CN105656704B - Page abnormity detection method, device and system - Google Patents

Abstract

The invention relates to a method, a device and a system for detecting page abnormity, wherein in one embodiment, the method comprises the following steps: acquiring a unique identifier displayed in a page in the first electronic terminal at the second electronic terminal according to a first operation instruction input by a user, wherein the unique identifier is used for marking the page; acquiring an action identifier selected by a user according to a second operation instruction input by the user, wherein the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content; and sending the selected action identifier and the unique identifier to the server, so that the server sends an issuing instruction to a terminal corresponding to the unique identifier, and the terminal is triggered to execute the action corresponding to the action identifier on a corresponding page. According to the embodiment of the invention, whether the landing page is an official page can be detected, and the internet surfing safety of the user is provided.

Description

Page abnormity detection method, device and system

Technical Field

The present invention relates to the field of computing technologies, and in particular, to a method, an apparatus, and a system for detecting a page anomaly.

Background

As networks develop, networks become a part of more people's lives, but at the same time, network security becomes a more concern. And various kinds of software are carried out by logging in various web pages and software through the account number by the user. However, some hackers may use some counterfeit official software or websites to hijack information such as the account number and the password of the user, which causes hidden danger to the information security of the user. Therefore, it is a more important issue to identify whether the current usage is an official web page or software.

Disclosure of Invention

In view of this, the present invention provides a method, an apparatus, and a system for detecting page anomalies, which can effectively determine whether a current display interface is an official page.

A page anomaly detection method, comprising the steps of:

acquiring a unique identifier displayed in a page in the first electronic terminal at the second electronic terminal according to a first operation instruction input by a user, wherein the unique identifier is used for marking the page;

acquiring an action identifier selected by a user according to a second operation instruction input by the user, wherein the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content; and

and sending the selected action identifier and the unique identifier to the server, so that the server sends an instruction to a terminal corresponding to the unique identifier, and the terminal is triggered to execute the action corresponding to the action identifier on a corresponding page.

A page anomaly detection method, comprising the steps of:

receiving a page access request sent by a first electronic terminal;

returning a page with a unique identifier according to the access request;

receiving a unique identifier of the first electronic terminal and an action identifier selected by a user, wherein the unique identifier of the first electronic terminal is sent by a second electronic terminal, the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content; and

and sending an issuing instruction to the terminal corresponding to the unique identifier, and triggering the terminal to execute the action corresponding to the action identifier on the corresponding page.

A page abnormity detection method is provided, and the method relates a second electronic terminal and a first electronic terminal based on a network service provided by a server, and the method comprises the following steps:

the server receives a page access request sent by a first electronic terminal;

the server returns a page with a unique identifier according to the access request;

acquiring a unique identifier displayed in a page in the first electronic terminal at the second electronic terminal according to a first operation instruction input by a user, wherein the unique identifier is used for marking the page;

the second electronic terminal obtains an action identifier selected by the user according to a second operation instruction input by the user, wherein the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content;

the second electronic terminal sends the selected action identifier and the unique identifier to the server;

and the server sends an instruction to the terminal corresponding to the unique identifier, and triggers the terminal to execute the action corresponding to the action identifier on the corresponding page.

A page anomaly detection apparatus, said apparatus comprising the following modules:

the acquisition module is used for acquiring a unique identifier displayed in a page in the first electronic terminal at the second electronic terminal according to a first operation instruction input by a user, wherein the unique identifier is used for marking the page;

the selection module is used for acquiring an action identifier selected by a user according to a second operation instruction input by the user, wherein the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content; and

and the sending module is used for sending the selected action identifier and the unique identifier to the server, so that the server sends an issuing instruction to the terminal corresponding to the unique identifier, and the terminal is triggered to execute the action corresponding to the action identifier on the corresponding page.

A page anomaly detection apparatus, said apparatus comprising the following modules:

the request receiving module is used for receiving a page access request sent by a first electronic terminal;

the page returning module is used for returning a page with a unique identifier according to the access request;

the receiving module is used for receiving the unique identifier of the first electronic terminal and an action identifier selected by a user, wherein the unique identifier of the first electronic terminal is sent by a second electronic terminal, the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content; and

and the action sending module is used for sending an issuing instruction to the terminal corresponding to the unique identifier and triggering the terminal to execute the action corresponding to the action identifier on the corresponding page.

A page abnormity detection system comprises a server, a second electronic terminal and a first electronic terminal:

the server is used for receiving a page access request sent by the first electronic terminal and returning a page with a unique identifier according to the access request;

the second electronic terminal is used for acquiring a unique identifier displayed in a page in the first electronic terminal according to a first operation instruction input by a user, and the unique identifier is used for marking the page;

the second electronic terminal is further used for acquiring an action identifier selected by the user according to a second operation instruction input by the user, wherein the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content;

the second electronic terminal is further used for sending the selected action identifier and the unique identifier to the server;

the server is further configured to issue an instruction to the terminal corresponding to the unique identifier, and trigger the terminal to execute the action corresponding to the action identifier on the corresponding page.

According to the embodiment, whether the page accessed by the terminal is safe or not is detected through the unique identifier by establishing the association between the two terminals, so that the internet surfing safety of the user is improved.

In order to make the aforementioned and other objects, features and advantages of the invention comprehensible, preferred embodiments accompanied with figures are described in detail below.

Drawings

Fig. 1 is a schematic diagram of a page anomaly detection system according to a first embodiment.

Fig. 2 is a block diagram of a server for detecting page abnormality of fig. 1.

Fig. 3 is a block diagram of a second electronic terminal for detecting page abnormality in fig. 1.

Fig. 4a is a schematic diagram of an action list interface received by the second electronic terminal 11 in an embodiment.

Fig. 4b is a schematic diagram illustrating an operation of the second electronic terminal 11 according to an embodiment.

FIG. 5 is a timing diagram of one embodiment of page anomaly detection.

Fig. 6 is a flowchart of a page anomaly detection method according to a second embodiment.

Fig. 7 is a flowchart of a page anomaly detection method according to a third embodiment.

Fig. 8 is a flowchart of a page anomaly detection method according to a fourth embodiment.

Fig. 9 is a flowchart of a page anomaly detection method according to a fifth embodiment.

Fig. 10 is a flowchart of a page anomaly detection method according to a sixth embodiment.

Fig. 11 is a flowchart of a page anomaly detection method according to a seventh embodiment.

Fig. 12 is a flowchart of a page anomaly detection method according to the eighth embodiment.

Fig. 13 is a flowchart of a page anomaly detection method according to the ninth embodiment.

Fig. 14 is a flowchart of a page anomaly detection method according to the tenth embodiment.

Fig. 15 is a flowchart of a page anomaly detection method according to the eleventh embodiment.

Fig. 16 is a flowchart of a page anomaly detection method according to the twelfth embodiment.

Fig. 17 is a flowchart of a page fault detection method according to the thirteenth embodiment.

Fig. 18 is a block diagram of a page fault detection apparatus according to a fourteenth embodiment.

Fig. 19 is a block diagram of a page fault detection apparatus according to a fifteenth embodiment.

Fig. 20 is a block diagram of a page fault detection apparatus according to a sixteenth embodiment.

Fig. 21 is a block diagram of a page abnormality detection apparatus according to a seventeenth embodiment.

