CN115914397A - Application acceleration method, device, equipment, platform and storage medium - Google Patents

Abstract

The application provides an application acceleration method, device, equipment, platform and storage medium. The method comprises the following steps: receiving an extra wide area network interface establishing request sent by an application acceleration service platform through at least one network element device; creating an additional wide area network interface according to the additional wide area network interface creating request, wherein the additional wide area network interface is used for transmitting a data packet to be accelerated in the application acceleration service ordered by the user side; acquiring an application server network address set in application acceleration service ordered by a user side, wherein the application server network address set comprises at least one application server network address information; and binding the additional wide area network interface with the application server network address set so as to adopt the additional wide area network interface to accelerate the transmission of the data packet to be accelerated when the data packet to be accelerated is transmitted, and sending the data packet to the application server according to the application server network address information in the bound application server network address set.

Description

Application acceleration method, device, equipment, platform and storage medium

Technical Field

The present application relates to communications technologies, and in particular, to an application acceleration method, apparatus, device, platform, and storage medium.

Background

The novel technology promotes the development of family scenes to the direction of digitalization, intellectualization and diversification, and interactive/high-definition video applications such as live broadcast, office, games, education and the like are extremely sensitive to network bandwidth/time delay/jitter and need deterministic pipelines with large bandwidth, low time delay and low jitter. At present, the broadband speed-up of operators does not completely meet the requirement of differentiated scenes of home users, the situations of video conference blocking and audio-visual asynchronism of live broadcasting often occur in the scenes of cloud conferences, live broadcasting and the like, or the network quality problems of blocking, disconnection and the like, such as slow file uploading and downloading, high cross-border access delay and the like, occur.

The existing technical means is based on the broadband network capability of an operator, and provides end-to-end quality of service (QoS) products of an access network, a metropolitan area network, a backbone network and a service side for users.

However, the QoS configuration scheme is based on the existing broadband WAN channel for QoS configuration, and cannot solve the problem of insufficient bandwidth.

Disclosure of Invention

The application provides an application acceleration method, device, equipment, platform and storage medium, which are used for solving the problem of insufficient bandwidth of accelerated transmission of data packets.

In a first aspect, the present application provides an application acceleration method, where the method is applied to a gateway device, and includes:

receiving an extra wide area network interface establishing request sent by an application acceleration service platform through at least one network element device;

creating an additional wide area network interface according to the additional wide area network interface creating request, wherein the additional wide area network interface is used for transmitting a data packet to be accelerated in the application acceleration service ordered by the user side;

acquiring an application server network address set in application acceleration service ordered by a user side, wherein the application server network address set comprises at least one application server network address information;

and binding the additional wide area network interface with the application server network address set so as to adopt the additional wide area network interface to accelerate the transmission of the data packet to be accelerated when the data packet to be accelerated is transmitted, and sending the data packet to the application server according to the application server network address information in the bound application server network address set.

Optionally, the obtaining an application server network address set in the application acceleration service subscribed by the user side includes:

receiving a binding instruction sent by a gateway management platform; the binding instruction is a set configuration request sent by the application acceleration service platform to the gateway device and generated by at least one application server network address information extracted from the set configuration request;

and analyzing the binding instruction to obtain an application server network address set included in the binding instruction.

Optionally, the method further comprises:

receiving a data packet to be accelerated and target application server network address information sent by a user side;

judging whether the network address set of the application server side comprises the network address information of the target application server side;

and if the network address information of the target application server is determined to be included, accelerating transmission of the data packet to be accelerated is carried out by adopting an additional wide area network interface, and the data packet to be accelerated is sent to the target application server according to the network address information of the target application server.

Optionally, the data packet to be accelerated includes: a VLAN header including VLAN identification information; the accelerating transmission of the data packet to be accelerated by adopting an additional wide area network interface comprises the following steps:

acquiring QoS configuration information configured for application acceleration service subscribed by the user terminal in advance;

inquiring VLAN priority corresponding to VLAN identification information in the QoS configuration information;

and adding the VLAN priority into a VLAN header, and transmitting the data packet to be accelerated to corresponding network element equipment by adopting an additional wide area network interface so that the network element equipment schedules and forwards the data packet to be accelerated according to the VLAN identification information and the corresponding VLAN priority to realize accelerated transmission.

Optionally, if it is determined that the network address information of the target application server is not included, the method further includes:

and adding the target application server network address information into the application server network address set to realize the binding of the target application server network address information and the additional wide area network interface.

Optionally, the method further comprises:

receiving a first unbinding instruction sent by a gateway management platform, wherein the first unbinding instruction is generated by the gateway management platform according to a first application acceleration service cancellation request sent by an application acceleration service platform, and the first application acceleration service cancellation request is generated by the application acceleration service platform after the application acceleration service platform determines that the application acceleration service of a user terminal uses the only application acceleration service of the additional wide area network interface;

unbinding the additional wide area network interface from the application server network address set according to the first unbinding instruction;

freeing resources of the additional wide area network interface.

Optionally, the method further comprises:

receiving a second unbinding instruction sent by the gateway management platform, wherein the second unbinding instruction is generated by the gateway management platform according to a second application acceleration service cancellation request sent by the application acceleration service platform, and the second application acceleration service cancellation request is generated by the application acceleration service platform after determining that the application acceleration service of the user side is not the only application acceleration service using the additional wide area network interface;

acquiring at least one piece of network address information of the application server to be cancelled in the second binding canceling instruction according to the second binding canceling instruction;

and deleting at least one piece of application server network address information to be cancelled from the application server network address set.

In a second aspect, the method is applied to an application acceleration platform, and the method is applied to the application acceleration platform and includes:

receiving an application acceleration service ordering request sent by a user side;

according to the application acceleration service ordering request, an extra wide area network interface establishing request is sent to corresponding gateway equipment through at least one network element equipment; the additional wide area network interface creating request is used for indicating the gateway equipment to create an additional wide area network interface, and the additional wide area network interface is used for transmitting a data packet to be accelerated in the application acceleration service ordered by the user side;

receiving successful creation feedback information sent by the gateway equipment through at least one network element equipment;

and sending a set configuration request to the gateway management equipment according to the successfully created feedback information, wherein the set configuration request is used for indicating the gateway equipment to acquire an application server network address set, and binding the additional wide area network interface with the application server network address set, and the application server network address set comprises at least one piece of application server network address information.

Optionally, the method further comprises:

receiving an application acceleration service unsubscribe request sent by a user side;

if the application acceleration service ordered by the user side is determined to be the only application acceleration service using the additional wide area network interface, generating a first application acceleration service cancellation request;

and sending the first application acceleration service cancellation request to a gateway management platform, wherein the first application acceleration service cancellation request is used for instructing the gateway management platform to send a first unbinding instruction to a gateway device, and the first unbinding instruction is used for instructing the gateway device to release the binding between the additional wide area network interface and the application service end network address set.

Optionally, the method further comprises:

if the application acceleration service ordered by the user side is determined not to be the only application acceleration service using the additional wide area network interface, generating a second application acceleration service cancellation request;

and sending the second application acceleration service canceling request to a gateway management platform, wherein the second application acceleration service canceling request is used for indicating the gateway management platform to send a second binding canceling instruction to the gateway device, and the second binding canceling instruction is used for indicating the gateway device to acquire at least one piece of network address information of the application service terminal to be canceled in the second binding canceling instruction and delete the at least one piece of network address information of the application service terminal to be canceled from the network address set of the application service terminal.

