CN112052023B - Intelligent terminal upgrade strategy management method - Google Patents

Abstract

The invention discloses an intelligent terminal upgrade strategy management method, which is realized by using a management system, wherein the management system comprises an upgrade strategy platform, an OTA service platform and a device interaction platform; the management method comprises the steps that a user logs in an upgrade strategy platform and inputs parameter information of each server required by upgrade; logging in an OTA service platform, and selecting an intelligent terminal to be upgraded and a version to be upgraded; the OTA service platform initiates a query instruction of upgrading time by calling an interface of the upgrading strategy platform; the upgrade strategy platform receives the inquiry instruction, calculates the available time period according to the current server use condition and the scheduled intelligent terminal upgrade quantity condition at the current time point, and feeds back the available time period to the OTA service platform; and the like. The advantages are that: the security and stability of intelligent terminal upgrade are realized through the processes of terminal keep-alive timing tasks, upgrade node allocation, server capacity calculation, upgrade update quantity statistics and single node time maximum upgrade update quantity management control and the like.

Description

Intelligent terminal upgrade strategy management method

Technical Field

The invention relates to the field of mobile payment intelligent terminals, in particular to an intelligent terminal upgrading strategy management method.

Background

The intelligent terminal upgrading strategy platform is a series of file downloading task arrangement platform for managing OTA upgrading, application upgrading, parameter downloading and the like of the intelligent terminal, and can realize unified management of multiple platforms, optimal upgrading nodes, optimal upgrading time, optimal link sites and the like of upgrading, updating and allocation of the intelligent terminal. The intelligent terminal upgrading platforms are multiple, each platform needs to be configured with an own upgrading strategy for processing upgrading, so that the intelligent terminal upgrading response is not timely, upgrading is successful, a link server cannot effectively use multi-server load, service efficiency and experience are affected, the intelligent terminal upgrading and updating efficiency cannot be realized, the intelligent terminal upgrading and updating wait is long, meanwhile, upgrading and updating time of each type of equipment is repeatedly arranged, and the pressure of a single server is overlarge.

Disclosure of Invention

The invention aims to provide an intelligent terminal upgrading strategy management method, so as to solve the problems in the prior art.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

an intelligent terminal upgrade strategy management method is realized by using a management system, wherein the management system comprises an upgrade strategy platform, an OTA service platform and a device interaction platform; the management method comprises the steps of,

s1, a user logs in an upgrade strategy platform and inputs parameter information of each server required by upgrade;

s2, logging in an OTA service platform, and selecting an intelligent terminal to be upgraded and a version to be upgraded;

s3, the OTA service platform initiates a query instruction of upgrading time by calling an interface of the upgrading strategy platform;

s4, the upgrade strategy platform receives the query instruction, calculates the available time period according to the current server use condition and the scheduled intelligent terminal upgrade quantity condition at the current time point, and feeds back the available time period to the OTA service platform;

s5, the OTA service platform displays the received available time period to a user so that the user can select a corresponding time period to upgrade the intelligent terminal;

s6, the OTA service platform sends upgrade version information to the intelligent terminal through the equipment interaction platform according to the time period selected by the user;

s7, the intelligent terminal sends the received upgrade version information, the position information of the intelligent terminal and the system identification to an upgrade strategy platform;

s8, searching a latest available server cluster in the servers required for upgrading according to the received position information by the upgrading strategy platform, and feeding back optimal server node information and optimal time nodes corresponding to the optimal server nodes to the intelligent terminal by reading the service conditions of all servers in the server cluster;

s9, after receiving the information of the optimal server node and the optimal time node, the intelligent terminal starts a terminal keep-alive timing task according to the optimal time node, and after reaching the timing task execution time, the intelligent terminal sends a detection instruction to the OTA server platform;

s10, the OTA server platform compares the updated version information through the version data according to the detection instruction, and feeds the successfully compared updated version information back to the intelligent terminal;

s11, the intelligent terminal requests to download corresponding version files on each optimal server node according to the optimal time node according to the successfully compared updated version information; and finishing the version upgrading of the intelligent terminal.

