service chain forwarding rule is sent by the controller according to the second terminal access request and the third terminal access request, where the second terminal access request is passed by the terminal.
- An access network element is initiated, and the third terminal access request is initiated by the terminal by using the second access network element, and the first service link forwarding rule may further include a second identifier of the second access network element, where The second identifier of the second access network element corresponds to the first service chain identifier;
- the forwarding of the first packet to the first access network element according to the first identifier of the first access network element may include:
- the first service chain forwarding rule is sent by the controller according to the second terminal access request and the third terminal access request, where the second terminal access request is passed by the terminal.
- An access network element initiates, and the third terminal access request is initiated by the terminal by using the second access network element, where the A service chain forwarding rule may further include a second identifier of the second access network element, where the second identifier of the second access network element corresponds to the first service chain identifier;
- the forwarding of the first packet to the first access network element according to the first identifier of the first access network element may include:
- the foregoing method provided in this embodiment, by receiving the first service chain forwarding rule sent by the controller, and the first packet sent by the classifier, when the service chain identifier carried in the first packet is in the first service chain forwarding rule
- the first packet is forwarded to the first access network element according to the first identifier, and the access network element is used as a hop in the service chain forwarding, and the service chain mechanism is used.
- Unified control realizes end-to-end control based on SDN.
- the control plane can implement forwarding control on the access network and service processing network based on unified forwarding control mode, and realizes SDN access management based on service chain in mobile network. And mobility management.
- this embodiment provides a method for controlling access, which can be applied to a controller, including:
- the first service chain identifier includes: the first service chain identifier and the first identifier of the first access network element, where the first service chain identifier corresponds to the first identifier.
- the generating the first service chain classification rule and the first service chain forwarding rule may include:
- the first service chain classification rule and the first service chain forwarding rule are generated.
- the method may further include:
- the second service chain forwarding rule is generated, where the second service chain forwarding rule may include the first service chain identifier and the second identifier of the second access network element, where the second access The network element is an access network element after the terminal is switched, and the first service chain identifier corresponds to the second identifier;
- the method may further include:
- the third service chain forwarding rule is generated, where the third service chain forwarding rule may include the first service chain identifier, the first identifier of the first access network element, and the second connection a second identifier of the incoming network element, where the second access network element is an access network element after the terminal is switched, and the first service chain identifier corresponds to the first identifier and the second identifier;
- the method may further include:
- the second service chain identifier corresponding to the requested service is generated, and the second service chain classification rule and the fourth service chain forwarding rule are generated, where the second service chain classification rule may include forwarding by the terminal.
- the method may further include:
- the fifth service chain forwarding rule may include the first service chain identifier and an identifier of one or more access network elements, the one or more The inbound network element is an access network element in the paging group to which the terminal belongs, and the first service chain identifier corresponds to an identifier of the one or more access network elements;
- the fifth service chain forwarding rule may further include a preset policy, where the forwarder forwards the fifth packet that includes the first service chain identifier to the preset policy.
- the one or more access network elements may further include a preset policy, where the forwarder forwards the fifth packet that includes the first service chain identifier to the preset policy.
- the method may further include:
- the third service chain classification rule may include a forwarding identifier of the terminal, the first service chain identifier, and a paging parameter, where the forwarding identifier corresponds to the first service chain identifier and the paging parameter ;
- the method may further include:
- the fourth service chain classification rule After receiving the indication that the terminal sent by the terminal after being successfully paged to exit the idle state, the fourth service chain classification rule is generated, where the fourth service chain classification rule may include the forwarding identifier of the terminal and the first service chain identifier.
- the forwarding identifier corresponds to the first service chain identifier;
- the generating the first service chain classification rule and the first service chain forwarding rule may include:
- the forwarding identifier in the first service chain classification rule may include: a first forwarding identifier allocated to the terminal according to the second terminal access request, or a first allocation identifier for the terminal according to the third terminal access request. Second forwarding identifier;
- the first service chain forwarding rule may further include a second identifier of the second access network element, and the first service chain identifier further corresponds to the second identifier.
- the first service chain forwarding rule may further include an identifier of the at least one service processing network element, where the forwarder first forwards the first packet to the at least one service processing network element. After the service is processed, the first packet processed by the service is forwarded to the first access NE.
- the first service chain classification rule is sent to the classifier, and the first service chain forwarding rule is sent to the forwarder, so that the classifier encapsulates the service chain identifier and the forwarder performs the service chain identifier.
- the packet is forwarded to the access NE.
- the access NE is used as a hop in the service chain forwarding, and the service chain mechanism is used for unified control, which implements SDN-based end-to-end control, and the control plane
- the forwarding control of the access network and the service processing network can be implemented based on the unified forwarding control mode, and the SDN access management and movement based on the service chain in the mobile network is realized. Sexual management.
- the implementation difficulty of the controller is simplified, and the accompanying information sharing between the access network element and the service processing network element is also made possible.
- the embodiment provides a device for controlling access, which can be used in a repeater, and includes:
- the receiver 31 is configured to receive a first service chain forwarding rule sent by the controller, where the first service chain forwarding rule may include a first service chain identifier corresponding to the terminal, and a first identifier of the first access network element, where The first identifier of the first access network element is corresponding to the first service chain identifier, and is further configured to receive a first packet sent by the classifier, where the first packet carries a service chain identifier.
- the processor 32 is configured to determine, according to the first identifier of the first access NE, when the service chain identifier carried in the first packet matches the first service chain identifier in the first service chain forwarding rule. Sending the first packet to the first access network element;
- the transmitter 33 is configured to forward the first packet to the first access network element.
- the service chain identifier carried in the first packet is matched with the first service chain identifier in the first service chain forwarding rule, which is the service chain identifier carried in the first packet and the first service chain forwarding rule.
- the business chain identifiers are the same, and if they are different, the matching fails.
- the first service chain forwarding rule is sent by the controller according to the first terminal access request, and the first terminal access request is initiated by the terminal by using the first access network element.
- the receiver is further configured to:
- the second service chain forwarding rule may include the first service chain identifier and a second identifier of the second access network element, where the second access network
- the second packet is the access network element after the terminal is switched, and the second identifier is corresponding to the first service chain identifier; and the second packet sent by the classifier is received, where the second packet carries the service chain identifier;
- the processor can also be used to:
- the second packet is determined to be sent according to the second identifier of the second access network element. To the second access network element;
- the transmitter can also be used to:
- the receiver is further configured to:
- the third service chain forwarding rule may include the first service chain identifier, the first identifier of the first access network element, and the second access network.
- a second identifier of the element the second access network element is an access network element after the terminal is switched, the first service chain identifier corresponds to the first identifier and the second identifier; and the third sent by the classifier is received a packet, the third packet carrying a service chain identifier;
- the processor can also be used to:
- the service chain identifier carried in the third packet matches the first service chain identifier in the third service chain forwarding rule, determining, according to the first identifier and the second identifier, that the third packet is sent to the third packet a first access network element and the second access network element;
- the transmitter can also be used to:
- the receiver is further configured to:
- the fourth service chain forwarding rule may include a second service chain identifier corresponding to the service of the terminal, and one or more service processing network elements.
- the identifier, the one or more service processing network elements are network elements that process the service
- the second service chain identifier corresponds to an identifier of the one or more service processing network elements, and receives the fourth packet sent by the classifier
- the fourth packet carries at least two service chain identifiers;
- the processor can also be used to:
- the network element is processed according to the one or more services. And determining, that the fourth packet is sent to the one or more service processing network elements;
- the transmitter can also be used to:
- the receiver can also be used to:
- the processor can also be used to:
- the transmitter can also be used to:
- the fourth packet processed by the service is forwarded to the first access network element.
- the fourth packet that is processed by the service carries the result of the service processing performed by the one or more service processing network elements, and may be used by the first access network element according to the result. Message forwarding.
- the controller And receiving, by the controller, a fifth service chain forwarding rule sent according to the terminal idle state notification, where the fifth service chain forwarding rule may include the first service chain identifier and an identifier of one or more access network elements, the one or more The access network element is an access network element in the paging group to which the terminal belongs, the first service chain identifier corresponds to the identifier of the first or multiple access network elements, and receives the fifth report sent by the classifier.
- the fifth message carries the service chain identifier;
- the processor can also be used to:
- the fifth packet is sent according to the identifier of the one or more access network elements. To the one or more access network elements;
- the transmitter can also be used to:
- the transmitter can be used to:
- the first service chain forwarding rule may further include an identifier of the at least one service processing network element corresponding to the first service chain identifier;
- This processor can be used to:
- the service chain identifier carried in the first packet matches the first service chain identifier in the first service chain forwarding rule, determining, according to the identifier of the at least one service processing network element, that the first packet is sent to the a service processing network element corresponding to the identifier of the at least one service processing network element;
- the transmitter can also be used to:
- the receiver can also be used to:
- the processor can also be used to:
- the transmitter can also be used to:
- the processor is further configured to:
- the service chain identifier carried in the to-be-forwarded packet is deleted, if the next network element is not The access network element retains the service chain identifier carried in the to-be-forwarded packet;
- the to-be-forwarded packet is the first packet or the first packet after the service is processed.
- the first service chain forwarding rule is sent by the controller according to the second terminal access request and the third terminal access request, where the second terminal access request is passed by the terminal.
- An access network element is initiated, and the third terminal access request is initiated by the terminal by using the second access network element, and the first service link forwarding rule may further include a second identifier of the second access network element, where The second identifier of the second access network element corresponds to the first service chain identifier;
- This processor can be used to:
- the transmitter can be used to:
- the first service chain forwarding rule is sent by the controller according to the second terminal access request and the third terminal access request, where the second terminal access request is passed by the terminal.
- An access network element is initiated, and the third terminal access request is initiated by the terminal by using the second access network element, and the first service link forwarding rule may further include a second identifier of the second access network element, where The second identifier of the second access network element corresponds to the first service chain identifier;
- This processor can be used to:
- the transmitter can be used to:
- the foregoing apparatus by receiving the first service chain forwarding rule sent by the controller, and the first packet sent by the classifier, when the service chain identifier carried in the first packet is in the first service chain forwarding rule
- the first packet is forwarded to the first access network element according to the first identifier, and the access network element is used as a hop in the service chain forwarding, and is unified by the service chain mechanism.
- Control realizes the end-to-end control based on SDN
- the control plane can realize the forwarding control of the access network and the service processing network based on the unified forwarding control mode, and realizes the SDN access management based on the service chain in the mobile network. Mobility management.
- the embodiment provides a device for controlling access, which can be used in a controller, including:
- the processor 41 is configured to generate a first service chain classification rule and a first service chain forwarding rule, where the first service chain classification rule may include a forwarding identifier allocated to the terminal and a first service chain identifier corresponding to the terminal, and the The forwarding identifier corresponds to the first service chain identifier, and the first service chain forwarding rule may include at least the first service chain identifier and the first identifier of the first access network element, where the first service chain identifier corresponds to the first Identification
- the transmitter 42 is configured to send the first service chain classification rule to the classifier, where the first service chain classification rule may be used by the classifier to encapsulate the first service on the received first packet that includes the forwarding identifier.
- the chain identifier may be further configured to send the first service chain forwarding rule to the forwarder, where the first service chain forwarding rule may be used by the forwarder to forward the received first packet that includes the first service chain identifier to The first access network element.
- the apparatus may further include:
- the receiver 43 is configured to receive a first terminal access request sent by the first access network element.
- This processor can be used to:
- the receiver After the receiver receives the first terminal access request, the first service chain classification rule and the first service chain forwarding rule are generated.
- the receiver is further configured to: receive the first terminal handover request;
- the processor can also be used to:
- the receiver After receiving the first terminal handover request, the receiver generates a second service chain forwarding rule, where the second service chain forwarding rule may include the first service chain identifier and the second identifier of the second access network element, where The second access network element is an access network element after the terminal is switched, and the first service chain identifier corresponds to the second identifier;
- the transmitter can also be used to:
- the receiver is further configured to: receive a second terminal handover request
- the processor can also be used to:
- the receiver After receiving the second terminal handover request, the receiver generates a third service chain forwarding rule, where the third service chain forwarding rule may include the first service chain identifier, the first identifier of the first access network element, And the second identifier of the second access network element, where the second access network element is the access network element after the terminal is switched, and the first service chain identifier corresponds to the first identifier and the second identifier;
- the transmitter can also be used to:
- the receiver may be further configured to: receive a terminal service establishment request;
- the processor can also be used to:
- the receiver After receiving the terminal service establishment request, the receiver generates a second service chain identifier corresponding to the requested service, and generates a second service chain classification rule and a fourth service chain forwarding rule, where the second service chain classification rule may include a forwarding identifier of the terminal and the second service chain identifier, where the forwarding identifier corresponds to the second service chain identifier, where the fourth service chain forwarding rule may include the second service chain identifier and one or more services for processing the service Processing an identifier of the network element, where the second service chain identifier corresponds to an identifier of the one of the multiple service processing network elements;
- the transmitter can also be used to:
- the receiver is further configured to: receive a terminal idle state notification
- the processor can also be used to:
- the fifth service chain forwarding rule may include the first service chain identifier and an identifier of one or more access network elements, the one Or the access network element is an access network element in the paging group to which the terminal belongs, and the first service chain identifier corresponds to the identifier of the one or more access network elements;
- the transmitter can also be used to:
- the fifth service chain forwarding rule may be used by the forwarder to forward the received fifth message including the first service chain identifier to the one or more interfaces Enter the network element.
- the fifth service chain forwarding rule may further include a preset policy, where the forwarder may forward the fifth packet that includes the first service chain identifier according to the preset policy. To the one or more access network elements.
- the processor is further configured to:
- the third service chain classification rule may include a forwarding identifier of the terminal, the first service chain identifier, and a paging parameter, where the forwarding identifier corresponds to the first service chain identifier and the paging parameter ;
- the transmitter can also be used to:
- the receiver may be further configured to: receive an indication that the terminal sent by the terminal after being successfully paged exits the idle state;
- the processor can also be used to:
- the fourth service chain classification rule is generated, and the fourth service chain classification rule may include the forwarding identifier of the terminal and the first service chain identifier, where the forwarding identifier corresponds to The first service chain identifier;
- the transmitter can also be used to:
- the receiver may be further configured to: receive a second terminal access request sent by the first access network element and a third terminal access request sent by the second access network element;
- the processor can also be used to:
- the receiver After the receiver receives the second terminal access request and the third terminal access request, generating the a first service chain classification rule and the first service chain forwarding rule;
- the forwarding identifier in the first service chain classification rule may include: a first forwarding identifier allocated to the terminal according to the second terminal access request, or a first allocation identifier for the terminal according to the third terminal access request. Second forwarding identifier;
- the first service chain forwarding rule may further include a second identifier of the second access network element, and the first service chain identifier further corresponds to the second identifier.
- the device may further include:
- the first service chain forwarding rule may further include an identifier of the at least one service processing network element, where the forwarder may forward the first packet to the at least one service processing network element for service processing, and then process the service.
- the first packet is forwarded to the first access network element.
- the device provided in this embodiment generates a first service chain classification rule and sends the first service chain forwarding rule to the classifier, and generates a first service chain forwarding rule to be sent to the forwarder, so that the classifier encapsulates the service chain identifier and the forwarder performs the service chain identification.
- the packet is forwarded to the access NE.
- the access NE is used as a hop in the service chain forwarding, and the service chain mechanism is used for unified control, which implements SDN-based end-to-end control, and the control plane
- the forwarding control of the access network and the service processing network can be implemented based on the unified forwarding control mode, and the SDN access management and mobility management based on the service chain in the mobile network are realized.
- the embodiment provides a system for controlling access, including:
- controller 51 comprising means for controlling access as provided by the embodiment shown in Figures 12, 14 or 15, the repeater comprising The apparatus for controlling access provided by the embodiment shown in FIG. 11 or 13.
- the classifier 52 is configured to receive the first service chain classification rule sent by the controller 51, when receiving the packet When the first packet of the forwarding identifier of the terminal is included, the first service chain identifier in the first service chain classification rule is encapsulated in the first packet;
- the access network element 54 is configured to receive the first packet sent by the forwarder 53 and forward the packet to the terminal.
- controller 51 can also be used to:
- the second service chain classification rule After receiving the notification of the idle state of the terminal, generating a second service chain classification rule, where the second service chain classification rule includes a forwarding identifier of the terminal, the first service chain identifier, and a paging parameter, where the forwarding identifier corresponds to the a service chain identifier and a paging parameter, and sending the second service chain classification rule to the classifier;
- the classifier 52 can also be used to:
- the first service chain identifier may be encapsulated in a packet header, and the paging parameter may be encapsulated in the metadata.
- the classifier 52 may replace the first service chain classification rule with the second service chain classification rule.
- controller 51 can also be used to:
- the third service chain classification rule includes the forwarding identifier of the terminal and the first service chain identifier, Transmitting the identifier corresponding to the first service chain identifier, and sending the third service chain classification rule to the classifier;
- the classifier 52 can also be used to:
- the controller And receiving the third service chain classification rule sent by the controller, and when the third packet including the forwarding identifier of the terminal is received, the first service chain identifier is encapsulated for the third packet.
- the classifier 52 can use the third service after receiving the third service chain classification rule.
- the chain classification rule replaces the second business chain classification rule.
- the foregoing system may further include:
- the at least one service processing network element is configured to receive the packet sent by the forwarder, perform service processing on the received packet, and send the service processed packet to the forwarder again.
- the first service chain forwarding rule generated by the controller further includes an identifier of the at least one service processing network element.
- the access network element 54 can also be used to:
- the packet is received by the terminal, and the access information is encapsulated in the packet of the terminal, and the encapsulated packet is forwarded to the classifier.
- the access information may be encapsulated in the packet in a metadata manner.
- the controller generates a first service chain classification rule and sends the rule to the classifier, and generates a first service chain forwarding rule to be sent to the forwarder, so that the classifier performs the service for the packet encapsulation service chain identifier and the forwarder.
- the packet is forwarded to the access network element, and the access network element forwards the packet to the terminal.
- the access network element is used as a hop in the service chain forwarding, and unified control is implemented through the service chain mechanism.
- the SDN-based end-to-end control, and the control plane can implement the forwarding control of the access network and the service processing network based on the unified forwarding control mode, and realize the SDN access management and mobility management based on the service chain in the mobile network. .