In a third aspect, the present application provides an application acceleration apparatus, where the apparatus is located in a gateway device, and the apparatus includes:

the creation request receiving module is used for receiving an extra wide area network interface creation request sent by the application acceleration service platform through at least one network element device;

an interface creating module, configured to create an additional wan interface according to the additional wan interface creating request, where the additional wan interface is used to transmit a data packet to be accelerated in an application acceleration service ordered by a user side;

the system comprises a set acquisition module, a network address acquisition module and a network address acquisition module, wherein the set acquisition module is used for acquiring an application server network address set in application acceleration service ordered by a user side, and the application server network address set comprises at least one application server network address information;

and the relation binding module is used for binding the additional wide area network interface with the application server network address set so as to adopt the additional wide area network interface to accelerate the transmission of the data packet to be accelerated when the data packet to be accelerated is transmitted, and sending the data packet to the application server according to the application server network address information in the application server network address set after binding.

In a fourth aspect, the present application provides an application acceleration apparatus, the apparatus being located in an application acceleration platform, the apparatus comprising:

the ordering request receiving module is used for receiving an application acceleration service ordering request sent by a user side;

an order request sending module, configured to send, according to the application acceleration service order request, an extra wide area network interface creation request to a corresponding gateway device through at least one network element device; the additional wide area network interface creating request is used for instructing the gateway equipment to create an additional wide area network interface, and the additional wide area network interface is used for transmitting a data packet to be accelerated in the application acceleration service ordered by the user side;

the information receiving module is used for receiving the feedback information of successful creation sent by the gateway equipment through at least one network element equipment;

and the configuration request sending module is further configured to send an aggregate configuration request to the gateway management device according to the creation success feedback information, where the aggregate configuration request is used to instruct the gateway device to obtain an application server network address aggregate, and bind the additional wide area network interface with the application server network address aggregate, where the application server network address aggregate includes at least one application server network address information.

In a fourth aspect, the present application provides a gateway device, including: a processor, and a memory and transceiver communicatively coupled to the processor;

the memory stores computer execution instructions; the transceiver is used for transceiving data;

the processor executes computer-executable instructions stored by the memory to implement the method of any of the first aspects.

In a fifth aspect, the present application provides an application acceleration platform, comprising: a processor, and a memory and transceiver communicatively coupled to the processor;

the memory stores computer-executable instructions; the transceiver is used for transceiving data;

the processor executes computer-executable instructions stored by the memory to implement the method of any of the second aspects.

In a sixth aspect, the present application provides a computer-readable storage medium having stored thereon computer-executable instructions for implementing the method of any one of the first or second aspects when executed by a processor.

The method is applied to gateway equipment and used for receiving an extra wide area network interface creation request sent by an application acceleration service platform through at least one network element equipment; creating an additional wide area network interface according to the additional wide area network interface creating request, wherein the additional wide area network interface is used for transmitting a data packet to be accelerated in the application acceleration service ordered by the user side; acquiring an application server network address set in application acceleration service ordered by a user side, wherein the application server network address set comprises at least one application server network address information; and binding the additional wide area network interface with the application server network address set so as to adopt the additional wide area network interface to accelerate the transmission of the data packet to be accelerated when the data packet to be accelerated is transmitted, and sending the data packet to the application server according to the application server network address information in the bound application server network address set. By creating an additional wide area network interface and binding the additional wide area network interface with the application server network address set, the accelerated transmission of the data packet to be accelerated through the additional wide area network interface is realized, and the transmission efficiency of the data packet in the application acceleration service is improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present application and together with the description, serve to explain the principles of the application.

Fig. 1 is an application scenario diagram of an application acceleration method provided in an embodiment of the present application;

fig. 2 is a flowchart of a method for applying an acceleration method according to an embodiment of the present disclosure;

fig. 3 is a flowchart of a method for applying an acceleration method according to a second embodiment of the present application;

fig. 4 is a flowchart of a method for applying an acceleration method according to a third embodiment of the present application;

fig. 5 is a flowchart of a method for applying an acceleration method according to a fourth embodiment of the present application;

fig. 6 is a flowchart of a method for applying an acceleration method according to a sixth embodiment of the present application;

fig. 7 is a flowchart of a method for applying an acceleration method according to a seventh embodiment of the present application;

fig. 8 is a flowchart of a method for applying an acceleration method according to an eighth embodiment of the present application;

FIG. 9 is a flowchart of a method for applying an acceleration method according to a ninth embodiment of the present application;

fig. 10 is a flowchart of a method for applying an acceleration method according to a tenth embodiment of the present application;

fig. 11 is a structural diagram of an application acceleration device according to an eleventh embodiment of the present application;

fig. 12 is a structural diagram of an application acceleration device according to a twelfth embodiment of the present application;

fig. 13 is a network structure diagram of an application acceleration system according to a thirteenth embodiment of the present application;

fig. 14 is an entity structure diagram of a gateway device according to a fourteenth embodiment of the present application;

fig. 15 is an entity structure diagram of an application acceleration platform according to a fourteenth embodiment of the present application.

With the above figures, there are shown specific embodiments of the present application, which will be described in more detail below. These drawings and written description are not intended to limit the scope of the inventive concepts in any manner, but rather to illustrate the inventive concepts to those skilled in the art by reference to specific embodiments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. The following description refers to the accompanying drawings in which the same numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the application, as detailed in the appended claims.

For a clear understanding of the technical solutions of the present application, a detailed description of the prior art solutions will be given first. The prior art relies on the operator fixed network slicing technology when realizing application acceleration service, and the fixed network slice provides a plurality of logic channels with isolation attributes and differentiated connection capacity on fixed network infrastructure by using the slicing related technology, so as to provide end-to-end guarantee products of an access network, a metropolitan area network, a backbone network and a service side for users, for example, provide specific application acceleration for users of online education, game acceleration, remote office and the like through slicing capabilities such as independent service channels, end-to-end QoS, bandwidth dynamic adjustment and the like. However, since data transmission of various applications is performed on the same wideband channel, data transmission amount of various applications tends to be larger and larger, and current bandwidth capacity is limited, qoS configuration is performed based on the current wideband channel in the prior art, and the problem of insufficient bandwidth cannot be solved.

Based on the problem of insufficient bandwidth in the prior art, in order to expand the bandwidth, the inventor finds, after creative research, that, in order to actually solve the problem of insufficient bandwidth for transmitting a to-be-accelerated data packet by using an acceleration service, an additional data transmission channel can be opened to ensure that the data transmission channel is specially used for transmitting the to-be-accelerated data packet, so that the to-be-accelerated data packet has sufficient bandwidth during transmission. Meanwhile, opening an additional data transmission channel can be realized by creating an additional wide area network interface in the gateway equipment. In order to guide the user side data packet subscribed to the application acceleration service to be able to transmit data through the additional data channel, the WAN port of the additional data channel needs to be bound to the application server side network address set, so as to implement the accelerated transmission of the user side data packet subscribed to the application acceleration service. And further, the transmission efficiency of the data packet to be accelerated in the application acceleration service is effectively improved.

The network architecture and application scenario of the application acceleration method provided by the present application are introduced below.

Fig. 1 is an application scenario diagram of an application acceleration method provided in the present application. As shown in fig. 1, a network structure corresponding to the application acceleration method provided by the present application may include: the system comprises an application acceleration service platform 1, a gateway management platform 2, a provincial network arrangement control system 3 and gateway equipment 4. And the application acceleration service platform is respectively in communication connection with the gateway management platform and the provincial network arrangement control system. The gateway management platform and the provincial network arrangement control system are respectively in communication connection with the gateway equipment. It is understood that other network element devices, such as core routers, broadband access servers, and optical line terminal devices, may also be included between provincial network orchestration control system 3 and gateway device 4. The core router is externally connected with other core routers and internally connected with the broadband access server, the broadband access server is connected with the optical line terminal equipment, and the optical line terminal equipment is connected with the gateway equipment. The scheme provided by the application can be specifically executed when the user side orders the application acceleration service. Specifically, the application acceleration service platform 1 obtains an application acceleration service subscription request subscribed by a user side, and sends an additional wan interface creation request to the corresponding provincial network deployment control system 3. The provincial network orchestration control system 3 sends an additional wide area network interface creation instruction to the gateway device 4. The gateway device 4 creates an additional wide area network interface according to the received instructions. The gateway device 4 creates an additional wan interface and successfully sends the creation success feedback information to the provincial network orchestration control system 3. The provincial network orchestration control system 3 feeds back an interface creation success message to the application acceleration service platform 1. The application acceleration service platform 1 sends a set configuration request to the gateway management platform 2. The gateway management platform 2 receives the set configuration request and sends a binding instruction to the gateway device 4. The gateway device 4 receives the instruction, parses the instruction, extracts the application server network address set, and binds it with the additional wan interface. And when the data packet to be accelerated is transmitted, accelerating transmission is carried out on the data packet to be accelerated through an additional wide area network interface.