Fig. 22 is a block diagram of a page fault detection apparatus according to an eighteenth embodiment.

Fig. 23 is a block diagram of a page fault detection apparatus according to a nineteenth embodiment.

Fig. 24 is a block diagram of a page fault detection apparatus according to a twentieth embodiment.

Fig. 25 is a block diagram of a page fault detection apparatus according to a twenty-first embodiment.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the predetermined objects, the following detailed description of the embodiments, structures, features and effects according to the present invention will be made with reference to the accompanying drawings and preferred embodiments.

First embodiment

Fig. 1 is a schematic diagram of a page anomaly detection system according to a first embodiment. As shown in fig. 1, the page fault detection system 100 includes one or more servers 11 (only one is shown in fig. 1), one or more second electronic terminals 21 (only one is shown in fig. 1), and one or more first electronic terminals 22 (only one is shown in fig. 1). Each server refers to a computer deployed in a network environment, and is configured to listen to service requests submitted by other computers or other intelligent terminals (such as the electronic terminals 21 and 22 shown in fig. 1) on the network and provide corresponding services. Specific examples of the electronic terminal 20 include, but are not limited to, handheld computers, desktop computers, mobile phones, media players, personal digital assistants, and various combinations of the foregoing.

In an embodiment, the server 11 is configured to provide each operation service in a page for different user terminals, where the page includes a unique identifier, and the server 11 may further establish an association between different terminals according to the unique identifier submitted by the electronic terminal, so as to achieve interaction between the terminals through the association.

Fig. 2 shows a block diagram of the server 11 in fig. 1. As shown in fig. 2, the server 11 includes: memory 102, processor 104, and network module 106. It will be understood by those skilled in the art that the structure shown in fig. 2 is only an illustration, and does not limit the structure of the server 11. For example, server 11 may also include more or fewer components than shown in FIG. 2, or have a different configuration than shown in FIG. 2.

The memory 102 may be used to store software programs and modules, such as program instructions/modules corresponding to the page exception detection method, apparatus and system in the embodiments of the present invention, and the processor 104 executes various functional applications and data processing by running the software programs and modules stored in the memory 102, that is, implements the page exception detection processing method. The memory 102 may include high speed random access memory, and may also include non-volatile memory, such as one or more magnetic storage devices, flash memory, or other non-volatile solid-state memory. In some examples, memory 102 may further include memory located remotely from processor 104, which may be connected to server 11 via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The network module 106 is used for receiving and transmitting network signals. The network signal may include a wireless signal or a wired signal. In one example, the network signal is a wired network signal. At this time, the network module 106 may include a processor, a random access memory, a converter, a crystal oscillator, and the like.

The software programs and modules include: an operating system 108, and a connection module 110. The operating system 108 may be, for example, LINUX, UNIX, WINDOWS, which may include various software components and/or drivers for managing system tasks (e.g., memory management, storage device control, power management, etc.), and may communicate with various hardware or software components to provide an operating environment for other software components. The connection module 110 runs on the basis of the operating system 108 and is used for connecting the electronic terminals 21 and 22 and the server.

Further, the connection module 110 may include an identification obtaining module 112, configured to obtain a serial number of a corresponding terminal when the user sends the unique identifier, and send the serial number to the server, and the connection module 112 further includes an action control module 114, configured to transfer an action sent by the second electronic terminal 21 to the first electronic terminal 22.

Fig. 3 shows a block diagram of the second electronic terminal in fig. 1. As shown in fig. 3, the second electronic terminal 21 includes one or more processors 202 (only one is shown), a memory 204, a storage controller 206, a Radio Frequency (RF) module 208, a network module 210, an input module 212, and a display module 214. It will be understood by those skilled in the art that the structure shown in fig. 3 is merely illustrative and is not intended to limit the structure of the second electronic terminal 21. For example, the second electronic terminal 21 may also include more or fewer components than shown in FIG. 3, or have a different configuration than shown in FIG. 3.

Those skilled in the art will appreciate that all other components are peripheral devices with respect to the processor 202, and that the processor 202 is coupled to the peripheral devices through a plurality of peripheral interfaces 220. The peripheral interface 220 may be implemented based on the following standards: universal Asynchronous Receiver/Transmitter (UART), General Purpose Input/Output (GPIO), Serial Peripheral Interface (SPI), Inter-Integrated Circuit (I2C), but is not limited to the above standards. In some examples, peripheral interface 220 may include only a bus; in other examples, peripheral interface 220 may also include other elements, such as one or more controllers, for example, a display controller for interfacing with a liquid crystal display panel or a memory controller for interfacing with a memory. In addition, the controller may be separate from the peripheral interface 220 and integrated within the processor 202 or a corresponding peripheral.

The memory 204 may be used to store software programs and modules, such as program instructions/modules corresponding to the page fault detection method/apparatus/system in the embodiment of the present invention, and the processor 202 executes various functional applications and data processing by running the software programs and modules stored in the memory 204, that is, implementing the above-mentioned page fault detection method. Memory 204 may include high speed random access memory, and may also include non-volatile memory, such as one or more magnetic storage devices, flash memory, or other non-volatile solid-state memory. In some examples, the memory 204 may further include memory remotely located from the processor 202, which may be connected to the second electronic terminal 21 via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The RF module 208 is used for receiving and transmitting electromagnetic waves, and implementing interconversion between the electromagnetic waves and electrical signals, thereby communicating with a communication network or other devices. The RF module 208 may include various existing circuit elements for performing these functions, such as an antenna, a radio frequency transceiver, a digital signal processor, an encryption/decryption chip, a Subscriber Identity Module (SIM) card, memory, and so forth. The RF module 108 may communicate with various networks such as the internet, an intranet, a wireless network, or with other devices over a wireless network. The wireless network may comprise a cellular telephone network, a wireless local area network, or a metropolitan area network. The Wireless network may use various Communication standards, protocols and technologies, including but not limited to Global System for Mobile Communication (GSM), Enhanced Mobile Communication (EDGE), wideband Code division multiple Access (W-CDMA), Code Division Multiple Access (CDMA), Time Division Multiple Access (TDMA), Wireless Fidelity (WiFi) (e.g., IEEE802.11 a, IEEE802.11 b, IEEE802.1 g and/or IEEE802.1 n), Voice over internet protocol (VoIP), world wide mail Access (Microwave for Wireless communications, Wi-Max), and other short message protocols, as well as any other suitable communication protocols, and may even include those that have not yet been developed.

The network module 210 is used for receiving and transmitting network signals. The network signal may include a wireless signal or a wired signal. In one example, the network signal is a WiFi signal, and since the operating frequency of WiFi is also in the radio frequency band, the network module may have a hardware structure similar to the RF module 108, that is, may include an antenna, a radio frequency transceiver, a digital signal processor, an encryption/decryption chip, and other elements. In one example, the network signal is a wired network signal. At this time, the network module 210 may include a processor, a random access memory, a converter, a crystal oscillator, and the like.