Preferably, the terminal keep-alive timing task is specifically an intelligent terminal upgrading time timing task arranged by an upgrading strategy platform according to server resources, the upgrading time of each intelligent terminal is arranged according to time sequence, and the intelligent terminals are sequentially upgraded according to the arranged time sequence.

Preferably, the server resource includes a server usage state, a current link number, an updated intelligent terminal number in a current time period, and a file handle.

Preferably, the parameter information of the server comprises the IP, port, user name, password, application and service condition of the server; the management system queries the service condition of each server at regular time, records the queried information, and updates the service condition of the server recorded in the upgrade strategy platform in real time.

Preferably, the management system comprises a physical storage database and a buffer storage database, wherein the physical storage database is used for storing the state, the memory parameters and the service condition of the server; the cache storage database is used for storing upgrade version information.

Preferably, in step S8, the intelligent terminal searches the most recently available server cluster in the servers required for upgrading according to the location information and the proximity principle, calculates the bandwidth, memory, CPU and link number of each server in the most recently available server cluster, calculates the task arrangement in the time of the proximal segment of each server, and determines the best server node information and the best time node corresponding to the best server node, and sends the best server node information and the best time node to the intelligent terminal.

The beneficial effects of the invention are as follows: 1. the management method realizes the safety and stability of intelligent terminal upgrade through the processes of terminal keep-alive timing task, upgrade node allocation, server capacity calculation, upgrade update quantity statistics and single node time maximum upgrade update quantity management control and the like. 2. The optimal server node and the optimal time node corresponding to the optimal server node can be selected when the intelligent terminal is upgraded, so that the optimal server state used when the intelligent terminal is upgraded is ensured, the stable operation of the server is maintained, the quick file downloading of the intelligent terminal is ensured, and the interruption probability is reduced.

Drawings

FIG. 1 is a flow chart of a management method in an embodiment of the invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the detailed description is presented by way of example only and is not intended to limit the invention.

As shown in fig. 1, in this embodiment, an intelligent terminal upgrade policy management method is provided, where the management method is implemented using a management system, and the management system includes an upgrade policy platform, an OTA service platform, and an equipment interaction platform; the management method comprises the steps of,

s1, a user logs in an upgrade strategy platform and inputs parameter information of each server required by upgrade;

s2, logging in an OTA service platform, and selecting an intelligent terminal to be upgraded and a version to be upgraded;

s3, the OTA service platform initiates a query instruction of upgrading time by calling an interface of the upgrading strategy platform;

s4, the upgrade strategy platform receives the query instruction, calculates the available time period according to the current server use condition and the scheduled intelligent terminal upgrade quantity condition at the current time point, and feeds back the available time period to the OTA service platform;

s5, the OTA service platform displays the received available time period to a user so that the user can select a corresponding time period to upgrade the intelligent terminal;

s6, the OTA service platform sends upgrade version information to the intelligent terminal through the equipment interaction platform according to the time period selected by the user;

s7, the intelligent terminal sends the received upgrade version information, the position information of the intelligent terminal and the system identification to an upgrade strategy platform;

s8, searching a latest available server cluster in the servers required for upgrading according to the received position information by the upgrading strategy platform, and feeding back optimal server node information and optimal time nodes corresponding to the optimal server nodes to the intelligent terminal by reading the service conditions of all servers in the server cluster;

s9, after receiving the information of the optimal server node and the optimal time node, the intelligent terminal starts a terminal keep-alive timing task according to the optimal time node, and after reaching the timing task execution time, the intelligent terminal sends a detection instruction to the OTA server platform;

s10, the OTA server platform compares the updated version information through the version data according to the detection instruction, and feeds the successfully compared updated version information back to the intelligent terminal;

s11, the intelligent terminal requests to download corresponding version files on each optimal server node according to the optimal time node according to the successfully compared updated version information; and finishing the version upgrading of the intelligent terminal.

In this embodiment, the management system adopts multi-platform unified management, and the management system can implement a terminal keep-alive timing task, upgrade node allocation, server capacity calculation, upgrade update quantity statistics and single node time maximum upgrade update quantity management control, and the like, so that the security of intelligent terminal upgrade can be implemented. The management system maintains a long connection channel of the intelligent terminal in real time through socket long connection, the intelligent terminal is provided with an SDK and distributes unique PID for the intelligent terminal after registration, and distributes aliases and PID binding through the registration information of the intelligent terminal, and after receiving the information sent by the management system, the management system identifies the PID of the intelligent terminal through the aliases and transfers the push information to the intelligent terminal through the information mode.