The application acceleration method provided by the application is particularly used for various application acceleration services. Such as video acceleration services. After the user orders the video acceleration service, the application acceleration service platform receives a video application ordering acceleration request sent by the user side. The order acceleration request comprises a network address of a video application server, a user broadband account and provincial code information. And packaging user broadband information by using the acceleration service platform, and sending an additional wide area network interface creation request to a corresponding provincial network arrangement control system according to the provincial code. And after receiving the request, the provincial network arrangement control system sends an additional wide area network interface establishing instruction to the gateway equipment. The gateway device creates an additional wan interface in accordance with the additional wan interface creation instruction. And the additional WAN interface is successfully created, and the gateway equipment feeds back a successful creation message to the provincial network arrangement control platform. And the provincial network arrangement control platform feeds back a creation success message to the application acceleration service platform. And the application acceleration service platform sends a set configuration request to the gateway management platform. The binding request comprises a network address set of the video application server. And after receiving the request, the gateway management platform extracts the network address set information of the video application server and sends a binding instruction to the gateway equipment. And the gateway equipment binds the video application server network address set with the additional wide area network interface according to the received binding instruction. When the video application needs to transmit the data packet to be accelerated, the data packet to be accelerated is transmitted in an accelerated mode through an additional wide area network interface.

The following describes the technical solution of the present application and how to solve the above technical problems in detail by specific embodiments. The following several specific embodiments may be combined with each other, and details of the same or similar concepts or processes may not be repeated in some embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.

Example one

The embodiment of the application provides an application acceleration method aiming at the problem of insufficient bandwidth during accelerated transmission of data packets. The execution subject of the method in this embodiment is an application acceleration device. The application acceleration means is located in the gateway device. Fig. 2 is a flowchart of an application acceleration method provided in the present application. As shown in fig. 2, the method comprises the following specific steps:

step S101, an extra wide area network interface creating request sent by the application acceleration service platform through at least one network element device is received.

The at least one network element device may include: the system comprises a provincial network arrangement control system, a core router, a broadband access server, an optical line terminal device and the like.

Specifically, the application acceleration service platform sends an additional wide area network interface creation request to the provincial network arrangement control system. The wide area network interface creating request comprises a broadband account number and provincial code information of a user. And according to the provincial code information, the corresponding provincial network arrangement control system sends an additional wide area network interface creation command to the gateway equipment through a broadband access server corresponding to the user broadband account. And the gateway equipment receives an additional wide area network interface creating command sent by the corresponding provincial network arrangement control system. Meanwhile, the provincial network arrangement control system can also send QoS configuration commands to the core router, the broadband access server, the optical line terminal equipment and the gateway equipment.

The QoS configuration command is used for ensuring the preferential transmission of the data packet to be accelerated.

Step S102, creating an additional WAN interface according to the additional WAN interface creating request, wherein the additional WAN interface is used for transmitting a data packet to be accelerated in the application acceleration service ordered by the user terminal.

Specifically, the gateway device creates an additional wide area network interface according to an additional wide area network interface creation request sent by the provincial network orchestration control system. The additional wan interface is used for transmitting the data packet to be accelerated generated by the user terminal subscribed to the application acceleration service. And each network element equipment receives the QoS configuration command of the provincial network arrangement control system to carry out corresponding configuration. The QoS configuration parameters may include priority, virtual local area network VLAN, dynamic host configuration protocol DHCP and its attributes. After the QoS configuration is completed, a corresponding VLAN is created under the broadband access server, and the network address of the user side subscribed to the application acceleration service under the broadband account is configured under the VLAN.

Step S103, acquiring an application server network address set in the application acceleration service ordered by the user side, wherein the application server network address set comprises at least one application server network address information. Specifically, as an optional implementation manner, the application acceleration platform sends a set configuration request to the gateway management platform, and the gateway management platform issues a binding instruction to the gateway device. The binding instruction comprises an application server network address set. The set includes at least one application server network address information.

The application server network address information may include an application server network IP address and a port number.

And step S104, binding an additional wide area network interface with the application server network address set, so that when the data packet to be accelerated is transmitted, the additional wide area network interface is adopted to accelerate the transmission of the data packet to be accelerated, and the data packet to be accelerated is sent to the application server according to the application server network address information in the bound application server network address set.

Specifically, as an optional implementation manner, the gateway device receives the binding instruction, and parses the command to obtain the application server network address set. And binding the additional wide area network interface with the application server network address set, and storing the binding relationship. When the data packet to be accelerated is transmitted, the data packet can be positioned to an additional wide area network interface of the gateway equipment through a destination address belonging to the application server network address set for data forwarding. And sending the address to the corresponding application server according to the destination address.

In the embodiment of the application, an additional wide area network interface creation request sent by an application acceleration service platform through at least one network element device is received. And creating an additional wide area network interface according to the additional wide area network interface creating request, wherein the additional wide area network interface is used for transmitting a data packet to be accelerated in the application acceleration service ordered by the user side. Acquiring an application server network address set in the application acceleration service ordered by the user side, wherein the application server network address set comprises at least one application server network address information. And binding the additional wide area network interface with the application server network address set so as to accelerate the transmission of the data packet to be accelerated by adopting the additional wide area network interface when the data packet to be accelerated is transmitted, and sending the data packet to the application server according to the application server network address information in the bound application server network address set. The additional wan interface is created by sending an additional wan interface creation request. By creating an additional wide area network interface and binding the additional wide area network interface with the application server network address set, the accelerated transmission of the data packet to be accelerated through the additional wide area network interface is realized, and the transmission efficiency of the data packet in the application acceleration service is improved.

Example two

Fig. 3 is a flowchart of an application acceleration method provided in the present application. As shown in fig. 3, based on the above embodiment, the embodiment of the present application relates to a specific implementation manner in which the step S103 obtains an application server network address set in the application acceleration service subscribed by the user end, where the application server network address set includes at least one application server network address information. In the application acceleration method provided in the embodiment of the present application, an application server network address set in an application acceleration service ordered by a user side is obtained, where the application server network address set includes at least one application server network address information, and the method includes the following steps:

step S201, receiving a binding instruction sent by a gateway management platform. The binding instruction is a set configuration request sent by the application acceleration service platform to the gateway device and generated by at least one piece of application server network address information extracted from the set configuration request.

Specifically, the application acceleration service platform sends a set configuration request to the gateway device through the gateway management platform. And the gateway management platform analyzes the request information, extracts the network address set information of the application server from the request information, generates a binding instruction and sends the binding instruction to the gateway equipment. The binding instruction comprises the information of the network address set of the application server.

Step S202, analyzing the binding instruction to obtain an application server network address set included in the binding instruction.

Specifically, the gateway device receives a binding instruction sent by the gateway management platform, analyzes the binding instruction, and obtains an application server network address set. And binding the additional wide area network interface of the gateway equipment with the network address set of the application server.

In the embodiment of the application, a binding instruction sent by a gateway management platform is received. The binding instruction is a set configuration request sent by the application acceleration service platform to the gateway device and is generated through at least one piece of application server network address information extracted from the set configuration request. And analyzing the binding instruction to obtain an application server network address set included in the binding instruction. The method can smoothly acquire the network address set of the application server side by communicating with the gateway management platform and the gateway device through the application acceleration platform, and can execute the binding of an additional wide area network interface and the network address set of the application server side through the binding instruction.