The input unit 212 may be used to receive input character information and generate keyboard, mouse, joystick, optical or trackball signal inputs related to user settings and function control. Specifically, the input unit may include a key and a touch surface. The keys may include, for example, character keys for inputting characters, and control keys for triggering control functions. Examples of control keys include a "back to home" key, a power on/off key, a take picture key, and the like. The touch surface may collect touch operations by a user (e.g., operations by a user on or near the touch surface using a finger, a stylus, or any other suitable object or accessory) and drive the corresponding connection device according to a predetermined program. Alternatively, the touch surface may comprise two parts, a touch detection device and a touch controller. The touch detection device detects the touch direction of a user, detects a signal brought by touch operation and transmits the signal to the touch controller; the touch controller receives touch information from the touch sensing device, converts the touch information into touch point coordinates, sends the touch point coordinates to the processor 202, and can receive and execute commands sent by the processor 202. In addition, the touch surface can be realized by various types such as resistance, capacitance, infrared rays and surface acoustic waves. The input unit 212 may include other input devices in addition to the touch surface. Such other input devices include, but are not limited to, one or more of a physical keyboard, trackball, mouse, joystick, and the like.

The display module 214 is used to display information input by the user, information provided to the user, and various graphical user interfaces of the second electronic terminal 21, which may be composed of graphics, text, icons, video, and any combination thereof. In one example, the display module 214 includes a display panel. The Display panel may be, for example, a Liquid Crystal Display (LCD), an Organic Light-Emitting diode (OLED) Display panel, an electrophoretic Display (EPD), or the like. Further, the touch surface may be disposed on the display panel so as to be integrated with the display panel. In other embodiments, the display module 214 may also include other types of display devices, including, for example, a projection display device. In contrast to a general display panel, the projection display device needs to further include some components for projection such as a lens group.

The software programs and modules include: an operating system and an interface control module. The operating system may be LINUX, UNIX, WINDOWS, or a mobile operating system such as Android, IOS, etc., which may include various software components and/or drivers for managing system tasks (e.g., memory management, storage device control, power management, etc.), and may communicate with various hardware or software components to provide an operating environment for other software components. The interface control module operates on the basis of the operating system and provides a page abnormality detection function for a user, and specific details thereof will be described below with reference to the embodiments.

The following is a description of the operation and details of the page anomaly detection system 100 of the present embodiment. FIG. 5 is a timing diagram illustrating one embodiment of page fault detection, as shown in FIG. 5.

The page anomaly detection system in the embodiment is connected with the second electronic terminal 21 to control the change of the first electronic terminal 22 based on the network service provided by the server.

As shown in fig. 5, a page access request is sent to the server 11 at the first electronic terminal 22, and a page with a unique identifier is returned by the server 11. The page can be presented in the form of a web page of an official website or can be application software. The page includes a unique identifier, which in one example may be an identifier of a uniquely markable page displayed in the current interface, such as a one-dimensional code, a two-dimensional code, an identification string, and the like. Further, the unique identifier is used for uniquely identifying that the user opens the application software and the webpage once. When the terminal opens the software or the webpage, the server provides a unique identifier to be displayed on the current opening interface.

The second electronic terminal 21 obtains said unique identifier in the page of the first electronic terminal 22. In one example, when the unique identifier is in the form of a two-dimensional code, the second electronic terminal 21 may turn on the camera module to acquire the unique identifier by scanning the two-dimensional code. In another example, the unique identifier is a character string displayed in a page, and the second electronic terminal 21 reads the unique identifier input by the user through an input window. In another example, the second electronic terminal 21 obtains the unique identifier by establishing a connection with the first electronic terminal 22, such as a USB data connection, bluetooth, infrared, or wireless fidelity (wi-fi). The second electronic terminal 21 sends said unique identifier to the server 11 and at the same time the unique identifier of the second electronic terminal 21.

In one example, the second electronic terminal 21 runs an application software, and the application software can interact with the first electronic terminal 22 to detect whether the webpage or the software running in the first electronic terminal 22 provides a security interface for the official website. And executing the selected action, such as shaking one and shaking two, dividing the interface into two parts and the like, by the interface opened by the first electronic terminal. The unique identifier is an identification code of a webpage or software which can be operated at the electronic terminal, is similar to a personal identification number, and mainly has the function of preventing the software of the user from being stolen by the user. When the user registers, a unique identification code is generated according to the computer software and hardware information installed by the user software.

As shown in fig. 5, the second electronic terminal 21 sends the unique identifier of the second electronic terminal and the unique identifier of the first electronic terminal to the server 11, and the server 11 establishes the association between the second electronic terminal 21 and the first electronic terminal according to the unique identifier of the second electronic terminal 21 and the unique identifier of the first electronic terminal 22, and it can be known that when the second electronic terminal 21 sends the unique identifier to the server 11, the association between the second electronic terminal 21 and the first electronic terminal is automatically established.

If the second electronic terminal 21 is successfully associated with the first electronic terminal 22. The second electronic terminal 21 selects an action to send to the action control module 114 in the server 11, where the action may be a list of specified action types sent by the server 11, for example, the action in the action identification list is an action type executable by the first electronic terminal 22. The second electronic terminal 21 selects an action identity in the action identity list. For example, the action in the action identification list may include playing a sound, a video, an animation, or changing the content of the page display, such as: shaking one, dividing into left and right halves, and making the interface become an apple to generate a cloud interface. The second electronic terminal 21 receives an action identifier instruction corresponding to the trigger of the user, acquires the action identifier, and sends the action identifier to the action control module 114 of the server 11. The action control module 114 sends the selected action received from the second electronic terminal 21 to the first electronic terminal 22 for execution. Further, before the selection operation is transmitted, if the second electronic terminal 21 receives a user departure preview instruction, the preview effect map is displayed on the second electronic terminal 21. Further, the server 11 sends the control link method, which may be some action instruction list with parameters sent to a certain IP, to the second electronic terminal 21 and the first electronic terminal 22, respectively.

In one example, as shown in fig. 4a and 4b, if an operation of a user long pressing in generating a cloud interface option is received, the pre-option 301 is displayed, where the pre-option 301 may include a determination and preview option, and the second electronic terminal 21 receives a user departure preview instruction, and then the cloud interface shown in fig. 4b is displayed on the second electronic terminal 21.

Further, the server 11 may also return a result of whether the action is successfully sent to the first electronic terminal 22 to the second electronic terminal 21, and if the first electronic terminal 21 successfully executes the action corresponding to the action identifier, the second electronic terminal 21 outputs a security page provided by the authority as a page being accessed by the first electronic terminal 22.

It will be appreciated that if the unique identifier is not an identification provided by the server 11, the server 11 cannot identify the unique identifier and cannot successfully establish an association between the second electronic terminal 21 and the first electronic terminal 22 based on the unique identifier. Further, the first electronic terminal 22 cannot perform the operation transmitted by the second electronic terminal 21. It can be determined whether the current interface of the first electronic terminal is the official-provided version by whether the current page of the first electronic terminal 22 executes the action identifier selected by the user of the second electronic terminal 21. It can also be determined in the first electronic terminal 22 whether the page is an official one.

Through the steps, the second electronic terminal 21 collects the unique identifier of the first electronic terminal 22 to control the interface of the first electronic terminal 22 to perform corresponding actions, whether the page is an official safety interface or not is judged, and the internet surfing safety of the user is improved.

In addition, in the above-described embodiment, the connection module 110 and the action control module 114 are deployed in the same server, and then the implementation manner is not limited thereto. For example, the connection module 110 and the action control module 114 may be deployed in separate servers; in general, those skilled in the art can flexibly deploy the system according to specific needs and hardware environments.

