CN108696587B - Network service implementation method, server and storage medium - Google Patents

Abstract

The invention discloses a network service implementation method, a server and a storage medium, wherein the method comprises the following steps: providing a specified product for an associated account of service node equipment, and acquiring a certificate transferred by the associated account of the service node equipment, wherein the certificate is transferred from the associated account of a business server to the associated account of the service node equipment; determining the income due to the service server; and transferring a certificate corresponding to the income acquisition to an associated account of the business server so as to obtain the service of a service network of the business server, wherein the service network is composed of service node equipment. According to the preferred embodiment of the invention, more service node devices can be stimulated to be added into the shared computing network, which is beneficial to forming good ecology of the network system.

Description

Network service implementation method, server and storage medium

Technical Field

The present invention relates to network technologies, and in particular, to a network service implementation method, a server, and a storage medium.

Background

At present, the fields of games, videos, live broadcasts, downloads and the like are developed rapidly. However, many network users still have network requirements for network acceleration and efficiency improvement. How to satisfy the demand becomes one of the problems to be solved by the industry.

Disclosure of Invention

In order to overcome the defects of the prior art, an object of the present invention is to provide a network service method, which can encourage more service node devices to join in a shared computing network, and is helpful for forming a good ecology of a network system.

In order to overcome the defects of the prior art, the invention also aims to provide a server which can stimulate more service node devices to be added into a shared computing network and is beneficial to forming a good ecology of a network system.

In order to overcome the disadvantages of the prior art, it is a further object of the present invention to provide a storage medium that can encourage more service node devices to join a shared computing network, which contributes to the formation of a good ecology of the network system.

One of the purposes of the invention is realized by adopting the following technical scheme:

a network service implementation method comprises the following steps:

providing a specified product for an associated account of service node equipment, and acquiring a certificate transferred by the associated account of the service node equipment, wherein the certificate is transferred to the associated account of the service node equipment from the associated account of a service server;

determining the income due to the service server;

and transferring a certificate corresponding to the income acquisition to an associated account of the business server so as to obtain the service of a service network of the business server, wherein the service network is composed of service node equipment.

The second purpose of the invention is realized by adopting the following technical scheme:

a server comprising a memory, a processor and a program stored in the memory, the program being configured to be executed by the processor, the processor when executing the program implementing the network service implementation method as described above.

The third purpose of the invention is realized by adopting the following technical scheme:

a storage medium storing a computer program which, when executed by a processor, implements a network service implementation method as described above.

According to the network service implementation method of the preferred embodiment of the invention, the network resource provider can provide network resource services to users of other network service providers across network platforms, and obtain incentives for providing the services. Meanwhile, the service range of the shared computing network can be extended, more service node devices can be stimulated to be added into the shared computing network, and more service node devices can provide better network service for more network users, so that good ecology of a network system is formed.

Drawings

Fig. 1 is an architecture diagram of a network service system according to a first embodiment of the present invention;

fig. 2 is a block diagram of a service node device according to an embodiment of the present invention;

fig. 3 is a block diagram of a service server in a network service system according to a second embodiment of the present invention;

fig. 4 is a block diagram of a client server in a network service system according to a second embodiment of the present invention;

fig. 5 is a block diagram of a service node device in a network service system according to a second embodiment of the present invention;

fig. 6 is a block diagram of a service server in a network service system according to a third embodiment of the present invention;

fig. 7 is a block diagram of a service server in a network service system according to a fourth embodiment of the present invention;

fig. 8 is a block diagram of a service server in a network service system according to a fifth embodiment of the present invention;

fig. 9 is a flowchart of a network service method according to a sixth embodiment of the present invention;

FIG. 10 is a schematic diagram of the data storage flow in the embodiment of FIG. 9;

FIG. 11 is a schematic diagram of a data acquisition flow in the embodiment of FIG. 9;

FIG. 12 is a schematic flow chart of calculating a first benefit in the embodiment of FIG. 9;

FIG. 13 is a schematic flow chart of calculating a second benefit in the embodiment of FIG. 9;

fig. 14 is a flowchart of a network service method according to a seventh embodiment of the present invention;

fig. 15 is a block diagram of a server according to an eighth embodiment of the present invention.

Detailed Description

The present invention is further described with reference to the accompanying drawings and the detailed description, and it should be noted that any combination of the following embodiments or technical features can be used to form a new embodiment without conflict.

Example one

Fig. 1 is a system architecture diagram of one embodiment of a network service system of the present invention, the network service system comprising: the first server, the plurality of service node devices, the second server and the plurality of first client terminals are all accessed to a network and can be connected and communicated with each other, the first server, the plurality of service node devices and the second server are respectively provided with associated accounts, wherein:

the first server is used for calculating a first income acquired by each of the plurality of service node devices, distributing a certificate corresponding to the first income to each of the associated accounts of the plurality of service node devices through the associated account of the first server, and acquiring the certificate transferred by the associated account of the second server. Wherein the first benefit results from the service node apparatus providing service to at least some of the plurality of first client terminals.

The service node device is used for providing network services for the plurality of first client terminals, acquiring the certificate distributed by the associated account of the first server through the associated account of the first client terminals, and transferring the certificate to the associated account of the second server to obtain the product of the second server.

The second server is configured to obtain the credential transferred by the associated account of the service node device through the associated account of the second server, and transfer the credential corresponding to a second benefit obtained by the first server to the associated account of the first server, where the second benefit is generated by the plurality of service node devices providing network services to the plurality of first client terminals.

Preferably, the network service system of this embodiment further includes a plurality of second client terminals and a third server.

