WO2016045647A2 - 一种红包数据处理方法及终端 - Google Patents

一种红包数据处理方法及终端 Download PDF

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Publication number
WO2016045647A2
WO2016045647A2 PCT/CN2015/095682 CN2015095682W WO2016045647A2 WO 2016045647 A2 WO2016045647 A2 WO 2016045647A2 CN 2015095682 W CN2015095682 W CN 2015095682W WO 2016045647 A2 WO2016045647 A2 WO 2016045647A2
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Prior art keywords
data
application
terminal
red packet
red
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PCT/CN2015/095682
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English (en)
French (fr)
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WO2016045647A3 (zh
Inventor
邓宇
彭钰
郑成亮
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华为技术有限公司
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Priority to PCT/CN2015/095682 priority Critical patent/WO2016045647A2/zh
Priority to CN201580064250.4A priority patent/CN107005418B/zh
Publication of WO2016045647A2 publication Critical patent/WO2016045647A2/zh
Publication of WO2016045647A3 publication Critical patent/WO2016045647A3/zh

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  • the present invention relates to the field of terminals, and in particular, to a red packet data processing method and a terminal.
  • red envelope data is actually a piece of data with red envelope feature values and is transmitted over the network.
  • the application client on the terminal receives the red packet data sent by the server and displays a red envelope interface for the user to grab the red envelope.
  • the application client establishes a network connection with the server, obtains the result of the red packet and displays the result interface. Therefore, the time taken from the red envelope to the red envelope interface display and the time taken from the red envelope to the result interface will directly affect the user's experience in using the "red envelope” function.
  • the external tool adopts the red envelope interface feature as the identification means, since the red envelope data is received from the red packet data and the red envelope interface has been generated for a certain delay time, the subsequent acceleration of the system does not significantly help the user to grab the red envelope.
  • the object of the present invention is to provide a red packet data processing method and a terminal, which are used to solve the problem that the feature of the red envelope interface is not obvious to the user by the plug-in tool in the prior art.
  • the received data is identified by the protocol stack of the terminal, and the data is recognized before the application of the application layer, and the running speed of the terminal is improved, thereby effectively increasing the speed at which the user grabs the red envelope.
  • a first aspect of the present invention provides a red packet data processing method, the method comprising:
  • the terminal receives the first data; when the protocol stack of the terminal identifies that the first data is the red packet data preset by the first application, the operating rate of the first data is processed by the terminal, where the first application is installed on the terminal. And an application that processes the red packet data; the protocol stack of the terminal sends the first data to the first application, where the first application processes the first data.
  • the protocol stack of the terminal sends the first data to the first application, and the step of processing the first data by the first application may be performed synchronously or asynchronously with the protocol stack of the terminal, which is not specifically limited herein.
  • the protocol stack of the terminal receives the first data from the first application server, and the protocol stack of the terminal identifies, before the first application, whether the first data is red packet data preset by the first application, when the protocol stack of the terminal identifies the
  • the first data is the preset red packet data of the first application (WeChat, Alipay, etc.)
  • the operating rate of the first data is processed by the terminal, and the first data is quickly sent to the first application, and the first application receives the first data.
  • a data and a red envelope interface is generated according to the first data, thereby facilitating the user to see the red envelope interface in advance and performing the behavior of grabbing the red envelope.
  • the first data includes a data feature value
  • the protocol stack of the terminal identifies that the first data is the red packet data preset by the first application, including:
  • the protocol stack of the terminal determines that the data feature value of the first data meets the red packet feature value preset by the first application, determining that the first data is red packet data preset by the first application.
  • the first data includes an application identifier of an application where the first data is located, a process identifier of the application where the first data is located, a data length, and a data feature value;
  • the protocol stack of the terminal identifies that the first data is the red packet data preset by the first application, including:
  • the protocol stack of the terminal determines that the application identifier of the first data conforms to the application identifier of the first application
  • the protocol stack of the terminal determines that the process identifier of the first data conforms to the process identifier of the first application
  • protocol stack of the terminal determines that the data length of the first data conforms to the data length of the first application preset red packet data
  • the protocol stack of the terminal determines that the first data satisfies the first feature, where the first feature includes an application identifier of the first application and a process identifier of the first application, eg, the application An identifier (English Identifier: UID), a process identifier (English name: Process Identifier, abbreviation: PID); the protocol stack of the terminal determines that the first data satisfies the second feature, wherein the second feature The red packet data length of the first application and the red envelope feature value of the first application are included.
  • UID application identifier
  • PID Process Identifier
  • the process identifier is a number assigned by the terminal system to the running application, for example, a number less than 65535. Since each application corresponds to one application identifier, each application may correspond to multiple process identifiers. By determining whether the process identifier of the first data conforms to the process identifier of the first application, it is possible to accurately confirm whether the first data is red packet data preset by the first application.
  • the process identifier of the first data conforms to the process identifier of the WeChat, it is determined that the WeChat is in the running state, and the system of the terminal is accelerated, if it is determined that the process identifier of the first data does not match
  • the process identifier of the WeChat determines that the WeChat is not in the running state, and does not accelerate the system of the terminal, thereby saving system resources.
  • the network protocol stack of the terminal device receives the first data, it is determined whether the first data satisfies the first feature; when it is determined that the identifier of the first data is the UID of the first application, and the process identifier of the first data is Determining whether the first data satisfies the second feature when determining the PID of the first application; determining that the length of the first data is within the range of the red packet data length of the first application and the feature value of the first data satisfies the red envelope of the first application When the feature value is determined, the first data is determined to be the red packet data preset by the first application, and the running rate of the first data is improved by the terminal, thereby effectively improving the speed at which the user grabs the red packet.
  • the protocol stack of the terminal may further identify any one or more of the first feature and the second feature, thereby determining that the first data is the red packet data preset by the first application, and does not do Specifically limited.
  • the protocol stack of the terminal after the protocol stack of the terminal sends the first data to the first application, the protocol stack of the terminal receives the second data sent by the first application, where the second data is Obtaining request data of the red envelope in the first application; the protocol stack of the terminal preferentially sends the second data to the first application server.
  • the protocol stack of the terminal receives the second data, and preferentially sends the second data to the first application server, so that the first application server generates the result data according to the second data, and sends the result data to the first
  • the first application receives the result data, and generates a red packet end interface according to the result data.
  • the first application After the protocol stack of the terminal sends the first data to the first application, the first application generates a red packet interface according to the first data. After the red packet interface is generated, the user can perform a red packet on the red packet interface, that is, The red packet interface displays the words "de-clipping red packets". After clicking "delete red packets", the second data is sent to the first application server, wherein the order of sending may be the default order or the priority order, for example: from The default order of data transmission between the terminal and the application server is first-come-first-served, that is, which data first goes to the transmission port, and the principle of which data is sent first.
  • the red packet data is preferentially sent.
  • the second data is preferentially sent to the first application server by using a “cutting queue” manner.
  • the first application server generates data for displaying the red packet end interface according to the second data, thereby effectively improving the speed at which the user grabs the red envelope.
  • improving the operating speed of the terminal processing the first data includes: a central processing unit in the terminal (English name: Central Processing Unit, abbreviated as: CPU), a graphics processor (English full name: Graphics Processing) Unit, abbreviation: GPU), frequency increase of at least one of double rate synchronous dynamic random access memory (English full name: Double Data Rate SDRAM, abbreviation: DDR); or, the process of the first application is migrated from the first processor of the terminal In the second processor to the terminal, the second processor runs at a higher rate than the first processor; or increases the priority of the process of the first application.
  • a central processing unit in the terminal (English name: Central Processing Unit, abbreviated as: CPU)
  • a graphics processor English full name: Graphics Processing) Unit, abbreviation: GPU
  • frequency increase of at least one of double rate synchronous dynamic random access memory English full name: Double Data Rate SDRAM, abbreviation: DDR
  • the frequency of the CPU or GPU or DDR can be increased.
  • the frequency of the CPU or GPU or DDR is directly increased to the maximum frequency, thereby effectively speeding up the operation of processing the first data. rate.
  • the process of the first application may be migrated from the first processor of the terminal to the second processor of the terminal, for example, the process of the first application is migrated from the small core in the terminal system to the large core in the terminal system. Therefore, the processing speed of processing the first data is effectively improved.
  • the first application runs in a small core before being migrated.
  • the application in the small core runs at a lower rate than the application process in the large core. Therefore, the process of the first application running in the small core is migrated to the large core, effectively increasing the running speed of the process of the first application.
  • the operating rate of the processing first data is increased, after the preset time period of receiving the first data, the operating rate of the terminal is decreased; or After the application generates the red packet end interface, the operating rate of the terminal is decreased, where the red packet ending interface is used to identify that the red packet in the first application has been acquired; and the second data is sent to the first application.
  • the server After the server, the operating rate of the terminal is decreased, and the second data is request data for obtaining a red envelope in the first application.
  • the operating speed of the terminal is restored to the initial state, so that the terminal operates normally according to the initial state before the unaccelerated operating rate, thereby avoiding the influence on the operating rate of other programs.
