CN114079917A - Page loading method and device - Google Patents

Abstract

One embodiment of the present specification provides a page loading method and apparatus, where the method includes: receiving an encrypted SIM card application instruction sent by an SIM platform through a short message channel; the encrypted SIM card application instruction is generated by the SIM platform based on HTML link and link description information sent by the service platform; decrypting the encrypted SIM card application instruction, and analyzing the decrypted SIM card application instruction to obtain an HTML link and link description information; generating a popup window based on the HTML link and the link description information and displaying the popup window; wherein, link description information is displayed in the popup; an HTML link is packaged in a first control in the popup window; and responding to the operation of the user on the first control, and loading page data corresponding to the HTML link in the browser. Through the embodiment, the problems that the link is directly issued to the mobile phone of the user in a plaintext form, the link is easily tampered by illegal molecules, the safety is low, the user perception is not strong, and the link is easily ignored can be solved.

Description

Page loading method and device

Technical Field

The present document relates to the field of communications technologies, and in particular, to a page loading method and apparatus.

Background

With the development of wireless communication, more abundant information in forms, such as pictures, links, videos and the like, can be sent to mobile phone users to enrich the diversity of information. When a link needs to be sent to a mobile phone user, a common method at present is to directly send the link to an inbox of a mobile phone of the user in a plaintext form, and the user can load a page to browse corresponding information by clicking the link. However, in this method, the link is directly issued to the mobile phone of the user in a plaintext form, which has the problems that the link is easily tampered by illegal molecules, the security is low, the user perception is not strong, and the link is easily ignored.

Disclosure of Invention

An embodiment of the present specification aims to provide a page loading method and device, so as to solve the problems that a link is directly issued to a mobile phone of a user in a plaintext form, the link is easily tampered by an illegal party, the security is low, the user perception is not strong, and the link is easily ignored.

To solve the above technical problem, one embodiment of the present specification is implemented as follows:

in a first aspect, an embodiment of the present specification provides a page loading method, which is applied to a user terminal, and includes:

receiving an encrypted SIM card application instruction sent by a subscriber identity module SIM platform through a short message channel; the encrypted SIM card application instruction is generated by the SIM platform based on a hypertext markup language (HTML) link and link description information sent by a service platform;

decrypting the encrypted SIM card application instruction, and analyzing the decrypted SIM card application instruction to obtain the HTML link and the link description information;

generating a popup based on the HTML link and the link description information; wherein the link description information is displayed in the popup window; the HTML link is packaged in a first control in the popup window;

and displaying the popup, responding to the operation of the user on the first control, starting a browser, and loading page data corresponding to the HTML link in the browser.

In a second aspect, an embodiment of the present specification provides a page loading method applied to a SIM platform, including:

receiving a hypertext markup language (HTML) link and link description information sent by a service platform;

generating an SIM card application instruction according to the HTML link and the link description information;

encrypting the SIM card application instruction;

sending the encrypted SIM card application instruction to a user terminal corresponding to the HTML link through a short message channel so that the user terminal generates and displays a popup window based on the HTML link and the link description information, and loading page data corresponding to the HTML link in a browser in response to the operation of a user on a first control in the popup window; wherein the link description information is displayed in the popup window; the HTML link is encapsulated in the first control.

In a third aspect, an embodiment of the present specification provides a page loading apparatus, which is applied to a user terminal, and includes:

the instruction receiving module is used for receiving an encrypted SIM card application instruction sent by the SIM platform through a short message channel; the encrypted SIM card application instruction is generated by the SIM platform based on a hypertext markup language (HTML) link and link description information sent by a service platform;

the instruction decryption module is used for decrypting the encrypted SIM card application instruction and analyzing the decrypted SIM card application instruction to obtain the HTML link and the link description information;

the popup window generation module is used for generating popup windows based on the HTML links and the link description information; wherein the link description information is displayed in the popup window; the HTML link is packaged in a first control in the popup window;

and the page loading module is used for displaying the popup, responding to the operation of the user on the first control, starting the browser and loading the page data corresponding to the HTML link in the browser.