The service node device is further configured to provide network services to the plurality of second client terminals, and transfer the credentials to an associated account of the third server through the associated account to obtain products of the third server.

The third server is configured to receive the credential transferred by the associated account of the service node device through the associated account thereof, and transfer the credential corresponding to a third benefit earned by the first server to the associated account of the first server.

It is understood that the first benefit due to each service node device calculated by the first server may include both the benefit due to the service provided to the plurality of first client terminals and the benefit due to the service node device provided to the plurality of second client terminals and to the other network devices.

It will be appreciated that the associated account of the service node device, the first server or the second server includes an account belonging to an owner or manager of the service node device, the associated account of the first server includes an account belonging to an owner or manager of the first server, and the associated account of the second server includes an account belonging to an owner or manager of the second server. The associated account of the service node device, the first server or the second server is not limited to be on the service node device, the first server or the second server, but also includes other network devices.

In embodiments of the invention, the voucher includes one or more of a virtual card ticket, credit, virtual currency, block chain token and other electronic billing units. The blockchain tokens are generated using a Proof of Work (POW) mechanism and/or a Proof of entitlement (POS) mechanism.

The service provided by the service node device to the first client terminal and/or the second client terminal comprises part or all of storage space, bandwidth and computing service. The network may be a wired or wireless network such as the internet, Global System for Mobile communications (GSM), Wideband Code Division Multiple Access (WCDMA), 4G, 5G, bluetooth, Wi-Fi, etc.

The first server is also called a service server. The first server and the managed service node devices jointly form a service network, and network services are provided for the second server and the plurality of first client terminals and/or the third server and the plurality of second client terminals, so that benefits are obtained.

The first server may be a computer, a single web server, a server group of multiple web servers, or a cloud based on cloud computing consisting of a large number of hosts or web servers.

The service node device may be a general-purpose computing device accessing to a network system, or may be a dedicated network device, and such devices all have a certain storage space, a certain computing capability, and communication, hardware capability, network capability accessing to the internet, and the like. In this embodiment, the serving node device is a P2P node device.

In a preferred embodiment, the service node device is a smart storage device, such as a guest cloud. Fig. 2 shows a block diagram of an intelligent storage device, which includes a processor and a memory storing a computer program.

The memory includes at least one type of readable storage medium including a flash memory, a hard disk, a multimedia card, a card type memory (e.g., SD or DX memory, etc.), a Random Access Memory (RAM), a Static Random Access Memory (SRAM), a Read Only Memory (ROM), an Electrically Erasable Programmable Read Only Memory (EEPROM), a Programmable Read Only Memory (PROM), a magnetic memory, a magnetic disk, an optical disk, etc. The memory stores an operating system installed in the service node device, various application software, data, and the like.

The processor may be a Central Processing Unit (CPU), controller, microcontroller, microprocessor, or other data processing chip in some embodiments. The processor is typically used to control the overall operation of the server.

The intelligent storage device also comprises a network interface module. The network interface module may include a wired network interface module and/or a wireless network interface module. Through the network interface module, the intelligent storage device can be connected with the user terminal and other network devices accessed into the network. The user terminal in this embodiment refers to a user terminal used by an owner or manager of the intelligent storage device, and the user terminal and the intelligent storage device may be connected through a wired network or a wireless network. The other network devices include the first client terminal, the second client terminal, and terminal devices of other users on the network, other smart storage devices, cloud storage servers, various network resource servers, and the like in this embodiment.

Preferably, the smart storage device further comprises a memory interface module. The memory interface module may include a wired memory interface module and/or a wireless memory interface module. Through the memory interface module, the smart storage device can be connected with nearby external storage devices, such as mobile storage devices like memory cards, mobile hard disks, and U disks. The storage may be an internal storage unit of the service node device, such as a hard disk or a memory, or an external storage device of the service node device, for example, a plug-in external storage device connected to the service node device through a wired memory interface, such as a hard disk, a Smart Media Card (SMC), a Secure Data (SD) Card, a Flash memory Card (Flash Card), or the like, or an external storage device connected to the service node device through a wireless memory interface. It is to be understood that the smart storage device may or may not be an external storage device.

The intelligent storage device is configured to perform local data management and data transmission management on the peripheral entity storage device, the user terminal and/or the network device through the storage interface module and/or the network interface module. For example, an owner or manager of the smart storage device may perform data transmission between its user terminal and the external storage device and the network device via the smart storage device, including, for example, storing user data in the user terminal to the external storage device or uploading the user data to the network device via the smart storage device, transmitting resources in the external storage device or resources in the network device to the user terminal via the smart storage device, and performing data transmission between the external storage device and the network device via the smart storage device. Such data may include, for example, video, photos, voice, text, etc.

The first client terminal may obtain services from a certain service node device or devices, and may be, for example, a mobile device such as a mobile phone, a smart phone, a notebook computer, a digital broadcast receiver, a PDA (personal digital assistant), a PAD (tablet computer), a PMP (portable multimedia player), a navigation device, a car-mounted device, etc. in which a video player, live broadcast software, etc. are installed, and a fixed device such as a digital TV, a desktop computer, a server, etc.

The second server is also called a client server and provides network data services such as movie and television, live broadcast and the like for the first client terminal. In this embodiment, after the second server owner allows the second server owner to pass through the service server owner, the second server owner may distribute the data to the service node device managed by the service server, so as to provide services such as faster data download for the first client terminal by using the storage capacity and bandwidth of the mass service node device. It should be noted that the second server may distribute a complete file to each service node device, or may distribute the file to different service node devices after dividing the file into a plurality of data blocks.