  • a second aspect of the present invention provides a terminal, including: a receiving module, a processing module, and a sending module.
  • a receiving module configured to receive first data
  • a processing module configured to: when the first data is red packet data preset by the first application, improve an operation rate of processing the first data, where the first application is installed in the terminal to process the red packet data s application;
  • a sending module configured to send the first data to the first application, where the first application processes the first data.
  • the processing module identifies, according to the first application, whether the first data is red packet data preset by the first application, and the processing module identifies that the first data is a red envelope preset by the first application.
  • the processing module increases the operating rate of processing the first data, and the sending module sends the first data to the first application, so that the time for receiving the first data by the first application is advanced, and the first application generates the first data according to the first data.
  • the red envelope interface effectively increases the speed at which the user can grab the red envelope.
  • the first application receives the first data in advance and generates a red envelope interface according to the first data, thereby facilitating the user to see the red envelope in advance. Interface, and then quickly perform the behavior of grabbing red packets.
  • a third aspect of the present invention provides a terminal, including: one or more processors, a memory, a bus system, a transceiver, and one or more programs, the processor, the memory, and the transceiver are connected by a bus system; One or more programs are stored in the memory, and the one or more programs include instructions that, when executed by the terminal, cause the terminal to perform any of the possible implementations of the first aspect or the first aspect The method described.
  • the terminal identifies whether the first data is the red packet data preset by the first application, and when the terminal identifies that the first data is the red packet data preset by the first application, the terminal improves the operation of processing the first data. Rate, and send the first data to the first application.
  • the first application receives the first data in advance, and generates a speed of the red packet interface according to the first data, thereby effectively improving the speed of the user to grab the red envelope, for example, running the terminal system.
  • the first application will generate a red envelope interface in advance, which is beneficial to the use. The user sees the red envelope interface in advance, and then quickly performs the behavior of grabbing the red envelope.
  • FIG. 1 is a schematic structural diagram of a terminal according to an embodiment of the present invention.
  • FIG. 2 is a schematic structural diagram of a terminal system according to an embodiment of the present invention.
  • FIG. 3 is a schematic diagram of an embodiment of a red packet data processing method according to an embodiment of the present invention.
  • FIG. 4a is a schematic structural diagram of a red envelope interface according to an embodiment of the present invention.
  • 4b is another schematic structural diagram of a red envelope interface according to an embodiment of the present invention.
  • FIG. 5 is another schematic structural diagram of a terminal according to an embodiment of the present invention.
  • FIG. 6 is another schematic structural diagram of a terminal according to an embodiment of the present invention.
  • the object of the present invention is to provide a red packet data processing method and a terminal, which are used to solve the problem that the feature of the red envelope interface is not obvious to the user by the plug-in tool in the prior art.
  • the received data is identified by the protocol stack of the terminal, thereby accelerating the operating rate of the terminal, thereby effectively increasing the speed of red packets.
  • the terminal 100 includes a communication unit 101, an input unit 102, an output unit 103, a processor 104, a storage unit 105, a peripheral interface 106, and an operating system 107. Each unit is connected by one or more buses.
  • the communication unit 101 is configured to establish a communication channel, so that the terminal performs the communication with the remote electronic device or the server through the communication channel. Voice communication, text communication, data communication, etc.; the input unit 102 is used to implement user interaction with the terminal and/or information is input into the terminal; the processor 104 is a control center of the terminal, and connects various terminals of the entire terminal by using various interfaces and lines.
  • the output unit 103 includes but is not limited to sound And a video output unit for converting the audio signal output by the processor from a digital format to an analog format; the storage unit 105 can be used to store software programs and modules; the peripheral interface 106 is used to connect to a remote electronic device or server. .
  • the structure of the terminal shown in FIG. 1 does not constitute a limitation of the present invention, and it may be a bus-shaped structure or a star-shaped structure, and may include more than the illustration. Or fewer parts, or combine some parts, or different parts.
  • the terminal in the embodiment of the present invention includes but is not limited to a mobile phone, a mobile computer, a tablet computer, a personal digital assistant (English full name: Personal Digital Assistant, PDA), a media player, a smart TV, a wearable device (for example, A smart watch or smart glasses, etc.) and a combination of two or more of the above.
  • red packets have become an active entertainment activity, and people have passed some applications that run the red envelope function (for example, on holiday or group activities).
  • some applications that run the red envelope function (for example, on holiday or group activities).
  • WeChat, QQ, Alipay, etc. The act of having a certain amount of electronic money.
  • the protocol stack of the terminal receives the data sent by the server through the network, where the protocol stack may be a transmission control protocol (English name: Transmission Control Protocol, abbreviation: TCP) stack, or may be an Internet protocol.
  • TCP Transmission Control Protocol
  • IP Internet Protocol
  • IP Open System Interconnect
  • OSI Open System Interconnect
  • the first data when the first data is received from the IP stack, the first data is transmitted to the local layer socket (English: socket) application programming interface through the TCP stack (English full name: Application Programming Interface, abbreviation: API), and transmitted to the application layer through the Java layer socket API, and parsing the first data through one or more applications running the red envelope function in the application layer, and finally generating a red envelope interface for the user to grab the red envelope.
  • the local layer socket English: socket
  • API Application Programming Interface
  • the system of the terminal is accelerated by identifying the characteristics of the red envelope interface (for example, the words "red envelopes" on the red envelope interface). Therefore, the purpose of rushing to red packets is accelerated.
  • the red envelope data is received from the red packet data and the red envelope interface has been generated for a certain delay time, the subsequent method of accelerating the system does not have a significant effect on the user's red packets.
  • the plug-in tool recognizes the characteristics of the red envelope interface, and there is a certain false positive rate. For example, it is possible to mistake the words referring to the "red envelope" in the dialog box as red envelope data, and the present invention solves these defects well.
  • the protocol stack of the terminal (for example, the TCP stack or the IP stack) starts to parse the data, and when it is confirmed that the data is red packet data, the processing is improved.
  • the running speed of the data thereby increasing the speed of generating the red envelope interface.
  • the red packet data is transmitted from the protocol stack through the local layer socket API to the Java layer socket API, and the transmission speed to the application layer is accelerated. Therefore, the red envelope data can be quickly received, and a red envelope interface is generated according to the red envelope data, which is beneficial for the user to see the red envelope interface in advance and quickly perform the behavior of grabbing the red envelope.
  • FIG. 3 is a schematic diagram of an embodiment of a redemption packet according to an embodiment of the present invention.
  • the embodiment includes: receiving, by the terminal, first data; and when the protocol stack of the terminal identifies that the first data is red packet data preset by the first application, And improving, by the terminal, an operation rate of processing the first data, where the first application is an application installed in the terminal to process the red packet data; the protocol stack of the terminal sends the first data to the first application, for the first The application processes the first data.
  • Step 301 The first application server sends the first data to the protocol stack of the terminal.
  • the first application server refers to a server corresponding to the first application, and the first application is an application that is installed on the terminal to process red packet data.
  • the first application may be a red envelope function such as WeChat, Alipay, and Weibo.
  • the corresponding first application server may be a server of a WeChat operator, a server of an Alipay operator, or a server of a microblog operator.
  • the red envelope refers to the first application installed by the sender on the sender's client.
  • the receiver passes the first application installed on its own client Receiving a red envelope sent by the sender, and requesting the red envelope by clicking an action such as clicking.
  • red envelopes may be replaced by gold coins or other definitions, for example, the English name is bribery money, red envelope, etc., but all can be regarded as red envelopes, and the present invention does not specifically limited.
  • the protocol stack may be a TCP in the terminal system, or may be an IP in the terminal system, or may be a physical layer, a link layer, a session layer, a presentation layer, etc., and is not specifically limited herein, for example:
  • the application server may directly send the first data to the TCP stack, or the first application server may first send the first data to the IP stack and send it to the TCP stack through the IP stack, which is not specifically limited herein.
  • Step 302 The protocol stack of the terminal receives the first data.
  • the protocol stack of the terminal receives the first data.
  • the types of the data are different, and the technical solution of the present invention is applied in the scenario of red packets. It is necessary to determine whether the first data is the red packet data preset by the first application.
  • Step 303 The protocol stack of the terminal determines whether the first data meets the first feature, and if yes, performs step 304.
  • the first feature includes an application identifier UID of the first application and a process identifier PID of the first application.
  • the UID of the first application may be the UID of the red envelope application, or may be the UID of other applications running the red envelope function.
  • the corresponding UID is the application of the red envelope.
  • UID when the red envelope function is executed in other applications (such as WeChat, Alipay, Weibo, etc.) other than the red envelope application, the corresponding UID is the UID of WeChat, Alipay or Weibo.
  • the UID is used to distinguish different applications.
  • the UID can be known as the UID of the WeChat or the UID of the Alipay.
  • the protocol stack of the terminal determines whether the first data meets the UID of the first application and the sequence of the PID used for the first application is not limited.
  • the protocol stack of the terminal When it is determined that the UID of the first data is the UID of the first application, it is further determined whether the PID of the first data is the PID of the first application.