Second embodiment

Fig. 6 is a schematic diagram of a page anomaly detection method, which is used for a second electronic terminal. As shown in fig. 6, the method of the present embodiment includes the following steps:

step S101, a unique identifier displayed in a page in the first electronic terminal is obtained at the second electronic terminal according to a first operation instruction input by a user, and the unique identifier is used for marking the page.

The unique identifier is an identifier of a page opened in the first electronic terminal 22, and in an example, the unique identifier may be a unique identifier such as a one-dimensional code, a two-dimensional code, or an identification character string displayed in the current interface. Further, the unique identifier is an identification uniquely provided by the server 11. The unique identifier has a uniqueness, it being understood that the interface currently opened in the first electronic terminal 22 can be uniquely determined by the unique identifier.

The method for reading the unique identifier in the first electronic terminal interface can be that the unique identifier is read in an information readable window, or the unique identifier is read by connecting the first electronic terminal.

In one embodiment, the obtaining of the unique identifier of the first electronic terminal in the second electronic terminal is scanning the unique identifier of the first electronic terminal at the second electronic terminal starting a scanning window. For example, an image pickup scanning window that can receive a two-dimensional code or the like may be used. In one example, when the unique identifier is a two-dimensional code, the second electronic terminal 21 may turn on a camera module to scan the two-dimensional code to obtain the unique identifier.

In another embodiment, said obtaining the unique identifier of the first electronic terminal in the second electronic terminal is by receiving a user input of the unique identifier of the first electronic terminal. The unique identifier may be a character string displayed in the interface, and the second electronic terminal 21 reads the unique identifier input by the user through the input window.

In another embodiment, the unique identifier of the first electronic terminal is obtained by connecting the first electronic terminal, and the connection mode comprises USB data connection, Bluetooth, infrared ray or wireless fidelity (wi-fi).

Step S102, obtaining an action identifier selected by a user according to a second operation instruction input by the user, wherein the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content.

The second operation instruction may be an action identifier displayed in the second electronic terminal through clicking by the user. The selection action may be an action in an action list executable by the first electronic terminal returned by the server. The action may be playing a sound, video, animation, or changing the content of the page display, such as shaking one and shaking, dividing the page into two halves, changing the page into a cloud and then restoring the page, etc.

In one example, the second electronic terminal runs an application software, and the application software can interact with the first electronic terminal to detect whether the webpage or the software running in the first electronic terminal is a security page provided by an official website. And performing a selected action through the interface opened by the first electronic terminal, such as shaking one and dividing the interface into two parts and other action identifications.

Step S103, sending the selected action identifier and the unique identifier to the server, so that the server sends an instruction to a terminal corresponding to the unique identifier, and the terminal is triggered to execute the action corresponding to the action identifier on a corresponding page.

It will be appreciated that the second electronic terminal transmits the unique identifier to the server and also transmits information about its terminal to the server. The other information shown comprises a unique identifier of the second electronic terminal. The unique identifier is used for uniquely identifying the application software or the webpage which is opened by the user currently. When the terminal opens the software or the webpage, the first server provides a unique identifier to be displayed on the current opening interface.

In one example, the second electronic terminal runs an application software, and the application software can interact with the first electronic terminal to detect whether the webpage or the software running in the first electronic terminal is a security page provided by an official website. The unique identifier of the first electronic terminal is obtained through the second electronic terminal, the unique identifier is provided for the server, and the server establishes the association between the first terminal and the second terminal. It will be appreciated that if the page accessed by the first electronic terminal is a phishing page, the unique identifier of the first electronic terminal is not the unique identifier provided by the server, and the server will not be able to establish an association between the second electronic terminal and the first electronic terminal.

The serial number is an identification code of software which can be running on the electronic terminal 21, is similar to a personal identification number, and mainly has the function of preventing the software of the user from being stolen by the user. When the user registers, a unique identification code is generated according to computer software and hardware information installed by user software, or a unique identifier generated in real time when the user accesses a page. It is to be appreciated that the unique identifier is unique to the access page.

In one example, the selected action execution instruction sent by the second electronic terminal can only be received if the association between the second electronic terminal and the first electronic terminal is successful. It can be known that, if the association between the second electronic terminal and the first electronic terminal is successful, the server may send an action identifier execution instruction to the first electronic terminal through the unique identifier of the first electronic terminal, so as to trigger the first electronic terminal to execute the action.

According to the method of the embodiment, the association between the second electronic terminal and the first electronic terminal is established, and then the first electronic terminal is enabled to execute the judgment of whether the page is the official security page through the action sent by the second electronic terminal, so that the internet surfing security of the user is improved.

Third embodiment

The present embodiment provides a method for detecting a page anomaly, which is applied to a second electronic terminal, and is similar to the second embodiment, with reference to fig. 7, the method further includes, after step S102:

and step S104, if receiving the message that the action execution returned by the server is successful, outputting the prompt information that the network page accessed in the first electronic terminal belongs to the official webpage.

Further, if the server successfully sends the action instruction to the first electronic terminal, the first electronic terminal executes the action, and the page which outputs the prompt message can be selected as an official page and can be used safely.

According to the method of the embodiment, whether the page is an official security interface or not is judged by receiving the result returned by the server, so that the internet surfing security of the user is improved.

Fourth embodiment

The present embodiment provides a method for detecting a page anomaly, which is applied to a second electronic terminal, and is similar to the second embodiment, with reference to fig. 8, the method further includes, before step S103:

step S105, receiving an appointed action identifier list sent by the server, where the action identifier selected by the user is an action identifier in the identifier list.

And step S106, receiving a corresponding action schematic diagram in the action identification list returned by the server.

The action may be a specified action-like list sent by the server 11, for example, the action list may be a type of action executable by the first electronic terminal. And the second electronic terminal selects an action in the action list. For example, the action list may include dithering, splitting into left and right halves, changing the interface into an apple restitution page, generating a cloud interface restitution page, and so on. And the second electronic terminal receives a corresponding action instruction in a trigger list of the user and sends the action identifier to an action control module of the server. And the action control module of the server sends the received action selected by the second electronic terminal to the first electronic terminal for execution. Further, before the selection action is sent, the second electronic terminal receives a preview instruction triggered by the user, and the preview effect picture is displayed in the second electronic terminal.

In one example, as shown in fig. 4a and 4b, if an operation of a user clicking a right mouse button in a cloud interface generation option or long-pressing the cloud interface generation option is received, a pre-option 301 is displayed, where the pre-option 301 may include a determination and preview option, and the second electronic terminal 21 receives a user departure preview instruction, and then the cloud interface shown in fig. 4b is displayed on the second electronic terminal 21.

According to the method of the embodiment, the designated action list is provided first, so that the safety of the current interface is prevented from being judged by mistake due to the fact that the action which cannot be executed by the first electronic terminal is generated, and the judgment accuracy is improved.

Fifth embodiment

The present embodiment provides a method for detecting a page anomaly, which is applied to a second electronic terminal, and is similar to the third embodiment, with reference to fig. 9, the method further includes, before step S105:

and step S107, receiving the control link method sent by the server.

The control linking method can be that an instruction with parameters is sent to a specified IP to execute corresponding actions. It will be appreciated that the control link method may include a variety of actions.