Similarly, the second client terminal may also obtain services from a certain service node device or devices, for example, a removable device or a fixed device, for example, with another video player, live broadcast software, etc. installed. And the third server provides network data services such as movie and television, live broadcast and the like for the second client terminal.

The second server and the third server belong to different network service providers respectively, and may be a computer, a single network server, a server group composed of a plurality of network servers, or a cloud based on cloud computing and composed of a large number of hosts or network servers.

It can be understood that the service network formed by the service server and the service node device in the invention can also provide services for client servers of more network service providers and client terminals thereof.

In this embodiment, the credential may be generated using a workload proof mechanism. The service node device can provide network service, and the service server can distribute the voucher to the associated account of the service node device through the associated account, and if the service amount provided by a certain service node device is large and the contribution value is large, more vouchers are distributed to the account associated with the service node device. It will be appreciated that the associated account of the service server may also distribute part of the credentials to the associated account of the service node device and pay part of the legal tender.

It is to be appreciated that in further embodiments, the credentials may be generated using a rights attestation mechanism. The service server may also determine the amount of credentials distributed to the associated account of the service node device via the associated account according to the amount of credentials in the associated account of the service node device and/or the time to obtain the credentials. The larger the number of credentials for the associated account of the service node device, the longer the credentials are obtained, the more credentials are distributed to the associated account of the service node device. Alternatively, the amount of service provided by the service node device and the amount of credentials in the associated account of the service node device and/or the time to obtain credentials may also be combined to determine the amount of credentials distributed to the associated account of the service node device.

The credentials in the associated account of the service node device may be transferred to the associated account of the client server to obtain the product of the client server. For example, an owner of an associated account of a service node device may transfer a certain amount of credentials to obtain a product by specifying the product in a mall of a client server. In a preferred embodiment, the owner of the associated account of the service node device may cause the client server to give the associated client terminal account authority to obtain specific data by transferring credentials. For example, the owner of the associated account of a certain service node device simultaneously has a registered account number of the client server, and the associated account number may pay a certain credential to the associated account of the client server, so that the client server upgrades the registered account number to a member who has authority to obtain specific data, or so that the client server may provide tickets or points to the registered account number, so that the user of the registered account number may obtain the specified data.

Further, the client server may subscribe to the service server with the credentials obtained from the associated account of the service node device, so that the service server may respond to the service request of the client server, and the corresponding service node device may provide data, bandwidth, etc. to the client terminal.

It is understood that, in this embodiment, the credential corresponding to the second benefit earned by the first server transferred by the client server to the associated account of the service server through the associated account thereof may be a credential corresponding to the value of the second benefit, or may be a credential lower than the value of the second benefit (for example, in a case where the associated account of the service node device transfers only part of the credential to purchase a product from the client server, all of the credentials of the associated account of the client server may not be sufficient to pay for the second benefit of the service server). In the latter case, the owner of the client server may also pay a portion of the legal tender to the owner of the service server, thereby allowing the owner of the service server to obtain a complete profit.

In a preferred embodiment, the credential is a blockchain credential. The first server may generate a predetermined number of blocks and block chain credentials at predetermined regular times. The generated tiles may be used to store transaction records of the blockchain credentials. When the associated account of the first server distributes the credentials to the associated accounts of the plurality of service node devices, the new blockchain credentials generated by the first server within a predetermined time period and the previously generated blockchain credentials acquired from the other party (e.g., the client server or the service node device) may be distributed according to the contribution of each service node device.

As an example, the first server generates M blockchain credentials and N blockchain credentials every S seconds, and when the credentials are distributed for the first time, the distributed credentials may be distributed by using the generated blockchain credentials as a total amount, and then, after the distributed credentials are circulated between the associated account of the service node device and the associated account of the client server, part or all of the distributed credentials may return to the associated account of the first server again. When the credential is distributed again, the first server may distribute the new blockchain credential generated after the first distribution and the blockchain credential recirculated back to the first server as the total amount. After a predetermined condition is reached, for example, the generated blockchain voucher reaches a predetermined threshold, or the generated blockchain voucher has passed a predetermined time period, the number of blockchain vouchers generated by the first server at regular time is reduced, for example, by half, and after the blockchain voucher is generated after the reduction by half and meets the above condition, the number of generated blockchain vouchers is continuously reduced. By limiting the generation of blockchain vouchers, it can be ensured that the value of the generated blockchain vouchers is not lost.

In the network service system of the embodiment of the invention, the network resource provider can provide network resource service to users of other network service providers across network platforms and obtain incentive due to service provision. Meanwhile, the service range of the shared computing network can be extended, more service node devices can be stimulated to be added into the shared computing network, and more service node devices can provide better network service for more network users, so that good ecology of a network system is formed.

Example two

The network service system of this embodiment is similar to the network service system of the first embodiment, and the difference is that in this embodiment, as shown in fig. 3, the service server further includes a network access request receiving unit, a list management unit, a first service request obtaining unit, a first node list generating unit, and a first list sending unit; wherein:

and the network access request receiving unit is used for receiving the network access request of the service node equipment.

And the list management unit is used for adding the service node equipment into a service node equipment list according to the network access request.

The service server adds the service node equipment into the service network according to the network access request of the service node equipment, and then the service node equipment can provide service for the client terminal and obtain corresponding benefits.

The first service request acquiring unit is used for acquiring a first service request of the client server.

When a client server needs to distribute certain data to service node equipment, a service request is sent to a service server first, so that the service server provides the service server with information of the service node equipment capable of storing the data and transmitting the data.