EXAMPLE III

Fig. 4 is a flowchart of an application acceleration method provided in the present application. As shown in fig. 4, on the basis of the first embodiment or the second embodiment, the embodiment of the present application further includes the following steps:

step S301, receiving a data packet to be accelerated and network address information of a target application server sent by a user side.

Specifically, the user terminal subscribed to the application acceleration service sends a data packet to be accelerated to the gateway device, and the gateway device receives the data packet to be accelerated. The packet head part of the data packet to be accelerated is provided with a destination address of the data packet, namely the network address information of the target application server.

Step S302, whether the network address set of the application server side comprises the network address information of the target application server side is judged.

Specifically, the gateway device reads a destination address in the data packet to be accelerated, that is, an application server network address, and determines whether the address belongs to an address in an application server network address set.

Step S303, if the network address information of the target application server is determined to be included, accelerating transmission is carried out on the data packet to be accelerated by adopting an additional wide area network interface, and the data packet is sent to the target application server according to the network address information of the target application server.

Specifically, if the gateway device determines that the network address information of the target application server belongs to the address in the network address set of the application server, it indicates that an additional wan interface needs to be used to transmit the data packet to be accelerated, so as to accelerate the data packet to be accelerated, and forward the data packet to be accelerated through the additional wan interface.

In the embodiment of the application, a data packet to be accelerated and network address information of a target application server, which are sent by a user side, are received. And judging whether the network address set of the application server side comprises the network address information of the target application server side. And if the network address information of the target application server is determined to be included, accelerating transmission is carried out on the data packet to be accelerated by adopting an additional wide area network interface, and the data packet is sent to the target application server according to the network address information of the target application server. By judging whether the target address of the data packet to be accelerated belongs to the network address set of the application server, whether the data packet needs to be transmitted through an additional wide area network interface can be quickly determined.

Example four

Fig. 5 is a flowchart of an application acceleration method provided in the present application. As shown in fig. 5, based on the third embodiment, the embodiment of the present application relates to a specific implementation manner of accelerating transmission of the data packet to be accelerated by using an additional wan interface in step S104. The data packet to be accelerated comprises: a VLAN header. The VLAN header includes VLAN identification information. In the application acceleration method provided by the application, an additional wide area network interface is adopted to accelerate transmission of a data packet to be accelerated, and the application acceleration method comprises the following steps:

step S401, obtaining QoS configuration information configured for the application acceleration service subscribed by the user terminal in advance.

Specifically, when the gateway device creates an additional wide area network interface, each network element device configures QoS information. And acquiring QoS (quality of service) configuration information configured for the application acceleration service subscribed by the user side. Including VLAN priority, VLAN identification, DHCP, etc.

Step S402, inquiring VLAN priority corresponding to VLAN identification information in the QoS configuration information.

Specifically, the QoS configuration parameter includes information such as VLAN priority, VLAN identifier, and the like. And searching the VLAN priority corresponding to the VLAN identification.

Wherein, the VLAN priority represents the priority level of the data packet transmission to be accelerated.

Step S403, adding the VLAN priority into a VLAN header, and transmitting the data packet to be accelerated to a corresponding network element device by using an additional wan interface, so that the network element device schedules and forwards the data packet to be accelerated according to the VLAN identification information and the corresponding VLAN priority, thereby achieving accelerated transmission.

Specifically, the gateway device writes the acquired priority information into a priority information reserved area of a VLAN header of the packet to be accelerated. And sending the data packet to an additional wide area network interface, and sequentially transmitting the data packet to be accelerated with the priority identification to each network element device configured with QoS service quality information through the additional wide area network interface. The queue scheduling information is also configured when the QoS is configured. And each network element device puts the data packet to be accelerated into a corresponding scheduling queue according to a preset scheduling strategy and the priority information of the data packet to be accelerated. And accelerating transmission of the data packet to be accelerated according to the scheduling strategy. And finally sending the data packet to the network address of the application server through the core router.

In the embodiment of the application, the QoS configuration information configured for the application acceleration service subscribed by the user side in advance is obtained. And inquiring VLAN priority corresponding to the VLAN identification information in the QoS configuration information. And adding the VLAN priority into a VLAN header, and transmitting the data packet to be accelerated to corresponding network element equipment by adopting an additional wide area network interface so that the network element equipment schedules and forwards the data packet to be accelerated according to the VLAN identification information and the corresponding VLAN priority to realize accelerated transmission. By identifying the VLAN priority information of the data packet to be accelerated, the network element equipment can schedule and forward the data packet to be accelerated according to the VLAN identification information of the data packet to be accelerated and the corresponding VLAN priority information, so that the acceleration of the data packet to be accelerated by the network element equipment at the rear end of the gateway equipment is ensured, and the transmission efficiency is improved.

EXAMPLE five

On the basis of the third embodiment or the fourth embodiment, the application acceleration method of the present application further includes, if it is determined that the network address information of the target application server is not included, the following steps:

and adding the network address information of the target application server to the network address set of the application server so as to realize the binding of the network address information of the target application server and an additional wide area network interface.

Specifically, when a new application subscribes to the acceleration service, the gateway device determines whether the network address of the target application server is already included in the network address set of the application server, and if the network address set of the application server does not include the network address information of the target application server, the network address information of the target application server is added to the network address set of the application server.

In the embodiment of the application, the network address information of the target application server is added to the network address set of the application server, so that the binding between the network address information of the target application server and an additional wide area network interface is realized. When the new application is accelerated, the data packet can be smoothly accelerated and transmitted.

EXAMPLE six

Fig. 6 is a flowchart of an application acceleration method provided in the present application. As shown in fig. 6, on the basis of any one of the first to fifth embodiments, the application acceleration method provided by the present application further includes the following technical solutions:

step S601, receiving a first unbinding instruction sent by the gateway management platform, where the first unbinding instruction is generated by the gateway management platform according to a first application acceleration service cancellation request sent by the application acceleration service platform, and the first application acceleration service cancellation request is generated by the application acceleration service platform after determining that the application acceleration service of the user side is the only application acceleration service using the additional wan interface.

Specifically, when the user terminal cancels the subscription of the application acceleration service, the application acceleration platform determines whether the application acceleration service is the only application acceleration service using the additional wan interface. If the determination is that the application acceleration service is the only application acceleration service, a first application acceleration service cancellation request is sent to the gateway management platform. The gateway management platform receives a first application acceleration service cancellation request sent by the application acceleration service platform, generates a first binding cancellation instruction and sends the first binding cancellation instruction to the gateway equipment. The gateway equipment receives a first unbinding instruction sent by a gateway management platform.

And step S602, according to the first unbinding instruction, unbinding the extra wide area network interface from the application server network address set.

Specifically, the gateway device receives a first binding canceling instruction sent by the gateway management platform, obtains a binding relationship between an additional wide area network interface and the application server network address set, and cancels the binding relationship between the additional wide area network interface and the application server network address set.

And step S603, releasing the resources of the additional wide area network interface.

Specifically, after the gateway device releases the binding relationship between the additional wan interface and the application server network address set, the additional wan interface resource is released. Meanwhile, each network element device can also release network resources configured for the user side application acceleration service.

In the embodiment of the application, a first unbinding instruction sent by a gateway management platform is received, where the first unbinding instruction is generated by the gateway management platform according to a first application acceleration service cancellation request sent by an application acceleration service platform, and the first application acceleration service cancellation request is generated by the application acceleration service platform after the application acceleration service platform determines that an application acceleration service of a user side is a unique application acceleration service using an additional wan interface. And according to the first unbinding instruction, unbinding the additional wide area network interface from the application server network address set. Freeing up resources of the additional wide area network interface. The application acceleration service platform sends a first application acceleration service cancellation request to the gateway management platform by determining that the application acceleration service is the only application acceleration service using the additional WAN interface, and the gateway management platform sends a first cancellation binding instruction to the gateway device after receiving the request, so that the gateway device cancels the binding between the additional WAN interface and the network address set of the application service terminal, can release the additional WAN interface resource in time, and saves the network resource.