  • the terminal when the terminal first determines that the PID of the first data is the PID of the first application, the terminal further determines whether the UID of the first data is the UID of the first application.
  • Step 304 When it is determined that the UID of the first data is the UID of the first application, and the PID of the first data is the first When the PID of the application is used, it is determined whether the first data satisfies the second feature. If yes, step 305 is performed, and if not, the process ends.
  • the second feature comprises a red packet data length of the first application and a red envelope feature value of the first application.
  • the red packet data length includes a copy length, a minimum length, a maximum length, and the like.
  • the red packet data length of the WeChat application is generally between 150 bytes and 800 bytes.
  • the red envelope feature value includes the offset byte number of the red envelope feature value, the total length of the red envelope feature value, the format of the red envelope feature value, and the like.
  • the protocol stack of the terminal determines whether the first data satisfies the sequence of the red packet data length and the red packet feature value of the first application. For example, in a possible implementation manner, when the protocol stack of the terminal first determines that the length of the first data is within the range of the red packet data length of the first application, further determining whether the feature value of the first data is in the first application Within the range of red envelope feature values. In another possible implementation manner, when the protocol stack of the terminal first determines that the feature value of the first data is within the range of the red packet feature value of the first application, further determining whether the first data meets the red packet data length of the first application.
  • Step 305 When it is determined that the length of the first data is within a range of the red packet data length of the first application, and the feature value of the first data is within a range of the red packet feature value of the first application, determining that the first data is the first application Preset red envelope data and increase the processing speed of processing the first data.
  • the terminal determines whether the first data meets the sequence of the first feature and the second feature.
  • the terminal first determines whether the first data meets the second feature, when the first data is used. After the second feature is satisfied, it is further determined whether the feature satisfies the first feature, and the first data is determined to be the red packet data preset by the first application when the first data meets the first feature and the second feature, and the first confirmation is fully improved. Whether the data is the correct rate of the red packet data preset by the first application.
  • the protocol stack of the terminal may only need to determine whether the first data conforms to the application identifier of the first application, the process identifier of the first application, the data length of the red packet data preset by the first application, and the first application. Any one of the red envelope characteristic values of the preset red envelope data or any combination of a plurality of types, etc., is not specifically limited herein.
  • the protocol stack of the terminal identifies that the application identifier of the first data is the first
  • the running speed of the plurality of data such as the text information and the location sharing function in the first application may be improved.
  • the terminal may be prevented from being turned off or the black screen during the process of robbing the red envelope, and the terminal may Set the time to extend the blackout or black screen in advance or temporarily cancel the password lock screen function preset on the terminal interface, so as to improve the user's experience of grabbing the red envelope.
  • increasing the operating rate of processing the first data includes:
  • the frequency of the CPU or the GPU or the DDR can be increased.
  • the frequency of the CPU or the GPU or the DDR is directly increased to the maximum frequency, thereby effectively speeding up the operation rate of the terminal system, and further Effectively increase the rate at which the first data is processed.
  • the process in the small core runs at a lower rate than the process in the large core, and therefore, will run at
  • the process of the first application in the small core migrates to the large core, effectively increasing the operating rate of the processing of the first data.
  • the priority in the process of the first application may also be improved. For example, when the process of the first application is migrated from the small core to the large core, the priority of the process that does not necessarily represent the first application in the large core must be high. It is possible that the process of the first application has a lower priority in the large core, and the priority of the process of the first application in the large core is increased.
  • the operating rate of the first data is effectively increased, so that the first application receives the first data at a time point, so that the first application can generate a red packet interface according to the first data as soon as possible, so as to be robbed by the user. Red envelopes, thus speeding up the user's ability to grab red envelopes.
  • the process of the application other than the first application in the terminal may be temporarily terminated, for example, through a mobile phone housekeeper installed on the terminal, a 360 mobile assistant or the like.
  • the process of the application other than the first application is ended in a one-key clearing manner. After the redemption process is completed, the terminal resumes the process of the application other than the first application, which is not specifically limited herein.
  • Step 306 The protocol stack of the terminal receives the second data sent by the first application.
  • the second data is request data for obtaining a red envelope in the first application.
  • the first application generates a red envelope interface according to the first data, and the red envelope interface is used for the user to grab the red envelope. After the user grabs the red envelope, the first application generates the request data of the first application red envelope.
  • Step 307 The protocol stack of the terminal preferentially sends the second data to the first application server.
  • the protocol stack of the terminal sends the second data to the first application server, and the first application server processes the second data and generates result data for displaying the red packet end interface.
  • the order of sending may be a default order or a priority order.
  • the data transmission between the protocol stack of the terminal and the first application server is generally the default order from first to first, that is, which data first arrives at the transmission port. , the principle of which data is executed first.
  • the red packet data is preferentially sent.
  • the second data is preferentially sent to the first application server by means of “cutting the queue”.
  • the first application server generates the result data for displaying the red packet end interface according to the second data as soon as possible, thereby effectively improving the speed of the user to grab the red envelope.
  • Step 308 The first application server generates result data for displaying the red packet end interface according to the second data.
  • the first application server receives the second data, and generates result data for displaying a red envelope end interface according to the second data, that is, the result data is used to indicate how much red packets the user has grabbed.
  • the first application server sends the result data to the first application, the first application receives the result data, and generates a red packet ending interface according to the result data.
  • the user can perform a redemption packet on the red envelope interface, as shown in FIG. 4a, that is, the words “removed red envelope”, the user name, and the user avatar are displayed on the red envelope interface.
  • the first application After clicking the "redundant red envelope", the first application generates second data, and sends the second data to the protocol stack of the terminal, so that the protocol stack of the terminal sends the second data to the first application server.
  • the first application processes the second data, and generates result data for displaying the red packet end interface. For example, after receiving the result data, the first application generates a red packet ending interface according to the result data.
  • the user can see how much red packets they have robbed or how much red packets other people have robbed. For example, if the user grabs 30 Yuan, the user robbed 30 yuan, and the user rushed the red envelope faster than the user grabbed the red envelope.
  • DUT VS device 1 DUT VS device 2 DUT VS device 3 Receive red envelopes - Unicom 4G 668 702 792 Receive Red Packet - Mobile 4G 758 518 742 Receiving Red Packets - Telecom 4G 38 2038 / Red envelope - Unicom 4G 152 276 612 Remove red envelope - move 4G 154 182 554 Red envelope - Telecom 4G 96 1410 /
  • the terminal design (English under the name: Device Under Test, abbreviation: DUT) terminal of the present invention is more than other terminals (device 1, device 2) And device 3) runs much faster.
  • DUT VS device 1 DUT VS device 2 DUT VS device 3 Receive red envelopes - Unicom 4G 10:0 10:0 10:0 Receive Red Packet - Mobile 4G 10:0 10:0 10:0 Receiving Red Packets - Telecom 4G 6:1 (3 simultaneous arrivals) 10:0 / Red envelope - Unicom 4G 10:0 10:0 10:0 Remove red envelope - move 4G 10:0 10:0 10:0 Red envelope - Telecom 4G 10:0 10:0 /
  • the DUT terminal in the present invention runs faster than other terminals (device 1, device 2 and device 3) in the process of grabbing red packets, thereby facilitating users to quickly grab red packets. .
  • the method further includes:
  • the protocol stack of the terminal starts to reduce the running speed of the terminal after 500 milliseconds by default.
  • the user does not need to continue to grab the red packet, thereby reducing the running speed of the terminal.
  • the second data is request data for acquiring a red envelope in the first application.
  • the process of the application other than the first application in the terminal may be temporarily terminated, for example, through a mobile phone housekeeper installed on the terminal, a 360 mobile assistant or the like.
  • the process of the application other than the first application is ended in a one-key clearing manner. After the redemption process is completed, the terminal resumes the process of the application other than the first application, which is not specifically limited herein.
  • the protocol stack of the terminal receives the second data generated by the plug-in to simulate the artificial red-clad packet, and the Transmitting the second data to the first application server, and causing the first application server to generate result data for displaying the red packet end interface by using the second data, so that the first application receives the result data in advance, and generates a red packet by using the result data.
  • the interface improves the rate at which users can grab red packets.
  • step 306 to step 308 are optional implementations. In some possible implementations, step 306 to step 308 need not be completely performed, and are not specifically limited herein.
  • FIG. 5 is a schematic structural diagram of a terminal according to an embodiment of the present invention.
  • the terminal 500 includes: a receiving module 501, a processing module 502, and a sending module 503.
  • the receiving module 501 is configured to receive first data.
  • the processing module 502 is configured to: when the first data is red packet data preset by the first application, improve an operation rate of processing the first data, where the first application is installed in the terminal to process the red packet Data application;
  • the sending module 503 is configured to send the first data to the first application, where the first application processes the first data.
  • the processing module identifies the first data before the first application, and when the processing module identifies that the first data is red packet data preset by the first application, increasing an operating rate of processing the first data, so that the first application can
  • the first data is received in advance, and a red envelope interface is generated according to the first data, which is beneficial for the user to see the red envelope interface in advance and perform the behavior of quickly grabbing the red envelope.