As a preferred embodiment, the service request includes the number of demand nodes and the node condition requirement. For example, the client server needs to distribute certain data to 5 ten thousand node devices that meet the condition of a certain node.

In a preferred embodiment, the node condition requirement includes at least one of a storage space, a node bandwidth, and a geographical distribution.

For example, if a certain data size is 100Mb, then the storage space in the node condition requirement may be more than 100Mb, and the node bandwidth may require more, and if a certain data size is 10Mb, then the storage space in the node condition requirement may be more than 10Mb, and the node bandwidth may require less. In addition, since the number of client terminals using certain data is different in different regions, the service server may be required to allocate more node devices in places where the number of client terminals is large, and to allocate less node devices in places where the number of client terminals is small. For example, the geographical distribution may be 1 ten thousand node devices in the Guangdong, 500 node devices in Tibet, and so on.

And the first node list generating unit is used for generating a first target service node equipment list according to the first service request.

After a certain service node device is started to access a network, a service server can acquire network access information of the service node device and also can acquire information of storage space, bandwidth, region where the service node device is located and the like of the service node device. Therefore, when the service server receives the service request of the client server, some service node devices meeting the request can be determined as target node devices for storing corresponding data according to the service request, and a target service node device list is generated. The list of target serving node devices includes network addresses of these target node devices.

A first list sending unit, configured to send the first target serving node device list to the client server, so that the client server distributes data to serving node devices in the target serving node device list.

The client server receives the list of target service node devices and may distribute data to the service node devices based on the network addresses of the target service node devices. Preferably, the serving node devices may further send the received data to other serving node devices (also called extended serving node devices) outside the target serving node device list.

In this embodiment, as shown in fig. 4, the client server further includes:

and the second service request receiving unit is used for receiving a second service request of the client terminal. Wherein the second service request may be a data request.

The client terminal is provided with a program corresponding to the client server, such as an entertainment player, a data downloader, and the like. When a client terminal needs certain data, for example a certain video file, a data request is sent to a client server; the data request may include a hash value of the data.

And the second node list generating unit is used for generating a second target service node equipment list according to the second service request.

After the client server distributes the data to the service node device, the client server can statistically know which data are stored in which node devices according to the information fed back by the service node device. After receiving a data request from a client terminal, one or more service node devices may be designated as source node devices according to the data request. As a preferred mode, the data request includes location information of the client terminal, and the client server preferentially designates a serving node device close to the client terminal as a source node device, and generates a second target serving node device list, where the list includes a network address of the source node device.

A second node list sending unit, configured to send the second target serving node device list to the client terminal.

The second target service node device list includes the network address of the source node device, so that the client terminal can obtain the required data from the source node device according to the network address of the source node device for subsequent operations, such as playing video.

In this embodiment, as shown in fig. 5, the service node device further includes:

and the data storage unit is used for storing the service data of the client server.

After receiving the target service node device list, the client server may distribute the service data to the service node devices in the list according to the network address of the target service node device. And the data storage unit of the service node equipment stores the distributed service data.

And the data request receiving unit is used for receiving the service data request of the client terminal.

After receiving the second target service node device list sent by the client server, the client terminal may initiate a service data request to a network address of at least one service node device in the list. A data request receiving unit of the service node device receives a service data request of the client terminal.

And the data sending unit is used for sending corresponding service data to the client terminal according to the service data request.

After a data request receiving unit of the service node device receives a service data request of the client terminal, a data sending unit sends corresponding service data to the client terminal according to the service data request, so as to provide subsequent operations of the client terminal, such as video playing and the like.

In this embodiment, the service server performs statistics on the online state, the hardware capability, the network capability, and the like of each service node device, and provides a network address of a service node device capable of storing data to the client server according to a service request of the client server, so that the service server can provide support for the client server, and can provide services such as faster data download for the client terminal by using the storage capability and the bandwidth of a large number of node devices.

EXAMPLE III

The network service system of this embodiment is similar to the network service system of the first embodiment, except that, in this embodiment, as shown in fig. 6, the service server further includes:

a first service volume acquiring unit, configured to acquire service volumes of the plurality of service node devices.

Preferably, the service node device is provided with a program for interacting with the service server. The program may be installed in the service node device in the form of a plug-in, preferably a plug-in provided by a service server administrator, which may run in a sandbox of the service node device.

The service server may obtain the service volume of the service node device by accessing a program built in the service node device. The services provided by the service node device include, for example, storage space, bandwidth, computing services, and the like. Specifically, the service node device may count the service amount of different services provided by the service node device, for example, the statistics of the storage space is MB days (which represents that 1MB of storage space is occupied, and the time of day), the statistics of the bandwidth is MB, and the statistics of the computing service is seconds.

When the service network of the service server only provides services for the second server and the client terminals thereof, the respective service volume of each service node device is the sum of the service volumes provided by each client terminal. When the service network of the service server provides services for different network service providers, for example, when the service network also provides servers for the third server and the second client terminal, the respective service volumes of the service node devices are the sum of the service volumes provided by the first client terminal, the second client terminal and other network devices.

And the first profit calculation unit is used for calculating the first profits respectively obtained by the plurality of service node devices according to the acquired respective service quantities of the plurality of service node devices.

The traffic server may determine the revenue value that the serving node device should receive per unit of service. After the first service volume obtaining unit obtains the service volumes of different services provided by one service node device, the first profit calculating unit determines the first profit obtained by the service node device according to the profit value corresponding to the unit service volume. After determining the first benefit, the service server transfers the corresponding certificate to the associated account of the node device through the associated account.