In this embodiment, the terminal keep-alive timing task is a scheme formulated for implementing upgrade execution of the intelligent terminal. In the process of upgrading the intelligent terminal, if the upgrading time of the terminal is not standardized, the intelligent terminal responds to the request for upgrading in real time once the system file is released and pushed to the intelligent terminal, so that a large number of devices are connected with a server to download the file, a large number of server resources and bandwidths are occupied, and the problems of slow upgrading and downloading of the file by the intelligent terminal, connection of the terminal and the like are solved. The terminal keep-alive timing task is a device upgrade time timing task which is arranged after the calculation of a series of server resources such as a server use state, a current link number, the number of upgrade devices in a current time period, the number of file handles and the like by the intelligent terminal strategy platform, the upgrade time sequence of each device is normalized, the stable operation of the server is kept, the quick downloading of files by the intelligent terminal is ensured, the interruption probability is low and the like.

The terminal keep-alive timing task is specifically an intelligent terminal upgrading time timing task which is arranged by an upgrading strategy platform according to server resources, upgrading time of each intelligent terminal is arranged according to time sequence, and the intelligent terminals are sequentially upgraded according to the arranged time sequence. The upgrade time of each intelligent terminal is composed of the optimal time node of each optimal server node of the intelligent terminal obtained in step S8.

The server resources comprise server use states, current link numbers, the number of intelligent terminals updated in the current time period and file handles.

In this embodiment, the upgrade node allocation (i.e. selecting the best server node) is a scheme formulated for implementing the efficiency of downloading the upgrade file of the intelligent terminal. In the upgrading process of the intelligent terminal, the client in a part of areas is found to download the file too slowly, so that the normal transaction is influenced due to too long file downloading time, or the file cannot be updated due to downloading interruption. The upgrade node allocation can achieve the acquisition of the networking IP of the intelligent equipment, the available servers in the nearby range are searched according to the equipment region, the current situation of the server and the service situation of the server in the upgrade time are calculated, reasonable servers are arranged for terminal upgrade, and nearby, rapid and real-time downloading service is achieved.

At present, a large number of clients are used, the clients are distributed and nationwide, the intelligent terminals are updated according to the nearby principle when updated, meanwhile, the running condition of the server and the service processing condition in the range are calculated, and the updating and the transaction service are prevented from being influenced. When the intelligent terminal needs to be upgraded, the conditions of bandwidth, memory, CPU, link number and the like of a server needed by the upgrade are inquired, an optimal server node is selected to process the request, task arrangement in the near-period time of the server node is calculated, an optimal time node corresponding to the optimal server node is calculated, and then calculation data is sent to the intelligent terminal in a message type. After receiving the information, the intelligent terminal establishes a keep-alive timing task, plans the server connection ip and the upgrading time into the timing task, waits until the specified upgrading time is reached, automatically drops the upgrading task, and connects the server for version check updating and file downloading. And the queuing upgrading with classification and order is realized. In the process, a series of data such as the occupied server resources, whether the current time period of the current server can bear the upgrade of the current time period, the upgrade quantity of the released equipment in the current time period and the like are calculated, so that the bearing pressure of the server can be fully ensured.

In step S8, the intelligent terminal searches the most recently available server cluster in the servers required for upgrading according to the location information and the nearby principle, calculates the bandwidth, memory, CPU and link number of each server in the most recently available server cluster, calculates the task arrangement in the near-segment time of each server, determines the optimal server node information and the optimal time node, and sends the optimal server node information and the optimal time node to the intelligent terminal.

In this embodiment, the parameter information of the server includes an IP, a port, a user name, a password, a use, and a use condition of the server; the management system queries the service condition of each server at regular time, records the queried information, and updates the service condition of the server recorded in the upgrade strategy platform in real time.