EXAMPLE seven

Fig. 7 is a flowchart of an application acceleration method provided in the present application. As shown in fig. 7, on the basis of any one of the first embodiment to the sixth embodiment, the application acceleration method provided by the present application further includes the following technical solutions:

step S701, receiving a second unbinding instruction sent by the gateway management platform, where the second unbinding instruction is generated by the gateway management platform according to a second application acceleration service cancellation request sent by the application acceleration service platform, and the second application acceleration service cancellation request is generated by the application acceleration service platform after determining that the application acceleration service of the user end is not the only application acceleration service using the additional wan interface.

Specifically, when the user terminal cancels the subscription of the application acceleration service, the application acceleration platform determines whether the application acceleration service is the only application acceleration service using the additional wan interface. If it is determined that the application acceleration service is not the only application acceleration service, a second application acceleration service cancellation request is sent to the gateway management platform. The second application acceleration service cancellation request comprises at least one application server network address information of the acceleration service to be cancelled. The gateway management platform receives a second application acceleration service cancellation request sent by the application acceleration service platform, analyzes the request information, extracts at least one application server network address information of the acceleration service to be cancelled, generates a second cancellation binding instruction, and sends the second cancellation binding instruction to the gateway equipment. And the gateway equipment receives a second unbinding instruction sent by the gateway management platform.

Step S702, according to the second unbinding instruction, at least one piece of network address information of the application server to be cancelled in the second unbinding instruction is obtained.

Specifically, the gateway device receives a second binding canceling instruction sent by the gateway management platform, analyzes the instruction, and extracts at least one application service terminal network address information of the acceleration service to be canceled from the second binding canceling instruction.

Step S703, deleting at least one application server network address information to be cancelled from the application server network address set.

Specifically, the gateway device obtains at least one application server network address information of the application acceleration service to be cancelled, and deletes the information from the application server network address set bound with the additional wide area network interface.

In the embodiment of the application, a second unbinding instruction sent by the gateway management platform is received, where the second unbinding instruction is generated by the gateway management platform according to a second application acceleration service cancellation request sent by the application acceleration service platform, and the second application acceleration service cancellation request is generated by the application acceleration service platform after determining that the application acceleration service of the user end is not the only application acceleration service using the additional wan interface. And acquiring at least one piece of network address information of the application server to be cancelled in the second unbinding instruction according to the second unbinding instruction. And deleting the network address information of the at least one application server to be cancelled from the network address set of the application server. By receiving the second unbinding instruction, the gateway device releases the binding relationship between the additional wide area network interface and the network address of the application server. After the number of the application servers is reduced, the network address information of the application servers in the binding relationship can be deleted in time.

Example eight

Fig. 8 is a flowchart of an application acceleration method provided in the present application. As shown in fig. 8, an application acceleration method provided in the embodiment of the present application is applied to an application acceleration platform, and includes the following steps:

step S801, receiving an application acceleration service subscription request sent by a user side.

Specifically, after the user terminal orders the application acceleration service, the application acceleration service platform receives an application acceleration service ordering request sent by the user terminal. The request information comprises a user broadband account number, provincial code information and application server network address information.

Step S802, according to the application acceleration service ordering request, an extra wide area network interface creating request is sent to the corresponding gateway equipment through at least one network element equipment. The additional wan interface creation request is used to instruct the gateway device to create an additional wan interface, and the additional wan interface is used to transmit a data packet to be accelerated in the application acceleration service ordered by the user terminal.

Specifically, after receiving an application acceleration service ordering request sent by a user side, the application acceleration service platform analyzes the request information and extracts province coding information, a user broadband account and application service segment network address information. And sending an additional wide area network interface creation request to the corresponding provincial network arrangement control system according to the provincial coding information. The request comprises a user broadband account and provincial code information. The provincial network arrangement control system receives an extra wide area network interface establishment request sent by the application acceleration service platform, issues a network quality of service (QoS) configuration instruction to each network element device, and simultaneously issues an extra wide area network interface establishment instruction to the gateway device.

Step S803, receiving the creation success feedback information sent by the gateway device through at least one network element device.

Specifically, the gateway device receives an additional wan interface creation request issued by the provincial network organization control system, and creates an additional wan interface according to the additional wan interface creation request. And after the successful creation, sending feedback information of successful creation to the provincial network arrangement control system through the optical terminal equipment, the broadband access server and the core router in sequence. And the provincial network arrangement control system sends the creation success feedback information sent by the gateway equipment to the application acceleration service platform. And the application acceleration service platform receives the creation success feedback information.

Step S804, sending a set configuration request to the gateway device management device according to the successfully created feedback information, wherein the set configuration request is used for indicating the gateway device to obtain an application server network address set, and binding an additional wide area network interface with the application server network address set, and the application server network address set comprises at least one application server network address information.

Specifically, after receiving the creation success feedback information, the application acceleration service platform sends a set configuration request to the gateway device management device, where the set configuration request includes application server network address set information. The set configuration request is used to bind the application server network address set with the newly created additional wide area network interface.

In the embodiment of the application, an application acceleration service ordering request sent by a user side is received. And sending an extra wide area network interface creating request to the corresponding gateway equipment through at least one network element equipment according to the application acceleration service ordering request. The additional wan interface creating request is used to instruct the gateway device to create an additional wan interface, and the additional wan interface is used to transmit a data packet to be accelerated in the application acceleration service ordered by the user side. And receiving the creation success feedback information sent by the gateway equipment through at least one network element equipment. And sending an aggregate configuration request to the gateway equipment management equipment according to the successfully created feedback information, wherein the aggregate configuration request is used for indicating the gateway equipment to acquire an application server network address aggregate and binding an additional wide area network interface with the application server network address aggregate, and the application server network address aggregate comprises at least one piece of application server network address information. By creating an additional wide area network interface and binding the additional wide area network interface with the application server network address set, the accelerated transmission of the data packet to be accelerated through the additional wide area network interface is realized, and the transmission efficiency of the data packet in the application acceleration service is improved.

Example nine

Fig. 9 is a flowchart of an application acceleration method provided in the present application. As shown in fig. 9, on the basis of the eighth embodiment, the application acceleration method provided by the present application further includes the following technical solutions:

step S901, receiving an application acceleration service unsubscribe request sent by a user.

Specifically, when the user unsubscribes the application acceleration service, an unsubscribe request is sent to the application acceleration service platform. The application acceleration service platform receives an unsubscribe request sent by the user side. The unsubscribe request comprises an application server network address.

Step S902, if it is determined that the application acceleration service subscribed by the user terminal is the only application acceleration service using the additional wan interface, a first application acceleration service cancellation request is generated.

Specifically, the application acceleration service platform determines whether the application acceleration service subscribed by the user terminal is the only application acceleration service using the additional wan interface, and if the application acceleration service is the only application acceleration service, generates a first application acceleration service cancellation request, where the request includes an application server network address set.

Step S903, sending a first application acceleration service cancellation request to the gateway management platform, where the first application acceleration service cancellation request is used to instruct the gateway management platform to send a first unbinding instruction to the gateway device, and the first unbinding instruction is used to instruct the gateway device to release the binding between the additional WAN interface and the network address set of the application server.

Specifically, the application acceleration service platform sends the generated first application acceleration service cancellation request to the gateway management platform, and the gateway management platform receives the first application acceleration service cancellation request, generates a first binding cancellation instruction, and sends the first binding cancellation instruction to the gateway device. And the gateway equipment receives the first binding canceling instruction, acquires the binding relation between the application server network address set and the additional wide area network interface, and cancels the binding between the set and the additional wide area network interface.