Example four

The network service system of this embodiment is similar to the network service system of the first embodiment, except that, in this embodiment, as shown in fig. 7, the service server further includes a second service volume obtaining unit and a second profit calculating unit:

the second service volume obtaining unit is used for obtaining the total service volume provided by the plurality of service node devices to the plurality of client terminals.

In this embodiment, the second service volume obtaining unit further includes:

and the first acquisition unit is used for respectively acquiring the service quantities acquired by the client terminals from the service node devices.

The service server may obtain the service volume obtained by each client terminal from the plurality of service node devices by accessing a program built in each client terminal.

Preferably, the client terminal device may count the service volume provided by each service node device, and then summarize the service volume provided by each service node device. The program built in the client terminal may be a plug-in provided by a service server manager.

And the first statistical unit is used for summarizing the service volume obtained by each client terminal and obtaining the total service volume provided by the plurality of service node devices to the plurality of client terminals.

Specifically, each client terminal may count the service volume of different services acquired from the plurality of service node devices, and the service server may count the total service volume of different services provided by the plurality of service node devices for the plurality of client terminals.

And the second profit calculation unit is used for calculating the second profit according to the service total amount.

The traffic server may determine the revenue value that the serving node device should receive per unit of service. After the second service volume obtaining unit obtains the total service volume provided by the plurality of service node devices to the plurality of client terminals, the second profit calculating unit determines the obtained second profit according to the profit value corresponding to the unit service volume. After determining the second benefit, the associated account of the service server obtains a corresponding credential from the associated account of the client server.

It can be understood that before the client server transfers the voucher to the associated account of the service server through the associated account, the total service amount of each service node device obtained by each client terminal served by the client server is counted, so as to determine the number of the voucher to be transferred, and when the counted total service amount or the determined voucher amount is compared and confirmed to be consistent with the total service amount counted by the service server or the number of the voucher to be received, the transfer is performed.

EXAMPLE five

The network service system of this embodiment is similar to the network service system of the first embodiment, and the difference is that, in this embodiment, as shown in fig. 8, the service server further includes a second service volume obtaining unit and a second profit calculating unit:

the second service volume obtaining unit is used for obtaining the total service volume provided by the plurality of service node devices to the plurality of client terminals.

In this embodiment, the second service volume obtaining unit further includes:

and a second obtaining unit, configured to obtain service volumes provided by each service node device to the plurality of client terminals respectively.

The service server may obtain the service volume provided by each service node device to the plurality of client terminals by accessing a program built in the service node device. Specifically, the service node device may count the service volume provided by the service node device for each client terminal, and then summarize the service volume provided by the service node device for each client terminal.

And a second statistical unit, configured to summarize the service volumes provided by the service node devices to the client terminals, so as to obtain a total service volume provided by the service node devices to the client terminals.

Specifically, the service node device may count the service volume of different services provided for each client terminal. The service server can count the total service amount of different services provided by the plurality of service node devices for the plurality of client terminals.

And the second profit calculation unit is used for calculating the second profit according to the service total amount.

The traffic server may determine the revenue value that the serving node device should receive per unit of service. After the second service volume obtaining unit obtains the total service volume provided by the plurality of service node devices to the plurality of client terminals, the second profit calculating unit determines the obtained second profit according to the profit value corresponding to the unit service volume. After determining the second benefit, the business server obtains corresponding credentials from the associated account of the client server through the associated account of the business server.

It can be understood that before the client server transfers the voucher to the associated account of the service server through the associated account, the total service amount of each service node device obtained by each client terminal served by the client server is counted, so as to determine the number of the voucher to be transferred, and when the counted total service amount or the determined voucher amount is compared and confirmed to be consistent with the total service amount counted by the service server or the number of the voucher to be received, the transfer is performed.

It can be understood that the service server described in the second to fifth embodiments corresponds to the second server in the first embodiment, and the client terminal corresponds to the first client terminal in the first embodiment.

It is understood that several of the above embodiments may be combined with each other to form further embodiments, for example, in one embodiment, two, three, four embodiments may be combined together; alternatively, the second, third, fifth, etc. embodiments may be combined together.

EXAMPLE six

Fig. 9 is a flowchart of an embodiment of a network service implementation method of the present invention, including:

s91, the plurality of service node devices provide at least network services to the plurality of client terminals.

S92, the first server calculates a first benefit obtained by each of the plurality of service node devices, and distributes a credential corresponding to the first benefit to an associated account of each of the plurality of service node devices through the associated account. Wherein the first benefit is generated by each of the service node devices providing network services to the first client terminal

S93, the associated account of the service node device obtains the certificate distributed by the associated account of the first server.

S94, the associated account of the service node device transfers the certificate to a second server to obtain the product of the second server, and the associated account of the second server charges the certificate transferred by the associated account of the service node device.

S95, transferring the credential corresponding to a second benefit earned by the first server to the associated account of the first server by the associated account of the second server, the second benefit being generated by the plurality of service node devices providing the network service to the plurality of client terminals.

The service node device, the client terminal, the first server, and the second server in this embodiment correspond to the service node device, the client terminal, the first server, and the second server in the foregoing embodiments, respectively, and are not described again.

Preferably, in S91, the plurality of service node devices provide at least some or all of the network services including storage space, bandwidth, and computing services to the plurality of client terminals. The storage space and bandwidth may be referred to as a data service. The following description will be made in detail by taking a data service as a specific example, wherein the first server is also called a business server, and the second server is also called a client server.

Before the service node device provides network service to the client terminal, the data storage process on the service node device is completed. As a preferred embodiment, referring to fig. 10, the data storage process includes:

s101, the service node equipment sends a network access request of the service node equipment to the service server, and the service server receives the network access request of the service node equipment.