- the implementation difficulty of the controller is simplified, and the accompanying information sharing between the access network element and the service processing network element is also made possible.
- a person skilled in the art may understand that all or part of the steps of implementing the above embodiments may be completed by hardware, or may be instructed by a program to execute related hardware, and the program may be stored in a computer readable storage medium.
- the storage medium mentioned may be a read only memory, a magnetic disk or an optical disk or the like.
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Abstract
本发明实施例提供了一种控制接入的装置、系统和方法,涉及通信领域。所述装置包括:接收机、处理器和发射机。所述方法包括:接收控制器发送的第一业务链转发规则;接收分类器发送的第一报文;当所述第一报文携带的业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据该第一标识将所述第一报文转发至所述第一接入网元。本发明实现了基于SDN机制对接入网元的控制,而且,控制面可以基于统一的转发控制方式实现对接入网络及业务处理网络的转发控制,实现了移动网络中基于业务链的SDN接入管理和移动性管理。
Description
本发明涉及通信领域,特别涉及一种控制接入的装置、系统和方法。
在目前的电信网络中,提出了一种软件定义网络(Software-Defined Network,简称:SDN)的概念。
在SDN中,网元的控制逻辑和转发功能被解耦,同时控制逻辑进行了集中部署。用于实现网元控制逻辑的控制器(Controller)通过控制具有转发功能的转发器(Switch)中存储的处理规则,来实现对报文处理流程的灵活控制。转发器将报文的匹配域与处理规则中的匹配域进行匹配,若匹配成功,则按照处理规则中对应的动作集合对报文进行各种处理。
在移动网络中,SDN机制主要用于Gi-LAN(Local Area Network,局域网)域的业务链(Service chaining)方案。Gi-LAN域指核心网网关与分组数据网(Packet Data Network,简称:PDN)之间的网络域。业务链方案的基本思想是,部署与业务功能(Service Function,简称:SF)实体连接的转发器,并通过控制器在转发器上部署与业务报文特征相对应的转发规则,转发器按照转发规则转发接收到的报文,使报文流经一个或多个SF实体,从而完成报文的业务处理。
但是,上述SDN机制并未涉及包括基站等接入网元在内的无线接入网络,而且,Gi-LAN域中采用业务链标识进行路由,无线接入网络中采用用户报文的隧道标识进行路由,转发机制并不相同。因此,不同网络采用不同的转发机
制导致控制功能逻辑实现复杂,Gi-LAN域和无线接入网络之间的转发机制不能统一,移动网络中基于SDN机制无法实现对接入网元的控制。
发明内容
有鉴于此,本发明实施例提供了一种控制接入的装置、系统和方法,以实现移动网络中基于SDN机制对接入网元的控制。所述技术方案如下:
第一方面,提供了一种控制接入的装置,所述装置包括:
接收机,用于接收控制器发送的第一业务链转发规则,所述第一业务链转发规则包括与终端对应的第一业务链标识,以及第一接入网元的第一标识,其中,所述第一接入网元的第一标识对应于所述第一业务链标识;还用于接收分类器发送的第一报文,所述第一报文携带业务链标识;
处理器,用于当所述第一报文携带的业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据所述第一接入网元的第一标识,确定所述第一报文发送至所述第一接入网元;
发射机,用于将所述第一报文转发至所述第一接入网元。
结合上述第一方面,在第一方面的第一种实施方式下,所述第一业务链转发规则是所述控制器根据第一终端接入请求发送的,所述第一终端接入请求由所述终端通过所述第一接入网元发起。
结合上述第一方面或第一方面的第一种实施方式,在第一方面的第二种实施方式下,所述接收机还用于:
接收所述控制器根据终端切换请求发送的第二业务链转发规则,所述第二业务链转发规则包括所述第一业务链标识和第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第二标识对应于所述第一业务链标识;以及接收所述分类器发送的第二报文,所述第二报文携带业务链标识;
所述处理器还用于:
当所述第二报文携带的业务链标识与所述第二业务链转发规则中的所述第一业务链标识匹配时,根据所述第二接入网元的第二标识,确定所述第二报文发送至所述第二接入网元;
所述发射机还用于:
将所述第二报文转发至所述第二接入网元。
结合上述第一方面或第一方面的第一种实施方式,在第一方面的第三种实施方式下,所述接收机还用于:
接收所述控制器根据终端切换请求发送的第三业务链转发规则,所述第三业务链转发规则包括所述第一业务链标识、所述第一接入网元的第一标识和第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第一业务链标识对应所述第一标识和所述第二标识;以及接收所述分类器发送的第三报文,所述第三报文携带业务链标识;
所述处理器还用于:
当所述第三报文携带的业务链标识与所述第三业务链转发规则中的所述第一业务链标识匹配时,根据所述第一标识和所述第二标识,确定所述第三报文发送至所述第一接入网元和所述第二接入网元;
所述发射机还用于:
将所述第三报文转发至所述第一接入网元和所述第二接入网元。
结合上述第一方面或上述第一方面的第一种至第三种实施方式中的任一种,在第一方面的第四种实施方式下,所述接收机还用于:
接收所述控制器根据终端业务建立请求发送的第四业务链转发规则,所述第四业务链转发规则包括与所述终端的业务对应的第二业务链标识,以及一个或多个业务处理网元的标识,所述一个或多个业务处理网元为处理所述业务的
网元,所述第二业务链标识对应于所述一个或多个业务处理网元的标识;以及接收所述分类器发送的第四报文,所述第四报文携带至少两个业务链标识;
所述处理器还用于:
当所述第四报文携带的所述至少两个业务链标识中有一个业务链标识与所述第四业务链转发规则中的所述第二业务链标识匹配时,根据所述一个或多个业务处理网元的标识,确定所述第四报文发送至所述所述一个或多个业务处理网元;
所述发射机还用于:
将所述第四报文转发至所述一个或多个业务处理网元进行业务处理;
所述接收机还用于:
接收所述一个或多个业务处理网元发送的业务处理后的第四报文,所述业务处理后的第四报文携带至少两个业务链标识;
所述处理器还用于:
当所述业务处理后的第四报文携带的所述至少两个业务链标识中有一个业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据与所述第一标识,确定所述所述业务处理后的第四报文发送至所述第一接入网元;
所述发射机还用于:
将所述业务处理后的第四报文转发至所述第一接入网元。
结合上述第一方面的第四种实施方式,在第一方面的第五种实施方式下,所述业务处理后的第四报文中携带所述一个或多个业务处理网元执行业务处理后的结果,用于所述第一接入网元根据所述结果进行报文转发。
结合上述第一方面或第一方面的第一种至第五种实施方式中的任一种,在第一方面的第六种实施方式下,所述接收机还用于:
接收所述控制器根据终端空闲状态通知发送的第五业务链转发规则,所述第五业务链转发规则包括所述第一业务链标识和一个或多个接入网元的标识,所述一个或多个接入网元为所述终端所属寻呼组内的接入网元,所述第一业务链标识对应于所述第一个或多个接入网元的标识;以及接收所述分类器发送的第五报文,所述第五报文携带业务链标识;
所述处理器还用于:
当所述第五报文携带的业务链标识与所述第五业务链转发规则中的所述第一业务链标识匹配时,根据所述一个或多个接入网元的标识,确定所述第五报文发送至所述一个或多个接入网元;
所述发射机还用于:
将所述第五报文转发至所述一个或多个接入网元,以触发所述一个或多个接入网元寻呼所述终端。
结合上述第一方面的第六种实施方式,在第一方面的第七种实施方式下,所述发射机用于:
按照指定的顺序依次将所述第五报文发送给所述一个或多个接入网元,直到所述一个或多个接入网元中有一个接入网元寻呼所述终端成功或者所述一个或多个接入网元均寻呼所述终端失败。
结合上述第一方面或第一方面的第一种至第七种实施方式中的任一种,在第一方面的第八种实施方式下,所述第一业务链转发规则还包括与所述第一业务链标识对应的至少一个业务处理网元的标识;
所述处理器用于:
当所述第一报文携带的业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据所述至少一个业务处理网元的标识,确定所述第一报文发送至所述至少一个业务处理网元的标识对应的业务处理网元;
所述发射机还用于:
将所述第一报文转发至所述至少一个业务处理网元的标识对应的业务处理网元进行业务处理;
所述接收机还用于:
接收所述至少一个业务处理网元的标识对应的业务处理网元发送的业务处理后的第一报文;
所述处理器还用于:
根据所述第一接入网元的第一标识,确定所述业务处理后的第一报文发送至所述第一接入网元;
所述发射机还用于:
将所述业务处理后的第一报文转发至所述第一接入网元。
结合上述第一方面或第一方面的第一种至第八种实施方式中的任一种,在第一方面的第九种实施方式下,所述处理器还用于:
在所述发射机转发待转发报文给下一个网元前,如果所述下一个网元是接入网元,则将所述待转发报文中携带的业务链标识删除,如果所述下一个网元不是接入网元,则保留所述待转发报文中携带的业务链标识;
其中,所述待转发报文为所述第一报文或者所述业务处理后的第一报文。
结合上述第一方面或第一方面的第一种至第九种实施方式中的任一种,在第一方面的第十种实施方式下,所述第一业务链转发规则是所述控制器根据第二终端接入请求和第三终端接入请求发送的,所述第二终端接入请求由所述终端通过所述第一接入网元发起,所述第三终端接入请求由所述终端通过所述第二接入网元发起,所述第一业务链转发规则还包括所述第二接入网元的第二标识,所述第二接入网元的第二标识对应于所述第一业务链标识;
所述处理器用于:
根据所述第一标识和所述第二标识,采用负载均衡方式在所述第一接入网元和所述第二接入网元中选出所述第一接入网元;
所述发射机用于:
将所述第一报文转发至所述处理器选出的所述第一接入网元。
结合上述第一方面或第一方面的第一种至第十种实施方式中的任一种,在第一方面的第十一种实施方式下;
所述第一业务链转发规则是所述控制器根据第二终端接入请求和第三终端接入请求发送的,所述第二终端接入请求由所述终端通过所述第一接入网元发起,所述第三终端接入请求由所述终端通过所述第二接入网元发起,所述第一业务链转发规则还包括所述第二接入网元的第二标识,所述第二接入网元的第二标识对应于所述第一业务链标识;
所述处理器用于:
根据所述第一标识和所述第二标识,确定所述第一报文发送至所述第一接入网元和所述第二接入网元;
所述发射机用于:
将所述第一报文转发至所述第一接入网元和所述第二接入网元。
第二方面,提供了一种控制接入的装置,所述装置包括:
处理器,用于生成第一业务链分类规则和第一业务链转发规则,所述第一业务链分类规则包括为终端分配的转发标识和与所述终端对应的第一业务链标识,且所述转发标识对应于所述第一业务链标识,所述第一业务链转发规则至少包括所述第一业务链标识和第一接入网元的第一标识,所述第一业务链标识对应于所述第一标识;
发射机,用于发送所述第一业务链分类规则给分类器,所述第一业务链分
类规则用于所述分类器对收到的包含所述转发标识的第一报文封装上所述第一业务链标识;还用于发送所述第一业务链转发规则给转发器,所述第一业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第一报文转发至所述第一接入网元。
结合上述第二方面,在第二方面的第一种实施方式下,所述装置还包括:
接收机,用于接收所述第一接入网元发送的第一终端接入请求;
所述处理器用于:
在所述接收机接收到所述第一终端接入请求后,生成所述第一业务链分类规则和所述第一业务链转发规则。
结合上述第二方面的第一种实施方式,在第二方面的第二种实施方式下,所述接收机还用于:接收第一终端切换请求;
所述处理器还用于:
当所述接收机接收到所述第一终端切换请求后,生成第二业务链转发规则,所述第二业务链转发规则包括所述第一业务链标识和第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第一业务链标识对应于所述第二标识;
所述发射机还用于:
发送所述第二业务链转发规则给所述转发器,所述第二业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第二报文转发至所述第二接入网元。
结合上述第二方面的第一种实施方式,在第二方面的第三种实施方式下,所述接收机还用于:接收第二终端切换请求;
所述处理器还用于:
当所述接收机接收到所述第二终端切换请求后,生成第三业务链转发规则,
所述第三业务链转发规则包括所述第一业务链标识、所述第一接入网元的第一标识、以及第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第一业务链标识对应于所述第一标识和所述第二标识;
所述发射机还用于:
发送所述第三业务链转发规则给所述转发器,所述第三业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第三报文转发至所述第一接入网元和所述第二接入网元。
结合上述第二方面的第一种至第三种实施方式中的任一种,在第二方面的第四种实施方式下,所述接收机还用于:接收终端业务建立请求;
所述处理器还用于:
当所述接收机接收到所述终端业务建立请求后,生成与请求的业务对应的第二业务链标识,生成第二业务链分类规则和第四业务链转发规则,所述第二业务链分类规则包括所述终端的转发标识和所述第二业务链标识,所述转发标识对应于所述第二业务链标识,所述第四业务链转发规则包括所述第二业务链标识和处理所述业务的一个或多个业务处理网元的标识,所述第二业务链标识对应于所述一个活多个业务处理网元的标识;
所述发射机还用于:
发送所述第二业务链分类规则给所述分类器,所述第二业务链分类规则用于所述分类器对收到包含所述转发标识的第四报文封装上所述第二业务链标识;
发送所述第四业务链转发规则给所述转发器,所述第四业务链转发规则用于所述转发器将收到的包含所述第二业务链标识的第四报文转发至所述一个或多个业务处理网元。
结合上述第二方面的第一种至第四种实施方式中的任一种,在第二方面的
第五种实施方式下,所述接收机还用于:接收终端空闲状态通知;
所述处理器还用于:
当所述接收机接收到所述终端空闲状态通知后,生成第五业务链转发规则,所述第五业务链转发规则包括所述第一业务链标识和一个或多个接入网元的标识,所述一个或多个接入网元为所述终端所属寻呼组内的接入网元,所述第一业务链标识对应于所述一个或多个接入网元的标识;
所述发射机还用于:
发送所述第五业务链转发规则给所述转发器,所述第五业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第五报文转发至所述一个或多个接入网元。
结合上述第二方面的第五种实施方式,在第二方面的第六种实施方式下,所述第五业务链转发规则还包括预设策略,用于所述转发器根据所述预设策略将收到包含所述第一业务链标识的第五报文转发至所述一个或多个接入网元。
结合上述第二方面的第一种至第六种实施方式中的任一种,在第二方面的第七种实施方式下,所述处理器还用于:
生成第三业务链分类规则,所述第三业务链分类规则包括所述终端的转发标识、所述第一业务链标识和寻呼参数,所述转发标识对应于所述第一业务链标识和所述寻呼参数;
所述发射机还用于:
发送所述第三业务链分类规则给所述分类器,所述第三业务链分类规则用于所述分类器为收到的包含所述转发标识的第五报文封装所述第一业务链标识和所述寻呼参数。
结合上述第二方面的第七种实施方式,在第二方面的第八种实施方式下,所述接收机还用于:接收所述终端在被成功寻呼后发送的终端退出空闲状态的
指示;
所述处理器还用于:
当所述接收机接收到所述终端退出空闲状态的指示后,生成第四业务链分类规则,所述第四业务链分类规则包括所述终端的转发标识和所述第一业务链标识,所述转发标识对应于所述第一业务链标识;
所述发射机还用于:
发送所述第四业务链分类规则给所述分类器,所述第四业务链分类规则用于所述分类器对收到包含所述转发标识的第六报文封装所述第一业务链标识。
结合上述第二方面的第一种至第八种实施方式中的任一种,在第二方面的第九种实施方式下,所述接收机还用于:接收所述第一接入网元发送的第二终端接入请求和第二接入网元发送的第三终端接入请求;
所述处理器还用于:
当所述接收机接收到所述第二终端接入请求和所述第三终端接入请求后,生成所述第一业务链分类规则和所述第一业务链转发规则;
其中,所述第一业务链分类规则中的所述转发标识包括:根据所述第二终端接入请求为所述终端分配的第一转发标识,或根据所述第三终端接入请求为所述终端分配的第二转发标识;
其中,所述第一业务链转发规则还包括所述第二接入网元的第二标识,且所述第一业务链标识还对应于所述第二标识。
结合上述第二方面或第二方面的第一种至第九种实施方式中的任一种,在第二方面的第十种实施方式下:
所述第一业务链转发规则还包括至少一个业务处理网元的标识,用于所述转发器先将所述第一报文转发至所述至少一个业务处理网元进行业务处理,再将业务处理后的第一报文转发至所述第一接入网元。
第三方面,提供了一种控制接入的系统,所述系统包括:控制器、分类器、转发器和接入网元;所述控制器包括如上述第二方面所述的装置,所述转发器包括如上述第一方面所述的装置;