  • the first data includes a data feature value
  • the processing module 502 is configured to determine that the first data is the red packet data preset by the first application when the data feature value of the first data is consistent with the red packet feature value preset by the first application. .
  • the first data includes an application identifier of an application where the first data is located, a process identifier of the application where the first data is located, a data length, and a data feature value;
  • the processing module 502 is specifically configured to determine that an application identifier of the first data conforms to an application identifier of the first application;
  • the processing module 502 is specifically configured to increase a frequency of at least one of a central processing unit CPU, a graphics processing unit GPU, and a double rate synchronous dynamic random access memory DDR in the terminal;
  • processing module 502 is specifically configured to migrate the process of the first application from a first processor of the terminal to a second processor of the terminal, where the second processor has a high running speed.
  • the processing module 502 is specifically configured to improve a priority of a process of the first application.
  • the receiving module 501 is further configured to: after the sending module sends the first data to the first application, receive the second data sent by the first application, where the second data is the acquiring the Request data for red packets in an application;
  • the sending module 503 is further configured to preferentially send the second data to the first application server.
  • the processing module 502 is further configured to: after the terminal processes the operating rate of the first data, after the preset time period of receiving the first data, reduce an operating rate of the terminal; or
  • the operating rate of the terminal is decreased, and the red packet ending interface is used to identify that the red packet in the first application has been acquired;
  • the operating rate of the terminal is decreased, and the second data is request data for obtaining a red envelope in the first application.
  • the red envelope function is executed in a red envelope application or in an application other than the red envelope application.
  • a terminal 600 includes: one or more a processor 601, a memory 602, a bus system 603, a transceiver 604, and one or more programs 605, wherein the processor 601, the memory 602, and the transceiver 604 are connected by the bus system 603;
  • the one or more programs 605 are stored in the memory 602, the one or more programs 605 including instructions that, when executed by the terminal 600, cause the terminal 600 to perform as shown in FIG. The method of the examples is shown.
  • the disclosed system, apparatus, and method may be implemented in other manners.
  • the device embodiments described above are merely illustrative.
  • the division of cells is only a logical function division.
  • multiple units or components may be combined or integrated. Go to another system, or some features can be ignored or not executed.
  • the mutual coupling or direct coupling or communication connection shown or discussed may be an indirect coupling or communication connection through some interface, device or unit, and may be in an electrical, mechanical or other form.
  • the units described as separate components may or may not be physically separate, and the components displayed as units may or may not be physical units, that is, may be located in one place, or may be distributed to multiple network units. Some or all of the units may be selected according to actual needs to achieve the purpose of the solution of the embodiment.
  • each functional unit in each embodiment of the present invention may be integrated into one processing unit, or each unit may exist physically separately, or two or more units may be integrated into one unit.
  • the above integrated unit can be implemented in the form of hardware or in the form of a software functional unit.
  • An integrated unit if implemented in the form of a software functional unit and sold or used as a standalone product, can be stored in a computer readable storage medium.
  • the technical solution of the present invention which is essential or contributes to the prior art, or all or part of the technical solution, may be embodied in the form of a software product stored in a storage medium.