In a fourth aspect, an embodiment of the present specification provides a page loading apparatus, applied to a SIM platform, including:

the information receiving module is used for receiving the HTML link and the link description information sent by the service platform;

the instruction generating module is used for generating an SIM card application instruction according to the HTML link and the link description information;

the instruction encryption module is used for encrypting the SIM card application instruction;

the instruction sending module is used for sending the encrypted SIM card application instruction to a user terminal corresponding to the HTML link through a short message channel so that the user terminal generates and displays a popup window based on the HTML link and the link description information, and loading page data corresponding to the HTML link in a browser in response to the operation of a user on a first control in the popup window; wherein the link description information is displayed in the popup window; the HTML link is encapsulated in the first control.

In a fifth aspect, an embodiment of the present specification provides a user terminal, including a memory and a processor, where the memory stores computer-executable instructions, and the computer-executable instructions, when executed on the processor, can implement the steps of the above-mentioned page loading method.

In a sixth aspect, an embodiment of the present specification provides a SIM platform, including a memory and a processor, where the memory stores computer-executable instructions, and the computer-executable instructions, when executed on the processor, can implement the steps of the above page loading method.

In a seventh aspect, an embodiment of the present specification provides a storage medium, in which computer-executable instructions are stored, and when being executed by a processor, the computer-executable instructions can implement the steps of the page loading method.

In this embodiment, the user terminal may receive an encrypted SIM card application instruction sent by the SIM platform through the short message channel, obtain an HTML link and link description information from the instruction, generate and display a popup based on the HTML link and the link description information, and load page data corresponding to the HTML link in the browser in response to a user operating a first control in the popup, where the popup displays the link description information and the HTML link is encapsulated in the first control in the popup. It can be seen that, according to the embodiment, the HTML link and the link description information can be transmitted between the SIM platform and the user terminal in an encrypted manner, and the user terminal can prompt the user with the HTML link and the link description information in a pop-up window manner, and the HTML link is not directly exposed to the user but is encapsulated in the first control in the pop-up window, so that the security of the HTML link is improved, the effect that the HTML link is not exposed is achieved, the HTML link is prevented from being illegally intercepted and tampered, the problems that the link is directly issued to the user mobile phone in a plaintext manner, the link is easily tampered by illegal molecules and has low security are solved, the user is prompted in a pop-up window manner, the perception of the user is improved, the user does not need to actively search for information in the user terminal, and the problems that the user perception is not strong and the link is easily ignored are solved.

Drawings

In order to more clearly illustrate the technical solutions in one or more embodiments of the present disclosure, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, it is obvious that the drawings in the following description are only some embodiments described in the present disclosure, and for those skilled in the art, other drawings can be obtained according to these drawings without any creative effort.

Fig. 1 is a schematic flowchart of a page loading method according to an embodiment of the present specification;

fig. 2 is a schematic diagram of a user terminal displaying a popup window according to an embodiment of the present disclosure;

fig. 3 is a schematic diagram of a user terminal displaying page data according to an embodiment of the present disclosure;

fig. 4 is a schematic flowchart of a page loading method according to another embodiment of the present specification;

fig. 5 is a schematic flowchart of a page loading method according to another embodiment of the present specification;

fig. 6 is a schematic block diagram of a page loading apparatus according to an embodiment of the present disclosure;

FIG. 7 is a block diagram of a page loading apparatus according to another embodiment of the present disclosure;

fig. 8 is a schematic structural diagram of a user terminal according to an embodiment of the present disclosure.

Detailed Description

In order to make those skilled in the art better understand the technical solutions in one or more embodiments of the present disclosure, the technical solutions in one or more embodiments of the present disclosure will be clearly and completely described below with reference to the drawings in one or more embodiments of the present disclosure, and it is obvious that the described embodiments are only a part of the embodiments of the present disclosure, and not all embodiments. All other embodiments that can be derived by a person skilled in the art from one or more of the embodiments described herein without making any inventive step shall fall within the scope of protection of this document.