In this embodiment, the management system includes a physical storage database and a cache database, where the physical storage database is used to store a server state, a memory parameter, and a service condition; the cache storage database is used for storing upgrade version information. The data sharing value between the management system and the server is realized, and the frequency of frequent data inquiry is reduced.

By adopting the technical scheme disclosed by the invention, the following beneficial effects are obtained:

the invention provides an intelligent terminal upgrading strategy management method, which realizes the stability of the security of intelligent terminal upgrading through the processes of terminal keep-alive timing tasks, upgrading node allocation, server capacity calculation, scheduled upgrading and updating quantity statistics, single node time maximum upgrading and updating quantity management control and the like. The optimal server node and the optimal time node corresponding to the optimal server node can be selected when the intelligent terminal is upgraded, so that the optimal server state used when the intelligent terminal is upgraded is ensured, the stable operation of the server is maintained, the quick file downloading of the intelligent terminal is ensured, and the interruption probability is reduced.

The foregoing is merely a preferred embodiment of the present invention and it should be noted that modifications and adaptations to those skilled in the art may be made without departing from the principles of the present invention, which is also intended to be covered by the present invention.

Claims (1)

1. An intelligent terminal upgrade strategy management method is characterized in that: the management method is realized by using a management system, and the management system comprises an upgrade strategy platform, an OTA service platform and a device interaction platform; the management method comprises the steps of,

s1, a user logs in an upgrade strategy platform and inputs parameter information of each server required by upgrade; the parameter information of the server comprises the IP, the port, the user name, the password, the application and the service condition of the server; the management system queries the service condition of each server at regular time, records the queried information, and updates the service condition of the server recorded in the upgrade strategy platform in real time;

the management system comprises a physical storage database and a cache storage database, wherein the physical storage database is used for storing the state, memory parameters and service conditions of a server; the cache storage database is used for storing upgrade version information;

s2, logging in an OTA service platform, and selecting an intelligent terminal to be upgraded and a version to be upgraded;

s3, the OTA service platform initiates a query instruction of upgrading time by calling an interface of the upgrading strategy platform;

s4, the upgrade strategy platform receives the query instruction, calculates the available time period according to the current server use condition and the scheduled intelligent terminal upgrade quantity condition at the current time point, and feeds back the available time period to the OTA service platform;

s5, the OTA service platform displays the received available time period to a user so that the user can select a corresponding time period to upgrade the intelligent terminal;

s6, the OTA service platform sends upgrade version information to the intelligent terminal through the equipment interaction platform according to the time period selected by the user;

s7, the intelligent terminal sends the received upgrade version information, the position information of the intelligent terminal and the system identification to an upgrade strategy platform;

s8, searching a latest available server cluster in the servers required for upgrading according to the received position information by the upgrading strategy platform, and feeding back optimal server node information and optimal time nodes corresponding to the optimal server nodes to the intelligent terminal by reading the service conditions of all servers in the server cluster; step S8 is that the intelligent terminal searches the latest available server cluster in the server required by upgrading according to the nearby principle according to the position information when updating, calculates the bandwidth, memory, CPU and link number conditions of each server in the latest available server cluster, calculates the task arrangement in the near-segment time of each server, determines the optimal server node information and the optimal time node corresponding to the optimal server node, and sends the optimal server node information and the optimal time node to the intelligent terminal;

s9, after receiving the information of the optimal server node and the optimal time node, the intelligent terminal starts a terminal keep-alive timing task according to the optimal time node, and after reaching the timing task execution time, the intelligent terminal sends a detection instruction to the OTA server platform; the terminal keep-alive timing task is specifically an intelligent terminal upgrading time timing task which is arranged by an upgrading strategy platform according to server resources, the upgrading time of each intelligent terminal is arranged according to time sequence, and the intelligent terminals are sequentially upgraded according to the arranged time sequence;

the server resources comprise server use states, current link numbers, the number of intelligent terminals updated in the current time period and file handles;

s10, the OTA server platform compares the updated version information through the version data according to the detection instruction, and feeds the successfully compared updated version information back to the intelligent terminal;

s11, the intelligent terminal requests to download corresponding version files on each optimal server node according to the optimal time node according to the successfully compared updated version information; and finishing the version upgrading of the intelligent terminal.