  • a number of instructions are included to cause a computer device (which may be a personal computer, server, or network device, etc.) to perform all or part of the steps of the various embodiments of the present invention.
  • the foregoing storage medium includes: a U disk, a mobile hard disk, a read-only memory (ROM), a random access memory (RAM), a magnetic disk, or an optical disk, and the like. .

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Abstract

本发明实施例公开了红包数据处理方法,用于解决通过外挂工具识别红包界面特征对用户抢红包的帮助不明显的问题,该方法包括:终端接收第一数据;所述终端的协议栈识别所述第一数据为第一应用预设的红包数据时,提高所述终端处理所述第一数据的运行速率,所述第一应用为应用层中处理所述红包数据的应用程序;所述终端的协议栈将所述第一数据发送至所述第一应用,以供所述第一应用处理所述第一数据。

Description

一种红包数据处理方法及终端 技术领域
本发明涉及终端领域,具体涉及一种红包数据处理方法及终端。
背景技术
随着一些应用(如微信、QQ、支付宝等)推出了“红包”功能,越来越多用户参与发红包或者抢红包的行为,例如:用户想在自己的一个微信群中发红包,则用户通过选择微信菜单界面中的“红包”进入发红包界面,后自行设置发一定金额和数量的红包。而对于应用程序而言,红包数据实际上是一段带有红包特征值的数据,并在网络上进行传输。终端上的应用客户端接收服务器发送的红包数据并显示红包界面,供用户抢红包。用户抢红包时,应用客户端建立与服务器的网络连接,获取抢红包的结果并显示结果界面。因此,从红包的发出到红包界面显示所用的时间以及从抢红包到结果界面显示所用的时间,将直接影响用户在使用“红包”功能过程中的体验。
在红包功能推出后,出现了一些抢红包的外挂工具,这些外挂工具的原理是在红包界面生成后,通过识别红包界面特征,进而采取提高中央处理器(英文全称:Central Processing Unit,缩写:CPU)的主频的方式对系统进行加速,从而达到加速抢红包的目的。
由于外挂工具采用红包界面特征做为识别手段,由于从红包数据接收到红包界面生成已经经过了一定的延时时间,因此后续对系统加速的方式对用户抢红包的帮助不明显。
发明内容
本发明的目的在于提供一种红包数据处理方法及终端,用于解决现有技术中通过外挂工具识别红包界面特征对用户抢红包的帮助不明显的问题。通过终端的协议栈对接收到的数据进行识别,先于应用层的应用识别该数据,并提高终端的运行速率,从而有效提高用户抢红包的速度。
本发明第一方面提供一种红包数据处理方法,该方法包括:
终端接收第一数据;终端的协议栈识别该第一数据为第一应用预设的红包数据时,提高终端处理该第一数据的运行速率,该第一应用为安装于所述终端 中处理所述红包数据的应用程序;终端的协议栈将该第一数据发送至第一应用,以供第一应用处理该第一数据。
其中,终端的协议栈将该第一数据发送至第一应用,以供第一应用处理该第一数据步骤可以和终端的协议栈识别第一数据同步或异步执行,在此不作具体限定。
例如:终端的协议栈从第一应用服务器接收第一数据,终端的协议栈会先于第一应用识别出该第一数据是否为第一应用预设的红包数据,当终端的协议栈识别该第一数据为第一应用(微信,支付宝等)预设的红包数据时,提高终端处理第一数据的运行速率,并将第一数据快速发送至第一应用,该第一应用接收到该第一数据并根据该第一数据生成红包界面,从而有利于用户提前看到红包界面,并执行抢红包的行为。
结合第一方面,在一些可能的实现方式中,该第一数据包括数据特征值;
该终端的协议栈识别该第一数据为第一应用预设的红包数据包括:
该终端的协议栈确定该第一数据的数据特征值符合所述第一应用预设的红包特征值时,确定所述第一数据为所述第一应用预设的红包数据。
结合第一方面,在另一些可能的实现方式中,该第一数据包括第一数据所在应用的应用标识符、第一数据所在应用的进程标识符、数据长度以及数据特征值;
该终端的协议栈识别该第一数据为第一应用预设的红包数据包括:
该终端的协议栈确定该第一数据的应用标识符符合第一应用的应用标识符;
且,该终端的协议栈确定该第一数据的进程标识符符合第一应用的进程标识符;
且,该终端的协议栈确定该第一数据的数据长度符合第一应用预设红包数据的数据长度;
且,该终端的协议栈确定该第一数据的数据特征值符合第一应用预设红包数据的红包特征值时,确定第一数据为第一应用预设的红包数据。
在实际应用中,该终端的协议栈确定该第一数据满足第一特征,其中,该第一特征包括第一应用的应用标识符和第一应用的进程标识符,例如:该应用 标识符(英文全称:User Identifier,缩写:UID),进程标识符(英文全称:Process Identifier,缩写:PID);该终端的协议栈确定该第一数据满足第二特征,其中,该第二特征包括该第一应用的红包数据长度和第一应用的红包特征值。
其中,进程标识符为终端系统向处于运行状态的应用分配的一个数字,例如小于65535的一个数,由于每个应用对应一个应用标识符,但是每个应用可能对应多个进程标识符,这样,通过判断第一数据的进程标识符是否符合第一应用的进程标识符,就可以准确的确认该第一数据是否为第一应用预设的红包数据。在实际应用中,例如:当判断该第一数据的进程标识符符合微信的进程标识符,则确定微信处于运行状态,则对终端的系统加速,如果判断该第一数据的进程标识符不符合微信的进程标识符,则确定微信不处于运行状态,则不对终端的系统加速,从而节约系统资源。
例如:当终端设备的网络协议栈接收到第一数据时,判断第一数据是否满足第一特征;当判断出第一数据的标识符为第一应用的UID且第一数据的进程标识符为第一应用的PID时,判断第一数据是否满足第二特征;当判断出第一数据的长度在第一应用的红包数据长度的范围内且第一数据的特征值满足该第一应用的红包特征值时,确定第一数据为第一应用预设的红包数据,并提高终端处理该第一数据的运行速率,从而有效提高用户抢红包的速度。
在实际应用中,终端的协议栈还可以识别第一特征和第二特征中的任意一个或者多个任意排列组合,从而确定该第一数据为第一应用预设的红包数据,此处不做具体限定。
结合第一方面,在另一些可能的实现方式中,该终端的协议栈将第一数据发送至第一应用之后,该终端的协议栈接收第一应用发送的第二数据,该第二数据为获取该第一应用中红包的请求数据;该终端的协议栈优先将该第二数据发送至第一应用服务器。
例如:该终端的协议栈接收该第二数据,优先将该第二数据发送至第一应用服务器,以使得该第一应用服务器根据第二数据生成结果数据,并将该结果数据发送至第一应用,第一应用接收该结果数据,并根据该结果数据生成红包结束界面。
可见,终端的协议栈将该第一数据发送至第一应用后,第一应用根据该第一数据生成红包界面,当红包界面生成后,用户可在该红包界面上进行抢红包,即:在红包界面上显示有“拆红包”的字样,通过点击“拆红包”后,将该第二数据发送至第一应用服务器,其中,发送的顺序可以是默认的顺序或者优先的顺序,例如:从终端到应用服务器之间的数据传输一般默认的顺序为先到先发,即:哪个数据先到传输口,执行哪个数据先发的原则。在一些可能的实现方式中,为了加快抢红包的速度,优先发送红包数据,例如:终端的协议栈获取第二数据后,利用“插队”的方式优先将该第二数据发送至第一应用服务器,使得第一应用服务器根据该第二数据生成用于显示红包结束界面的数据,从而有效提高用户抢红包的速度。
在另一些可能的实现方式中,提高终端处理该第一数据的运行速率包括:将终端中的中央处理器(英文全称:Central Processing Unit,缩写:CPU)、图形处理器(英文全称:Graphics Processing Unit,缩写:GPU)、双倍速率同步动态随机存储器(英文全称:Double Data Rate SDRAM,缩写:DDR)中至少一个的频率提高;或者,将第一应用的进程从终端的第一处理器迁移至终端的第二处理器中,该第二处理器的运行速率高于该第一处理器的运行速率;或者,提高该第一应用的进程的优先级。
例如:在实际应用中,可以将CPU或者GPU或者DDR的频率提高,在一种可能的实现方式中,直接将CPU或者GPU或者DDR的频率提高至最大频率从而有效加快处理第一数据的的运行速率。当然,还可以是将第一应用的进程从终端的第一处理器迁移至终端的第二处理器,例如:将第一应用的进程从终端系统中的小核迁移至终端系统中的大核,从而有效提高处理第一数据的运行速率,例如:在未迁移之前,第一应用运行在小核中,一般情况下,小核中的应用程序比大核中的应用进程的运行速率低,因此,将运行在小核中的第一应用的进程迁移至大核中,有效提高该第一应用的进程的运行速率。
在另一些可能的实现方式中,提高该处理第一数据的运行速率之后,在收到所述第一数据的预设时间段之后,降低所述终端的运行速率;或者,识别到所述第一应用生成红包结束界面之后,降低所述终端的运行速率,所述红包结束界面用于标识所述第一应用中的红包已获取结束;在发送第二数据至第一应用 服务器之后,降低所述终端的运行速率,所述第二数据为获取所述第一应用中红包的请求数据。
例如:当整个抢红包的过程结束后,将终端的运行速率恢复至初始状态,使得终端按照未加速运行速率前的初始状态照常运行,从而避免了对其他程序的运行速率的影响。
本发明第二方面提供一种终端,包括:接收模块、处理模块和发送模块。
接收模块,用于接收第一数据;
处理模块,用于识别所述第一数据为第一应用预设的红包数据时,提高处理所述第一数据的运行速率,所述第一应用为安装于所述终端中处理所述红包数据的应用程序;
发送模块,用于将所述第一数据发送至所述第一应用,以供所述第一应用处理所述第一数据。