In the embodiment of the application, an application acceleration service unsubscribe request sent by a user side is received. If the application acceleration service subscribed by the user terminal is determined to be the only application acceleration service using the additional wide area network interface, a first application acceleration service cancellation request is generated. And sending a first application acceleration service cancellation request to the gateway management platform, wherein the first application acceleration service cancellation request is used for indicating the gateway management platform to send a first binding cancellation instruction to the gateway equipment, and the first binding cancellation instruction is used for indicating the gateway equipment to release the binding between the additional wide area network interface and the application server network address set. The application acceleration service platform generates a first application acceleration service cancellation request by determining that the application acceleration service is the only application acceleration service using the additional wide area network interface. The binding relation between an additional wide area network interface and an application server network address set is timely released through communication among the application acceleration service platform, the gateway management platform and the gateway. And then cancel the order of the corresponding user terminal application acceleration service in time.

Example ten

Fig. 10 is a flowchart of an application acceleration method provided in the present application. As shown in fig. 10, on the basis of the ninth embodiment, the application acceleration method provided by the present application further includes the following technical solutions:

step S1001, if it is determined that the application acceleration service subscribed by the user end is not the only application acceleration service using the additional wan interface, a second application acceleration service cancellation request is generated.

Specifically, the application acceleration service platform judges whether the application acceleration service ordered by the user side is the only application acceleration service using the additional wide area network interface, and if not, generates a second application acceleration service cancellation request, wherein the request includes the network address of the application server side.

Step S1002, sending a second application acceleration service cancellation request to the gateway management platform, where the second application acceleration service cancellation request is used to instruct the gateway management platform to send a second unbinding instruction to the gateway device, and the second unbinding instruction is used to instruct the gateway device to obtain at least one piece of network address information of the application server to be cancelled in the second unbinding instruction, and delete the at least one piece of network address information of the application server to be cancelled from the network address set of the application server.

Specifically, the application acceleration service platform sends the generated second application acceleration service cancellation request to the gateway management platform, and the gateway management platform receives the second application acceleration service cancellation request, extracts the application server network address from the second application acceleration service cancellation request, generates a second unbinding instruction, and sends the second unbinding instruction to the gateway device. And the gateway equipment receives the second binding canceling instruction, analyzes the instruction, acquires the network address of the application server, and deletes the network address of the application server from the network address set of the application server.

In the embodiment of the present application, if it is determined that the application acceleration service subscribed by the user end is not the only application acceleration service using the additional wan interface, a second application acceleration service cancellation request is generated. And sending a second application acceleration service cancellation request to the gateway management platform, wherein the second application acceleration service cancellation request is used for indicating the gateway management platform to send a second binding cancellation instruction to the gateway device, and the second binding cancellation instruction is used for indicating the gateway device to acquire at least one piece of application server network address information to be cancelled in the second binding cancellation instruction and delete the at least one piece of application server network address information to be cancelled from the application server network address set. The application acceleration service platform generates a second application acceleration service cancellation request by determining that the application acceleration service is not the only application acceleration service using the additional wide area network interface. Through the communication among the application acceleration service platform, the gateway management platform and the gateway, the binding relationship between an additional wide area network interface and an application service terminal network address is released. After the number of the application servers is reduced, the network address information of the application servers in the binding relationship can be deleted in time.

EXAMPLE eleven

Fig. 11 is a structural diagram of an application acceleration device according to the present application. As shown in fig. 11, the application acceleration apparatus 1100 provided by the present application is located in a gateway device, and includes a creation request receiving module 1101, an interface creation module 1102, a set obtaining module 1103, and a relationship binding module 1104.

A creation request receiving module 1101, configured to receive an additional wide area network interface creation request sent by the application acceleration service platform through at least one network element device.

The interface creating module 1102 is configured to create an additional wan interface according to the additional wan interface creating request, where the additional wan interface is used to transmit a data packet to be accelerated in the application acceleration service ordered by the user side.

The set obtaining module 1103 is configured to obtain an application server network address set in the application acceleration service ordered by the user side, where the application server network address set includes at least one application server network address information.

And the relation binding module 1104 is configured to bind the additional wan interface with the network address set of the application server, so that when the to-be-accelerated data packet is transmitted, the to-be-accelerated data packet is accelerated by using the additional wan interface, and the to-be-accelerated data packet is sent to the application server according to the network address information of the application server in the bound network address set of the application server.

Optionally, the application acceleration apparatus provided in this embodiment, the set obtaining module 1103 is specifically configured to receive the binding instruction sent by the gateway management platform when obtaining the network address set of the application server in the application acceleration service ordered by the user side. The binding instruction is a set configuration request sent by the application acceleration service platform to the gateway device and generated by at least one piece of application server network address information extracted from the set configuration request. And analyzing the binding instruction to obtain an application server network address set included in the binding instruction.

Optionally, the application acceleration apparatus provided in this embodiment further includes an acceleration request receiving module, a determining module, and a transmitting module.

And the acceleration request receiving module is specifically used for receiving a data packet to be accelerated and network address information of the target application server, which are sent by the user side. The judging module is specifically configured to judge whether the application server network address set includes target application server network address information. If the network address information of the target application server is determined to be included, the transmission module is specifically configured to perform accelerated transmission on the data packet to be accelerated by using an additional wide area network interface, and send the data packet to the target application server according to the network address information of the target application server.

Wherein, the data packet to be accelerated comprises: a VLAN header. The VLAN header includes VLAN identification information.

Optionally, the transmission module is specifically configured to obtain QoS configuration information configured for an application acceleration service subscribed by the user terminal in advance when an additional wan interface is used to accelerate transmission of a data packet to be accelerated. And inquiring VLAN priority corresponding to the VLAN identification information in the QoS configuration information. And adding the VLAN priority into a VLAN header, and transmitting the data packet to be accelerated to corresponding network element equipment by adopting an additional wide area network interface so that the network element equipment schedules and forwards the data packet to be accelerated according to the VLAN identification information and the corresponding VLAN priority to realize accelerated transmission.

Optionally, if the determining module determines that the target application server network address information is not included, the relationship binding module 1104 is further configured to add the target application server network address information to the application server network address set, so as to implement binding between the target application server network address information and the additional wan interface.

Optionally, the application acceleration apparatus provided by the present application further includes a unbinding instruction receiving module, a unbinding module, and an interface releasing module.

The first unbinding instruction receiving module is specifically configured to receive a first unbinding instruction sent by the gateway management platform, where the first unbinding instruction is generated by the gateway management platform according to a first application acceleration service cancellation request sent by the application acceleration service platform, and the first application acceleration service cancellation request is generated by the application acceleration service platform after determining that the application acceleration service of the user side is the only application acceleration service using the additional wan interface. The unbinding module is specifically configured to unbind the additional wan interface from the application server network address set according to the first unbinding instruction. The interface release module is specifically configured to release resources of the additional wan interface.

Optionally, in the application acceleration apparatus provided by the present application, the unbinding instruction receiving module is further configured to receive a second unbinding instruction sent by the gateway management platform, where the second unbinding instruction is generated by the gateway management platform according to a second application acceleration service cancelling request sent by the application acceleration service platform, and the second application acceleration service cancelling request is generated by the application acceleration service platform after determining that the application acceleration service of the user end is not the only application acceleration service using the additional wan interface. And the set acquisition module is further used for acquiring at least one piece of network address information of the application server to be cancelled in the second unbinding instruction according to the second unbinding instruction. The unbinding module is further used for deleting at least one piece of application server network address information to be cancelled from the application server network address set.