An embodiment of the present specification aims to provide a page loading method, a page loading device, a user terminal, an SIM platform, and a storage medium, so as to solve the problems that a link is directly issued to a mobile phone of a user in a plaintext form, the link is easily tampered by an illegal party, the security is low, the user perception is not strong, and the link is easily ignored.

An embodiment of the present specification provides a page loading method, which may be applied to a user terminal and executed by the user terminal, where the user terminal includes, but is not limited to, a mobile phone, a smart watch, and other communication devices capable of installing a SIM (Subscriber Identity Module) card. Fig. 1 is a schematic flowchart of a page loading method provided in an embodiment of this specification, and as shown in fig. 1, the method includes:

step S102, receiving an encrypted SIM card application instruction sent by a subscriber identity module SIM platform through a short message channel; the encrypted SIM card application instruction is generated by the SIM platform based on the HTML link and the link description information sent by the service platform;

step S104, decrypting the encrypted SIM card application instruction, and analyzing the decrypted SIM card application instruction to obtain an HTML link and link description information;

step S106, generating a popup based on the HTML link and the link description information; wherein, link description information is displayed in the popup; an HTML link is packaged in a first control in the popup window;

and S108, displaying the popup, responding to the operation of the user on the first control, starting the browser, and loading the page data corresponding to the HTML link in the browser.

In this embodiment, the user terminal may receive an encrypted SIM card application instruction sent by the SIM platform through the short message channel, obtain an HTML link and link description information from the instruction, generate and display a popup based on the HTML link and the link description information, and load page data corresponding to the HTML link in the browser in response to a user operating a first control in the popup, where the popup displays the link description information and the HTML link is encapsulated in the first control in the popup. It can be seen that, according to the embodiment, the HTML link and the link description information can be transmitted between the SIM platform and the user terminal in an encrypted manner, and the user terminal can prompt the user with the HTML link and the link description information in a pop-up window manner, and the HTML link is not directly exposed to the user but is encapsulated in the first control in the pop-up window, so that the security of the HTML link is improved, the effect that the HTML link is not exposed is achieved, the HTML link is prevented from being illegally intercepted and tampered, the problems that the link is directly issued to the user mobile phone in a plaintext manner, the link is easily tampered by illegal molecules and has low security are solved, the user is prompted in a pop-up window manner, the perception of the user is improved, the user does not need to actively search for information in the user terminal, and the problems that the user perception is not strong and the link is easily ignored are solved.

The HTML (Hyper Text Markup Language) link in the present embodiment may be an HTML5 link, that is, an H5 link. The following will not be emphasized.

The interactive roles involved in this embodiment include:

the user: the user of the user terminal, such as a mobile phone, can operate the control in the user terminal and view the page data linked by the HTML.

A user terminal: a communication device, such as a handset, used by a user has an operating system and a SIM card application running therein.

SIM card application: the method runs in a user terminal, communicates with an SIM platform through a short message channel and a symmetric encryption technology, interacts with an operating system through a specific instruction (such as an ME instruction), can be matched with the operating system to realize the method flow in the figure 1, and can specifically realize actions of information receiving, data decryption, data analysis, instruction sending and the like to the operating system.

Operating the system: the method runs in the user terminal, and can interact with the SIM card application through a specific instruction (such as an ME instruction), so as to realize actions of generating a popup window, displaying the popup window, starting a browser to load page data corresponding to an HTML link based on user operation, and the like.

The SIM platform: and interacting with the SIM card application in the user terminal, issuing an encrypted SIM card application instruction to the SIM card application through the short message channel, and receiving data returned by the SIM card application in the user terminal.

A service platform: and the platform of the service party can send the HTML link and the link description information to the SIM platform.

The page loading method in this embodiment is specifically described below based on the above six interactive roles.

In step S102, the SIM card application in the user terminal receives the encrypted SIM card application instruction sent by the SIM platform through the short message channel. The encrypted SIM card application instruction is generated by the SIM platform based on the HTML link and the link description information sent by the service platform.