可见,接收模块接收第一数据后,处理模块会先于第一应用识别出该第一数据是否为第一应用预设的红包数据,处理模块识别该第一数据为第一应用预设的红包数据时,则处理模块提高处理第一数据的运行速率,发送模块将该第一数据发送至第一应用,从而将第一应用接收第一数据的时间提前,进而第一应用根据第一数据生成红包界面,有效提高用户抢红包的速度,例如:对终端系统的运行速率加速后,第一应用会提前接收到第一数据,并根据第一数据生成红包界面,从而有利于用户提前看到红包界面,进而快速执行抢红包的行为。
本发明第三方面提供一种终端,包括:一个或多个处理器、存储器、总线系统、收发器以及一个或多个程序,该处理器、该存储器和该收发器通过总线系统连接;其中,一个或多个程序存储在该存储器中,一个或多个程序包括指令,该指令当被所述终端执行时使所述终端执行如第一方面或者第一方面的任意一种可能的实现方式所述的方法。
可见,终端会先于第一应用识别出该第一数据是否为第一应用预设的红包数据,终端识别第一数据为第一应用预设的红包数据时,则提高处理第一数据的运行速率,并将第一数据发送至第一应用,可见,第一应用提前接收第一数据,并根据第一数据生成红包界面的速度,有效提高用户抢红包的速度,例如:对终端系统的运行速率加速后,第一应用会提前生成红包界面,从而有利于用 户提前看到红包界面,进而快速执行抢红包的行为。
附图说明
图1为本发明实施例中终端的一个结构示意图;
图2为本发明实施例中终端系统的一个结构示意图;
图3为本发明实施例中红包数据处理方法的一个实施例示意图;
图4a为本发明实施例中红包界面的一个结构示意图;
图4b为本发明实施例中红包界面的另一个结构示意图;
图5为本发明实施例中终端的另一个结构示意图;
图6为本发明实施例中终端的另一个结构示意图。
具体实施方式
本发明的目的在于提供一种红包数据处理方法及终端,用于解决现有技术中通过外挂工具识别红包界面特征对用户抢红包的帮助不明显的问题。通过终端的协议栈对接收到的数据进行识别,进而对终端的运行速率进行加速,有效提高抢红包的速度。
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例。基于本发明中的实施例,本领域技术人员在没有作出创造性劳动前提下所获取的所有其他实施例,都属于本发明保护的范围。
本发明的说明书和权利要求书及上述附图中的术语“第一”、“第二”、“第三”“第四”等是用于区别不同的对象,而不是用于描述特定顺序。此外,术语“包括”和“具有”以及它们任何变形,意图在于覆盖不排他的包含。例如包含了一系列步骤或单元的过程、方法、系统、产品或设备没有限定于已列出的步骤或单元,而是可选地还包括没有列出的步骤或单元,或可选地还包括对于这些过程、方法、产品或设备固有的其它步骤或单元。
本发明的技术方案,应用于终端,如图1所示,所述终端100包括通信单元101、输入单元102、输出单元103、处理器104、存储单元105、外设接口106、操作系统107,各个单元之间通过一条或多条总线连接。其中,通信单元101用于建立通信信道,使得终端通过所述通信信道与远端电子设备或服务器进行 语音通信、文字通信、数据通信等;输入单元102用于实现用户与终端的交互和/或信息输入到终端中;处理器104为终端的控制中心,利用各种接口和线路连接整个终端的各个部分,通过运行或执行存储在存储单元内的软件程序和/或模块,以及调用存储在存储单元内的数据,以执行终端的各种功能和/或处理数据;输出单元103包括但不限于声音和视频输出单元,用来将处理器所输出的音频信号从数字格式转换为模拟格式;存储单元105可用于存储软件程序以及模块;外设接口106用于连接远端电子设备或服务器。。
本领域技术人员可以理解的是,图1中所示出的终端的结构并不构成对本发明的限定,它既可以是总线形结构,也可以是星型结构,还可以包括比图示更多或更少的部件,或者组合某些部件,或者不同的部件布置。在本发明实施方式中的终端包括但不限于移动电话、移动电脑、平板电脑、个人数字助理(英文全称:Personal Digital Assistant,缩写:PDA)、媒体播放器、智能电视,可穿戴设备(例如,智能手表或智能眼镜等)以及上述两项或两项以上的组合等。
在介绍本发明实施例之前,先介绍一下本发明所应用的场景,如今,抢红包已成为一种比较活跃的娱乐活动,逢年过节或者集体活动等,人们通过一些运行红包功能的应用(例如:微信、QQ、支付宝等)中进行抢红包,当然,在一种可能的实现方式中,直接在红包应用中进行抢红包,其实,抢红包就是在一些执行红包功能的应用上抢别人发的具有一定金额的电子货币的行为。
如图2所示,终端的协议栈通过网络接收到服务器发送的数据,其中,该协议栈可能是传输控制协议(英文全称:Transmission Control Protocol,缩写:TCP)栈,也可能是因特网协议(英文全称:Internet Protocol,缩写:IP)栈,可对应于开放系统互连参考模型(英文名称:Open System Interconnect,缩写:OSI)七层协议中的数据链路层、网络层、传输层、会话层、表示层等任一一个或多个层级,此处不做具体限定。例如:当第一数据是从I P栈接收到时,则通过TCP栈将该第一数据传输到本地层套接字(英文:socket)应用程序编程接口(英文全称:Application Programming Interface,缩写:API),并通过Java层socket API传输至应用层,并通过应用层中一个或多个运行红包功能的应用解析第一数据,最后生成红包界面供用户抢红包。
为了加快抢红包的速度,出现一些抢红包的外挂工具,即:在红包界面生成后,通过识别红包界面特征(例如:红包界面上涉及“红包”的字样等)进而对终端的系统进行加速,从而加快抢红包的目的,但是,由于从红包数据接收到红包界面生成已经经过了一定的延时时间,所以后续对系统加速的方式对用户抢红包而言起不到很明显的作用,另外,外挂工具识别红包界面特征会存在一定的误判率,例如:有可能将对话框中涉及“红包”的字样误看作是红包数据,而本发明很好的解决了这些缺陷。
如图2所示,终端的协议栈(例如:TCP栈或者IP栈等)通过网络接收到服务器发送的数据后,就开始对数据进行解析,当确认该数据为红包数据时,将提高处理该数据的运行速率,进而提高生成红包界面的速度,例如:通过对系统的运行速率进行加速后,红包数据从协议栈通过本地层socket API到Java层socket API,进而到应用层的传输速度加快,从而能够快速接收到该红包数据,并根据该红包数据生成红包界面,有利于用户提前看到红包界面,并快速执行抢红包的行为。
请参阅图3,为本发明实施例中抢红包的一个实施例示意图,该实施例包括:终端接收第一数据;终端的协议栈识别该第一数据为第一应用预设的红包数据时,提高终端处理该第一数据的运行速率,该第一应用为安装于所述终端中处理所述红包数据的应用程序;终端的协议栈将该第一数据发送至第一应用,以供第一应用处理该第一数据。
具体流程如下:
步骤301、第一应用服务器向终端的协议栈发送第一数据。
在本发明中,第一应用服务器是指第一应用对应的服务器,第一应用为安装于终端上处理红包数据的应用程序,例如:第一应用可以为微信,支付宝,微博等支持红包功能的应用,则对应的第一应用服务器可以为微信运营商的服务器,支付宝运营商的服务器或者微博运营商的服务器。在中国,逢年过节的时候长辈们喜欢给小辈们发红包,即:用红纸包一定金额的压岁钱,在本发明中,红包是指发送方使用安装在发送方客户端上的第一应用,通过局域网或广域网,发送的包含一定金额的电子货币。其中,该电子货币可以是具有或不具有支付功能,在此不作具体限定。接收方通过安装在自己客户端上的第一应用 接收发送方发送的红包,并通过点击等动作请求获取该红包。当然,在不具有中国传统文化的国家中,可能通过金币或者其他定义取代红包的定义,例如:英文名为bribery money,red envelope等,但是都将可以看做是红包,本发明对此不作具体限定。
其中,该协议栈可能是终端系统中的TCP,也可能是终端系统中的IP,还可能是物理层,链路层,会话层,表示层等,此处不做具体限定,例如:第一应用服务器有可能是直接将第一数据发送至TCP栈,也可能是第一应用服务器先将第一数据发送至IP栈,并通过IP栈发送至TCP栈,此处不做具体限定。
步骤302、终端的协议栈接收到第一数据。
当第一应用服务器向终端的协议栈发送第一数据后,终端的协议栈接收到该第一数据,当然,数据的类型千差万别,而本发明的技术方案应用在抢红包的场景中,因此,需要判断第一数据是否为第一应用预设的红包数据。
步骤303、终端的协议栈判断第一数据是否满足第一特征,若是,则执行步骤304。
其中,该第一特征包括第一应用的应用标识符UID和所述第一应用的进程标识符PID。
其中,该第一应用的UID可能是红包应用的UID,也可能是运行红包功能的其他应用的UID,例如:当执行红包功能的程序就是一种应用时,则对应的UID就是该红包应用的UID,当除红包应用以外的其他应用(例如微信,支付宝,微博等)中执行红包功能的程序时,则对应的UID为微信、支付宝或微博等的UID。其中,UID用于区别不同的应用,例如:通过UID就可以知道是微信的UID或者是支付宝的UID等。
需要说明的是,终端的协议栈判断第一数据是否满足第一应用的UID和用于第一应用的PID的先后顺序不做限定,例如:在一种可能的实现方式中,终端的协议栈先判断第一数据的UID为第一应用的UID时,则进一步判断第一数据的PID是否为第一应用的PID。在另一种可能的实现方式中,终端先判断第一数据的PID为第一应用的PID时,进一步判断第一数据的UID是否为第一应用的UID。
步骤304、当判断出第一数据的UID为第一应用的UID且第一数据的PID为第 一应用的PID时,判断第一数据是否满足第二特征,若是,执行步骤305,若否,结束流程。
可见,当判断出第一数据都满足第一特征时,进一步判断第一数据是否满足第二特征,其中,该第二特征包括第一应用的红包数据长度和第一应用的红包特征值。该红包数据长度包括拷贝长度,最小长度以及最大长度等,例如:微信应用的红包数据长度一般在150字节到800字节之间。该红包特征值包括红包特征值的偏移字节数,红包特征值的总长度,红包特征值的格式等。