所述分类器,用于接收所述控制器发送的所述第一业务链分类规则,当接收到包含所述终端的转发标识的第一报文时,为所述第一报文封装上所述第一业务链分类规则中的所述第一业务链标识;
所述接入网元,用于接收所述转发器发送的所述第一报文并转发给所述终端。
结合上述第三方面,在第三方面的第一种实施方式下,所述控制器还用于:
在接收到终端空闲状态通知后,生成第二业务链分类规则,所述第二业务链分类规则包括所述终端的转发标识、所述第一业务链标识和寻呼参数,所述转发标识对应于所述第一业务链标识和寻呼参数,发送所述第二业务链分类规则给所述分类器;
所述分类器还用于:
接收所述控制器发送的所述第二业务链分类规则,当接收到包含所述终端的转发标识的第二报文时,为所述第二报文封装上所述第一业务链标识和所述寻呼参数。
结合上述第三方面的第一种实施方式,在第三方面的第二种实施方式下,所述控制器还用于:
在接收到所述终端在被成功寻呼后发送的终端退出空闲状态的指示后,生成第三业务链分类规则,所述第三业务链分类规则包括所述终端的转发标识和所述第一业务链标识,所述转发标识对应于所述第一业务链标识,发送所述第三业务链分类规则给所述分类器;
所述分类器还用于:
接收所述控制器发送的所述第三业务链分类规则,当接收到包含所述终端的转发标识的第三报文时,为所述第三报文封装上所述第一业务链标识。
结合上述第三方面,在第三方面的第三种实施方式下,所述系统还包括:
至少一个业务处理网元,用于接收所述转发器发送的报文,并对收到的所述报文进行业务处理,将业务处理后的报文再发送给所述转发器;
所述控制器生成的所述第一业务链转发规则中还包括所述至少一个业务处理网元的标识。
结合上述第三方面,在第三方面的第四种实施方式下,所述接入网元还用于:
接收所述终端的报文,将接入信息封装在所述终端的报文中,转发封装后的报文给所述分类器。
第四方面,提供了一种控制接入的方法,所述方法包括:
接收控制器发送的第一业务链转发规则,所述第一业务链转发规则包括与终端对应的第一业务链标识,以及第一接入网元的第一标识,其中,所述第一标识对应于所述第一业务链标识;
接收分类器发送的第一报文,所述第一报文携带业务链标识;
当所述第一报文携带的业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据所述第一接入网元的第一标识,将所述第一报文转发至所述第一接入网元。
结合上述第四方面,在第四方面的第一种实施方式下,所述第一业务链转发规则是所述控制器根据第一终端接入请求发送的,所述第一终端接入请求由所述终端通过所述第一接入网元发起。
结合上述第四方面或第四方面的第一种实施方式,在第四方面的第二种实施方式下,所述方法还包括:
接收所述控制器根据终端切换请求发送的第二业务链转发规则,所述第二业务链转发规则包括所述第一业务链标识和第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第二标识对应于所述第一业务链标识;
接收所述分类器发送的第二报文,所述第二报文携带业务链标识;
当所述第二报文携带的业务链标识与所述第二业务链转发规则中的所述第一业务链标识匹配时,根据所述第二接入网元的第二标识,将所述第二报文转发至所述第二接入网元。
结合上述第四方面或第四方面的第一种实施方式,在第四方面的第三种实施方式下,所述方法还包括:
接收所述控制器根据终端切换请求发送的第三业务链转发规则,所述第三业务链转发规则包括所述第一业务链标识、所述第一接入网元的第一标识和第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第一业务链标识对应于所述第一标识和所述第二标识;
接收所述分类器发送的第三报文,所述第三报文携带业务链标识;
当所述第三报文携带的业务链标识与所述第三业务链转发规则中的所述第一业务链标识匹配时,根据所述第一标识和所述第二标识,将所述第三报文转发至所述第一接入网元和所述第二接入网元。
结合上述第四方面或第四方面的第一种至第三种实施方式中的任一种,在第四方面的第四种实施方式下,所述方法还包括:
接收所述控制器根据终端业务建立请求发送的第四业务链转发规则,所述第四业务链转发规则包括与所述终端的业务对应的第二业务链标识,以及一个
或多个业务处理网元的标识,所述一个或多个业务处理网元为处理所述业务的网元,所述第二业务链标识对应于所述一个或多个业务处理网元的标识;
接收所述分类器发送的第四报文,所述第四报文携带至少两个业务链标识;
当所述第四报文携带的所述至少两个业务链标识中有一个业务链标识与所述第四业务链转发规则中的所述第二业务链标识匹配时,根据所述一个或多个业务处理网元的标识,将所述第四报文转发至所述一个或多个业务处理网元进行业务处理;
接收所述一个或多个业务处理网元发送的业务处理后的第四报文;
当所述业务处理后的第四报文携带的所述至少两个业务链标识中有一个业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据与所述第一标识,将所述业务处理后的第四报文转发至所述第一接入网元。
结合上述第四方面的第四种实施方式,在第四方面的第五种实施方式下:
所述业务处理后的第四报文中携带所述一个或多个业务处理网元执行业务处理后的结果,用于所述第一接入网元根据所述结果进行报文转发。
结合上述第四方面或第四方面的第一种至第五种实施方式中的任一种,在第四方面的第六种实施方式下,所述方法还包括:
接收所述控制器根据终端空闲状态通知发送的第五业务链转发规则,所述第五业务链转发规则包括所述第一业务链标识和一个或多个接入网元的标识,所述一个或多个接入网元为所述终端所属寻呼组内的接入网元,所述第一业务链标识对应于所述第一个或多个接入网元的标识;
接收所述分类器发送的第五报文,所述第五报文携带业务链标识;
当所述第五报文携带的业务链标识与所述第五业务链转发规则中的所述第一业务链标识匹配时,根据所述一个或多个接入网元的标识,将所述第五报文转发至所述一个或多个接入网元,以触发所述一个或多个接入网元寻呼所述
终端。
结合上述第四方面的第六种实施方式,在第四方面的第七种实施方式下,所述将所述第五报文转发至所述一个或多个接入网元,以触发所述一个或多个接入网元寻呼所述终端,包括:
按照指定的顺序依次将所述第五报文发送给所述一个或多个接入网元,直到所述一个或多个接入网元中有一个接入网元寻呼所述终端成功或者所述一个或多个接入网元均寻呼所述终端失败。
结合上述第四方面或第四方面的第一种至第七种实施方式中的任一种,在第四方面的第八种实施方式下,所述第一业务链转发规则还包括与所述第一业务链标识对应的至少一个业务处理网元的标识;
所述当所述第一报文携带的业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据所述第一接入网元的第一标识,将所述第一报文转发至所述第一接入网元,包括:
当所述第一报文携带的业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据所述至少一个业务处理网元的标识,将所述第一报文转发至所述至少一个业务处理网元的标识对应的业务处理网元进行业务处理;
接收所述至少一个业务处理网元的标识对应的业务处理网元发送的业务处理后的第一报文;
根据所述第一接入网元的第一标识,将所述业务处理后的第一报文转发至所述第一接入网元。
结合上述第四方面或第四方面的第一种至第八种实施方式中的任一种,在第四方面的第九种实施方式下,所述方法还包括:
在转发待转发报文给下一个网元前,如果所述下一个网元是接入网元,则
将所述待转发报文中携带的业务链标识删除,如果所述下一个网元不是接入网元,则保留所述待转发报文中携带的业务链标识;
其中,所述待转发报文为所述第一报文或者所述业务处理后的第一报文。
结合上述第四方面或第四方面的第一种至第九种实施方式中的任一种,在第四方面的第十种实施方式下:
所述第一业务链转发规则是所述控制器根据第二终端接入请求和第三终端接入请求发送的,所述第二终端接入请求由所述终端通过所述第一接入网元发起,所述第三终端接入请求由所述终端通过所述第二接入网元发起,所述第一业务链转发规则还包括所述第二接入网元的第二标识,所述第二接入网元的第二标识对应于所述第一业务链标识;
所述根据所述第一接入网元的第一标识,将所述第一报文转发至所述第一接入网元,包括:
根据所述第一标识和所述第二标识,采用负载均衡方式在所述第一接入网元和所述第二接入网元中选出所述第一接入网元,且将所述第一报文转发至所述第一接入网元。
结合上述第四方面或第四方面的第一种至第十种实施方式中的任一种,在第四方面的第十一种实施方式下:
所述第一业务链转发规则是所述控制器根据第二终端接入请求和第三终端接入请求发送的,所述第二终端接入请求由所述终端通过所述第一接入网元发起,所述第三终端接入请求由所述终端通过所述第二接入网元发起,所述第一业务链转发规则还包括所述第二接入网元的第二标识,所述第二接入网元的第二标识对应于所述第一业务链标识;
所述根据所述第一接入网元的第一标识,将所述第一报文转发至所述第一接入网元,包括:
根据所述第一标识和所述第二标识,将所述第一报文转发至所述第一接入网元和所述第二接入网元。
第五方面,提供了一种控制接入的方法,所述方法包括:
生成第一业务链分类规则和第一业务链转发规则,所述第一业务链分类规则包括为终端分配的转发标识和与所述终端对应的第一业务链标识,且所述转发标识对应于所述第一业务链标识,所述第一业务链转发规则至少包括所述第一业务链标识和第一接入网元的第一标识,所述第一业务链标识对应于所述第一标识;
发送所述第一业务链分类规则给分类器,所述第一业务链分类规则用于所述分类器对收到的包含所述转发标识的第一报文封装上所述第一业务链标识;
发送所述第一业务链转发规则给转发器,所述第一业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第一报文转发至所述第一接入网元。
结合上述第五方面,在第五方面的第一种实施方式下,所述生成第一业务链分类规则和第一业务链转发规则,包括:
当接收到所述第一接入网元发送的第一终端接入请求后,生成所述第一业务链分类规则和所述第一业务链转发规则。
结合上述第五方面或第五方面的第一种实施方式,在第五方面的第二种实施方式下,所述方法还包括:
当接收到第一终端切换请求后,生成第二业务链转发规则,所述第二业务链转发规则包括所述第一业务链标识和第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第一业务链标识对应于所述第二标识;
发送所述第二业务链转发规则给所述转发器,所述第二业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第二报文转发至所述第二接入网元。
结合上述第五方面的第一种或第二种实施方式,在第五方面的第三种实施方式下,所述方法还包括:
当接收到第二终端切换请求后,生成第三业务链转发规则,所述第三业务链转发规则包括所述第一业务链标识、所述第一接入网元的第一标识、以及第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第一业务链标识对应于所述第一标识和所述第二标识;
发送所述第三业务链转发规则给所述转发器,所述第三业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第三报文转发至所述第一接入网元和所述第二接入网元。
结合上述第五方面或第五方面的第一种至第三种实施方式中的任一种,在第五方面的第四种实施方式下,所述方法还包括:
当接收到终端业务建立请求后,生成与请求的业务对应的第二业务链标识,生成第二业务链分类规则和第四业务链转发规则,所述第二业务链分类规则包括所述终端的转发标识和所述第二业务链标识,所述转发标识对应于所述第二业务链标识,所述第四业务链转发规则包括所述第二业务链标识和处理所述业务的一个或多个业务处理网元的标识,所述第二业务链标识对应于所述一个活多个业务处理网元的标识;
发送所述第二业务链分类规则给所述分类器,所述第二业务链分类规则用于所述分类器对收到包含所述转发标识的第四报文封装上所述第二业务链标识;
发送所述第四业务链转发规则给所述转发器,所述第四业务链转发规则用
于所述转发器将收到的包含所述第二业务链标识的第四报文转发至所述一个或多个业务处理网元。
结合上述第五方面或第五方面的第一种至第四种实施方式中的任一种,在第五方面的第五种实施方式下,所述方法还包括:
当接收到终端空闲状态通知后,生成第五业务链转发规则,所述第五业务链转发规则包括所述第一业务链标识和一个或多个接入网元的标识,所述一个或多个接入网元为所述终端所属寻呼组内的接入网元,所述第一业务链标识对应于所述一个或多个接入网元的标识;
发送所述第五业务链转发规则给所述转发器,所述第五业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第五报文转发至所述一个或多个接入网元。
结合上述第五方面的第五种实施方式,在第五方面的第六种实施方式下,所述第五业务链转发规则还包括预设策略,用于所述转发器根据所述预设策略将收到包含所述第一业务链标识的第五报文转发至所述一个或多个接入网元。
结合上述第五方面或第五方面的第一种至第六种实施方式中的任一种,在第五方面的第七种实施方式下,所述方法还包括:
生成第三业务链分类规则,所述第三业务链分类规则包括所述终端的转发标识、所述第一业务链标识和寻呼参数,所述转发标识对应于所述第一业务链标识和所述寻呼参数;
发送所述第三业务链分类规则给所述分类器,所述第三业务链分类规则用于所述分类器为收到的包含所述转发标识的第五报文封装所述第一业务链标识和所述寻呼参数。
结合上述第五方面的第七种实施方式,在第五方面的第八种实施方式下,所述方法还包括:
当接收到所述终端在被成功寻呼后发送的终端退出空闲状态的指示后,生成第四业务链分类规则,所述第四业务链分类规则包括所述终端的转发标识和所述第一业务链标识,所述转发标识对应于所述第一业务链标识;
发送所述第四业务链分类规则给所述分类器,所述第四业务链分类规则用于所述分类器对收到包含所述转发标识的第六报文封装所述第一业务链标识。
结合上述第五方面或第五方面的第一种至第八种实施方式中的任一种,在第五方面的第九种实施方式下,所述生成第一业务链分类规则和第一业务链转发规则,包括:
当接收到所述第一接入网元发送的第二终端接入请求和第二接入网元发送的第三终端接入请求后,生成所述第一业务链分类规则和所述第一业务链转发规则;
其中,所述第一业务链分类规则中的所述转发标识包括:根据所述第二终端接入请求为所述终端分配的第一转发标识,或根据所述第三终端接入请求为所述终端分配的第二转发标识;
其中,所述第一业务链转发规则还包括所述第二接入网元的第二标识,且所述第一业务链标识还对应于所述第二标识。
结合上述第五方面或第五方面的第一种至第九种实施方式中的任一种,在第五方面的第十种实施方式下,所述第一业务链转发规则还包括至少一个业务处理网元的标识,用于所述转发器先将所述第一报文转发至所述至少一个业务处理网元进行业务处理,再将业务处理后的第一报文转发至所述第一接入网元。
本发明实施例提供的技术方案的有益效果是:
通过接收控制器发送的第一业务链转发规则,以及分类器发送的第一报文,当第一报文携带的业务链标识与第一业务链转发规则中的第一业务链标识匹
配时,根据该第一标识,将第一报文转发至第一接入网元,该过程中将第一接入网元作为业务链转发中的一跳,通过业务链机制进行统一控制,实现了基于SDN机制对接入网元的控制,而且,控制面可以基于统一的转发控制方式实现对接入网络及业务处理网络的转发控制,实现了移动网络中基于业务链的SDN接入管理和移动性管理。
为了更清楚地说明本发明实施例中的技术方案,下面将对实施例描述中所需要使用的附图作简单地介绍,显而易见地,下面描述中的附图仅仅是本发明的一些实施例,对于本领域普通技术人员来讲,在不付出创造性劳动的前提下,还可以根据这些附图获得其他的附图。
图1是本发明一实施例提供的网络架构示意图;
图2是本发明另一实施例提供的网络架构示意图;
图3是本发明另一实施例提供的终端接入场景的交互图;
图4是本发明另一实施例提供的终端切换场景的交互图;
图5是本发明另一实施例提供的终端业务建立场景的交互图;
图6是本发明另一实施例提供的终端空闲状态寻呼的交互图;
图7是本发明另一实施例提供的多网元信息共享的交互图;
图8是本发明另一实施例提供的终端通过多个接入网元接入场景的交互图;
图9是本发明另一实施例提供的用于转发器的控制接入的方法流程图;
图10是本发明另一实施例提供的用于控制器的控制接入的方法流程图;
图11是本发明另一实施例提供的用于转发器的控制接入的装置结构图;
图12是本发明另一实施例提供的用于控制器的控制接入的装置结构图;
图13是本发明另一实施例提供的用于控制器的控制接入的装置结构图;
图14是本发明另一实施例提供的控制接入的系统结构图。
为使本发明的目的、技术方案和优点更加清楚,下面将结合附图对本发明实施方式作进一步地详细描述。
本发明实施例涉及控制接入的装置、系统和方法,基于SDN机制实现移动网络中对接入网元的控制,可以应用于如图1所示的网络架构中。参见图1,该网络结构包括:终端S1、接入网元S2、控制器S3、分类器S4和转发器S5。所述终端S1包括但不限于:移动站(Mobile Station,简称:MS)、移动台(Mobile)、用户终端(User Terminal,简称:UT)、用户设备(User Device,简称:UD)或用户装备(User Equipment,简称:UE)。所述接入网元S2与终端S1直接交互,接入网元S2包括但不限于:无线基站、家庭基站、演进的基站节点(evolved Node B,简称:eNodeB)、基站(Base Station,简称:BS)、接入点(Access Point,简称:AP)、无线保真(Wireless-Fidelity,简称:WiFi)或数字用户线路接入复用器(Digital Subscriber Line Access Multiplexer,简称:DSLAM)。所述控制器S3是指移动网络中负责执行整网接入及移动性管理的设备,具体实现上可以由一个或多个物理设备组成,本实施例对此不做具体限定。所述转发器S5是指负责报文转发的设备,可以与接入网元S2直接交互,具体实现上可以由一个或多个物理设备组成,本实施例对此不做具体限定。当转发器S5由多个物理设备组成时,控制器S3向转发器S5下发业务链转发规则可以是向该多个物理设备分别下发,下文不再特别声明。所述分类器S4负责对报文进行业务链分类并封装对应的业务链标识,具体实现时分类器可以为单独的物理设备,也可以与转发器S5集成在一个物理设备上,本实施例对此不做具体限定。