According to the device of the embodiment, the server provides a control link method of the action, the corresponding action is effectively executed, the efficiency of judging whether the interface is an official security page or not is improved, and the internet surfing security of the user is improved.

Sixth embodiment

The embodiment provides a page anomaly detection method, which is used in a server shown in fig. 1, and as shown in fig. 10, the method includes the following steps:

step S201, receiving a page access request sent by a first electronic terminal.

And step S202, returning a page with a unique identifier according to the access request.

The unique identifier is an identifier of a page opened by the first electronic terminal, and in one example, the unique identifier may be a unique identifier such as a one-dimensional code, a two-dimensional code, or an identification character string displayed in a current interface. The unique identifier may uniquely identify the page.

Step S203, receiving the unique identifier of the first electronic terminal and an action identifier selected by a user and sent by a second electronic terminal, wherein the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content.

The second operation instruction may be an action identifier displayed in the second electronic terminal through clicking by the user. The selection action may be an action in an action list executable by the first electronic terminal returned by the server. The action may play a sound, video, animation, or change the content of the page display, such as shake-shake, page split, page change to cloud and page restore, etc.

And step S204, sending an issuing instruction to the terminal corresponding to the unique identifier, and triggering the terminal to execute the action corresponding to the action identifier on the corresponding page. And sending the received action to a terminal corresponding to the unique identifier, and triggering the terminal to execute the action.

It can be understood that, if the page is a fake web page, and the unique identifier in the page is not the unique identifier provided by the server, the server cannot recognize the unique identifier of the first electronic terminal, and thus cannot establish an association between the second electronic terminal and the first electronic terminal, and the first electronic terminal cannot execute the action sent by the second electronic terminal.

In this embodiment, whether the page accessed by the first electronic terminal is an officially provided secure page or a phishing page may be determined by whether the association between the second electronic terminal and the first electronic terminal is successfully established.

According to the method of the embodiment, the association between the second electronic terminal and the first electronic terminal is established, and then the first electronic terminal is enabled to execute the judgment of whether the page is the official security page through the action sent by the second electronic terminal, so that the internet surfing security of the user is improved.

Seventh embodiment

The present embodiment provides a method for detecting a page anomaly, which is applied to the server shown in fig. 1, and is similar to the sixth embodiment, with reference to fig. 11, the method further includes, after step S204:

step S205, if the message that the action execution is successful returned by the first electronic terminal is received, returning the message that the action execution is successful to the second electronic terminal.

In one example, the selected action sent by the second electronic terminal may not be received until the association between the second electronic terminal and the first electronic terminal is successful. It can be known that, if the association between the second electronic terminal and the first electronic terminal is successful, the server may send an action execution instruction to the first electronic terminal through the unique identifier of the first electronic terminal, so as to trigger the first electronic terminal to execute the action.

In another example, no prompt is output at the second electronic terminal that the accessed page belongs to a phishing page. And whether the association between the second electronic terminal and the first electronic terminal is successful or not can receive the selected action sent by the second electronic terminal. It is understood that if the association between the second electronic terminal and the first electronic terminal is not successful, the server cannot send the action execution instruction to the first electronic terminal through the unique identifier of the first electronic terminal, and the first electronic terminal cannot execute the action. The page of the first electronic terminal is unchanged. Further, if the action is not successfully executed in the first electronic terminal, triggering the second electronic terminal to output a prompt message that the first electronic terminal access page is a phishing page.

According to the method of the embodiment, whether the page is an official security interface or not is judged by receiving the result returned by the server, so that the internet surfing security of the user is improved.

Eighth embodiment

The present embodiment provides a method for detecting a page anomaly, which is applied to the server shown in fig. 1, and is similar to the sixth embodiment, with reference to fig. 12, the method further includes, before step S203:

and step S206, sending an appointed action identification list to the second electronic terminal, wherein the action identification selected by the user is the action identification in the identification list.

And step S207, sending the corresponding action schematic diagram in the action identification list to a second electronic terminal.

The action may be a specified action-like list sent by the server 11, for example, the action list may be a type of action executable by the first electronic terminal. And the second electronic terminal selects an action in the action list. For example, the action may be playing a sound, video, animation, or changing the content of the page display, such as shaking one and shaking, dividing the page in two, turning the page into a cloud and then restoring the page, etc. . And the second electronic terminal receives a corresponding action instruction in a trigger list of the user and sends the action to an action control module of the server. And the action control module of the server sends the received action selected by the second electronic terminal to the first electronic terminal for execution. Further, before the selection action is sent, the second electronic terminal receives a preview instruction triggered by the user, and the preview effect picture is displayed in the second electronic terminal.

In one example, as shown in fig. 4a and 4b, if an operation of a user clicking a right mouse button in a cloud interface generation option or long-pressing the cloud interface generation option is received, a pre-option 301 is displayed, where the pre-option 301 may include a determination and preview option, and the second electronic terminal 21 receives a user departure preview instruction, and then the cloud interface shown in fig. 4b is displayed on the second electronic terminal 21.

According to the method of the embodiment, the designated action list is provided first, so that the safety of the current interface is prevented from being judged by mistake due to the fact that the action which cannot be executed by the first electronic terminal is generated, and the judgment accuracy is improved.

Ninth embodiment

The present embodiment provides a method for detecting a page anomaly, which is applied to the server shown in fig. 1, and is similar to the seventh embodiment, with reference to fig. 13, the method further includes, before step S203:

and S208, sending a control link method to the second electronic terminal and the first electronic terminal.

The control linking method can be that an instruction with parameters is sent to a specified IP to execute corresponding actions. It will be appreciated that the control link method includes a variety of actions.

According to the method of the embodiment, the server provides a control link method of the action, the corresponding action is effectively executed, the efficiency of judging whether the interface is an official security page or not is improved, and the internet surfing security of the user is improved.

Tenth embodiment

The embodiment provides a page anomaly detection method, which is used in the system shown in fig. 1, and as shown in fig. 14, the method includes the following steps:

step S301, the server receives a page access request sent by the first electronic terminal.

And step S302, the server returns a page with a unique identifier according to the access request.

The unique identifier is an identifier of an interface opened by the first electronic terminal, and in one example, the unique identifier may be a unique identifier such as a one-dimensional code, a two-dimensional code, or an identification character string displayed in the current interface.

Step S303, a unique identifier displayed in a page in the first electronic terminal is obtained in the second electronic terminal according to a first operation instruction input by a user, and the unique identifier is used for marking the page.

The method for reading the unique identifier in the first electronic terminal interface can be that the unique identifier is read in an information readable window, or the unique identifier is read by connecting the first electronic terminal. For example, an image pickup scanning window that can receive a two-dimensional code or the like may be used. For example by receiving a user input of a unique identifier of said first electronic terminal. For example, the unique identifier of the first electronic terminal is obtained by connecting the first electronic terminal, and the connection mode includes USB data connection, bluetooth, infrared ray, or wireless fidelity (wi-fi).

And step S304, the second electronic terminal obtains an action identifier selected by the user according to a second operation instruction input by the user, wherein the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content.

The second operation instruction may be an action identifier displayed in the second electronic terminal through clicking by the user. The selection action may be an action in an action list executable by the first electronic terminal returned by the server. The action may be playing a sound, video, animation, or changing the content of the page display, such as shaking one and shaking, dividing the page into two halves, changing the page into a cloud and then restoring the page, etc.