需要说明的是,终端的协议栈判断第一数据是否满足第一应用的红包数据长度和红包特征值的先后顺序不做限定。例如:在一种可能的实现方式中,终端的协议栈先判断出第一数据的长度在第一应用的红包数据长度的范围内时,进一步判断第一数据的特征值是否在第一应用的红包特征值的范围内。在另一种可能的实现方式中,终端的协议栈先确定第一数据的特征值在第一应用的红包特征值的范围内时,进一步判断第一数据是否满足第一应用的红包数据长度。
步骤305、当判断出第一数据的长度在第一应用的红包数据长度的范围内且第一数据的特征值在第一应用的红包特征值的范围内时,确定第一数据为第一应用预设的红包数据,并提高处理第一数据的运行速率。
可见,当终端判断出第一数据满足第一特征和第二特征时,则确定第一数据为第一应用预设的红包数据,进而提高处理第一数据的运行速率。需要说明的是,终端判断第一数据是否满足第一特征和第二特征的先后顺序不做限定,在一些可能的实现方式中,终端先判断第一数据是否满足第二特征,当第一数据满足第二特征后,进一步判断该特征是否满足第一特征,直到第一数据满足第一特征和第二特征时,才确定第一数据为第一应用预设的红包数据,充分提高确认第一数据是否为第一应用预设的红包数据的正确率。
在实际应用中,终端的协议栈可能只需判断该第一数据是否符合第一应用的应用标识符,第一应用的进程标识符,第一应用预设的红包数据的数据长度以及第一应用的预设红包数据的红包特征值中的任意一种或者任何多种排列组合等,此处不做具体限定。
当然,在实际应用中,终端的协议栈识别出该第一数据的应用标识符为第 一应用的红包数据的标识符时,也可以对第一应用中的文字信息以及位置共享功能等多种数据的运行速率提高,另外,在抢红包的过程中避免终端熄屏或黑屏,终端可以提前设置延长熄屏或黑屏的时间或者暂时取消终端界面预设的密码锁屏功能等,从而提高用户抢红包的体验。
在一些可能的实现方式中,提高处理第一数据的运行速率包括:
将终端系统中的中央处理器CPU、图形处理器GPU、双倍速率同步动态随机存储器DDR中至少一个的频率提高;
或者,将所述第一应用的进程从所述终端的第一处理器迁移至所述终端的第二处理器中,所述第二处理器的运行速率高于所述第一处理器的运行速率;
或者,提高所述第一应用的进程的优先级。
例如:在实际应用中,可以将CPU或者GPU或者DDR的频率提高,在一种可能的实现方式中,直接将CPU或者GPU或者DDR的频率提高至最大频率从而有效加快终端系统的运行速率,进而有效提高处理第一数据的速率。当然,还可以是将第一应用的进程从终端的第一处理器迁移至终端的第二处理器,主要是因为第二处理器的运行速率高于第一处理器的运行速率,从而有效提高处理第一数据的速率,例如:在未迁移之前,第一应用的进程运行在小核中,一般情况下,小核中的进程比大核中的进程的运行速率低,因此,将运行在小核中的第一应用的进程迁移至大核中,有效提高该处理该第一数据的运行速率。当然,还可以提高第一应用的进程中的优先级,例如:将第一应用的进程从小核迁移至大核时,不一定代表大核中的第一应用的进程的优先级一定是高的,有可能第一应用的进程在大核中的优先级比较低,则提高第一应用的进程在大核中的优先级。可见,通过上述几种方式,有效提高处理第一数据的运行速率,从而提前第一应用接收到该第一数据的时间点,便于第一应用尽快根据第一数据生成红包界面,以供用户抢红包,从而加快用户抢红包的速度。
当然,在实际应用中,为了加快处理第一数据的运行速率,还可以暂时结束终端中除第一应用以外的其他应用的进程,例如:通过安装于终端上的手机管家,360手机助手等应用以一键清零的方式结束除第一应用以外的其他应用的进程,当抢红包的过程结束后,终端重新恢复除第一应用以外的其他应用的进程,此处不做具体限定。
步骤306、终端的协议栈接收第一应用发送的第二数据。
其中,该第二数据为获取第一应用中红包的请求数据。
例如:第一应用根据第一数据生成红包界面,该红包界面用于用户抢红包。在用户抢红包后,第一应用会生成第一应用红包的请求数据。
步骤307、终端的协议栈优先将所述第二数据发送至第一应用服务器。
即:终端的协议栈将该第二数据发送至第一应用服务器,第一应用服务器对该第二数据进行处理,并生成用于显示红包结束界面的结果数据。其中,发送的顺序可以是默认的顺序或者优先的顺序,例如:终端的协议栈到第一应用服务器之间的数据传输一般是默认的顺序为先到先发,即:哪个数据先到传输口,执行哪个数据先发的原则。在一些可能的实现方式中,为了加速抢红包的速度,优先发送红包数据,例如:终端的协议栈获取第二数据后,利用“插队”的方式优先将该第二数据发送至第一应用服务器,使得第一应用服务器尽快根据该第二数据生成用于显示红包结束界面的结果数据,从而有效提高用户抢红包的速度。
步骤308、第一应用服务器根据该第二数据生成用于显示红包结束界面的结果数据。
例如:该第一应用服务器接收到该第二数据,并根据根据该第二数据生成显示红包结束界面的结果数据,即:该结果数据用于指示用户抢到了多大金额的红包。
可见,第一应用服务器将结果数据发送至第一应用,第一应用接收到该结果数据,并根据该结果数据生成红包结束界面。
在实际应用中,当红包界面生成后,用户可在该红包界面上进行抢红包,如图4a所示,即:在红包界面上显示有“拆红包”的字样、用户名以及用户头像等,通过点击“拆红包”后,第一应用生成第二数据,并将第二数据发送至终端的协议栈,以使得终端的协议栈将该第二数据发送至第一应用服务器。第一应用接收到该第二数据后,对第二数据进行处理,并生成用于显示红包结束界面的结果数据,例如:第一应用接收到该结果数据后,根据该结果数据生成红包结束界面,如图4b所示,即:在红包结束界面上,用户可以看到自己抢了多大金额的红包或者其他人抢了多大金额的红包,例如:用户一抢了30 元,用户二抢了30元,用户二抢红包的速度比用户一抢红包的速度快。
利用本发明的技术方案,测试人员进行了具体的测试,测试结果如表1和表2:
平均提速(单位:ms)
  DUT VS设备1 DUT VS设备2 DUT VS设备3
接收红包-联通4G 668 702 792
接收红包-移动4G 758 518 742
接收红包-电信4G 38 2038 /
拆红包-联通4G 152 276 612
拆红包-移动4G 154 182 554
拆红包-电信4G 96 1410 /
表1
可见,在同等条件下,不管在接收红包时,还是在拆红包时,本发明中的被验设计(英文全称:Device Under Test,缩写:DUT)终端都要比其他终端(设备1,设备2以及设备3)的运行速度快了很多。
统计次数比例
  DUT VS设备1 DUT VS设备2 DUT VS设备3
接收红包-联通4G 10:0 10:0 10:0
接收红包-移动4G 10:0 10:0 10:0
接收红包-电信4G 6:1(3次同时到) 10:0 /
拆红包-联通4G 10:0 10:0 10:0
拆红包-移动4G 10:0 10:0 10:0
拆红包-电信4G 10:0 10:0 /
表2
可见,在同等条件下,通过多次测试,充分证明了本发明中的DUT终端在抢红包过程中的运行速率比其他终端(设备1,设备2以及设备3)快,从而利于用户快速抢红包。
在另一些可能的实现方式中,所述提高所述终端处理所述第一数据的运行速率之后,还包括:
在收到所述第一数据的预设时间段之后,降低所述终端的运行速率;
例如:终端的协议栈接收到该第一数据后,默认500毫秒后,就开始降低终端的运行速率。
或者,识别到所述第一应用生成红包结束界面之后,降低所述终端的运行速率,所述红包结束界面用于标识所述第一应用中的红包已获取结束;
例如:红包结束界面生成后,用户无需再继续抢红包,则降低终端的运行速率
或者,在发送第二数据至第一应用服务器之后,降低所述终端的运行速率,所述第二数据为获取所述第一应用中红包的请求数据。
在实际应用中,还可以是当整个抢红包的过程结束后,将终端系统的运行速率恢复至初始状态,使得终端系统按照未加速运行速率前的初始状态照常运行,从而避免了对其他程序的运行速率的影响。
当然,在实际应用中,为了加快处理第一数据的运行速率,还可以暂时结束终端中除第一应用以外的其他应用的进程,例如:通过安装于终端上的手机管家,360手机助手等应用以一键清零的方式结束除第一应用以外的其他应用的进程,当抢红包的过程结束后,终端重新恢复除第一应用以外的其他应用的进程,此处不做具体限定。
在实际应用中,还有一种可能的实现方式是,终端检测到终端上安装的插件模拟人工自动抢红包的指令时,终端的协议栈接收该插件模拟人工抢红包生成的第二数据,将该第二数据发送至第一应用服务器,并使得第一应用服务器通过该第二数据生成用于显示红包结束界面的结果数据,从而第一应用提前接收该结果数据,并通过该结果数据生成红包结束界面,提高用户抢红包的速率。
需要说明的是,步骤306至步骤308为可选的实现方式,在一些可能的实现方式中,无需完全执行步骤306至步骤308,此处不做具体限定。
为便于更好的实施本发明实施例的上述相关方法,下面还提供用于配合上述方法的相关装置。
请参阅图5,为本发明实施例中终端的一个结构示意图,该终端500包括:接收模块501、处理模块502和发送模块503。
接收模块501,用于接收第一数据;
处理模块502,用于识别所述第一数据为第一应用预设的红包数据时,提高处理所述第一数据的运行速率,所述第一应用为安装于所述终端中处理所述红包数据的应用程序;
发送模块503,用于将所述第一数据发送至所述第一应用,以供所述第一应用处理所述第一数据。
可见,处理模块先于第一应用识别该第一数据,当处理模块识别出第一数据为第一应用预设的红包数据时,提高处理所述第一数据的运行速率,使得第一应用可以提前接收到该第一数据,并根据第一数据生成红包界面,有利于用户提前看到红包界面,并执行快速抢红包的行为。
如图5所示,在一些可能的实现方式中,
所述第一数据包括数据特征值;
所述处理模块502,具体用于确定所述第一数据的数据特征值符合所述第一应用预设的红包特征值时,确定所述第一数据为所述第一应用预设的红包数据。
在一些可能的实现方式中,所述第一数据包括第一数据所在应用的应用标识符、第一数据所在应用的进程标识符、数据长度以及数据特征值;
所述处理模块502,具体用于确定所述第一数据的应用标识符符合所述第一应用的应用标识符;
且,确定所述第一数据的进程标识符符合所述第一应用的进程标识符;
且,确定所述第一数据的数据长度符合所述第一应用预设红包数据的数据长度;
且,确定所述第一数据的数据特征值符合所述第一应用预设红包数据的红包特征值时,确定所述第一数据为所述第一应用预设的红包数据。