进一步地,上述网络架构还可以包括业务处理网元。参见图2,该网络架构在图1的基础上增加了业务处理网元S6。所述业务处理网元S6负责对终端的业务进行处理,业务处理网元S6包括但不限于:业务功能(Service Function,简称:SF)实体,具体可以是深层报文解析(Deep Packet Inspection,简称:DPI)器、防病毒网关、计费网关、视频优化器、业务流压缩器、数据缓存器、超文本传输协议(HyperText Transfer Protocol,简称:HTTP)头增强器等等。
本发明实施例中,控制器通过下发业务链分类规则给分类器,以及下发业务链转发规则给转发器来实现移动网络中对接入网元的控制。其中,业务链分类规则包括终端的转发标识和业务链标识(Chain Identifier,简称:CID),业务链转发规则包括业务链标识和接入网元的标识。终端的转发标识包括但不限于:终端的互联网协议(Internet Protocol,简称:IP)的第四版IPv4地址、互联网协议的第六版IPv6地址、通用路由封装(Generic Routing Encapsulation,简称:GRE)/GPRS隧道协议(GPRS Tunnelling Protocol,简称:GTP)隧道标识。接入网元的标识包括但不限于:接入网元的IPv4地址、IPv6地址、媒体存取控制(Media Access Control,简称:MAC)地址或可连接到该接入网元的端口号。
另外,业务处理网元对报文的处理结果,如视频编解码器处理报文后得到的视频流码率,还可以封装在报文中转发,通过转发器可以将封装了该处理结果的报文转发至接入网元,从而实现多个网元之间的信息共享。
上述装置、系统和方法采用SDN的业务路由方式,对终端接入移动网络后的会话实现SDN控制,业务报文在移动网络内采用统一的SDN机制控制,根据与业务链标识对应的接入网元的标识来完成报文到接入网元的转发,其中,报文到接入网元的转发无需使用隧道标识进行路由,实现了移动网络中转发面设备的简单化和功能统一。
为了更好地说明SDN控制流程,下面的各个实施例以到终端的下行报文为例进行说明,具体描述如何通过控制器、转发器和分类器控制将报文转发至接入网元,最终实现下行报文到终端的转发。当然,在终端的上行报文转发流程中,也可以采用控制器、转发器和分类器对接入网元发送的报文进行控制以及转发,此时分类器可以部署在接入网元设备上或接入网元路由路径上,对上行报文进行分类后,发送给转发器进行SDN控制的报文转发,其实现与以下下行报文的处理方式类似,此处不做过多说明。值得一提的是,在上行报文的转发过程中,接入网元也可以将如空口带宽、拥塞信息等接入相关信息封装到报文中,转发给后续的业务处理网元,以使业务处理网元依据该接入相关信息进行业务处理,从而实现上行报文转发过程中多个网元之间的信息共享。
在本发明实施例的具体实现中,控制器可以是一个独立的网元,也可以是由多个物理或逻辑实体构成的功能集合。如可以将现有3GPP网络中的移动管理实体(Mobility Management Entity,简称:MME)、服务网关(Serving Gateway,简称:S-GW)、分组数据网网关(PDN Gateway,简称:P-GW)等功能、以及SDN控制器(controller)功能进行组合从而形成本发明中的控制器。所述控制器所接收的终端的接入控制消息,如接入请求消息、切换请求消息、空闲状态请求消息等可以是由接入网元直接发送给控制器的,也可以是通过其它网元或模块转发消息或消息的部分参数到控制器,以上部署和消息转发方式不影响本发明各实施例的技术实现,本发明不做限定。
参见图3,本实施例提供了一种控制接入的方法,应用于终端请求接入的场景,包括:
301:终端向接入网元发起接入请求。
所述接入网元是指为终端提供接入能力的接入设备,如无线基站、家庭基
站、eNodeB、BS、AP、WiFi或DSLAM等;所述接入请求用于请求接入该接入网元所在的网络。
302:接入网元收到终端的接入请求后,向控制器发起接入请求,该接入请求中携带终端的身份标识或使用终端的用户的身份标识。
其中,终端的身份标识包括但不限于:国际移动设备识别码(International Mobile Equipment Identification Number,简称:IMEI)。用户的身份标识包括但不限于:国际移动用户识别码(International Mobile Subscriber Identification Number,简称:IMSI)。
303:控制器在接收到接入网元发送的接入请求后,为终端分配转发标识,确定业务链标识,并生成业务链分类规则和业务链转发规则。
其中,该业务链分类规则包括终端的转发标识和对应的业务链标识,并且,一个业务链标识可以与终端的一个转发标识单独对应,也可以是与终端的多个转发标识的组合相对应,此处不限定。
该业务链转发规则包括业务链标识和对应的网元标识,该网元标识可以为一个网元的标识,也可以为多个网元的标识,本实施例中至少包括上述接入网元的标识,进一步地还可以包括其它网元的标识,例如,所述其它网元可以为业务处理网元。其中,网元的标识可以由控制器预先获得,如通过接入网元发送的接入请求消息中获得该接入网元的标识等等,此处不做过多说明。
其中,终端的转发标识可以为IPv4地址、IPv6地址、终端业务流源/目的IP地址、源/目的端口号、隧道标识等等。业务链标识可以为控制器为该终端单独生成的新的业务链标识,也可以为之前已经生成的业务链标识进行重用,本实施例对此不做具体限定。网元标识可以为IP地址、MAC地址或所连接的端口号等等,此处不限定。
例如,业务链分类规则如下:
Dst_IP=IP1,ChainID=CID1;
其中,Dst_IP表示目标IP地址,ChainID表示业务链标识。该业务链分类规则表示当报文的目的IP地址为IP1时对应的业务链标识为CID1。
业务链转发规则如下:
ChainID=CID1;Forwarding=AF1;
其中,ChainID表示业务链标识,Forwarding表示网元的标识。该业务链转发规则表示将业务链标识为CID1的报文转发给网元标识为AF1的网元进行处理,其中AF1为接入网元的标识。
可选的,业务链转发规则也可以如下:
ChainID=CID1;Forwarding=SF1,SF2,AF1;
其中,ChainID表示业务链标识,Forwarding表示网元的标识。该业务链转发规则表示将业务链标识为CID1的报文依次转发给网元标识为SF1、SF2和AF1的网元进行处理,其中,AF1为接入网元的标识,SF1和SF2分别表示第一业务功能实体的标识和第二业务功能实体的标识。
可选地,控制器还可以对终端进行接入鉴权及获取终端的业务策略。
304:控制器将上述业务链分类规则发送给分类器。
305:控制器将上述业务链转发规则发送给转发器。
所述业务链转发规则可以通过不同的技术方式实现,例如当采用OpenFlow方式时,上述业务链转发规则可以通过加入服务索引(service index),并通过多条匹配service index+Chain ID的流表规则来实现。
例如,业务链转发规则如下:
ChainID=CID1,ServiceIndex=1;action=output:AF1-port
其中,ChainID为业务链标识,ServiceIndex为服务索引,action为动作。根据该业务链转发规则,转发器会将报文转发至标识为AF1的网元,且报文转
发后ServiceIndex值减一,最后为0,若AF1为最后一跳,不再继续转发。后续实施例中的业务链转发规则也可以采用此方式实现,不再赘述。
或者,业务链转发规则如下:
ChainID=CID1,ServiceIndex=3;action=output:SF1-port
ChainID=CID1,ServiceIndex=2;action=output:SF2-port
ChainID=CID1,ServiceIndex=1;action=output:AF1-port
其中,ChainID为业务链标识,ServiceIndex为服务索引,action为动作。根据该业务链转发规则,转发器会按照顺序依次转发报文至标识为SF1,SF2,和AF1的网元,每次报文转发后ServiceIndex值都减一,最后为0,从而实现多个网元的转发,后续实施例中的业务链转发规则也可以采用此方式实现,不再赘述。
306:分类器接收到发送给终端的下行报文,将报文中的转发标识与业务链分类规则中的转发标识进行匹配,如果匹配成功,则将该业务链分类规则中的业务链标识封装到报文上。
本步骤中,所述匹配成功是指报文中的转发标识与业务链分类规则中的转发标识相同,如果二者不同,则认为匹配失败。
其中,分类器保存的业务链分类规则可能有多个,每个业务链分类规则中都有一个不同的业务链标识,进行匹配时,可以以报文中的转发标识为索引查找各个业务链分类规则,如果有业务链分类规则的转发标识与该索引相同,则匹配成功,可以从该匹配到的业务链分类规则中获取业务链标识并封装到报文中。本实施例,业务链标识封装在报文头部,此处不做过多说明。
307:分类器将携带有业务链标识的报文发送到转发器。
308:转发器收到该报文后,将报文所携带的业务链标识与业务链转发规则中的业务链标识进行匹配,如果匹配成功,则获取业务链转发规则中的网元
标识,本实施例中为接入网元和服务网元的标识。
本步骤中,所述匹配成功是指报文携带的业务链标识与业务链转发规则中的业务链标识相同,如果二者不同,则认为匹配失败。
其中,获取到的网元标识可以为一个或者多个,本实施例中至少包括接入网元的标识,从而实现基于SDN机制对接入网元的控制。可选的,当获取的多个网元的标识时,则依次将报文转发至该多个网元。
可选地,转发器可以根据下一跳网元的类型,确定是否在转发的报文中携带业务链标识。如下一跳网元的类型为SF,则转发的报文可以携带业务链标识,如下一跳网元的类型为接入网元,则转发的报文无需携带业务链标识。
309:转发器根据获取的接入网元的标识,将该报文转发至对应的接入网元。
其中,由于该接入网元是报文处理网元中的最后一跳,因此,转发器可以先将该报文中携带的业务链标识去除,然后再转发给该接入网元。
可选的,如果获取的是多个网元的标识,则先将报文转发至各个SF进行业务处理,然后再转发至接入网元,如图中虚线所示发送给SF1和SF2进行业务处理后再发送至接入网元。另外,值得一提的是,各个SF在进行报文处理后,还可以将处理结果以元数据的方式封装至报文中,再经由转发器发送至接入网元,从而可以实现接入网元与业务处理网元间的随路信息共享。
310:接入网元收到报文后,将该报文转发至终端,从而实现终端对报文的接收。
本实施例提供的上述方法,控制器根据终端的接入请求生成业务链转发规则,根据该业务链转发规则中与业务链标识对应的接入网元的标识来完成报文到接入网元的转发,其中,报文到接入网元的转发无需使用隧道标识进行路由,实现了终端请求接入的场景下基于SDN机制对接入网元的控制,该过程中将
接入网元作为业务链转发中的一跳,通过业务链机制进行统一控制,而且,控制面可以基于统一的转发控制方式实现对接入网络及业务处理网络的转发控制,实现了移动网络中基于业务链的SDN接入管理和移动性管理。
参见图4,本实施例提供了一种控制接入的方法,应用于终端切换的场景,包括:
401:终端通过接入网元AF1执行接入流程,过程与上述步骤301-310相同,此处不赘述。
402:终端准备从接入网元AF1切换到接入网元AF2,向控制器发送切换请求。
可选地,终端可以通过AF1或AF2向控制器发送该切换请求。
403:控制器收到该切换请求后,生成新的业务链转发规则或者修改原有的业务链转发规则得到新的业务链转发规则,将新的业务链转发规则发送给转发器进行更新。
其中,该新的业务链转发规则与原有的业务链转发规则的区别是,原有的业务链转发规则中网元标识为AF1的标识,新的业务链转发规则中网元标识为AF2的标识。
通常,转发器在收到新的业务链转发规则后,都会用该新的业务链转发规则替换原有的业务链转发规则,此处不赘述。
可选地,为了防止切换过程中丢包,也可以通过双播方式由AF1和AF2分别对发送至终端的报文进行转发,因此,该新的业务链转发规则中的网元标识也可以为AF1的标识和AF2的标识。
404:当分类器接收到下行报文时,分类器基于业务链分类规则对报文进行分类,将业务链标识封装到报文上然后转发该报文给转发器。
405a:转发器收到报文后,根据新业务链转发规则进行业务链标识匹配,匹配成功后,根据新业务链转发规则中的网元标识转发报文至接入网元AF2。
其中,如果新业务链转发规则中的网元标识为AF1的标识和AF2的标识,则采用双播方式同时将报文转发给AF1和AF2,以防止报文丢失,提高报文传输的成功率。
可选的,如果该新业务链转发规则中还包括其它网元的标识,则按照顺序先转发至该其它网元,再转发至接入网元。例如,如图所示,根据网元标识先将报文转发给SF1和SF2进行业务处理,然后再转发至AF2或者转发给AF1和AF2。
可选的,在上述步骤405a之后还可以包括:
405b:转发器根据新业务链转发规则将报文同时转发至接入网元AF1。
其中,转发器在转发报文给接入网元之前,可以先将报文上携带的业务链标识删除然后再转发。
406a:AF2收到转发器发送的报文后,将该报文发送给终端,完成报文的传输。
可选地,在上述步骤406a之后还可以包括:
406b:AF1收到转发器发送的报文后,将该报文发送给终端,完成报文的传输。
当上述步骤中采用双播方式同时转发报文至AF1和AF2时,进一步地,上述方法还可以包括以下步骤:
407:当终端完成空口的切换后,向接入网元AF2发送切换完成指示。
408:接入网元AF2收到后向控制器发送切换完成指示。
409:控制器收到该切换完成指示后,再次生成新业务链转发规则,将其中的网元标识AF1的标识和AF2的标识替换为AF2的标识,并转发该再次生
成的新业务链转发规则给转发器进行更新。
410:当分类器收到下行报文时,根据业务链分类规则为报文封装业务链标识,然后转发给转发器。
411:转发器收到该报文后,按照更新后的新业务链转发规则将报文转发至AF2。
可选的,该报文可以先发给其它报文处理网元,最后再转发至AF2,此处不赘述。
412:AF2收到该报文后转发给终端。
本实施例提供的上述方法,在终端完成接入流程后,控制器根据终端的切换请求生成业务链转发规则,根据该业务链转发规则中与业务链标识对应的网元标识完成报文到接入网元的转发,该网元标识可以为切换后的网元标识,或者为切换前的网元标识和切换后的网元标识,实现了终端切换的场景下基于SDN机制对接入网元的控制,该过程中将接入网元作为业务链转发中的一跳,报文到接入网元的转发无需使用隧道标识进行路由,通过业务链机制进行统一控制,而且,控制面可以基于统一的转发控制方式实现对接入网络及业务处理网络的转发控制,实现了移动网络中基于业务链的SDN接入管理和移动性管理。
参见图5,本实施例提供了一种控制接入的方法,应用于终端请求建立业务的场景,通过不同业务链标识来区分接入请求和业务建立请求,包括:
501:终端向接入网元AF1发起接入请求。
502:接入网元AF1收到后向控制器发送接入请求。
503:控制器在接收到接入网元发送的接入请求后,为终端分配转发标识,确定业务链标识CID1,并生成业务链分类规则和业务链转发规则。
其中,该业务链分类规则包括终端的转发标识和对应的业务链标识CID1,该业务链转发规则包括业务链标识CID1和对应的网元标识,即AF1的标识。
例如,业务链分类规则如下:
Dst_IP=IP1,ChainID=CID1;
其中,Dst_IP表示目标IP地址,ChainID表示业务链标识。该业务链分类规则表示当报文的目的IP地址为IP1时对应的业务链标识为CID1。
业务链转发规则如下:
ChainID=CID1;Forwarding=AF1;
其中,ChainID表示业务链标识,Forwarding表示网元的标识。该业务链转发规则表示将业务链标识为CID1的报文转发给接入网元AF1。
可选地,控制器还可以对终端进行接入鉴权及获取终端的业务策略。
504:控制器将上述业务链分类规则发送给分类器。
505:控制器将上述业务链转发规则发送给转发器。
506:当终端发起业务时,终端向控制器发送业务建立请求,该业务建立请求中携带该业务对应的业务流信息。
其中,终端所请求的业务可以为任意一种业务,此处不限定,如VoIP业务、下载业务、短信、彩信或微信业务等等。所述业务流信息包括但不限于:IP五元组(源IP地址、目的IP地址、源端口号、目的端口号和协议类型)。
507:控制器收到业务建立请求后,为该业务分配对应的业务链标识CID2,并基于CID2生成新的业务链分类规则和新的业务链转发规则。
该新的业务链分类规则包括业务特征和对应的业务链标识CID2。所述业务特征包括但不限于与业务有关的各种信息。
例如,新业务链分类规则如下:
Src_IP=IP2,Dst_IP=IP1,Dst_Port=8080;ChainID=CID2;
其中,Src_IP为源IP地址,Dst_IP为目的IP地址,Dst_Port为目的端口号,ChainID为业务链标识。该新业务链分类规则表示当报文的源IP地址为IP2,目的IP地址为IP1,目的端口号为8080时其对应的业务链标识为CID2。
新业务链转发规则如下:
ChainID=CID2;Forwarding=SF1,SF2;
其中,ChainID表示业务链标识,Forwarding表示网元的标识。该新业务链转发规则表示业务链标识为CID2的报文转发依次至SF1和SF2。
本实施例中,业务处理的优先级高于接入处理的优先级,因此,控制器可以设置依据业务建立请求确定的业务链CID2的优先级高于依据接入请求确定的业务链CID1,相应的,包含CID2的业务链转发规则的优先级高于包含CID1的业务链转发规则,从而保证报文先进行业务处理再转发至接入网元。
508:控制器将新的业务链分类规则发送给分类器进行更新。
509:控制器将新的业务链转发规则发送给转发器进行更新。
510:当发送到终端的下行报文到达分类器后,分类器依据报文中的转发标识分别与原有的业务链分类规则和新的业务链分类规则匹配,如果均匹配成功,则为该报文封装上两个业务链标识CID1和CID2。
值得一提的是,本实施例中以分类器封装后的报文携带两个业务链标识为例进行说明,在实际应用中,分类器封装后的报文也可以携带更多的业务链标识,本实施例对报文携带的业务链标识的具体个数不限定。如报文中携带CID1、CID2和CID3共3个业务链标识等等。
511:分类器将携带有上述两个业务链标识的报文发送到转发器。