Example twelve

Fig. 12 is a structural diagram of an application acceleration device according to the present application. As shown in fig. 12, an application acceleration apparatus 1200 provided by the present application is located in an application acceleration platform, and the apparatus includes an order request receiving module 1201, an order request sending module 1202, an information receiving module 1203, and a configuration request sending module 1204.

An order request receiving module 1201, configured to receive an application acceleration service order request sent by a user end.

A subscription request sending module 1202, configured to send, according to the application acceleration service subscription request, an additional wide area network interface creation request to a corresponding gateway device through at least one network element device. The additional wan interface creation request is used to instruct the gateway device to create an additional wan interface, and the additional wan interface is used to transmit a data packet to be accelerated in the application acceleration service ordered by the user terminal.

An information receiving module 1203, configured to receive creation success feedback information sent by the gateway device through at least one network element device.

The configuration request sending module 1204 is further configured to send an aggregate configuration request to the gateway management device according to the creation success feedback information, where the aggregate configuration request is used to instruct the gateway device to obtain an application server network address aggregate, and bind the additional wide area network interface with the application server network address aggregate, where the application server network address aggregate includes at least one application server network address information.

Optionally, the application acceleration apparatus provided in the present application further includes an unsubscribe request receiving module, a determining module, and an unsubscribe request sending module.

The unsubscribe request receiving module is used for receiving an application acceleration service unsubscribe request sent by a user side;

a determining module, configured to generate a first application acceleration service cancellation request if it is determined that the application acceleration service ordered by the user side is the only application acceleration service using the additional wan interface;

and an unsubscribe request sending module, configured to send the first application acceleration service cancellation request to the gateway management platform, where the first application acceleration service cancellation request is used to instruct the gateway management platform to send a first unbinding instruction to the gateway device, and the first unbinding instruction is used to instruct the gateway device to release the binding between the additional wide area network interface and the application server network address set.

Optionally, the determining module is further configured to generate a second application acceleration service cancellation request if it is determined that the application acceleration service ordered by the user side is not the only application acceleration service using the additional wan interface;

and the unsubscribe request sending module is further configured to send the second application acceleration service cancellation request to the gateway management platform, where the second application acceleration service cancellation request is used to instruct the gateway management platform to send a second unbinding instruction to the gateway device, and the second unbinding instruction is used to instruct the gateway device to obtain at least one piece of application server network address information to be cancelled in the second unbinding instruction, and delete the at least one piece of application server network address information to be cancelled from the application server network address set.

EXAMPLE thirteen

Fig. 13 is a network configuration diagram of an application acceleration system provided in the present application. As shown in fig. 13, an application acceleration system provided in this embodiment of the present application includes a user end device, an application acceleration platform, a provincial network arrangement control system, a gateway management platform, and at least one network element device.

The at least one network element device comprises a core router, a broadband access server, an optical line terminal, a gateway device and the like.

The user terminal equipment orders the application acceleration service and sends ordering request information to the application acceleration platform. And the application acceleration platform receives the application acceleration ordering request and applies for creating an additional wide area network interface to the provincial network arrangement control system. The provincial network arrangement control system receives the interface establishment request, sequentially issues a QoS configuration instruction to the core router, the broadband access server, the optical line terminal and the gateway equipment, and simultaneously sends an interface establishment instruction to the gateway equipment. The gateway device successfully creates an additional wide area network interface, after the network element device is successfully configured, a configuration success message is fed back to the provincial network arrangement control system, the provincial network arrangement control system feeds back the configuration success message to the application acceleration platform, the application acceleration platform sends an application server network address set binding instruction to the gateway management platform, the gateway management platform sends the binding instruction to the gateway device, and the gateway device analyzes the instruction and binds the application server network address set in the binding instruction with the additional wide area network interface. When the gateway equipment receives the data packet and the destination address in the data packet belongs to the network address set element of the bound application server, the gateway equipment marks the priority identification on the data packet and sends the data packet to an additional wide area network interface for forwarding. And the data packet enters a preset scheduling queue and is sent to the network address of the application server according to a preset scheduling rule.

Example fourteen

Fig. 14 is a block diagram of a gateway device entity provided in the present application. As shown in fig. 14, an embodiment of the present application provides a gateway device 1400, including: a processor 1401, and a memory 1402 and a transceiver 1403 communicatively coupled to the processor 1401.

Memory 1402 stores computer-executable instructions. A transceiver 1403 for transceiving data.

The processor 1401 executes computer executable instructions stored by the memory to implement a method as in any of the first through seventh embodiments.

The processor 1401, the memory 1402, and the transceiver 1403 are connected by a bus 1404.

Fig. 15 is a block diagram of an application acceleration platform entity provided in the present application. As shown in fig. 15, a further application acceleration platform 1500 according to an embodiment of the present application includes: a processor 1501, and a memory 1502 and transceiver 1503 communicatively coupled to the processor 1501.

The memory 1502 stores computer-executable instructions. The transceiver 1503 transmits and receives data.

The processor 1501 executes computer-executable instructions stored by the memory 1502 to implement a method as in any of the eighth to tenth embodiments.

The processor 1501, memory 1502, and transceiver 1503 are connected by a bus 1504.

The embodiment of the present application further provides a computer-readable storage medium, in which computer-executable instructions are stored, and when the computer-executable instructions are executed by a processor, the computer-readable storage medium is configured to implement the method according to any one of embodiment one to embodiment seven or embodiment eight to embodiment ten.

In the several embodiments provided in the present application, it should be understood that the disclosed apparatus and method may be implemented in other ways. For example, the above-described apparatus embodiments are merely illustrative, and for example, a division of modules is merely a division of logical functions, and an actual implementation may have another division, for example, a plurality of modules or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, devices or modules, and may be in an electrical, mechanical or other form.

Modules described as separate parts may or may not be physically separate, and parts displayed as modules may or may not be physical modules, may be located in one place, or may be distributed on a plurality of network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, functional modules in the embodiments of the present application may be integrated into one processing module, or each of the modules may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware form, and can also be realized in a form of hardware and a software functional module.

Program code for implementing the methods of the present application may be written in any combination of one or more programming languages. These program codes may be provided to a processor or controller of a general purpose computer, special purpose computer, or other programmable compliance detection device such that the program codes, when executed by the processor or controller, cause the functions/acts specified in the flowchart and/or block diagram to be performed. The program code may execute entirely on the machine, partly on the machine, as a stand-alone software package partly on the machine and partly on a remote machine or entirely on the remote machine or server.

In the context of this application, a machine-readable medium may be a tangible medium that can contain, or store a program for use by or in connection with an instruction execution system, apparatus, or device. The machine-readable medium may be a machine-readable signal medium or a machine-readable storage medium. A machine-readable medium may include, but is not limited to, an electronic, magnetic, optical, electromagnetic, infrared, or semiconductor system, apparatus, or device, or any suitable combination of the foregoing. More specific examples of a machine-readable storage medium would include an electrical connection based on one or more wires, a portable computer diskette, a hard disk, a Random Access Memory (RAM), a read-only memory (ROM), an erasable programmable read-only memory (EPROM or flash memory), an optical fiber, a compact disc read-only memory (CD-ROM), an optical storage device, a magnetic storage device, or any suitable combination of the foregoing.

Further, while operations are depicted in a particular order, this should be understood as requiring that such operations be performed in the particular order shown or in sequential order, or that all illustrated operations be performed, to achieve desirable results. Under certain circumstances, multitasking and parallel processing may be advantageous. Likewise, while several specific implementation details are included in the above discussion, these should not be construed as limitations on the scope of this application. Certain features that are described in the context of separate embodiments can also be implemented in combination in a single implementation. Conversely, various features that are described in the context of a single implementation can also be implemented in multiple implementations separately or in any suitable subcombination.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the application being indicated by the following claims.