在一些可能的实现方式中,所述处理模块502,具体用于将所述终端中的中央处理器CPU、图形处理器GPU、双倍速率同步动态随机存储器DDR中至少一个的频率提高;
或者,所述处理模块502,具体用于将所述第一应用的进程从所述终端的第一处理器迁移至所述终端的第二处理器中,所述第二处理器的运行速率高于所述第一处理器的运行速率;
或者,所述处理模块502,具体用于提高所述第一应用的进程的优先级。
在一些可能的实现方式中,
所述接收模块501,还用于所述发送模块将所述第一数据发送至所述第一应用之后,接收所述第一应用发送的第二数据,所述第二数据为获取所述第一应用中红包的请求数据;
所述发送模块503,还用于优先将所述第二数据发送至第一应用服务器。
在一些可能的实现方式中,
所述处理模块502,还用于提高所述终端处理所述第一数据的运行速率之后,在收到所述第一数据的预设时间段之后,降低所述终端的运行速率;或者,
识别到所述第一应用生成红包结束界面之后,降低所述终端的运行速率,所述红包结束界面用于标识所述第一应用中的红包已获取结束;或者,
在发送第二数据至第一应用服务器之后,降低所述终端的运行速率,所述第二数据为获取所述第一应用中红包的请求数据。
在实际应用中,当整个抢红包的过程结束后,将终端系统的运行速率恢复至初始状态,使得终端系统按照未加速运行速率前的初始状态照常运行,从而避免了对其他程序的运行速率的影响。
在一些可能的实现方式中,在红包应用中或者除红包应用以外的其他应用中执行红包功能的程序。
图5所示的实施例从功能模块的角度对终端的具体结构进行了说明,以下结合图6的实施例从硬件角度对终端的具体结构进行说明:一种终端600,包括:一个或多个处理器601、存储器602、总线系统603、收发器604以及一个或多个程序605,所述处理器601、所述存储器602和所述收发器604通过所述总线系统603连接;
其中,所述一个或多个程序605存储在所述存储器602中,所述一个或多个程序605包括指令,所述指令当被所述终端600执行时使所述终端600执行如图3所示实施例的方法。
在上述实施例中,对各个实施例的描述都各有侧重,某个实施例中没有详述的部分,可以参见其他实施例的相关描述。
所属领域的技术人员可以清楚地了解到,为描述的方便和简洁,上述描 述的系统,装置和单元的具体工作过程,可以参考前述方法实施例中的对应过程,在此不再赘述。
在本申请所提供的几个实施例中,应该理解到,所揭露的系统,装置和方法,可以通过其它的方式实现。例如,以上所描述的装置实施例仅仅是示意性的,例如,单元的划分,仅仅为一种逻辑功能划分,实际实现时可以有另外的划分方式,例如多个单元或组件可以结合或者可以集成到另一个系统,或一些特征可以忽略,或不执行。另一点,所显示或讨论的相互之间的耦合或直接耦合或通信连接可以是通过一些接口,装置或单元的间接耦合或通信连接,可以是电性,机械或其它的形式。
作为分离部件说明的单元可以是或者也可以不是物理上分开的,作为单元显示的部件可以是或者也可以不是物理单元,即可以位于一个地方,或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部单元来实现本实施例方案的目的。
另外,在本发明各个实施例中的各功能单元可以集成在一个处理单元中,也可以是各个单元单独物理存在,也可以两个或两个以上单元集成在一个单元中。上述集成的单元既可以采用硬件的形式实现,也可以采用软件功能单元的形式实现。
集成的单元如果以软件功能单元的形式实现并作为独立的产品销售或使用时,可以存储在一个计算机可读取存储介质中。基于这样的理解,本发明的技术方案本质上或者说对现有技术做出贡献的部分或者该技术方案的全部或部分可以以软件产品的形式体现出来,该计算机软件产品存储在一个存储介质中,包括若干指令用以使得一台计算机设备(可以是个人计算机,服务器,或者网络设备等)执行本发明各个实施例方法的全部或部分步骤。而前述的存储介质包括:U盘、移动硬盘、只读存储器(ROM,Read-Only Memory)、随机存取存储器(RAM,Random Access Memory)、磁碟或者光盘等各种可以存储程序代码的介质。
以上对本发明所提供的一种终端、服务器、用户识别的系统及方法进行了详细介绍,本文中应用了具体个例对本发明的原理及实施方式进行了阐述,以上实施例的说明只是用于帮助理解本发明的方法及其核心思想;同时,对于本 领域的一般技术人员,依据本发明的思想,在具体实施方式及应用范围上均会有改变之处,综上,本说明书内容不应理解为对本发明的限制。

Claims (13)

  1. 一种红包数据处理方法,其特征在于,包括:
    终端接收第一数据;
    所述终端的协议栈识别所述第一数据为第一应用预设的红包数据时,提高所述终端处理所述第一数据的运行速率,所述第一应用为安装于所述终端中处理所述红包数据的应用程序;
    所述终端的协议栈将所述第一数据发送至所述第一应用,以供所述第一应用处理所述第一数据。
  2. 根据权利要求1所述的方法,其特征在于,所述第一数据包括数据特征值;
    所述终端的协议栈识别所述第一数据为第一应用预设的红包数据包括:
    所述终端的协议栈确定所述第一数据的数据特征值符合所述第一应用预设的红包特征值时,确定所述第一数据为所述第一应用预设的红包数据。
  3. 根据权利要求1所述的方法,其特征在于,所述第一数据包括第一数据所在应用的应用标识符、第一数据所在应用的进程标识符、数据长度以及数据特征值;
    所述终端的协议栈识别所述第一数据为第一应用预设的红包数据包括:
    所述终端的协议栈确定所述第一数据的应用标识符符合所述第一应用的应用标识符;
    且,所述终端的协议栈确定所述第一数据的进程标识符符合所述第一应用的进程标识符;
    且,所述终端的协议栈确定所述第一数据的数据长度符合所述第一应用预设红包数据的数据长度;
    且,所述终端的协议栈确定所述第一数据的数据特征值符合所述第一应用预设红包数据的红包特征值时,确定所述第一数据为所述第一应用预设的红包数据。
  4. 根据权利要求1或2所述的方法,其特征在于,所述提高所述终端处理所述第一数据的运行速率包括:
    将所述终端中的中央处理器CPU、图形处理器GPU、双倍速率同步动态随 机存储器DDR中至少一个的频率提高;
    或者,将所述第一应用的进程从所述终端的第一处理器迁移至所述终端的第二处理器中,所述第二处理器的运行速率高于所述第一处理器的运行速率;
    或者,提高所述第一应用的进程的优先级。
  5. 根据权利要求1所述的方法,其特征在于,所述终端的协议栈将所述第一数据发送至所述第一应用之后,还包括:
    所述终端的协议栈接收所述第一应用发送的第二数据,所述第二数据为获取所述第一应用中红包的请求数据;
    所述终端的协议栈优先将所述第二数据发送至第一应用服务器。
  6. 根据权利要求1所述的方法,其特征在于,所述提高所述终端处理所述第一数据的运行速率之后,所述方法还包括:
    在收到所述第一数据的预设时间段之后,降低所述终端的运行速率;或者,
    识别到所述第一应用生成红包结束界面之后,降低所述终端的运行速率,所述红包结束界面用于标识所述第一应用中的红包已获取结束;或者,
    在发送第二数据至第一应用服务器之后,降低所述终端的运行速率,所述第二数据为获取所述第一应用中红包的请求数据。
  7. 一种终端,其特征在于,包括:
    接收模块,用于接收第一数据;
    处理模块,用于识别所述第一数据为第一应用预设的红包数据时,提高处理所述第一数据的运行速率,所述第一应用为安装于所述终端中处理所述红包数据的应用程序;
    发送模块,用于将所述第一数据发送至所述第一应用,以供所述第一应用处理所述第一数据。
  8. 根据权利要求7所述的终端,其特征在于,
    所述第一数据包括数据特征值;
    所述处理模块,具体用于确定所述第一数据的数据特征值符合所述第一应用预设的红包特征值时,确定所述第一数据为所述第一应用预设的红包数据。
  9. 根据权利要求7所述的终端,其特征在于,所述第一数据包括第一数据所在应用的应用标识符、第一数据所在应用的进程标识符、数据长度以及数 据特征值;
    所述处理模块,具体用于确定所述第一数据的应用标识符符合所述第一应用的应用标识符;
    且,确定所述第一数据的进程标识符符合所述第一应用的进程标识符;
    且,确定所述第一数据的数据长度符合所述第一应用预设红包数据的数据长度;
    且,确定所述第一数据的数据特征值符合所述第一应用预设红包数据的红包特征值时,确定所述第一数据为所述第一应用预设的红包数据。
  10. 根据权利要求7或8所述的终端,其特征在于,
    所述处理模块,具体用于将所述终端中的中央处理器CPU、图形处理器GPU、双倍速率同步动态随机存储器DDR中至少一个的频率提高;
    或者,所述处理模块,具体用于将所述第一应用的进程从所述终端的第一处理器迁移至所述终端的第二处理器中,所述第二处理器的运行速率高于所述第一处理器的运行速率;
    或者,所述处理模块,具体用于提高所述第一应用的进程的优先级。
  11. 根据权利要求7所述的终端,其特征在于,
    所述接收模块,还用于所述发送模块将所述第一数据发送至所述第一应用之后,接收所述第一应用发送的第二数据,所述第二数据为获取所述第一应用中红包的请求数据;
    所述发送模块,还用于优先将所述第二数据发送至第一应用服务器。
  12. 根据权利要求7所述的终端,其特征在于,
    所述处理模块,还用于提高所述终端处理所述第一数据的运行速率之后,在收到所述第一数据的预设时间段之后,降低所述终端的运行速率;或者,
    识别到所述第一应用生成红包结束界面之后,降低所述终端的运行速率,所述红包结束界面用于标识所述第一应用中的红包已获取结束;或者,
    在发送第二数据至第一应用服务器之后,降低所述终端的运行速率,所述第二数据为获取所述第一应用中红包的请求数据。
  13. 一种终端,其特征在于,包括:一个或多个处理器、存储器、总线系统、收发器以及一个或多个程序,所述处理器、所述存储器和所述收发器通过 所述总线系统连接;
    其中,所述一个或多个程序存储在所述存储器中,所述一个或多个程序包括指令,所述指令当被所述终端执行时使所述终端执行如权利要求1至6任一项所述的方法。
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