512:转发器依据报文所携带的业务链标识分别与原有的业务链转发规则和新的业务链转发规则进行匹配,如果报文携带的业务链标识中有一个与原有的业务链转发规则匹配且另一个与新的业务链转发规则匹配,则表明两个业务
链转发规则均匹配成功,则依据业务链的优先级从高至低,先按照CID2对应的网元标识转发报文至SF1和SF2。
其中,业务链转发规则中的网元标识是有顺序的,在转发报文时可以按照该顺序进行转发。例如,业务链转发规则中的网元标识依次为SF1、SF2,则转发给SF2的报文是等待SF1处理业务后返回的报文,也就是说,先将报文转发给SF1,在SF1处理报文且返回报文后,接收SF1返回的报文并转发给SF2进行处理。
可选地,转发器可以根据网元类型,确定是否在发送的报文中携带业务链标识。
513:在完成CID2对应的转发流程后,转发器根据CID1对应的网元标识转发报文至AF1。
可选地,由于AF1是报文处理网元中的最后一跳,转发器可以先将报文所携带的业务链标识删除然后再转发给AF1。
514:AF1收到报文后将其转发给终端,从而实现终端对报文的接收。
本实施例提供的上述方法,在终端完成接入流程发起业务时,控制器根据终端的业务建立请求生成新的业务链转发规则,根据新的业务链转发规则中的业务处理网元的标识,以及原有的业务链转发规则中的接入网元的标识,将报文依次转发给业务处理网元和接入网元,实现了终端建立业务的场景下基于SDN机制对接入网元的控制,该过程中将接入网元作为业务链转发中的一跳,报文到接入网元的转发无需使用隧道标识进行路由,通过业务链机制进行统一控制,而且,控制面可以基于统一的转发控制方式实现对接入网络及业务处理网络的转发控制,实现了移动网络中基于业务链的SDN接入管理和移动性管理。
参见图6,本实施例提供了一种控制接入的方法,应用于终端空闲状态寻呼的场景,包括:
701:同图3所示的实施例终端已经通过接入网元AF1完成接入流程,终端由于长时间没有业务传输,终端通过AF1通知控制器进入空闲状态。
702:控制器根据终端进入空闲状态的通知,下发业务链转发规则到转发器进行更新。
其中,转发器在收到业务链转发规则后,可以用该业务链转发规则替换已有的业务链转发规则。
其中,该业务链转发规则包括:终端所对应的业务链标识CID1以及网元标识,该网元标识为终端所属寻呼组内的一个或多个接入网元的标识,本实施例以该寻呼组内包括两个接入网元为例进行说明,包括AF1和AF2。
可选地,控制器还可以指示转发器将该业务链标识对应的报文上报控制器。
703:本步骤为可选步骤,控制器下发业务链分类规则到分类器进行更新。
该业务链分类规则中除包括终端的转发标识和对应的业务链标识CID1外,还包括转发器实现终端寻呼所需的参数,可以为一个或多个,如寻呼不连续接收(Discontinuous Receive,简称:DRX)长度,寻呼优先级等等,本实施例对此不做具体限定。
如果控制器无需下发寻呼参数给分类器,则可以取消本步骤,分类器使用接入流程中存储的业务链分类规则即可。
704:当分类器接收到发送到该终端所对应的转发标识的报文时,分类器根据该业务链分类规则,将业务链标识CID1封装到报文上。
可选地,分类器还可以将上述寻呼参数以元数据的方式同时封装到报文上。
705:分类器将封装后的报文发送给转发器。
706:转发器收到报文后,根据业务链转发规则中携带的终端所属寻呼组
内的一个或多个接入网元的标识,转发该报文至所述寻呼组内的一个或多个接入网元,由该寻呼组内的一个或多个接入网元对终端进行寻呼。
本实施例的步骤706中转发器转发报文可以采用以下方法A和B中的任一种。方法A包括706a-706d,采用广播的方式发送报文至寻呼组内的每一个接入网元。方法B包括706h-706l,按照指定的顺序依次发送报文至寻呼组内的接入网元,直至某个接入网元寻呼终端成功或所有接入网元均寻呼失败。
方法A:
706a-706b:转发器根据业务链转发规则中所包括的AF1和AF2的标识,同时将报文广播发送至接入网元AF1和AF2,或者按照顺序先后将报文发送至AF1和AF2。
其中,转发器是采用同时广播的方式转发报文至寻呼组内的各个接入网元,还是采用先后发送报文的方式至寻呼组内的各个接入网元,本实施例对此不做具体限定。具体地,转发器可以根据本地预设的策略来进行转发,或者也可以根据控制器发来的业务链转发规则中携带的策略来进行转发,本实施例对此也不做具体限定。
706c:AF1收到报文后,对终端进行寻呼,以确定终端是否在自己的覆盖范围内。
706d:AF2收到报文后,对终端进行寻呼,以确定终端是否在自己的覆盖范围内。
可选地,上述报文的元数据中包含寻呼参数,因此,接入网元AF1和AF2可以根据该寻呼参数对终端进行寻呼。
方法B:
706h:转发器按照指定的顺序先将报文转发至寻呼组内的第一个接入网元AF1。
其中,指定的顺序可以根据需要设置,本实施例中,寻呼组内包括两个接入网元,指定的顺序为AF1->AF2,则转发器依次先将报文转发至AF1再将报文转发至AF2。
706i:AF1收到报文后,对终端进行寻呼,以确定终端是否在自己的覆盖范围内。
706j:AF1寻呼终端失败,将该报文返回给转发器。
706k:转发器收到AF1返回的报文后,按照上述顺序继续将该报文转发到AF2,触发AF2对终端继续进行寻呼。
706l:AF2收到报文后,对终端进行寻呼,以确定终端是否在自己的覆盖范围内。
上述过程持续进行,直到寻呼组内的某一个接入网元寻呼终端成功,或者寻呼组内的所有接入网元均寻呼失败或寻呼超时则导致寻呼过程失败。
可选地,寻呼组内的接入网元收到的报文中的元数据包括寻呼参数,则接入网元AF1和AF2可以根据该寻呼参数对终端进行寻呼,此处不赘述。
707:本实施例以AF2寻呼终端成功为例进行说明,终端接收到AF2发送的寻呼消息,通过AF2向控制器发送退出空闲状态指示,以指示控制器终端可以执行业务。
708:控制器收到该退出空闲状态指示后,发送业务链转发规则到转发器进行更新,该业务链转发规则中包括业务链标识CID1和对应的接入网元标识AF2的标识,从而后续的报文都由转发器转发至接入网元AF2。
709:本步骤为可选步骤,如果上述过程中报文携带了寻呼参数,则控制器可以发送业务链分类规则到分类器进行更新,指示分类器不再需要将寻呼参数封装到报文中,此后,分类器仅封装业务链标识即可,避免在寻呼完成后的后续报文转发过程中仍然携带寻呼参数,造成不必要的传输。
本实施例中,上述任一个业务链转发规则都可以进一步包括其它网元的标识,如SF的标识等等,则在将报文发送至接入网元之前,需要先将报文发送至其它网元进行业务处理,详见上述实施例中的描述,此处不再赘述。
本实施例提供的上述方法,在终端进入空闲状态后,控制器根据终端的进入空闲状态的通知生成业务链转发规则,根据该业务链转发规则中携带的终端所属寻呼组内的一个或多个接入网元的标识,将报文转发给该一个或多个接入网元,实现了终端空闲状态寻呼的场景下基于SDN机制对接入网元的控制,该过程中将接入网元作为业务链转发中的一跳,报文到接入网元的转发无需使用隧道标识进行路由,通过业务链机制进行统一控制,而且,控制面可以基于统一的转发控制方式实现对接入网络及业务处理网络的转发控制,实现了移动网络中基于业务链的SDN接入管理和移动性管理。
参见图7,本实施例提供了一种控制接入的方法,应用于多网元共享信息的场景,包括:
801:与上述步骤301-305相同,此处不赘述。
其中,控制器分别向分类器及转发器下发了业务链分类规则及业务链转发规则,指示该终端的业务报文需要经过SF1、SF2业务处理网元处理后再通过接入网元AF1进行转发。此处以两个网元对报文进行业务处理为例进行说明,在实际应用中,当然也可以是两个以上的网元对报文进行处理,如3个或5个或8个等等,本实施例对此不做具体限定。
802:当分类器接收到发送给终端的下行报文时,将报文中的转发标识与业务链分类规则中的转发标识进行匹配,如果匹配成功,则将业务链标识CID1封装到报文上。
803:分类器将封装有业务链标识的报文发送到转发器。
804:转发器收到该报文后,将该报文所携带的业务链标识与业务链转发规则中的业务链标识进行匹配,如果匹配成功,则获取业务链转发规则中的网元标识,本实施例以网元标识依次为SF1、SF2和AF1为例进行说明,转发器按照该顺序先将该报文发送到业务处理网元SF1。
其中,该报文所携带的业务链标识与业务链转发规则中的业务链标识匹配成功,是指该报文所携带的业务链标识与业务链转发规则中的业务链标识相同,如果二者不同,则匹配失败。
805:业务处理网元SF1收到该报文后,对该报文进行业务处理,并将业务处理的结果封装到报文中,将该业务处理后的报文返回给转发器。
可选地,SF1可以将业务处理的结果1以元数据的方式封装到报文中。例如,SF1为DPI设备,则可以将对报文进行深层解析的结果,如报文业务类型、内容URL等,以元数据的方式封装到报文中。
806:转发器收到SF1返回的报文后,按照上述网元标识的顺序,将该报文继续转发到业务处理网元SF2。
807:业务处理网元SF2收到该报文后,对该报文进行业务处理,并将业务处理的结果封装到报文中,将该业务处理后的报文返回给转发器。
可选地,SF2可以将业务处理的结果2以元数据的方式封装到报文中。例如,SF2为视频编解码器,则可以将报文对应的视频流码率以元数据的方式封装到报文中。
其中,SF2可以将业务处理后的结果添加到报文中,也可以以替换方式替换SF1的业务处理结果,本实施例对此不做具体限定。例如,SF1的报文处理结果仅用于SF2对报文进行处理,则SF2在封装处理结果时,可以采用替换的方式,SF1处理报文的结果无需再携带在报文中。或者,SF1的报文处理结果不仅用于SF2对报文进行处理,还可以用于AF1对报文进行处理,则SF2在
封装处理结果时,可以采用添加的方式,保留SF1的处理结果,从而保证报文转发至接入网元时,仍然可以收到SF1的报文处理结果。本实施例以SF2以添加方式封装业务处理结果为例进行说明,因此,该报文中就携带了两个网元SF1和SF2的处理结果,即上述结果1和结果2。
808:转发器收到该报文后,按照上述网元标识的顺序,将携带有SF1和SF2处理结果的报文发送给接入网元AF1。
809:AF1收到上述报文后,根据该报文中携带的处理结果确定转发方式。
例如,根据SF1提供的报文业务类型,AF1确定该报文所需的转发优先级;根据SF2提供的视频流码率,AF1确定该报文的转发带宽。另外,AF1还可以去除报文上所封装的业务链标识和元数据后再转发报文。
810:AF1根据所确定的转发方式将报文转发到终端。
本实施例提供的上述方法,控制器生成业务链转发规则,根据该业务链转发规则中与业务链标识对应的网元标识来完成报文到接入网元的转发,该网元标识包括业务处理网元的标识和接入网元的标识,且报文中携带业务处理网元对报文处理的结果,在基于SDN机制对接入网元进行控制的同时,实现了多网元间的信息共享,该过程中将接入网元作为业务链转发中的一跳,报文到接入网元的转发无需使用隧道标识进行路由,通过业务链机制进行统一控制,而且,控制面可以基于统一的转发控制方式实现对接入网络及业务处理网络的转发控制,实现了移动网络中基于业务链的SDN接入管理和移动性管理。
参见图8,本实施例提供了一种控制接入的方法,应用于终端通过多个接入网元请求接入的场景,包括:
601a和601b:终端分别向接入网元AF1及AF2发起接入请求。
其中,接入网元AF1和AF2可以采用相同类型的接入技术为终端提供接
入服务,如均为LTE eNodeB,也可以采用不同类型的接入技术为终端提供接入服务,如一个为LTE eNodeB,另一个为WiFi AP,本实施例对此不做具体限定。
602a和602b:接入网元AF1及AF2分别向控制器发送接入请求。
603:控制器生成业务链分类规则和业务链转发规则。
例如,业务链分类规则如下:
Dst_IP=IP1|IP2,ChainID=CID1;
其中,Dst_IP为目的IP地址,ChainID为业务链标识。该业务链分类规则表示当报文的目的IP地址为IP1或IP2时其对应的业务链标识为CID1。
例如,业务链转发规则如下:
ChainID=CID1;Forwarding=AF1+AF2;
其中,ChainID为业务链标识,Forwarding为网元标识。该业务链转发规则表示将业务链标识为CID1的报文,双播到AF1和AF2。如果采用openflow协议实现上述双播动作,可以通过两个output动作(参数分别为AF1所在端口及AF2所在端口)来实现。
或者,业务链转发规则如下:
ChainID=CID1;Forwarding=AF1|AF2;
其中,ChainID为业务链标识,Forwarding为网元标识。该业务链转发规则表示选择AF1和AF2中的一个接入网元,将业务链标识为CID1的报文发送至所选的接入网元。可选的,可通过负载均衡的方式选择AF1和AF2中的一个接入网元。如果采用openflow协议实现上述负载均衡动作,可以通过group流表中的select动作(通过两个分别发送到AF1所在端口及AF2所在端口的动作链)来实现。
604:控制器将业务链分类规则发送给分类器。
605:控制器将业务链转发规则发送给转发器。
上述举例中,业务链转发规则仅包括接入网元的标识,在实际应用中,还可以包括业务处理网元的标识。例如,业务链转发规则如下:
ChainID=CID1;Forwarding=SF1,SF2,AF1+AF2;
其中,ChainID为业务链标识,Forwarding为网元标识。该业务链转发规则表示将业务链标识为CID1的报文,依次转发给网元标识为SF1、SF2的业务处理网元,然后双播到AF1和AF2。
或者,业务链转发规则如下:
ChainID=CID1;Forwarding=SF1,SF2,AF1|AF2;
其中,ChainID为业务链标识,Forwarding为网元标识。该业务链转发规则表示将业务链标识为CID1的报文,依次转发给网元标识为SF1、SF2的业务处理网元,然后在AF1和AF2中选择一个接入网元,将该报文发送至所选的接入网元。可选的,可以通过负载均衡的方式在AF1和AF2中选择一个接入网元。
606:当发送到终端的下行报文到达分类器后,分类器将报文中的转发标识与业务链分类规则中的转发标识匹配,如果匹配成功,则为报文封装对应的业务链标识。
607:分类器将携带有业务链标识的报文发送到转发器。
608:转发器收到该报文后,将该报文所携带的业务链标识与业务链转发规则中的业务链标识进行匹配,如果匹配成功,则获取业务链转发规则中的网元标识,本实施例以网元标识包括业务处理网元的标识和接入网元的标识为例进行说明,按照网元标识的顺序,先将报文发送到对应的业务处理网元进行业务处理。
其中,该报文所携带的业务链标识与业务链转发规则中的业务链标识匹配
成功,是指该报文所携带的业务链标识与业务链转发规则中的业务链标识相同,如果二者不同,则匹配失败。
本实施例中,转发器先依次将报文转发至SF1和SF2进行业务处理。
可选地,转发器可以根据网元类型,确定是否在发送的报文中携带业务链标识。
609a和609b:转发器根据上述业务链转发规则中所包括的接入网元标识进行报文转发。如果是双播方式,则分别转发给AF1和AF2,如果是负载均衡方式,则在AF1和AF2中选择一个接入网元后转发报文至所选的接入网元。
值得一提的是,还可以采用另外一种方式来实现上述过程:
上述业务链转发规则中还可以仅仅包括AF1的标识和AF2的标识,转发器可以根据本地的策略进行转发,如果本地策略为双播策略,则将报文分别转发给AF1和AF2;如果本地策略为负载均衡策略,则在AF1和AF2中选择一个接入网元后转发报文至所选的接入网元。
可选地,由于AF1、AF2是处理网元中的最后一跳,转发器可以将发送给AF1和AF2的报文中的业务链标识去除。
610a和610b:AF1及AF2将接收到的报文发送给终端,从而实现终端对报文的接收。
本实施例提供的上述方法,控制器根据两个接入网元的接入请求生成业务链转发规则,根据该业务链转发规则中接入网元的标识来完成报文到接入网元的转发,该接入网元的标识可以为AF1和AF2,则可以采用双播方式转发报文,该接入网元的标识可以为AF1或AF2,则可以采用负载均衡的方式转发报文,实现了终端通过多个接入网元请求接入的场景下基于SDN机制对接入网元的控制,该过程中将接入网元作为业务链转发中的一跳,报文到接入网元的转发无需使用隧道标识进行路由,通过业务链机制进行统一控制,而且,控制面可
以基于统一的转发控制方式实现对接入网络及业务处理网络的转发控制,实现了移动网络中基于业务链的SDN接入管理和移动性管理。另外,转发器也可以在本地配置转发策略为双播策略或负载均衡策略,根据本地的策略进行报文的转发,控制方式也较为灵活。
参见图9,本实施例提供了一种控制接入的方法,可以应用于转发器中,包括:
101:接收控制器发送的第一业务链转发规则,该第一业务链转发规则包括与该终端对应的第一业务链标识,以及第一接入网元的第一标识,其中,该第一接入网元的第一标识对应于该第一业务链标识。
102:接收分类器发送的第一报文,该第一报文携带业务链标识。
103:当该第一报文携带的业务链标识与该第一业务链转发规则中的该第一业务链标识匹配时,根据该第一接入网元的第一标识,将该第一报文转发至该第一接入网元。
本实施例中,该第一报文携带的业务链标识与该第一业务链转发规则中的该第一业务链标识匹配,是指该第一报文携带的业务链标识与该第一业务链转发规则中的该第一业务链标识相同,如果二者不同,则匹配失败。
本实施例中,可选的,该第一业务链转发规则是该控制器根据第一终端接入请求发送的,该第一终端接入请求由该终端通过该第一接入网元发起。
本实施例中,可选的,该方法还可以包括:
接收该控制器根据终端切换请求发送的第二业务链转发规则,该第二业务链转发规则可以包括该第一业务链标识和第二接入网元的第二标识,该第二接入网元为该终端切换后的接入网元,该第二标识对应于该第一业务链标识;
接收该分类器发送的第二报文,该第二报文携带业务链标识;
当该第二报文携带的业务链标识与该第二业务链转发规则中的该第一业务链标识匹配时,根据该第二接入网元的第二标识,将该第二报文转发至该第二接入网元。
本实施例中,可选的,该方法还可以包括:
接收该控制器根据终端切换请求发送的第三业务链转发规则,该第三业务链转发规则可以包括该第一业务链标识、该第一接入网元的第一标识和第二接入网元的第二标识,该第二接入网元为该终端切换后的接入网元,该第一业务链标识对应该第一标识和该第二标识;
接收该分类器发送的第三报文,该第三报文携带业务链标识;
当该第三报文携带的业务链标识与该第三业务链转发规则中的该第一业务链标识匹配时,根据该第一标识和该第二标识,将该第三报文转发至该第一接入网元和该第二接入网元。
本实施例中,可选的,该方法还可以包括:
接收该控制器根据终端业务建立请求发送的第四业务链转发规则,该第四业务链转发规则可以包括与该终端的业务对应的第二业务链标识,以及一个或多个业务处理网元的标识,该一个或多个业务处理网元为处理该业务的网元,该第二业务链标识对应于该一个或多个业务处理网元的标识;
接收该分类器发送的第四报文,该第四报文携带至少两个业务链标识;
当该第四报文携带的该至少两个业务链标识中有一个业务链标识与该第四业务链转发规则中的该第二业务链标识匹配时,根据该一个或多个业务处理网元的标识,将该第四报文转发至该一个或多个业务处理网元进行业务处理;
接收该一个或多个业务处理网元发送的业务处理后的第四报文,该业务处理后的第四报文携带至少两个业务链标识;
当该业务处理后的第四报文携带的该至少两个业务链标识中有一个业务
链标识与该第一业务链转发规则中的该第一业务链标识匹配时,根据与该第一标识,将该业务处理后的第四报文转发至该第一接入网元。
本实施例中,可选的,该业务处理后的第四报文中携带该一个或多个业务处理网元执行业务处理后的结果,用于该第一接入网元根据该结果进行报文转发。
本实施例中,可选的,该方法还可以包括:
接收该控制器根据终端空闲状态通知发送的第五业务链转发规则,该第五业务链转发规则可以包括该第一业务链标识和一个或多个接入网元的标识,该一个或多个接入网元为该终端所属寻呼组内的接入网元,该第一业务链标识对应于该第一个或多个接入网元的标识;
接收该分类器发送的第五报文,该第五报文携带业务链标识;
当该第五报文携带的业务链标识与该第五业务链转发规则中的该第一业务链标识匹配时,根据该一个或多个接入网元的标识,将该第五报文转发至该一个或多个接入网元,以触发该一个或多个接入网元寻呼该终端。
本实施例中,可选的,该将该第五报文转发至该一个或多个接入网元,以触发该一个或多个接入网元寻呼该终端,可以包括:
按照指定的顺序依次将该第五报文发送给该一个或多个接入网元,直到该一个或多个接入网元中有一个接入网元寻呼该终端成功或者该一个或多个接入网元均寻呼该终端失败。
本实施例中,可选的,该第一业务链转发规则还可以包括与该第一业务链标识对应的至少一个业务处理网元的标识;
该当该第一报文携带的业务链标识与该第一业务链转发规则中的该第一业务链标识匹配时,根据该第一接入网元的第一标识,将该第一报文转发至该第一接入网元,可以包括:
当该第一报文携带的业务链标识与该第一业务链转发规则中的该第一业务链标识匹配时,根据该至少一个业务处理网元的标识,将该第一报文转发至该至少一个业务处理网元的标识对应的业务处理网元进行业务处理;
接收该至少一个业务处理网元的标识对应的业务处理网元发送的业务处理后的第一报文;
根据该第一接入网元的第一标识,将该业务处理后的第一报文转发至该第一接入网元。
本实施例中,可选的,该方法还可以包括:
在转发待转发报文给下一个网元前,如果该下一个网元是接入网元,则将该待转发报文中携带的业务链标识删除,如果该下一个网元不是接入网元,则保留该待转发报文中携带的业务链标识;
其中,该待转发报文为该第一报文或者该业务处理后的第一报文。
本实施例中,可选的,该第一业务链转发规则是该控制器根据第二终端接入请求和第三终端接入请求发送的,该第二终端接入请求由该终端通过该第一接入网元发起,该第三终端接入请求由该终端通过该第二接入网元发起,该第一业务链转发规则还可以包括该第二接入网元的第二标识,该第二接入网元的第二标识对应于该第一业务链标识;
该根据该第一接入网元的第一标识,将该第一报文转发至该第一接入网元,可以包括:
根据该第一标识和该第二标识,采用负载均衡方式在该第一接入网元和该第二接入网元中选出该第一接入网元,且将该第一报文转发至该第一接入网元。
本实施例中,可选的,该第一业务链转发规则是该控制器根据第二终端接入请求和第三终端接入请求发送的,该第二终端接入请求由该终端通过该第一接入网元发起,该第三终端接入请求由该终端通过该第二接入网元发起,该第
一业务链转发规则还可以包括该第二接入网元的第二标识,该第二接入网元的第二标识对应于该第一业务链标识;
该根据该第一接入网元的第一标识,将该第一报文转发至该第一接入网元,可以包括:
根据该第一标识和该第二标识,将该第一报文转发至该第一接入网元和该第二接入网元。
本实施例提供的上述方法,通过接收控制器发送的第一业务链转发规则,以及分类器发送的第一报文,当第一报文携带的业务链标识与第一业务链转发规则中的第一业务链标识匹配时,根据该第一标识,将第一报文转发至第一接入网元,该过程中将接入网元作为业务链转发中的一跳,通过业务链机制进行统一控制,实现了基于SDN的端到端控制,而且,控制面可以基于统一的转发控制方式实现对接入网络及业务处理网络的转发控制,实现了移动网络中基于业务链的SDN接入管理和移动性管理。
参见图10,本实施例提供了一种控制接入的方法,可以应用于控制器中,包括:
201:生成第一业务链分类规则和第一业务链转发规则,该第一业务链分类规则包括为终端分配的转发标识和与该终端对应的第一业务链标识,且该转发标识对应于该第一业务链标识,该第一业务链转发规则至少包括该第一业务链标识和该第一接入网元的第一标识,该第一业务链标识对应于该第一标识。
202:发送该第一业务链分类规则给分类器,该第一业务链分类规则用于该分类器对收到的包含该转发标识的第一报文封装上该第一业务链标识。
203:发送该第一业务链转发规则给转发器,该第一业务链转发规则用于该转发器将收到的包含该第一业务链标识的第一报文转发至该第一接入网元。
本实施例中,可选的,该生成第一业务链分类规则和第一业务链转发规则,可以包括:
当接收到该第一接入网元发送的第一终端接入请求后,生成该第一业务链分类规则和该第一业务链转发规则。
本实施例中,可选的,该方法还可以包括:
当接收到第一终端切换请求后,生成第二业务链转发规则,该第二业务链转发规则可以包括该第一业务链标识和第二接入网元的第二标识,该第二接入网元为该终端切换后的接入网元,该第一业务链标识对应于该第二标识;
发送该第二业务链转发规则给该转发器,该第二业务链转发规则用于该转发器将收到的包含该第一业务链标识的第二报文转发至该第二接入网元。
本实施例中,可选的,该方法还可以包括:
当接收到第二终端切换请求后,生成第三业务链转发规则,该第三业务链转发规则可以包括该第一业务链标识、该第一接入网元的第一标识、以及第二接入网元的第二标识,该第二接入网元为该终端切换后的接入网元,该第一业务链标识对应于该第一标识和该第二标识;
发送该第三业务链转发规则给该转发器,该第三业务链转发规则用于该转发器将收到的包含该第一业务链标识的第三报文转发至该第一接入网元和该第二接入网元。
本实施例中,可选的,该方法还可以包括:
当接收到终端业务建立请求后,生成与请求的业务对应的第二业务链标识,生成第二业务链分类规则和第四业务链转发规则,该第二业务链分类规则可以包括该终端的转发标识和该第二业务链标识,该转发标识对应于该第二业务链标识,该第四业务链转发规则可以包括该第二业务链标识和处理该业务的一个或多个业务处理网元的标识,该第二业务链标识对应于该一个活多个业务处理
网元的标识;
发送该第二业务链分类规则给该分类器,该第二业务链分类规则用于该分类器对收到包含该转发标识的第四报文封装上该第二业务链标识;
发送该第四业务链转发规则给该转发器,该第四业务链转发规则用于该转发器将收到的包含该第二业务链标识的第四报文转发至该一个或多个业务处理网元。
本实施例中,可选的,该方法还可以包括:
当接收到终端空闲状态通知后,生成第五业务链转发规则,该第五业务链转发规则可以包括该第一业务链标识和一个或多个接入网元的标识,该一个或多个接入网元为该终端所属寻呼组内的接入网元,该第一业务链标识对应于该一个或多个接入网元的标识;
发送该第五业务链转发规则给该转发器,该第五业务链转发规则用于该转发器将收到的包含该第一业务链标识的第五报文转发至该一个或多个接入网元。
本实施例中,可选的,该第五业务链转发规则还可以包括预设策略,用于该转发器根据该预设策略将收到包含该第一业务链标识的第五报文转发至该一个或多个接入网元。
本实施例中,可选的,该方法还可以包括:
生成第三业务链分类规则,该第三业务链分类规则可以包括该终端的转发标识、该第一业务链标识和寻呼参数,该转发标识对应于该第一业务链标识和该寻呼参数;
发送该第三业务链分类规则给该分类器,该第三业务链分类规则用于该分类器为收到的包含该转发标识的第五报文封装该第一业务链标识和该寻呼参数。
本实施例中,可选的,该方法还可以包括:
当接收到该终端在被成功寻呼后发送的终端退出空闲状态的指示后,生成第四业务链分类规则,该第四业务链分类规则可以包括该终端的转发标识和该第一业务链标识,该转发标识对应于该第一业务链标识;
发送该第四业务链分类规则给该分类器,该第四业务链分类规则用于该分类器对收到包含该转发标识的第六报文封装该第一业务链标识。
本实施例中,可选的,该生成第一业务链分类规则和第一业务链转发规则,可以包括:
当接收到该第一接入网元发送的第二终端接入请求和第二接入网元发送的第三终端接入请求后,生成该第一业务链分类规则和该第一业务链转发规则;
其中,该第一业务链分类规则中的该转发标识可以包括:根据该第二终端接入请求为该终端分配的第一转发标识,或根据该第三终端接入请求为该终端分配的第二转发标识;
其中,该第一业务链转发规则还可以包括该第二接入网元的第二标识,且该第一业务链标识还对应于该第二标识。
本实施例中,可选的,该第一业务链转发规则还可以包括至少一个业务处理网元的标识,用于该转发器先将该第一报文转发至该至少一个业务处理网元进行业务处理,再将业务处理后的第一报文转发至该第一接入网元。
本实施例提供的上述方法,生成第一业务链分类规则发送给分类器,且生成第一业务链转发规则发送给转发器,使得分类器为报文封装业务链标识以及转发器进行业务链标识匹配后转发报文至接入网元,该过程中将接入网元作为业务链转发中的一跳,通过业务链机制进行统一控制,实现了基于SDN的端到端控制,而且,控制面可以基于统一的转发控制方式实现对接入网络及业务处理网络的转发控制,实现了移动网络中基于业务链的SDN接入管理和移动
性管理。并且,简化了控制器的实现难度,同时也使得接入网元与业务处理网元间的随路信息共享成为可能。
参见图11,本实施例提供了一种控制接入的装置,可以用于转发器中,包括:
接收机31,用于接收控制器发送的第一业务链转发规则,该第一业务链转发规则可以包括与终端对应的第一业务链标识,以及第一接入网元的第一标识,其中,该第一接入网元的第一标识对应于该第一业务链标识;还可以用于接收分类器发送的第一报文,该第一报文携带业务链标识;
处理器32,用于当该第一报文携带的业务链标识与该第一业务链转发规则中的该第一业务链标识匹配时,根据该第一接入网元的第一标识,确定该第一报文发送至该第一接入网元;
发射机33,用于将该第一报文转发至该第一接入网元。
其中,第一报文所携带的业务链标识与第一业务链转发规则中的第一业务链标识匹配成功,是指该第一报文所携带的业务链标识与第一业务链转发规则中的业务链标识相同,如果二者不同,则匹配失败。
本实施例中,可选的,该第一业务链转发规则是该控制器根据第一终端接入请求发送的,该第一终端接入请求由该终端通过该第一接入网元发起。
本实施例中,可选的,该接收机还可以用于:
接收该控制器根据终端切换请求发送的第二业务链转发规则,该第二业务链转发规则可以包括该第一业务链标识和第二接入网元的第二标识,该第二接入网元为该终端切换后的接入网元,该第二标识对应于该第一业务链标识;以及接收该分类器发送的第二报文,该第二报文携带业务链标识;
该处理器还可以用于:
当该第二报文携带的业务链标识与该第二业务链转发规则中的该第一业务链标识匹配时,根据该第二接入网元的第二标识,确定该第二报文发送至该第二接入网元;
该发射机还可以用于:
将该第二报文转发至该第二接入网元。
本实施例中,可选的,该接收机还可以用于:
接收该控制器根据终端切换请求发送的第三业务链转发规则,该第三业务链转发规则可以包括该第一业务链标识、该第一接入网元的第一标识和第二接入网元的第二标识,该第二接入网元为该终端切换后的接入网元,该第一业务链标识对应该第一标识和该第二标识;以及接收该分类器发送的第三报文,该第三报文携带业务链标识;
该处理器还可以用于:
当该第三报文携带的业务链标识与该第三业务链转发规则中的该第一业务链标识匹配时,根据该第一标识和该第二标识,确定该第三报文发送至该第一接入网元和该第二接入网元;
该发射机还可以用于:
将该第三报文转发至该第一接入网元和该第二接入网元。
本实施例中,可选的,该接收机还可以用于:
接收该控制器根据终端业务建立请求发送的第四业务链转发规则,该第四业务链转发规则可以包括与该终端的业务对应的第二业务链标识,以及一个或多个业务处理网元的标识,该一个或多个业务处理网元为处理该业务的网元,该第二业务链标识对应于该一个或多个业务处理网元的标识;以及接收该分类器发送的第四报文,该第四报文携带至少两个业务链标识;
该处理器还可以用于:
当该第四报文携带的该至少两个业务链标识中有一个业务链标识与该第四业务链转发规则中的该第二业务链标识匹配时,根据该一个或多个业务处理网元的标识,确定该第四报文发送至该该一个或多个业务处理网元;
该发射机还可以用于:
将该第四报文转发至该一个或多个业务处理网元进行业务处理;
该接收机还可以用于:
接收该一个或多个业务处理网元发送的业务处理后的第四报文,该业务处理后的第四报文携带至少两个业务链标识;
该处理器还可以用于:
当该业务处理后的第四报文携带的该至少两个业务链标识中有一个业务链标识与该第一业务链转发规则中的该第一业务链标识匹配时,根据与该第一标识,确定该该业务处理后的第四报文发送至该第一接入网元;
该发射机还可以用于:
将该业务处理后的第四报文转发至该第一接入网元。
本实施例中,可选的,该业务处理后的第四报文中携带该一个或多个业务处理网元执行业务处理后的结果,可以用于该第一接入网元根据该结果进行报文转发。
本实施例中,可选的,该接收机还可以用于:
接收该控制器根据终端空闲状态通知发送的第五业务链转发规则,该第五业务链转发规则可以包括该第一业务链标识和一个或多个接入网元的标识,该一个或多个接入网元为该终端所属寻呼组内的接入网元,该第一业务链标识对应于该第一个或多个接入网元的标识;以及接收该分类器发送的第五报文,该第五报文携带业务链标识;
该处理器还可以用于:
当该第五报文携带的业务链标识与该第五业务链转发规则中的该第一业务链标识匹配时,根据该一个或多个接入网元的标识,确定该第五报文发送至该一个或多个接入网元;
该发射机还可以用于:
将该第五报文转发至该一个或多个接入网元,以触发该一个或多个接入网元寻呼该终端。
本实施例中,可选的,该发射机可以用于:
按照指定的顺序依次将该第五报文发送给该一个或多个接入网元,直到该一个或多个接入网元中有一个接入网元寻呼该终端成功或者该一个或多个接入网元均寻呼该终端失败。
本实施例中,可选的,该第一业务链转发规则还可以包括与该第一业务链标识对应的至少一个业务处理网元的标识;
该处理器可以用于:
当该第一报文携带的业务链标识与该第一业务链转发规则中的该第一业务链标识匹配时,根据该至少一个业务处理网元的标识,确定该第一报文发送至该至少一个业务处理网元的标识对应的业务处理网元;
该发射机还可以用于:
将该第一报文转发至该至少一个业务处理网元的标识对应的业务处理网元进行业务处理;
该接收机还可以用于:
接收该至少一个业务处理网元的标识对应的业务处理网元发送的业务处理后的第一报文;
该处理器还可以用于:
根据该第一接入网元的第一标识,确定该业务处理后的第一报文发送至该
第一接入网元;
该发射机还可以用于:
将该业务处理后的第一报文转发至该第一接入网元。
本实施例中,可选的,该处理器还可以用于:
在该发射机转发待转发报文给下一个网元前,如果该下一个网元是接入网元,则将该待转发报文中携带的业务链标识删除,如果该下一个网元不是接入网元,则保留该待转发报文中携带的业务链标识;
其中,该待转发报文为该第一报文或者该业务处理后的第一报文。
本实施例中,可选的,该第一业务链转发规则是该控制器根据第二终端接入请求和第三终端接入请求发送的,该第二终端接入请求由该终端通过该第一接入网元发起,该第三终端接入请求由该终端通过该第二接入网元发起,该第一业务链转发规则还可以包括该第二接入网元的第二标识,该第二接入网元的第二标识对应于该第一业务链标识;
该处理器可以用于:
根据该第一标识和该第二标识,采用负载均衡方式在该第一接入网元和该第二接入网元中选出该第一接入网元;
该发射机可以用于:
将该第一报文转发至该处理器选出的该第一接入网元。
本实施例中,可选的,该第一业务链转发规则是该控制器根据第二终端接入请求和第三终端接入请求发送的,该第二终端接入请求由该终端通过该第一接入网元发起,该第三终端接入请求由该终端通过该第二接入网元发起,该第一业务链转发规则还可以包括该第二接入网元的第二标识,该第二接入网元的第二标识对应于该第一业务链标识;
该处理器可以用于:
根据该第一标识和该第二标识,确定该第一报文发送至该第一接入网元和该第二接入网元;
该发射机可以用于:
将该第一报文转发至该第一接入网元和该第二接入网元。
本实施例提供的上述装置,通过接收控制器发送的第一业务链转发规则,以及分类器发送的第一报文,当第一报文携带的业务链标识与第一业务链转发规则中的第一业务链标识匹配时,根据该第一标识将第一报文转发至第一接入网元,该过程中将接入网元作为业务链转发中的一跳,通过业务链机制进行统一控制,实现了基于SDN的端到端控制,而且,控制面可以基于统一的转发控制方式实现对接入网络及业务处理网络的转发控制,实现了移动网络中基于业务链的SDN接入管理和移动性管理。
参见图12,本实施例提供了一种控制接入的装置,可以用于控制器中,包括:
处理器41,用于生成第一业务链分类规则和第一业务链转发规则,该第一业务链分类规则可以包括为终端分配的转发标识和与该终端对应的第一业务链标识,且该转发标识对应于该第一业务链标识,该第一业务链转发规则至少可以包括该第一业务链标识和第一接入网元的第一标识,该第一业务链标识对应于该第一标识;
发射机42,用于发送该第一业务链分类规则给分类器,该第一业务链分类规则可以用于该分类器对收到的包含该转发标识的第一报文封装上该第一业务链标识;还可以用于发送该第一业务链转发规则给转发器,该第一业务链转发规则可以用于该转发器将收到的包含该第一业务链标识的第一报文转发至该第一接入网元。
参见图13,该装置还可以包括:
接收机43,用于接收该第一接入网元发送的第一终端接入请求;
该处理器可以用于:
在该接收机接收到该第一终端接入请求后,生成该第一业务链分类规则和该第一业务链转发规则。
本实施例中,可选的,该接收机还可以用于:接收第一终端切换请求;
该处理器还可以用于:
当该接收机接收到该第一终端切换请求后,生成第二业务链转发规则,该第二业务链转发规则可以包括该第一业务链标识和第二接入网元的第二标识,该第二接入网元为该终端切换后的接入网元,该第一业务链标识对应于该第二标识;
该发射机还可以用于:
发送该第二业务链转发规则给该转发器,该第二业务链转发规则可以用于该转发器将收到的包含该第一业务链标识的第二报文转发至该第二接入网元。
本实施例中,可选的,该接收机还可以用于:接收第二终端切换请求;
该处理器还可以用于:
当该接收机接收到该第二终端切换请求后,生成第三业务链转发规则,该第三业务链转发规则可以包括该第一业务链标识、该第一接入网元的第一标识、以及第二接入网元的第二标识,该第二接入网元为该终端切换后的接入网元,该第一业务链标识对应于该第一标识和该第二标识;
该发射机还可以用于:
发送该第三业务链转发规则给该转发器,该第三业务链转发规则可以用于该转发器将收到的包含该第一业务链标识的第三报文转发至该第一接入网元和该第二接入网元。
本实施例中,可选的,该接收机还可以用于:接收终端业务建立请求;
该处理器还可以用于:
当该接收机接收到该终端业务建立请求后,生成与请求的业务对应的第二业务链标识,生成第二业务链分类规则和第四业务链转发规则,该第二业务链分类规则可以包括该终端的转发标识和该第二业务链标识,该转发标识对应于该第二业务链标识,该第四业务链转发规则可以包括该第二业务链标识和处理该业务的一个或多个业务处理网元的标识,该第二业务链标识对应于该一个活多个业务处理网元的标识;
该发射机还可以用于:
发送该第二业务链分类规则给该分类器,该第二业务链分类规则可以用于该分类器对收到包含该转发标识的第四报文封装上该第二业务链标识;
发送该第四业务链转发规则给该转发器,该第四业务链转发规则可以用于该转发器将收到的包含该第二业务链标识的第四报文转发至该一个或多个业务处理网元。
本实施例中,可选的,该接收机还可以用于:接收终端空闲状态通知;
该处理器还可以用于:
当该接收机接收到该终端空闲状态通知后,生成第五业务链转发规则,该第五业务链转发规则可以包括该第一业务链标识和一个或多个接入网元的标识,该一个或多个接入网元为该终端所属寻呼组内的接入网元,该第一业务链标识对应于该一个或多个接入网元的标识;
该发射机还可以用于:
发送该第五业务链转发规则给该转发器,该第五业务链转发规则可以用于该转发器将收到的包含该第一业务链标识的第五报文转发至该一个或多个接入网元。
本实施例中,可选的,该第五业务链转发规则还可以包括预设策略,可以用于该转发器根据该预设策略将收到包含该第一业务链标识的第五报文转发至该一个或多个接入网元。
本实施例中,可选的,该处理器还可以用于:
生成第三业务链分类规则,该第三业务链分类规则可以包括该终端的转发标识、该第一业务链标识和寻呼参数,该转发标识对应于该第一业务链标识和该寻呼参数;
该发射机还可以用于:
发送该第三业务链分类规则给该分类器,该第三业务链分类规则可以用于该分类器为收到的包含该转发标识的第五报文封装该第一业务链标识和该寻呼参数。
本实施例中,可选的,该接收机还可以用于:接收该终端在被成功寻呼后发送的终端退出空闲状态的指示;
该处理器还可以用于:
当该接收机接收到该终端退出空闲状态的指示后,生成第四业务链分类规则,该第四业务链分类规则可以包括该终端的转发标识和该第一业务链标识,该转发标识对应于该第一业务链标识;
该发射机还可以用于:
发送该第四业务链分类规则给该分类器,该第四业务链分类规则可以用于该分类器对收到包含该转发标识的第六报文封装该第一业务链标识。
本实施例中,可选的,该接收机还可以用于:接收该第一接入网元发送的第二终端接入请求和第二接入网元发送的第三终端接入请求;
该处理器还可以用于:
当该接收机接收到该第二终端接入请求和该第三终端接入请求后,生成该
第一业务链分类规则和该第一业务链转发规则;
其中,该第一业务链分类规则中的该转发标识可以包括:根据该第二终端接入请求为该终端分配的第一转发标识,或根据该第三终端接入请求为该终端分配的第二转发标识;
其中,该第一业务链转发规则还可以包括该第二接入网元的第二标识,且该第一业务链标识还对应于该第二标识。
本实施例中,可选的,该装置还可以包括:
该第一业务链转发规则还可以包括至少一个业务处理网元的标识,可以用于该转发器先将该第一报文转发至该至少一个业务处理网元进行业务处理,再将业务处理后的第一报文转发至该第一接入网元。
本实施例提供的上述装置,生成第一业务链分类规则发送给分类器,且生成第一业务链转发规则发送给转发器,使得分类器为报文封装业务链标识以及转发器进行业务链标识匹配后转发报文至接入网元,该过程中将接入网元作为业务链转发中的一跳,通过业务链机制进行统一控制,实现了基于SDN的端到端控制,而且,控制面可以基于统一的转发控制方式实现对接入网络及业务处理网络的转发控制,实现了移动网络中基于业务链的SDN接入管理和移动性管理。将上述装置应用于控制器时,简化了控制器的实现难度,同时也使得接入网元与业务处理网元间的随路信息共享成为可能。
参见图14,本实施例提供了一种控制接入的系统,包括:
控制器51、分类器52、转发器53和接入网元54;所述控制器51包括如图12、14或15所示的实施例提供的控制接入的装置,所述转发器包括如图11或13所示的实施例提供的控制接入的装置。
分类器52,用于接收控制器51发送的第一业务链分类规则,当接收到包
含该终端的转发标识的第一报文时,为该第一报文封装上第一业务链分类规则中的第一业务链标识;
接入网元54,用于接收转发器53发送的该第一报文并转发给所述终端。
本实施例中,可选的,控制器51还可以用于:
在接收到终端空闲状态通知后,生成第二业务链分类规则,该第二业务链分类规则包括该终端的转发标识、该第一业务链标识和寻呼参数,该转发标识对应于所述第一业务链标识和寻呼参数,发送该第二业务链分类规则给该分类器;
该分类器52还可以用于:
接收该控制器发送的该第二业务链分类规则,当接收到包含该终端的转发标识的第二报文时,为该第二报文封装上该第一业务链标识和该寻呼参数。
其中,第一业务链标识可以封装在报文头中,寻呼参数可以封装在元数据中。
其中,分类器52在收到该第二业务链分类规则后,可以用该第二业务链分类规则替换该第一业务链分类规则。
本实施例中,可选的,该控制器51还可以用于:
在接收到该终端在被成功寻呼后发送的终端退出空闲状态的指示后,生成第三业务链分类规则,该第三业务链分类规则包括该终端的转发标识和该第一业务链标识,所述转发标识对应于所述第一业务链标识,发送该第三业务链分类规则给该分类器;
该分类器52还可以用于:
接收该控制器发送的该第三业务链分类规则,当接收到包含该终端的转发标识的第三报文时,为该第三报文封装上该第一业务链标识。
其中,该分类器52在收到该第三业务链分类规则后,可以用该第三业务
链分类规则替换该第二业务链分类规则。
本实施例中,可选的,上述系统还可以包括:
至少一个业务处理网元,用于接收该转发器发送的报文,并对收到的该报文进行业务处理,将业务处理后的报文再发送给该转发器;
该控制器生成的该第一业务链转发规则中还包括该至少一个业务处理网元的标识。
本实施例中,可选的,该接入网元54还可以用于:
接收该终端的报文,将接入信息封装在该终端的报文中,转发封装后的报文给该分类器。
其中,该接入信息可以以元数据的方式封装在报文中。
本实施例提供的上述系统,控制器生成第一业务链分类规则发送给分类器,且生成第一业务链转发规则发送给转发器,使得分类器为报文封装业务链标识以及转发器进行业务链标识匹配后转发报文至接入网元,由接入网元转发报文给终端,该过程中将接入网元作为业务链转发中的一跳,通过业务链机制进行统一控制,实现了基于SDN的端到端控制,而且,控制面可以基于统一的转发控制方式实现对接入网络及业务处理网络的转发控制,实现了移动网络中基于业务链的SDN接入管理和移动性管理。将上述装置应用于控制器时,简化了控制器的实现难度,同时也使得接入网元与业务处理网元间的随路信息共享成为可能。
本领域普通技术人员可以理解实现上述实施例的全部或部分步骤可以通过硬件来完成,也可以通过程序来指令相关的硬件完成,所述的程序可以存储于一种计算机可读存储介质中,上述提到的存储介质可以是只读存储器,磁盘或光盘等。
以上所述仅为本发明的较佳实施例,并不用以限制本发明,凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。
Claims (51)
- 一种控制接入的装置,其特征在于,所述装置包括:接收机,用于接收控制器发送的第一业务链转发规则,所述第一业务链转发规则包括与终端对应的第一业务链标识,以及第一接入网元的第一标识,其中,所述第一接入网元的第一标识对应于所述第一业务链标识;还用于接收分类器发送的第一报文,所述第一报文携带业务链标识;处理器,用于当所述第一报文携带的业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据所述第一接入网元的第一标识,确定所述第一报文发送至所述第一接入网元;发射机,用于将所述第一报文转发至所述第一接入网元。
- 根据权利要求1所述的装置,其特征在于,所述第一业务链转发规则是所述控制器根据第一终端接入请求发送的,所述第一终端接入请求由所述终端通过所述第一接入网元发起。
- 根据权利要求1或2所述的装置,其特征在于,所述接收机还用于:接收所述控制器根据终端切换请求发送的第二业务链转发规则,所述第二业务链转发规则包括所述第一业务链标识和第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第二标识对应于所述第一业务链标识;以及接收所述分类器发送的第二报文,所述第二报文携带业务链标识;所述处理器还用于:当所述第二报文携带的业务链标识与所述第二业务链转发规则中的所述第 一业务链标识匹配时,根据所述第二接入网元的第二标识,确定所述第二报文发送至所述第二接入网元;所述发射机还用于:将所述第二报文转发至所述第二接入网元。
- 根据权利要求1或2所述的装置,其特征在于,所述接收机还用于:接收所述控制器根据终端切换请求发送的第三业务链转发规则,所述第三业务链转发规则包括所述第一业务链标识、所述第一接入网元的第一标识和第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第一业务链标识对应所述第一标识和所述第二标识;以及接收所述分类器发送的第三报文,所述第三报文携带业务链标识;所述处理器还用于:当所述第三报文携带的业务链标识与所述第三业务链转发规则中的所述第一业务链标识匹配时,根据所述第一标识和所述第二标识,确定所述第三报文发送至所述第一接入网元和所述第二接入网元;所述发射机还用于:将所述第三报文转发至所述第一接入网元和所述第二接入网元。
- 根据权利要求1-4中任一项所述的装置,其特征在于,所述接收机还用于:接收所述控制器根据终端业务建立请求发送的第四业务链转发规则,所述第四业务链转发规则包括与所述终端的业务对应的第二业务链标识,以及一个或多个业务处理网元的标识,所述一个或多个业务处理网元为处理所述业务的 网元,所述第二业务链标识对应于所述一个或多个业务处理网元的标识;以及接收所述分类器发送的第四报文,所述第四报文携带至少两个业务链标识;所述处理器还用于:当所述第四报文携带的所述至少两个业务链标识中有一个业务链标识与所述第四业务链转发规则中的所述第二业务链标识匹配时,根据所述一个或多个业务处理网元的标识,确定所述第四报文发送至所述所述一个或多个业务处理网元;所述发射机还用于:将所述第四报文转发至所述一个或多个业务处理网元进行业务处理;所述接收机还用于:接收所述一个或多个业务处理网元发送的业务处理后的第四报文,所述业务处理后的第四报文携带至少两个业务链标识;所述处理器还用于:当所述业务处理后的第四报文携带的所述至少两个业务链标识中有一个业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据与所述第一标识,确定所述所述业务处理后的第四报文发送至所述第一接入网元;所述发射机还用于:将所述业务处理后的第四报文转发至所述第一接入网元。
- 根据权利要求5所述的装置,其特征在于,所述业务处理后的第四报文中携带所述一个或多个业务处理网元执行业务处理后的结果,用于所述第一接入网元根据所述结果进行报文转发。
- 根据权利要求1-6中任一项所述的装置,其特征在于,所述接收机还用于:接收所述控制器根据终端空闲状态通知发送的第五业务链转发规则,所述第五业务链转发规则包括所述第一业务链标识和一个或多个接入网元的标识,所述一个或多个接入网元为所述终端所属寻呼组内的接入网元,所述第一业务链标识对应于所述第一个或多个接入网元的标识;以及接收所述分类器发送的第五报文,所述第五报文携带业务链标识;所述处理器还用于:当所述第五报文携带的业务链标识与所述第五业务链转发规则中的所述第一业务链标识匹配时,根据所述一个或多个接入网元的标识,确定所述第五报文发送至所述一个或多个接入网元;所述发射机还用于:将所述第五报文转发至所述一个或多个接入网元,以触发所述一个或多个接入网元寻呼所述终端。
- 根据权利要求7所述的装置,其特征在于,所述发射机用于:按照指定的顺序依次将所述第五报文发送给所述一个或多个接入网元,直到所述一个或多个接入网元中有一个接入网元寻呼所述终端成功或者所述一个或多个接入网元均寻呼所述终端失败。
- 根据权利要求1-8中任一项所述的装置,其特征在于,所述第一业务链转发规则还包括与所述第一业务链标识对应的至少一个业务处理网元的标识;所述处理器用于:当所述第一报文携带的业务链标识与所述第一业务链转发规则中的所述第 一业务链标识匹配时,根据所述至少一个业务处理网元的标识,确定所述第一报文发送至所述至少一个业务处理网元的标识对应的业务处理网元;所述发射机还用于:将所述第一报文转发至所述至少一个业务处理网元的标识对应的业务处理网元进行业务处理;所述接收机还用于:接收所述至少一个业务处理网元的标识对应的业务处理网元发送的业务处理后的第一报文;所述处理器还用于:根据所述第一接入网元的第一标识,确定所述业务处理后的第一报文发送至所述第一接入网元;所述发射机还用于:将所述业务处理后的第一报文转发至所述第一接入网元。
- 根据权利要求1-9中任一项所述的装置,其特征在于,所述处理器还用于:在所述发射机转发待转发报文给下一个网元前,如果所述下一个网元是接入网元,则将所述待转发报文中携带的业务链标识删除,如果所述下一个网元不是接入网元,则保留所述待转发报文中携带的业务链标识;其中,所述待转发报文为所述第一报文或者所述业务处理后的第一报文。
- 根据权利要求1-10中任一项所述的装置,其特征在于,所述第一业务链转发规则是所述控制器根据第二终端接入请求和第三终端接入请求发送的,所述第二终端接入请求由所述终端通过所述第一接入网元发 起,所述第三终端接入请求由所述终端通过所述第二接入网元发起,所述第一业务链转发规则还包括所述第二接入网元的第二标识,所述第二接入网元的第二标识对应于所述第一业务链标识;所述处理器用于:根据所述第一标识和所述第二标识,采用负载均衡方式在所述第一接入网元和所述第二接入网元中选出所述第一接入网元;所述发射机用于:将所述第一报文转发至所述处理器选出的所述第一接入网元。
- 根据权利要求1-10中任一项所述的装置,其特征在于,所述第一业务链转发规则是所述控制器根据第二终端接入请求和第三终端接入请求发送的,所述第二终端接入请求由所述终端通过所述第一接入网元发起,所述第三终端接入请求由所述终端通过所述第二接入网元发起,所述第一业务链转发规则还包括所述第二接入网元的第二标识,所述第二接入网元的第二标识对应于所述第一业务链标识;所述处理器用于:根据所述第一标识和所述第二标识,确定所述第一报文发送至所述第一接入网元和所述第二接入网元;所述发射机用于:将所述第一报文转发至所述第一接入网元和所述第二接入网元。
- 一种控制接入的装置,其特征在于,所述装置包括:处理器,用于生成第一业务链分类规则和第一业务链转发规则,所述第一业务链分类规则包括为终端分配的转发标识和与所述终端对应的第一业务链标 识,且所述转发标识对应于所述第一业务链标识,所述第一业务链转发规则至少包括所述第一业务链标识和第一接入网元的第一标识,所述第一业务链标识对应于所述第一标识;发射机,用于发送所述第一业务链分类规则给分类器,所述第一业务链分类规则用于所述分类器对收到的包含所述转发标识的第一报文封装上所述第一业务链标识;还用于发送所述第一业务链转发规则给转发器,所述第一业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第一报文转发至所述第一接入网元。
- 根据权利要求13所述的装置,其特征在于,所述装置还包括:接收机,用于接收所述第一接入网元发送的第一终端接入请求;所述处理器用于:在所述接收机接收到所述第一终端接入请求后,生成所述第一业务链分类规则和所述第一业务链转发规则。
- 根据权利要求14所述的装置,其特征在于,所述接收机还用于:接收第一终端切换请求;所述处理器还用于:当所述接收机接收到所述第一终端切换请求后,生成第二业务链转发规则,所述第二业务链转发规则包括所述第一业务链标识和第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第一业务链标识对应于所述第二标识;所述发射机还用于:发送所述第二业务链转发规则给所述转发器,所述第二业务链转发规则用 于所述转发器将收到的包含所述第一业务链标识的第二报文转发至所述第二接入网元。
- 根据权利要求14所述的装置,其特征在于,所述接收机还用于:接收第二终端切换请求;所述处理器还用于:当所述接收机接收到所述第二终端切换请求后,生成第三业务链转发规则,所述第三业务链转发规则包括所述第一业务链标识、所述第一接入网元的第一标识、以及第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第一业务链标识对应于所述第一标识和所述第二标识;所述发射机还用于:发送所述第三业务链转发规则给所述转发器,所述第三业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第三报文转发至所述第一接入网元和所述第二接入网元。