Specifically, the service platform sends the HTML link and the link description information to the SIM platform. In an example, the page data corresponding to the HTML link is monthly bill data of the user, and the link description information may be "your monthly bill is sent and please click a view button to view".

And after receiving the HTML link and the link description information, the SIM platform generates an SIM card application instruction based on the HTML link and the link description information, and encrypts the SIM card application instruction through a symmetric encryption algorithm agreed with the SIM card application in the user terminal to obtain the encrypted SIM card application instruction. And the SIM platform also encapsulates the encrypted SIM card application instruction according to the data transmission requirement of the short message channel, and sends the encrypted SIM card application instruction to the SIM card application in the user terminal through the short message channel.

Based on this, in step S102, the SIM card application in the user terminal may receive the encrypted SIM card application instruction sent by the SIM platform through the short message channel.

In step S104, the SIM card application in the user terminal decrypts the encrypted SIM card application instruction, and analyzes the decrypted SIM card application instruction to obtain the HTML link and the link description information.

Specifically, the SIM card application in the user terminal receives the encrypted SIM card application instruction and decrypts the encrypted SIM card application instruction. In one embodiment, the decrypting, by the SIM card application, the encrypted SIM card application instruction specifically includes: and the SIM card application generates a decryption key according to the card information of the SIM card of the user terminal and a symmetric encryption algorithm appointed by the SIM platform and the user terminal, and decrypts the encrypted SIM card application instruction by using the decryption key.

The SIM card application has a symmetric encryption algorithm agreed with the SIM platform in advance, the SIM card application acquires card information of the SIM card of the user terminal, such as a card serial number, as a parameter of the symmetric encryption algorithm, a decryption key is obtained through calculation according to the parameter and the agreed symmetric encryption algorithm, and the encrypted SIM card application instruction is decrypted by using the decryption key.

And after the SIM card application decrypts the encrypted SIM card application instruction, the decrypted SIM card application instruction is analyzed to obtain HTML link and link description information. Specifically, when the SIM platform generates the SIM card application instruction, the HTML link and the link description information are encapsulated according to a message format corresponding to the SIM card application instruction, so as to obtain the SIM card application instruction. Therefore, after the application of the SIM card obtains the decrypted SIM card application instruction, the application of the SIM card also analyzes the decrypted SIM card application instruction according to the message format corresponding to the SIM card application instruction, so as to obtain HTML link and link description information.

In this embodiment, after obtaining the HTML link and the link description information, the SIM card also sends a specific instruction, such as an ME instruction, to the operating system in the user terminal, so that the operating system generates a popup. Therefore, in step S106 described above, the operating system in the user terminal generates a popup based on the HTML link and the link description information in response to the instruction described above. The popup displays the link description information. And an HTML link is packaged in the first control in the popup window.

In particular, the act of generating a popup may be performed by an operating system in the user terminal, the operating system generating the popup based on the HTML link and the link description information in response to an instruction sent by the SIM card application, such as an ME instruction. In one embodiment, the operating system generates the popup based on the HTML link and the link description information, and specifically includes:

(1) the method comprises the steps that an operating system obtains a preset popup template, wherein the popup template comprises a popup title area, an information display area, a first control and a second control; a link for exiting the popup window is packaged in the second control in advance;

(2) the operating system loads a preset popup title in a popup title area, loads link description information in an information display area, and encapsulates an HTML link in a first control;

(3) and the operating system generates the popup according to the popup title area loaded with the popup title, the information display area loaded with the link description information, the first control and the second control packaged with the HTML link.

In the action (1), the operating system acquires a preset popup template, wherein the popup template comprises a popup title area, an information display area, a first control and a second control, the first control can be a confirmation control or a viewing control and the like which indicate that the user allows jumping to the HTML link, and the second control can be a cancellation control and the like which indicate that the user does not allow jumping to the HTML link. For the second control in the pop-up template, it may be pre-packaged with a default link, such as a default link for exiting the pop-up.