Step S305, the second electronic terminal sends the selected action identifier and the unique identifier to the server.

It will be appreciated that the second electronic terminal transmits the unique identifier to the server together with information about it. The other information shown comprises a unique identifier of the second electronic terminal. The unique identifier is used for uniquely identifying the application software or the webpage which is opened by the user currently. When the terminal opens the software or the webpage, the first server provides a unique identifier to be displayed on the current opening interface.

It will be appreciated that the unique identifier obtained at the first electronic terminal 22 will have an identifier uniquely provided by the server 11. The unique identifier is used for uniquely identifying that the user opens the application software and the webpage at one time, and the server provides a unique identifier corresponding to the current opened page when the first electronic terminal opens the software or the webpage. If the unique identifier is not the original unique identifier provided by the server, the server cannot identify the unique identifier and an association between the two terminals cannot be established from the unique identifier of the second electronic terminal provided by the second electronic terminal and the unique identifier of the first electronic terminal. When the second electronic terminal sends the unique identifier, the server automatically establishes the association between the two electronic terminals when receiving the unique identifier.

And S306, the server sends an instruction to the terminal corresponding to the unique identifier, and the terminal is triggered to execute the action corresponding to the action identifier on the corresponding page.

In one example, the selected action sent by the second electronic terminal may not be received until the association between the second electronic terminal and the first electronic terminal is successful. In another example, no prompt is output at the second electronic terminal that the accessed page belongs to a phishing page. And whether the association between the second electronic terminal and the first electronic terminal is successful or not can receive the selected action sent by the second electronic terminal. It is understood that if the association between the second electronic terminal and the first electronic terminal is not successful, the server cannot send the action execution instruction to the first electronic terminal through the unique identifier of the first electronic terminal, and the first electronic terminal cannot execute the action. The page of the first electronic terminal is unchanged. Further, if the action is not successfully sent to the first electronic terminal, the second electronic terminal is triggered to output a prompt message that the first electronic terminal access page is a phishing page.

According to the method of the embodiment, the association between the second electronic terminal and the first electronic terminal is established, and then the first electronic terminal is enabled to execute the judgment of whether the page is the official security page through the action sent by the second electronic terminal, so that the internet surfing security of the user is improved.

Eleventh embodiment

The present embodiment provides a method for detecting a page anomaly, which is applied to the system shown in fig. 1, and is similar to the tenth embodiment, with reference to fig. 15, and after step S306, the method further includes:

step S307, if the second electronic terminal receives the message that the action execution returned by the server is successful, outputting the prompt information that the page accessed in the first electronic terminal belongs to the official page.

According to the method of the embodiment, whether the page is an official security interface or not is judged by receiving the result returned by the server, so that the internet surfing security of the user is improved.

Twelfth embodiment

The present embodiment provides a method for detecting page abnormality, which is used in the system shown in fig. 1, and is similar to the eleventh embodiment, with reference to fig. 16, the method further includes before step S304,

step S308, the server sends an appointed action list to the second electronic terminal, and the action identifier selected by the user is the action identifier in the identifier list.

Step S309, the server further returns the corresponding action schematic diagram in the action identifier list to the second electronic terminal.

The action may be a list of specified action types sent by the server 11, for example, the action identification list may be an action type executable by the first electronic terminal.

In one example, as shown in fig. 4a and 4b, if an operation of a user clicking a right mouse button in a cloud interface generation option or long-pressing the cloud interface generation option is received, a pre-option 301 is displayed, where the pre-option 301 may include a determination and preview option, and the second electronic terminal 21 receives a user departure preview instruction, and then the cloud interface shown in fig. 4b is displayed on the second electronic terminal 21.

According to the method of the embodiment, the designated action list is provided first, so that the safety of the current interface is prevented from being judged by mistake due to the fact that the action which cannot be executed by the first electronic terminal is generated, and the judgment accuracy is improved.

Thirteenth embodiment

The present embodiment provides a method for detecting page abnormality, which is used in the system shown in fig. 1, and is similar to the eleventh embodiment, with reference to fig. 17, and before step S304,

step S310, the server sends the action control linking method to the second electronic terminal and the first electronic terminal.

The control linking method can be that an instruction with parameters is sent to a specified IP to execute corresponding actions. It will be appreciated that the control link method includes a variety of actions.

According to the method of the embodiment, the server provides a control link method of the action, the corresponding action is effectively executed, the efficiency of judging whether the interface is an official security page or not is improved, and the internet surfing security of the user is improved.

Fourteenth embodiment

This embodiment provides a page anomaly detection apparatus, which is used in a second electronic terminal shown in fig. 1, and as shown in fig. 18, the apparatus in this embodiment includes: an acquisition module 401 and a sending module 402.

The obtaining module 401 is configured to obtain, at the second electronic terminal, a unique identifier displayed in a page in the first electronic terminal according to a first operation instruction input by a user, where the unique identifier is used to mark the page.

The acquisition module 401 may include the following units:

and the scanning unit is used for starting a scanning window at the second electronic terminal to scan the unique identifier of the first electronic terminal.

An input unit for receiving the unique identifier of the first electronic terminal input by the user.

The connection unit is used for acquiring the unique identifier of the first electronic terminal by connecting the first electronic terminal, and the connection mode comprises USB data connection, Bluetooth, infrared rays or wireless fidelity (wi-fi).

A selecting module 402, configured to obtain, according to the second operation instruction input by the user, an action identifier selected by the user, where the action identifier corresponds to an action that can be performed by the page, and the action includes playing sound, video, animation, or changing page display content.

A sending module 403, configured to send the selected action identifier and the unique identifier to the server, so that the server sends an instruction to a terminal corresponding to the unique identifier, and triggers the terminal to execute an action corresponding to the action identifier on a corresponding page.

Further reference may be made to the second embodiment for further details of the apparatus of this embodiment, which will not be repeated here.

According to the device of the embodiment, the action sent by the second electronic terminal is executed in the first electronic terminal by establishing the successful association between the second electronic terminal and the first electronic terminal, so that whether the page is an official security page or not is judged, and the internet surfing security of the user is improved.

Fifteenth embodiment

The present embodiment provides a page anomaly detection apparatus, which is used in a second electronic terminal shown in fig. 1, as shown in fig. 19, and is similar to the fourteenth embodiment, except that the apparatus of the present embodiment further includes:

and the prompt module 404 is configured to, if a message that the action execution is successful is received, output prompt information that the web page accessed in the first electronic terminal belongs to an official web page.

Further reference may be made to the third embodiment for further details of the apparatus of this embodiment, which will not be repeated here.

According to the device of the embodiment, the prompt message is displayed through the returned message of whether the action execution is successful or not, whether the page is an official safety interface or not is judged, and the internet surfing safety of the user is improved.

Sixteenth embodiment

The present embodiment provides a page abnormality detection apparatus, which is used in a second electronic terminal shown in fig. 1, as shown in fig. 20, and is similar to the fifteenth embodiment, except that the apparatus of the present embodiment further includes:

a list receiving module 405, configured to receive a specified action list sent by the server, where the action identifier selected by the user is an action identifier in the identifier list.