And S102, the service server adds the service node equipment into a service node equipment list according to the network access request.

The service node device enters the service node device list, namely, the service node device is added into the service network, and then the service node device can provide services for the client terminal and obtain corresponding benefits.

S103, the client server sends a first service request to the service server, and the service server receives the first service request of the client server.

When a client server needs to distribute certain data to service node equipment, a service request is sent to a service server first, so that the service server provides the service server with information of the service node equipment capable of storing the data and transmitting the data. Preferably, the service request includes a required node number and a node condition requirement.

S104, the service server generates a first target service node equipment list according to the first service request.

Preferably, the service server may determine, according to information such as an online state, a storage space, a bandwidth, and a location of the device in the service node device list, some service node devices that meet requirements of the number of required nodes and node conditions in the first service request as target node devices for storing corresponding data, and generate the first target service node device list.

S105, the business server sends the first target service node equipment list to the client server, and the client server receives the first target service node equipment list.

S106, the client server distributes data to each service node device in the first target service node device list, and the service node devices store the data. It can be understood that the client server may distribute a complete file to each service node device, or may distribute the file to different service node devices after dividing the file into a plurality of data blocks.

After the service node equipment stores the data, the service node equipment can also send the data to the extended service node for storage.

After the data storage on the service node device is completed, the client terminal obtains a service (in this embodiment, obtains the stored service data) from the service node. As a preferred implementation, referring to fig. 11, the data obtaining process of the client terminal includes:

s111, the client terminal sends a second service request to the client server, and the client server receives the second service request of the client terminal. Wherein the second service request is a data request.

And S112, the client server generates a second target service node equipment list according to the second service request.

S113, the client server sends the second target service node equipment list to the client terminal, and the client terminal receives the second target service node equipment list.

S114, the client terminal initiates a service data request to at least one service node device in the second target service node device list, and the service node device receives the service data request of the client terminal.

And S115, the service node equipment sends corresponding service data to the client terminal according to the service data request.

The data storage process and the data acquisition process correspond to the technical solution in the second embodiment, and are not described again.

As a preferred embodiment, referring to fig. 12, the calculating the first revenue due to each of the plurality of service node devices in S92 includes:

s121, obtaining respective service volumes of the plurality of service node devices.

Preferably, each service node device may send the sum of the service amounts of the services provided to each client terminal and other network devices to the service server through a program interacting with the service server.

And S122, calculating first benefits obtained by the plurality of service node devices according to the acquired service quantities of the plurality of service node devices.

The service server may calculate first revenue respectively obtained by each service node device according to the revenue value obtained by the determined unit service volume of each service of the service node device and the obtained service volume of each service node device.

Preferably, in S94, the credentials in the associated account of the service node device may be transferred to the associated account of the client server, thereby obtaining the product of the client server. For example, an owner of an associated account of a service node device may transfer a certain amount of credentials to obtain a product by specifying the product in a mall of a client server. The designated product can be part or all of member rights, virtual cards, credits, specific services and physical products. In a preferred embodiment, the owner of the associated account of the service node device may cause the client server to give the associated client terminal account authority to obtain specific data by transferring credentials. For example, the owner of the associated account of a certain service node device simultaneously has a registered account number of the client server, and the associated account can transfer a certain certificate to the client server, so that the client server upgrades the registered account number to a member, the member has authority to obtain specific data, or the client server can provide cards or credits and the like to the registered account number, so that the user of the registered account number can obtain the specific data. It will be appreciated that the owner of the associated account of the service node device may also transfer credentials to the associated account of the service server to obtain other services for a specified product, such as cloud storage space, digital content, accelerated downloads, and the like.

As a preferred embodiment, referring to fig. 13, the second profit due to the first server in S95 is calculated by:

s131, obtaining the total service quantity provided by the service node devices to the client terminals.

Optionally, in an implementation manner, the service server may obtain the service volume obtained by each client terminal from the multiple service node devices by accessing a program built in each client terminal, and preferably, the client terminal device may count the service volume provided by each service node device, and then summarize the service volume provided by each service node device. Then, the service server may collect the service volumes obtained by the respective client terminals, and obtain a total service volume provided by the plurality of service node devices to the plurality of client terminals. The program built in the client terminal may be a plug-in provided by a service server manager.

Optionally, in another implementation manner, the service server may obtain, by accessing a program built in each service node terminal, the service amount provided by each service node device to the plurality of client terminals, specifically, the service node device may count the service amount provided by the service node device for each client terminal, and then summarize the service amount provided by the service node device for each client terminal. And then, the service server collects the service volume provided by each service node device, and obtains the total service volume provided by the service node devices to the client terminals. The program built in the service node terminal may be a plug-in provided by a service server manager.

Specifically, the service server may count the total service amount of different services provided by the plurality of service node devices for the plurality of client terminals.

S132, calculating a second benefit obtained by the first server according to the total service amount.

The revenue value due to the unit service volume per service of the serving node device may be determined. And after the total amount of the services provided by the plurality of service node devices to the plurality of client terminals is obtained, determining the corresponding second benefits according to the benefit values corresponding to the unit service volume. After determining the second benefit, the business server obtains corresponding credentials from the associated account of the client server through the associated account of the business server.

It can be understood that before the client server transfers the voucher corresponding to the second benefit to the associated account of the service server through the associated account, the total amount of the services of the plurality of service node devices from the plurality of client terminals is counted, so as to determine the number of the voucher to be transferred, and when the counted total amount of the services or the determined number of the vouchers is compared and confirmed to be consistent with the total amount of the services counted by the service server or the number of the vouchers to be received, the transfer is performed.