- 根据权利要求14-16中任一项所述的装置,其特征在于,所述接收机还用于:接收终端业务建立请求;所述处理器还用于:当所述接收机接收到所述终端业务建立请求后,生成与请求的业务对应的第二业务链标识,生成第二业务链分类规则和第四业务链转发规则,所述第二业务链分类规则包括所述终端的转发标识和所述第二业务链标识,所述转发标识对应于所述第二业务链标识,所述第四业务链转发规则包括所述第二业务链标识和处理所述业务的一个或多个业务处理网元的标识,所述第二业务链标识对应于所述一个活多个业务处理网元的标识;所述发射机还用于:发送所述第二业务链分类规则给所述分类器,所述第二业务链分类规则用于所述分类器对收到包含所述转发标识的第四报文封装上所述第二业务链标识;发送所述第四业务链转发规则给所述转发器,所述第四业务链转发规则用于所述转发器将收到的包含所述第二业务链标识的第四报文转发至所述一个或多个业务处理网元。
- 根据权利要求14-17中任一项所述的装置,其特征在于,所述接收机还用于:接收终端空闲状态通知;所述处理器还用于:当所述接收机接收到所述终端空闲状态通知后,生成第五业务链转发规则,所述第五业务链转发规则包括所述第一业务链标识和一个或多个接入网元的标识,所述一个或多个接入网元为所述终端所属寻呼组内的接入网元,所述第一业务链标识对应于所述一个或多个接入网元的标识;所述发射机还用于:发送所述第五业务链转发规则给所述转发器,所述第五业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第五报文转发至所述一个或多个接入网元。
- 根据权利要求18所述的装置,其特征在于,所述第五业务链转发规则还包括预设策略,用于所述转发器根据所述预设策略将收到包含所述第一业务链标识的第五报文转发至所述一个或多个接入网元。
- 根据权利要求14-19中任一项所述的装置,其特征在于,所述处理器还用于:生成第三业务链分类规则,所述第三业务链分类规则包括所述终端的转发标识、所述第一业务链标识和寻呼参数,所述转发标识对应于所述第一业务链标识和所述寻呼参数;所述发射机还用于:发送所述第三业务链分类规则给所述分类器,所述第三业务链分类规则用于所述分类器为收到的包含所述转发标识的第五报文封装所述第一业务链标识和所述寻呼参数。
- 根据权利要求20所述的装置,其特征在于,所述接收机还用于:接收所述终端在被成功寻呼后发送的终端退出空闲状态的指示;所述处理器还用于:当所述接收机接收到所述终端退出空闲状态的指示后,生成第四业务链分类规则,所述第四业务链分类规则包括所述终端的转发标识和所述第一业务链标识,所述转发标识对应于所述第一业务链标识;所述发射机还用于:发送所述第四业务链分类规则给所述分类器,所述第四业务链分类规则用于所述分类器对收到包含所述转发标识的第六报文封装所述第一业务链标识。
- 根据权利要求14-21中任一项所述的装置,其特征在于,所述接收机还用于:接收所述第一接入网元发送的第二终端接入请求和第二接入网元发送的第三终端接入请求;所述处理器还用于:当所述接收机接收到所述第二终端接入请求和所述第三终端接入请求后,生成所述第一业务链分类规则和所述第一业务链转发规则;其中,所述第一业务链分类规则中的所述转发标识包括:根据所述第二终端接入请求为所述终端分配的第一转发标识,或根据所述第三终端接入请求为所述终端分配的第二转发标识;其中,所述第一业务链转发规则还包括所述第二接入网元的第二标识,且所述第一业务链标识还对应于所述第二标识。
- 根据权利要求13-22中任一项所述的装置,其特征在于,所述装置还包括:所述第一业务链转发规则还包括至少一个业务处理网元的标识,用于所述转发器先将所述第一报文转发至所述至少一个业务处理网元进行业务处理,再将业务处理后的第一报文转发至所述第一接入网元。
- 一种控制接入的系统,其特征在于,所述系统包括:控制器、分类器、转发器和接入网元;所述控制器包括如权利要求13所述的装置,所述转发器包括如权利要求1所述的装置;所述分类器,用于接收所述控制器发送的所述第一业务链分类规则,当接收到包含所述终端的转发标识的第一报文时,为所述第一报文封装上所述第一业务链分类规则中的所述第一业务链标识;所述接入网元,用于接收所述转发器发送的所述第一报文并转发给所述终端。
- 根据权利要求24所述的系统,其特征在于,所述控制器还用于:在接收到终端空闲状态通知后,生成第二业务链分类规则,所述第二业务链分类规则包括所述终端的转发标识、所述第一业务链标识和寻呼参数,所述转发标识对应于所述第一业务链标识和寻呼参数,发送所述第二业务链分类规则给所述分类器;所述分类器还用于:接收所述控制器发送的所述第二业务链分类规则,当接收到包含所述终端的转发标识的第二报文时,为所述第二报文封装上所述第一业务链标识和所述寻呼参数。
- 根据权利要求25所述的系统,其特征在于,所述控制器还用于:在接收到所述终端在被成功寻呼后发送的终端退出空闲状态的指示后,生成第三业务链分类规则,所述第三业务链分类规则包括所述终端的转发标识和所述第一业务链标识,所述转发标识对应于所述第一业务链标识,发送所述第三业务链分类规则给所述分类器;所述分类器还用于:接收所述控制器发送的所述第三业务链分类规则,当接收到包含所述终端的转发标识的第三报文时,为所述第三报文封装上所述第一业务链标识。
- 根据权利要求24所述的系统,其特征在于,所述系统还包括:至少一个业务处理网元,用于接收所述转发器发送的报文,并对收到的所述报文进行业务处理,将业务处理后的报文再发送给所述转发器;所述控制器生成的所述第一业务链转发规则中还包括所述至少一个业务处理网元的标识。
- 根据权利要求24所述的系统,其特征在于,所述接入网元还用于:接收所述终端的报文,将接入信息封装在所述终端的报文中,转发封装后的报文给所述分类器。
- 一种控制接入的方法,其特征在于,所述方法包括:接收控制器发送的第一业务链转发规则,所述第一业务链转发规则包括与终端对应的第一业务链标识,以及第一接入网元的第一标识,其中,所述第一标识对应于所述第一业务链标识;接收分类器发送的第一报文,所述第一报文携带业务链标识;当所述第一报文携带的业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据所述第一接入网元的第一标识,将所述第一报文转发至所述第一接入网元。
- 根据权利要求29所述的方法,其特征在于,所述第一业务链转发规则是所述控制器根据第一终端接入请求发送的,所述第一终端接入请求由所述终端通过所述第一接入网元发起。
- 根据权利要求29或30所述的方法,其特征在于,所述方法还包括:接收所述控制器根据终端切换请求发送的第二业务链转发规则,所述第二业务链转发规则包括所述第一业务链标识和第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第二标识对应于所述第一业务链标识;接收所述分类器发送的第二报文,所述第二报文携带业务链标识;当所述第二报文携带的业务链标识与所述第二业务链转发规则中的所述第 一业务链标识匹配时,根据所述第二接入网元的第二标识,将所述第二报文转发至所述第二接入网元。
- 根据权利要求29或30所述的方法,其特征在于,所述方法还包括:接收所述控制器根据终端切换请求发送的第三业务链转发规则,所述第三业务链转发规则包括所述第一业务链标识、所述第一接入网元的第一标识和第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第一业务链标识对应于所述第一标识和所述第二标识;接收所述分类器发送的第三报文,所述第三报文携带业务链标识;当所述第三报文携带的业务链标识与所述第三业务链转发规则中的所述第一业务链标识匹配时,根据所述第一标识和所述第二标识,将所述第三报文转发至所述第一接入网元和所述第二接入网元。
- 根据权利要求29-32中任一项所述的方法,其特征在于,所述方法还包括:接收所述控制器根据终端业务建立请求发送的第四业务链转发规则,所述第四业务链转发规则包括与所述终端的业务对应的第二业务链标识,以及一个或多个业务处理网元的标识,所述一个或多个业务处理网元为处理所述业务的网元,所述第二业务链标识对应于所述一个或多个业务处理网元的标识;接收所述分类器发送的第四报文,所述第四报文携带至少两个业务链标识;当所述第四报文携带的所述至少两个业务链标识中有一个业务链标识与所述第四业务链转发规则中的所述第二业务链标识匹配时,根据所述一个或多个业务处理网元的标识,将所述第四报文转发至所述一个或多个业务处理网元进行业务处理;接收所述一个或多个业务处理网元发送的业务处理后的第四报文;当所述业务处理后的第四报文携带的所述至少两个业务链标识中有一个业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据与所述第一标识,将所述业务处理后的第四报文转发至所述第一接入网元。
- 根据权利要求33所述的方法,其特征在于,所述业务处理后的第四报文中携带所述一个或多个业务处理网元执行业务处理后的结果,用于所述第一接入网元根据所述结果进行报文转发。
- 根据权利要求29-34中任一项所述的方法,其特征在于,所述方法还包括:接收所述控制器根据终端空闲状态通知发送的第五业务链转发规则,所述第五业务链转发规则包括所述第一业务链标识和一个或多个接入网元的标识,所述一个或多个接入网元为所述终端所属寻呼组内的接入网元,所述第一业务链标识对应于所述第一个或多个接入网元的标识;接收所述分类器发送的第五报文,所述第五报文携带业务链标识;当所述第五报文携带的业务链标识与所述第五业务链转发规则中的所述第一业务链标识匹配时,根据所述一个或多个接入网元的标识,将所述第五报文转发至所述一个或多个接入网元,以触发所述一个或多个接入网元寻呼所述终端。
- 根据权利要求35所述的方法,其特征在于,所述将所述第五报文转发至所述一个或多个接入网元,以触发所述一个或多个接入网元寻呼所述终端,包括:按照指定的顺序依次将所述第五报文发送给所述一个或多个接入网元,直到所述一个或多个接入网元中有一个接入网元寻呼所述终端成功或者所述一个或多个接入网元均寻呼所述终端失败。
- 根据权利要求29-36中任一项所述的方法,其特征在于,所述第一业务链转发规则还包括与所述第一业务链标识对应的至少一个业务处理网元的标识;所述当所述第一报文携带的业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据所述第一接入网元的第一标识,将所述第一报文转发至所述第一接入网元,包括:当所述第一报文携带的业务链标识与所述第一业务链转发规则中的所述第一业务链标识匹配时,根据所述至少一个业务处理网元的标识,将所述第一报文转发至所述至少一个业务处理网元的标识对应的业务处理网元进行业务处理;接收所述至少一个业务处理网元的标识对应的业务处理网元发送的业务处理后的第一报文;根据所述第一接入网元的第一标识,将所述业务处理后的第一报文转发至所述第一接入网元。
- 根据权利要求29-37中任一项所述的方法,其特征在于,所述方法还包括:在转发待转发报文给下一个网元前,如果所述下一个网元是接入网元,则将所述待转发报文中携带的业务链标识删除,如果所述下一个网元不是接入网元,则保留所述待转发报文中携带的业务链标识;其中,所述待转发报文为所述第一报文或者所述业务处理后的第一报文。
- 根据权利要求29-38中任一项所述的方法,其特征在于,所述第一业务链转发规则是所述控制器根据第二终端接入请求和第三终端接入请求发送的,所述第二终端接入请求由所述终端通过所述第一接入网元发起,所述第三终端接入请求由所述终端通过所述第二接入网元发起,所述第一业务链转发规则还包括所述第二接入网元的第二标识,所述第二接入网元的第二标识对应于所述第一业务链标识;所述根据所述第一接入网元的第一标识,将所述第一报文转发至所述第一接入网元,包括:根据所述第一标识和所述第二标识,采用负载均衡方式在所述第一接入网元和所述第二接入网元中选出所述第一接入网元,且将所述第一报文转发至所述第一接入网元。
- 根据权利要求29-38中任一项所述的方法,其特征在于,所述第一业务链转发规则是所述控制器根据第二终端接入请求和第三终端接入请求发送的,所述第二终端接入请求由所述终端通过所述第一接入网元发起,所述第三终端接入请求由所述终端通过所述第二接入网元发起,所述第一业务链转发规则还包括所述第二接入网元的第二标识,所述第二接入网元的第二标识对应于所述第一业务链标识;所述根据所述第一接入网元的第一标识,将所述第一报文转发至所述第一接入网元,包括:根据所述第一标识和所述第二标识,将所述第一报文转发至所述第一接入网元和所述第二接入网元。
- 一种控制接入的方法,其特征在于,所述方法包括:生成第一业务链分类规则和第一业务链转发规则,所述第一业务链分类规则包括为终端分配的转发标识和与所述终端对应的第一业务链标识,且所述转发标识对应于所述第一业务链标识,所述第一业务链转发规则至少包括所述第一业务链标识和第一接入网元的第一标识,所述第一业务链标识对应于所述第一标识;发送所述第一业务链分类规则给分类器,所述第一业务链分类规则用于所述分类器对收到的包含所述转发标识的第一报文封装上所述第一业务链标识;发送所述第一业务链转发规则给转发器,所述第一业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第一报文转发至所述第一接入网元。
- 根据权利要求41所述的方法,其特征在于,所述生成第一业务链分类规则和第一业务链转发规则,包括:当接收到所述第一接入网元发送的第一终端接入请求后,生成所述第一业务链分类规则和所述第一业务链转发规则。
- 根据权利要求41或42所述的方法,其特征在于,所述方法还包括:当接收到第一终端切换请求后,生成第二业务链转发规则,所述第二业务链转发规则包括所述第一业务链标识和第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第一业务链标识对应于所述第二标识;发送所述第二业务链转发规则给所述转发器,所述第二业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第二报文转发至所述第二接 入网元。
- 根据权利要求41或42所述的方法,其特征在于,所述方法还包括:当接收到第二终端切换请求后,生成第三业务链转发规则,所述第三业务链转发规则包括所述第一业务链标识、所述第一接入网元的第一标识、以及第二接入网元的第二标识,所述第二接入网元为所述终端切换后的接入网元,所述第一业务链标识对应于所述第一标识和所述第二标识;发送所述第三业务链转发规则给所述转发器,所述第三业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第三报文转发至所述第一接入网元和所述第二接入网元。
- 根据权利要求41-44中任一项所述的方法,其特征在于,所述方法还包括:当接收到终端业务建立请求后,生成与请求的业务对应的第二业务链标识,生成第二业务链分类规则和第四业务链转发规则,所述第二业务链分类规则包括所述终端的转发标识和所述第二业务链标识,所述转发标识对应于所述第二业务链标识,所述第四业务链转发规则包括所述第二业务链标识和处理所述业务的一个或多个业务处理网元的标识,所述第二业务链标识对应于所述一个活多个业务处理网元的标识;发送所述第二业务链分类规则给所述分类器,所述第二业务链分类规则用于所述分类器对收到包含所述转发标识的第四报文封装上所述第二业务链标识;发送所述第四业务链转发规则给所述转发器,所述第四业务链转发规则用于所述转发器将收到的包含所述第二业务链标识的第四报文转发至所述一个或多个业务处理网元。
- 根据权利要求41-45中任一项所述的方法,其特征在于,所述方法还包括:当接收到终端空闲状态通知后,生成第五业务链转发规则,所述第五业务链转发规则包括所述第一业务链标识和一个或多个接入网元的标识,所述一个或多个接入网元为所述终端所属寻呼组内的接入网元,所述第一业务链标识对应于所述一个或多个接入网元的标识;发送所述第五业务链转发规则给所述转发器,所述第五业务链转发规则用于所述转发器将收到的包含所述第一业务链标识的第五报文转发至所述一个或多个接入网元。
- 根据权利要求46所述的方法,其特征在于,所述第五业务链转发规则还包括预设策略,用于所述转发器根据所述预设策略将收到包含所述第一业务链标识的第五报文转发至所述一个或多个接入网元。
- 根据权利要求41-47中任一项所述的方法,其特征在于,所述方法还包括:生成第三业务链分类规则,所述第三业务链分类规则包括所述终端的转发标识、所述第一业务链标识和寻呼参数,所述转发标识对应于所述第一业务链标识和所述寻呼参数;发送所述第三业务链分类规则给所述分类器,所述第三业务链分类规则用于所述分类器为收到的包含所述转发标识的第五报文封装所述第一业务链标识和所述寻呼参数。
- 根据权利要求48所述的方法,其特征在于,所述方法还包括:当接收到所述终端在被成功寻呼后发送的终端退出空闲状态的指示后,生成第四业务链分类规则,所述第四业务链分类规则包括所述终端的转发标识和所述第一业务链标识,所述转发标识对应于所述第一业务链标识;发送所述第四业务链分类规则给所述分类器,所述第四业务链分类规则用于所述分类器对收到包含所述转发标识的第六报文封装所述第一业务链标识。
- 根据权利要求41-49中任一项所述的方法,其特征在于,所述生成第一业务链分类规则和第一业务链转发规则,包括:当接收到所述第一接入网元发送的第二终端接入请求和第二接入网元发送的第三终端接入请求后,生成所述第一业务链分类规则和所述第一业务链转发规则;其中,所述第一业务链分类规则中的所述转发标识包括:根据所述第二终端接入请求为所述终端分配的第一转发标识,或根据所述第三终端接入请求为所述终端分配的第二转发标识;其中,所述第一业务链转发规则还包括所述第二接入网元的第二标识,且所述第一业务链标识还对应于所述第二标识。
- 根据权利要求41-50中任一项所述的方法,其特征在于,所述第一业务链转发规则还包括至少一个业务处理网元的标识,用于所述转发器先将所述第一报文转发至所述至少一个业务处理网元进行业务处理,再将业务处理后的第一报文转发至所述第一接入网元。
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JP6619815B2 (ja) | 2019-12-11 |
EP3249863A4 (en) | 2017-11-29 |
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US20170339110A1 (en) | 2017-11-23 |
WO2016127398A8 (zh) | 2016-12-01 |
EP3249863A1 (en) | 2017-11-29 |
CN106465230B (zh) | 2019-07-23 |
US10397188B2 (en) | 2019-08-27 |
JP2018510553A (ja) | 2018-04-12 |
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