A diagram receiving module 406, configured to receive a corresponding action diagram in the action identifier list returned by the server.

Further reference may be made to the fourth embodiment for further details of the apparatus of this embodiment, which will not be repeated here.

According to the device of the embodiment, the specified action list is provided first, so that the situation that the safety of the current interface is judged by mistake due to the fact that the action which cannot be executed by the first electronic terminal is generated is avoided, and the judgment accuracy is improved.

Seventeenth embodiment

The present embodiment provides a page abnormality detection apparatus, which is used in a second electronic terminal shown in fig. 1, as shown in fig. 21, and is similar to the fifteenth embodiment, except that the apparatus of the present embodiment further includes:

a link receiving module 407, configured to receive the control link method sent by the server.

The control linking method can be that an instruction with parameters is sent to a specified IP to execute corresponding actions. It will be appreciated that the control link method includes a variety of actions.

According to the device of the embodiment, the server provides a control link method of the action, the corresponding action is effectively executed, the efficiency of judging whether the interface is an official security page or not is improved, and the internet surfing security of the user is improved.

Eighteenth embodiment

The present embodiment provides a page anomaly detection apparatus, which is used in the server shown in fig. 1, and as shown in fig. 22, the apparatus in the present embodiment includes: a request receiving module 501, a page returning module 502, a receiving module 503, and an action sending module 504.

A request receiving module 501, configured to receive a page access request sent by a first electronic terminal.

A page returning module 502, configured to return a page with a unique identifier according to the access request.

A receiving module 503, configured to receive the unique identifier of the first electronic terminal and an action identifier selected by the user and sent by the second electronic terminal, where the action identifier corresponds to an action that can be performed by the page, and the action includes playing sound, video, animation, or changing page display content.

And an action sending module 504, configured to send an issue instruction to the terminal corresponding to the unique identifier, and trigger the terminal to execute an action corresponding to the action identifier on a corresponding page.

Further reference may be made to the sixth embodiment for further details of the apparatus of this embodiment, which will not be repeated here.

According to the device of the embodiment, the first electronic terminal sends the action to control the second electronic terminal to execute by establishing the association between the second electronic terminal and the first electronic terminal, and whether the page is an official security page is judged by judging whether the action is executed or not, so that the internet surfing security of the user is improved.

Nineteenth embodiment

The present embodiment provides a page anomaly detection apparatus, which is used in the server shown in fig. 1, as shown in fig. 23, and is similar to the fourteenth embodiment, except that the apparatus of the present embodiment further includes:

and a result receiving module 505, configured to receive a message of an action execution result returned by the first electronic terminal.

And the triggering and prompting module 506 is configured to return a message that the action execution is successful to the second electronic terminal, so as to trigger a prompting message that a display page in the first electronic terminal is an official page.

Further reference may be made to the seventh embodiment for further details of the apparatus of this embodiment, which will not be repeated here.

According to the device of the embodiment, whether the page is an official safety interface or not is judged through the displayed prompt message, and the internet surfing safety of the user is improved.

Twentieth embodiment

The present embodiment provides a page abnormality detection apparatus, which is used in the server shown in fig. 1, as shown in fig. 24, and is similar to the fifteenth embodiment, except that the apparatus of the present embodiment further includes:

a list sending module 507, configured to send a list of specified actions to the second electronic terminal, where the action identifier selected by the user is an action in the list.

A schematic diagram sending module 508, configured to send the corresponding schematic diagram in the action list to the second electronic terminal.

Further reference may be made to the eighth embodiment for further details of the apparatus of this embodiment, which will not be repeated here.

According to the device of the embodiment, the specified action list is provided first, so that the situation that the safety of the current interface is judged by mistake due to the fact that the action which cannot be executed by the first electronic terminal is generated is avoided, and the judgment accuracy is improved.

Twenty-first embodiment

The present embodiment provides a page abnormality detection apparatus, which is used in the server shown in fig. 1, as shown in fig. 25, and is similar to the fifteenth embodiment, except that the apparatus of the present embodiment further includes:

a link sending module 510, configured to send a control link method to the second electronic terminal and the first electronic terminal.

The control linking method can be that an instruction with parameters is sent to a specified IP to execute corresponding actions. It will be appreciated that the control link method includes a variety of actions.

According to the device of the embodiment, the server provides a control link method of the action, the corresponding action is effectively executed, the efficiency of judging whether the interface is an official security page or not is improved, and the internet surfing security of the user is improved.

In addition, an embodiment of the present invention further provides a computer-readable storage medium, in which computer-executable instructions are stored, where the computer-readable storage medium is, for example, a non-volatile memory such as an optical disc, a hard disc, or a flash memory. The computer-executable instructions are used for causing a computer or a similar computing device to perform various operations of the page fault detection method.

Although the present invention has been described with reference to the preferred embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but is intended to cover various modifications, equivalents and alternatives falling within the spirit and scope of the invention.

Claims (30)

1. A page anomaly detection method is characterized by comprising the following steps:

acquiring a unique identifier displayed in a page in the first electronic terminal at the second electronic terminal according to a first operation instruction input by a user, wherein the unique identifier is used for marking the page;

acquiring an action identifier selected by a user according to a second operation instruction input by the user, wherein the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content; and

sending the selected action identifier and the unique identifier to a server, so that the server sends an instruction to a terminal corresponding to the unique identifier, and the terminal is triggered to execute the action corresponding to the action identifier on a corresponding page;

and if the message that the action execution is successful returned by the server is received, outputting a prompt message that the network page accessed in the first electronic terminal belongs to the official webpage.

2. The method for detecting page fault as claimed in claim 1, wherein before obtaining the action identifier selected by the user according to the second operation instruction input by the user, the method further comprises receiving a specified action list sent by the server, where the action identifier selected by the user is an action identifier in the list.

3. The method for detecting page fault as claimed in claim 2, wherein after receiving the list of specified actions sent by the server, the method further comprises receiving a corresponding action diagram in the list returned by the server.

4. The page anomaly detection method according to claim 1, further comprising, before sending the user-selected action identifier to a server, receiving the server-sent control link method.

5. The method for detecting page faults as claimed in claim 1, wherein the step of acquiring the unique identifier displayed in one page in the first electronic terminal at the second electronic terminal according to the first operation instruction input by the user is a step of starting a scanning window at the second electronic terminal to scan the unique identifier of the first electronic terminal.

6. The method for detecting page faults as claimed in claim 1, wherein the step of acquiring the unique identifier displayed in one page in the first electronic terminal according to the first operation instruction input by the user at the second electronic terminal is realized by receiving the unique identifier of the first electronic terminal input by the user.

7. The method for detecting page abnormality according to claim 1, wherein the step of acquiring, at the second electronic terminal, the unique identifier displayed in one page of the first electronic terminal according to the first operation instruction input by the user is to acquire the unique identifier of the first electronic terminal by connecting the second electronic terminal to the first electronic terminal, and the connection mode includes USB data connection, bluetooth, infrared ray, or wireless fidelity (wi-fi).