Optionally, in an implementation manner, the client server may obtain the service volume obtained by each client terminal from the multiple service node devices by accessing a program built in each client terminal, and preferably, the client terminal device may count the service volume provided by each service node device, and then summarize the service volume provided by each service node device. Then, the client server may collect the service volumes obtained by the respective client terminals, and obtain a total service volume provided by the plurality of service node devices to the plurality of client terminals. The program built in the client terminal may be a plug-in provided by the client server administrator.

Optionally, in another implementation manner, the client server may obtain the service volume provided by each service node device to the plurality of client terminals by accessing a program built in each service node terminal, specifically, the service node device may count the service volume provided by the service node device for each client terminal, and then summarize the service volume provided by the service node device for each client terminal. And then, the client server collects the service quantity provided by each service node device, and obtains the total service quantity provided by the service node devices to the client terminals. The program built in the service node terminal may be a plug-in provided by a client server manager.

EXAMPLE seven

Fig. 14 shows a flow diagram of another embodiment of a network service implementation method of the present invention, which may be performed by a client server, comprising:

s141, providing a specified product for the associated account of the service node device, and acquiring a certificate transferred by the associated account of the service node device, wherein the certificate is transferred to the associated account of the service node device from the associated account of the service server.

It will be appreciated that the associated account of the service node device for obtaining the specified product may be the same account as the associated account for transferring the credentials, or may be a different account.

Wherein the specified product may be part or all of membership rights, virtual cards, credits, specific services. The voucher includes one or more of a virtual coupon, credit, virtual currency, block chain voucher. Preferably, the certificate is a block chain certificate generated by the service server.

In a preferred embodiment, before providing the specified product to the associated account of the service node device and obtaining the credential transferred from the associated account of the service node device, the method further comprises:

receiving order information sent by the service node equipment or the associated equipment of the service node equipment, generating a transfer request according to the order information, and returning the transfer request to the service node equipment or the associated equipment of the service node equipment, wherein the order information comprises identification information of a product specified by a user; the order information is generated in a business server program or a webpage, or generated in a client server program or a webpage.

The associated device of the service node device refers to any other network device, such as a mobile phone, a tablet computer, etc., used by an owner or manager of the service node device, as long as the order can be generated on the network device and the order can be associated with an associated account of the service node device for transferring the credentials.

S142, determining the income due of the service server.

According to one embodiment, said determining the earnest benefit of the service server comprises: acquiring the total amount of services provided by a plurality of service node devices to a plurality of client terminals; and calculating the income of the business server according to the total service amount.

According to one embodiment, the obtaining of the total amount of the services provided by the plurality of service node devices to the plurality of client terminals includes: respectively acquiring the total amount of services provided by each service node device to the plurality of client terminals; and summarizing the acquired service total amount of each service node device.

Preferably, the total amount of services provided to the plurality of client terminals may be counted in a program for accessing the service server installed in the service node device. The program may be installed in the service node device in the form of a plug-in, preferably a plug-in provided by a service server administrator, which may run in a sandbox of the service node device.

According to another embodiment, the counting total amount of services provided by the plurality of service node devices to the plurality of client terminals includes: respectively acquiring the total service quantity acquired by each client terminal from the plurality of service node devices; and summarizing the acquired total service amount acquired by each client terminal.

Preferably, the total amount of services obtained by each client terminal from the plurality of service node devices may be counted by a program accessing a client server installed in the client terminal. The program may be installed in the service node device in the form of a plug-in, preferably a plug-in that may be provided by the client server administrator, which may run in a sandbox of the service node device.

According to another embodiment, the service node device provides a plurality of different services to the client terminal. The acquiring of the total amount of services provided by the plurality of service node devices to the plurality of client terminals includes: and respectively acquiring the service total amount of different types of services provided by the plurality of service node devices to the plurality of client terminals. Calculating the income due to the service server according to the total service amount comprises the following steps: and calculating the income of the business server according to the service total amount of the different types of services respectively acquired.

S143, transferring the certificate corresponding to the acquired income to the associated account of the business server to obtain the service of the service network of the business server, wherein the service network is composed of service node equipment.

Preferably, the services include part or all of storage space, bandwidth, and computing services.

It is understood that the value of the voucher corresponding to the income is equal to the income; or the value of the voucher corresponding to the earned income is less than the earned income, the method further comprising: and paying the legal currency to an associated account of the business server, wherein the sum of the voucher corresponding to the income and the value of the legal currency is equal to the income.

In a preferred embodiment, before or after S143, the method further includes: sending a service request to the service server; receiving a first target service node equipment list which is sent by the service server and generated according to the service request; and distributing data to the service node equipment in the first target service node equipment list.

After the data distribution, the method may further include: receiving a data request sent by a client terminal; generating a second target service node equipment list according to the data request; and sending the second target service node equipment list to the client terminal so that the client terminal can acquire data from the service node equipment in the second target service node equipment list.

According to one embodiment, the accrual is a first accrual, and transferring the certificate corresponding to the accrual to the service server includes: obtaining a second accrual income calculated by the service server; and comparing the second income acquisition with the first income acquisition, and transferring a certificate corresponding to the first income acquisition to an associated account of the service server if the size relationship between the second income acquisition and the first income acquisition meets a preset condition.

According to another embodiment, the service aggregate is a first service aggregate, and transferring the certificate corresponding to the income acquisition to the service server includes: obtaining a second service total quantity provided by a plurality of service node devices to a plurality of client terminals counted by the service server; and comparing the second service total amount with the first service total amount, and transferring a certificate corresponding to the first obtained income to an associated account of the business server if the size relationship between the second service total amount and the first service total amount meets a preset condition.