It will be understood that the present application is not limited to the precise arrangements that have been described above and shown in the drawings, and that various modifications and changes may be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (15)

1. An application acceleration method, applied to a gateway device, the method comprising:

receiving an extra wide area network interface establishing request sent by an application acceleration service platform through at least one network element device;

creating an additional wide area network interface according to the additional wide area network interface creating request, wherein the additional wide area network interface is used for transmitting a data packet to be accelerated in the application acceleration service ordered by the user side;

acquiring an application server network address set in application acceleration service ordered by a user side, wherein the application server network address set comprises at least one application server network address information;

and binding the additional wide area network interface with the application server network address set so as to adopt the additional wide area network interface to accelerate the transmission of the data packet to be accelerated when the data packet to be accelerated is transmitted, and sending the data packet to the application server according to the application server network address information in the bound application server network address set.

2. The method of claim 1, wherein obtaining the set of network addresses of the application server in the application acceleration service subscribed by the user terminal comprises:

receiving a binding instruction sent by a gateway management platform; the binding instruction is generated by a set configuration request sent by the application acceleration service platform to the gateway device and through at least one application server network address information extracted from the set configuration request;

and analyzing the binding instruction to obtain an application server network address set included in the binding instruction.

3. The method of claim 1, further comprising:

receiving a data packet to be accelerated and network address information of a target application server, which are sent by a user side;

judging whether the network address set of the application server side comprises the network address information of the target application server side or not;

and if the network address information of the target application server is determined to be included, accelerating transmission of the data packet to be accelerated is carried out by adopting an additional wide area network interface, and the data packet to be accelerated is sent to the target application server according to the network address information of the target application server.

4. The method of claim 3, wherein the data packet to be accelerated comprises: a VLAN header including VLAN identification information;

the accelerating transmission of the data packet to be accelerated by adopting an additional wide area network interface comprises the following steps:

acquiring QoS (quality of service) configuration information configured for application acceleration service ordered by the user side in advance;

inquiring VLAN priority corresponding to VLAN identification information in the QoS configuration information;

and adding the VLAN priority into a VLAN header, and transmitting the data packet to be accelerated to corresponding network element equipment by adopting an additional wide area network interface so that the network element equipment schedules and forwards the data packet to be accelerated according to the VLAN identification information and the corresponding VLAN priority to realize accelerated transmission.

5. The method of claim 3, wherein if it is determined that the target application server network address information is not included, the method further comprises:

and adding the target application server network address information into the application server network address set to realize the binding of the target application server network address information and the additional wide area network interface.

6. The method of claim 1, further comprising:

receiving a first unbinding instruction sent by a gateway management platform, wherein the first unbinding instruction is generated by the gateway management platform according to a first application acceleration service cancellation request sent by an application acceleration service platform, and the first application acceleration service cancellation request is generated by the application acceleration service platform after the application acceleration service platform determines that the application acceleration service of a user terminal uses the only application acceleration service of the additional wide area network interface;

unbinding the additional wide area network interface from the application server network address set according to the first unbinding instruction;

releasing resources of the additional wide area network interface.

7. The method of claim 1, further comprising:

receiving a second unbinding instruction sent by the gateway management platform, wherein the second unbinding instruction is generated by the gateway management platform according to a second application acceleration service cancellation request sent by the application acceleration service platform, and the second application acceleration service cancellation request is generated by the application acceleration service platform after determining that the application acceleration service of the user terminal is not the only application acceleration service using the additional wide area network interface;

acquiring at least one piece of network address information of the application server to be cancelled in the second unbinding instruction according to the second unbinding instruction;

and deleting at least one piece of application server network address information to be cancelled from the application server network address set.

8. An application acceleration method, which is applied to an application acceleration platform, and comprises the following steps:

receiving an application acceleration service ordering request sent by a user side;

according to the application acceleration service ordering request, an extra wide area network interface establishing request is sent to corresponding gateway equipment through at least one network element equipment; the additional wide area network interface creating request is used for indicating the gateway equipment to create an additional wide area network interface, and the additional wide area network interface is used for transmitting a data packet to be accelerated in the application acceleration service ordered by the user side;

receiving successful creation feedback information sent by the gateway equipment through at least one network element equipment;

and sending an aggregate configuration request to the gateway management equipment according to the successfully created feedback information, wherein the aggregate configuration request is used for indicating the gateway equipment to acquire an application server network address aggregate and binding the additional wide area network interface with the application server network address aggregate, and the application server network address aggregate comprises at least one application server network address information.

9. The method of claim 8, further comprising:

receiving an application acceleration service unsubscribe request sent by a user side;

if the application acceleration service ordered by the user side is determined to be the only application acceleration service using the additional wide area network interface, generating a first application acceleration service cancellation request;

and sending the first application acceleration service cancellation request to a gateway management platform, wherein the first application acceleration service cancellation request is used for instructing the gateway management platform to send a first unbinding instruction to a gateway device, and the first unbinding instruction is used for instructing the gateway device to release the binding between the additional wide area network interface and the application service end network address set.

10. The method of claim 9, further comprising:

if the application acceleration service ordered by the user side is determined not to be the only application acceleration service using the additional wide area network interface, generating a second application acceleration service cancellation request;

and sending the second application acceleration service cancellation request to a gateway management platform, wherein the second application acceleration service cancellation request is used for indicating the gateway management platform to send a second unbinding instruction to the gateway device, and the second unbinding instruction is used for indicating the gateway device to acquire at least one piece of network address information of the application service terminal to be cancelled in the second unbinding instruction and delete the at least one piece of network address information of the application service terminal to be cancelled from the network address set of the application service terminal.

11. An application acceleration apparatus, wherein the apparatus is located in a gateway device, the apparatus comprising:

the creation request receiving module is used for receiving an extra wide area network interface creation request sent by the application acceleration service platform through at least one network element device;

an interface creating module, configured to create an additional wan interface according to the additional wan interface creating request, where the additional wan interface is used to transmit a data packet to be accelerated in an application acceleration service ordered by a user side;

the system comprises a set acquisition module, a network address acquisition module and a network address acquisition module, wherein the set acquisition module is used for acquiring an application server network address set in application acceleration service ordered by a user side, and the application server network address set comprises at least one application server network address information;

and the relation binding module is used for binding the additional wide area network interface with the application server network address set so as to adopt the additional wide area network interface to accelerate the transmission of the data packet to be accelerated when the data packet to be accelerated is transmitted, and sending the data packet to the application server according to the application server network address information in the bound application server network address set.

12. An application acceleration apparatus, wherein the apparatus is located in an application acceleration platform, the apparatus comprising:

the ordering request receiving module is used for receiving an application acceleration service ordering request sent by a user side;

an order request sending module, configured to send, according to the application acceleration service order request, an extra wide area network interface creation request to a corresponding gateway device through at least one network element device; the additional wide area network interface creating request is used for indicating the gateway equipment to create an additional wide area network interface, and the additional wide area network interface is used for transmitting a data packet to be accelerated in the application acceleration service ordered by the user side;

the information receiving module is used for receiving the feedback information of successful creation sent by the gateway equipment through at least one network element equipment;

and the configuration request sending module is further configured to send a set configuration request to the gateway management device according to the creation success feedback information, where the set configuration request is used to instruct the gateway device to obtain an application server network address set, and bind the additional wide area network interface with the application server network address set, where the application server network address set includes at least one application server network address information.

13. A gateway device, comprising: a processor, and a memory and transceiver communicatively coupled to the processor;

the memory stores computer-executable instructions; the transceiver is used for transceiving data;

the processor executes computer-executable instructions stored by the memory to implement the method of any of claims 1-7.

14. An application acceleration platform, comprising: a processor, and a memory and transceiver communicatively coupled to the processor;

the memory stores computer execution instructions; the transceiver is used for transceiving data;

the processor executes computer-executable instructions stored by the memory to implement the method of any of claims 8-10.

15. A computer-readable storage medium having computer-executable instructions stored thereon, which when executed by a processor, perform the method of any one of claims 1-7 or 8-10.

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