8. A page anomaly detection method is characterized by comprising the following steps:

receiving a page access request sent by a first electronic terminal;

returning a page with a unique identifier according to the access request;

receiving a unique identifier of the first electronic terminal and an action identifier selected by a user, wherein the unique identifier of the first electronic terminal is sent by a second electronic terminal, the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content; and

sending an issuing instruction to a terminal corresponding to the unique identifier, and triggering the terminal to execute an action corresponding to the action identifier on a corresponding page;

and if the message of successful action execution returned by the first electronic terminal is received, returning the message of successful action execution to the second electronic terminal so that the second electronic terminal outputs the prompt information that the network page accessed in the first electronic terminal belongs to the official webpage.

9. The page fault detection method according to claim 8, further comprising, before receiving the action identifier selected by the user and sent by the second electronic terminal, sending a designated action list to the second electronic terminal, wherein the action identifier selected by the user is the action identifier in the list.

10. The method for detecting page faults as claimed in claim 9, wherein after sending the designated action list to the second electronic terminal, further comprising sending a corresponding action diagram in the designated action list to the second electronic terminal.

11. The method for detecting page faults as claimed in claim 8, further comprising, before receiving the action identifier selected by the user and sent by the second electronic terminal, sending a control linking method to the second electronic terminal and the first electronic terminal.

12. A page abnormity detection method is characterized in that the method relates a second electronic terminal and a first electronic terminal based on network service provided by a server, and the method comprises the following steps:

the server receives a page access request sent by a first electronic terminal;

the server returns a page with a unique identifier according to the access request;

acquiring a unique identifier displayed in a page in the first electronic terminal at the second electronic terminal according to a first operation instruction input by a user, wherein the unique identifier is used for marking the page;

the second electronic terminal obtains an action identifier selected by the user according to a second operation instruction input by the user, wherein the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content;

the second electronic terminal sends the selected action identifier and the unique identifier to the server; and

the server sends an instruction to the terminal corresponding to the unique identifier, and triggers the terminal to execute the action corresponding to the action identifier on the corresponding page;

and if the second electronic terminal receives the message that the action execution returned by the server is successful, outputting prompt information that the page accessed in the first electronic terminal belongs to an official page.

13. The method for detecting page abnormality according to claim 12, wherein before the second electronic terminal obtains the action identifier selected by the user according to the second operation instruction input by the user, the method further comprises the step of sending a designated action list to the second electronic terminal by the server, wherein the action identifier selected by the user is the action identifier in the list.

14. The method for detecting page faults as claimed in claim 13, wherein the server further returns the corresponding action diagram in the list to the second electronic terminal.

15. The method for detecting page abnormality according to claim 12, wherein before the second electronic terminal obtains the action identifier selected by the user according to the second operation instruction input by the user, the server sends a control link method to the second electronic terminal and the first electronic terminal.

16. A page anomaly detection apparatus, characterized in that the apparatus comprises the following modules:

the acquisition module is used for acquiring a unique identifier displayed in a page in the first electronic terminal at the second electronic terminal according to a first operation instruction input by a user, wherein the unique identifier is used for marking the page;

the selection module is used for acquiring an action identifier selected by a user according to a second operation instruction input by the user, wherein the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content; and

the sending module is used for sending the selected action identifier and the unique identifier to a server, so that the server sends an issued instruction to a terminal corresponding to the unique identifier, and the terminal is triggered to execute an action corresponding to the action identifier on a corresponding page;

and the prompting module is used for outputting prompting information that the network page accessed in the first electronic terminal belongs to an official webpage if receiving the message that the action execution returned by the server is successful.

17. The page anomaly detection device according to claim 16, further comprising, before the selection module, a list receiving module for receiving a list of specified actions sent by said server, wherein said action identifier selected by said user is an action identifier in said list.

18. The apparatus for detecting page faults as claimed in claim 17, further comprising, after the list receiving module, a schematic diagram receiving module for receiving a corresponding schematic diagram of actions in the list returned by the server.

19. The page anomaly detection apparatus according to claim 16, said apparatus further comprising,

and the link receiving module is used for receiving the control link method sent by the server.

20. The page anomaly detection device according to claim 16, characterized in that said acquisition module comprises,

and the scanning unit is used for starting a scanning window at the second electronic terminal to scan the unique identifier of the first electronic terminal.

21. The page anomaly detection device according to claim 16, characterized in that said acquisition module comprises,

an input unit for receiving the unique identifier of the first electronic terminal input by the user.

22. The page anomaly detection device according to claim 16, characterized in that said acquisition module comprises,

the connection unit is used for acquiring the unique identifier of the first electronic terminal by connecting the first electronic terminal, and the connection mode comprises USB data connection, Bluetooth, infrared rays or wireless fidelity (wi-fi).

23. A page anomaly detection apparatus, characterized in that the apparatus comprises the following modules:

the request receiving module is used for receiving a page access request sent by a first electronic terminal;

the page returning module is used for returning a page with a unique identifier according to the access request;

the receiving module is used for receiving the unique identifier of the first electronic terminal and an action identifier selected by a user, wherein the unique identifier of the first electronic terminal is sent by a second electronic terminal, the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content; and

the action sending module is used for sending an issuing instruction to the terminal corresponding to the unique identifier and triggering the terminal to execute the action corresponding to the action identifier on the corresponding page;

the result receiving module is used for sending a message of an action execution result returned by the first electronic terminal;

and the trigger prompting module is used for returning a message that the action execution is successful to the second electronic terminal so as to trigger and display a prompting message that the display page in the first electronic terminal is an official page.

24. The page anomaly detection apparatus according to claim 23, said apparatus further comprising,

and the list sending module is used for sending an appointed action list to the second electronic terminal, and the action identifier selected by the user is the action identifier in the list.

25. The page anomaly detection apparatus according to claim 24, said apparatus further comprising,

and the schematic diagram sending module is used for sending the corresponding action schematic diagram in the list to the second electronic terminal.

26. The page anomaly detection apparatus according to claim 23, said apparatus further comprising,

and the link sending module is used for sending a control link method to the second electronic terminal and the first electronic terminal.

27. The system for detecting the page abnormity is characterized by comprising a server, a second electronic terminal and a first electronic terminal:

the server is used for receiving a page access request sent by the first electronic terminal and returning a page with a unique identifier according to the access request;

the second electronic terminal is used for acquiring a unique identifier displayed in a page in the first electronic terminal according to a first operation instruction input by a user, and the unique identifier is used for marking the page;

the second electronic terminal is further used for acquiring an action identifier selected by the user according to a second operation instruction input by the user, wherein the action identifier corresponds to an action which can be executed by the page, and the action comprises playing sound, video, animation or changing page display content;

the second electronic terminal is further used for sending the selected action identifier and the unique identifier to the server;

the server is further used for issuing an instruction to the terminal corresponding to the unique identifier and triggering the terminal to execute the action corresponding to the action identifier on the corresponding page;

and the second electronic terminal is further used for outputting prompt information that the page visited in the first electronic terminal belongs to an official page if the message that the action execution returned by the server is successful is received.

28. The page anomaly detection system as claimed in claim 27, said server being further configured to send a list of specified action identifiers to said first electronic terminal, said user-selected action identifier being an action identifier in said list of action identifiers.

29. The system for detecting page faults as claimed in claim 28, wherein the server is further configured to return the corresponding action map in the action identifier list to the first electronic terminal.

30. The system for detecting page faults as claimed in claim 27, wherein the server is further configured to send a control linking method to the second electronic terminal and the first electronic terminal.

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