It is to be understood that the first derived benefits in the present embodiment correspond to the second benefits in the first to sixth embodiments.

Example eight

Fig. 15 shows a block diagram of an embodiment of a server, which may be a client server, of the present invention, and includes a memory, a processor, and a program stored in the memory, the program being configured to be executed by the processor, and the processor, when executing the program, may implement the network service implementation method as described in the seventh embodiment.

From the above description of the embodiments, it is clear to those skilled in the art that the method of the above embodiments can be implemented by software plus necessary general hardware platform. Based on such understanding, the technical solutions of the present invention may be embodied in the form of software products, which can be stored in a storage medium (such as ROM/RAM, magnetic disk, optical disk, etc.), and include instructions for causing a device (such as a personal computer, a server, or a network device) to execute the methods according to the embodiments or some parts of the embodiments.

The above embodiments are only preferred embodiments of the present invention, and the protection scope of the present invention is not limited thereby, and any insubstantial changes and substitutions made by those skilled in the art based on the present invention are within the protection scope of the present invention.

Claims (14)

1. A network service implementation method applied to a client server of a shared computer network, comprising:

providing a specified product for an associated account of service node equipment, and acquiring a certificate transferred by the associated account of the service node equipment, wherein the certificate is transferred to the associated account of the service node equipment from the associated account of a service server;

determining the income due to the service server;

transferring a certificate corresponding to the income to an associated account of the business server to obtain the service of a service network of the business server, wherein the service network consists of service node equipment; the service of the network service of the business server comprises a storage space, a bandwidth, part or all of the computing service; the voucher comprises one or more of a virtual card, credit, virtual currency, block chain voucher; the designated product is a member interest, a virtual card, a point, a part or all of a specific service; the certificate is generated by adopting a rights and interests proving mechanism or a workload proving mechanism; the credentials in the associated account with the service node device are transferred to the associated account with the client server to obtain the specified product.

2. The network service implementation method of claim 1, wherein prior to said providing the specified product to the associated account of the service node device and obtaining the credentials for the associated account transfer of the service node device, further comprising:

receiving order information sent by the service node equipment or the associated equipment of the service node equipment, generating a transfer request according to the order information, and returning the transfer request to the service node equipment or the associated equipment of the service node equipment, wherein the order information comprises identification information of a product specified by a user; the order information is generated in a business server program or a webpage, or generated in a client server program or a webpage.

3. The method of claim 1, further comprising:

sending a service request to the service server;

receiving a first target service node equipment list which is sent by the service server and generated according to the service request;

and distributing data to the service node equipment in the first target service node equipment list.

4. The method of claim 3, further comprising:

receiving a data request sent by a client terminal;

generating a second target service node equipment list according to the data request;

and sending the second target service node equipment list to the client terminal.

5. The network service implementation method of claim 1, wherein the determining the due revenue for the service server comprises:

acquiring the total amount of services provided by a plurality of service node devices to a plurality of client terminals;

and calculating the income of the business server according to the total service amount.

6. The method of claim 5, wherein the revenue receivable is a first revenue receivable, and wherein transferring the credentials corresponding to the revenue receivable to an associated account of the service server comprises:

obtaining a second accrual income calculated by the service server;

and comparing the second income acquisition with the first income acquisition, and transferring a certificate corresponding to the first income acquisition to an associated account of the service server if the size relationship between the second income acquisition and the first income acquisition meets a preset condition.

7. The method of claim 6, wherein the service aggregate is a first service aggregate, and wherein transferring the credentials corresponding to the earned revenue to the associated account of the service server comprises:

obtaining a second service total quantity provided by a plurality of service node devices to a plurality of client terminals counted by the service server;

and comparing the second service total amount with the first service total amount, and transferring a certificate corresponding to the first obtained income to an associated account of the business server if the size relationship between the second service total amount and the first service total amount meets a preset condition.

8. The method of claim 5, wherein said obtaining a total amount of services provided by the plurality of service node devices to the plurality of client terminals comprises:

respectively acquiring the total amount of services provided by each service node device to the plurality of client terminals;

and summarizing the acquired service total amount of each service node device.

9. The method of claim 5, wherein said obtaining a total amount of services provided by the plurality of service node devices to the plurality of client terminals comprises:

respectively acquiring the total service quantity acquired by each client terminal from the plurality of service node devices;

and summarizing the acquired total service amount acquired by each client terminal.

10. The network traffic implementing method of claim 5,

the acquiring of the total amount of services provided by the plurality of service node devices to the plurality of client terminals includes: respectively acquiring the service total amount of different types of services provided by a plurality of service node devices to a plurality of client terminals;

calculating the income due to the service server according to the total service amount comprises the following steps: and calculating the income of the business server according to the service total amount of the different types of services respectively acquired.

11. The network service implementation method of any of claims 1 to 10, characterized by: further comprising transferring the legal tender to an associated account of the service server.

12. The network service implementation method of any of claims 1 to 10, characterized by:

the value of the voucher corresponding to the income due is equal to the income due; or

The value of the voucher corresponding to the earned income is less than the earned income, the method further comprising: and paying the legal currency to an associated account of the business server, wherein the sum of the voucher corresponding to the income and the value of the legal currency is equal to the income.

13. A server comprising a memory, a processor, and a program stored in the memory, the program configured to be executed by the processor, the processor when executing the program implementing the network service implementation method of any of claims 1 to 12.

14. A storage medium storing a computer program, wherein the computer program, when executed by a processor, implements the network service implementation method of any one of claims 1 to 12.

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