In the action (2), the operating system loads a preset popup title in the popup title area, where the preset popup title may be, for example, a title representing a name of a service party, such as "china mobile. And the operating system loads the link description information in the information display area so that the user can know the content of the link to be jumped. And the operating system encapsulates the HTML link in the first control, so that the link is not exposed to a user, the link safety is ensured, and the user can realize link jump by clicking the first control so as to load page data corresponding to the link.

In the action (3), the operating system generates a popup according to the popup title area loaded with the popup title, the information display area loaded with the link description information, the first control and the second control packaged with the HTML link. Specifically, the operating system combines a popup title area loaded with a popup title, an information display area loaded with link description information, a first control packaged with an HTML link, and a second control pre-packaged with a link for exiting the popup, so as to obtain the popup.

In step S108, the operating system controls the display screen of the user terminal to display the popup, starts the browser in response to the operation of the user on the first control, and loads the page data corresponding to the HTML link in the browser.

Specifically, after the operating system generates the popup, the popup is displayed to the user through a display screen of the user terminal, the popup may be an STK popup, and the operating system further guides the user to click a first control or a second control in the popup.

After receiving an operation of clicking the first control by a user, the operating system starts the browser, requests page data corresponding to the HTML link encapsulated in the first control from the service platform, and loads the page data corresponding to the HTML link in the browser after the page data is obtained by the request, so that a link skip function is realized, and the page data corresponding to the HTML link is displayed for the user.

Fig. 2 is a schematic diagram of a user terminal displaying a popup provided in an embodiment of this specification, and as shown in fig. 2, after an application of a SIM card sends an instruction (e.g., an ME instruction) to an operating system of the user terminal, the operating system generates the popup, and controls a display screen of the user terminal to display the popup to a user, where the popup may be an STK popup, a preset popup title is loaded in a popup title area in the popup, and the popup title is "china move". Link description information is displayed in an information display area in the popup window, and the link description information is "[ XX Bank ] hello! Honored users, you have a 5 month bill out of the oven, please click the "confirm" key to see the details. The first control in the popup is a "confirm" control, and the second control is a "cancel" control.

Fig. 3 is a schematic diagram of page data displayed by a user terminal according to an embodiment of this specification, and as shown in fig. 2 and fig. 3, after a user browses a popup window and clicks a "confirmation" control, an operating system in the user terminal loads, in a browser, billing data corresponding to an HTML link encapsulated in a first control, so as to implement a jump of the HTML link.

In one embodiment, after loading the page data corresponding to the HTML link in the browser, the operating system may further implement the following process:

(1) acquiring operation data of a user for the popup; the operation data comprises any one of sub-operation data of a user for the first control, sub-operation data of the user for the second control and overtime unresponsive data of the user for the popup window;

(2) and sending the operation data to the SIM platform, wherein the operation data is used for the SIM platform to count at least one of a link sending success rate and a link opening rate for carrying out link skip in a pop-up window mode.

Specifically, in the action (1), the operating system may obtain operation data of the user for the popup, where the operation data includes any one of sub-operation data of the user for the first control, sub-operation data of the user for the second control, and timeout unresponsive data of the user for the popup, and the sub-operation data of the user for the first control may be data of click time, click number, and the like of a click operation of the user for the first control. The sub-operation data of the user for the second control can be data of click time, click times and the like of the click operation of the user for the second control. And if the user does not click the first control or the second control for a certain time, the user terminal records overtime unresponsive data of the user for the popup window, and the data shows that the user does not click the first control or the second control for a certain time.

In the action (2), the operating system in the user terminal sends the operating data to the SIM card application, and the SIM card application may encrypt the operating data and send the encrypted operating data to the SIM platform by using a symmetric encryption algorithm agreed with the SIM platform. And after receiving the encrypted operation data, the SIM platform decrypts the operation data. In this embodiment, the SIM platform may communicate with a plurality of user terminals, and send an SIM card application instruction corresponding to each user terminal to the plurality of user terminals, so that each user terminal loads a corresponding popup window. Therefore, after receiving the encrypted operation data returned by the plurality of user terminals, the SIM platform may decrypt the encrypted operation data, and count at least one of a link sending success rate and a link opening rate of the link jump in the form of a popup window based on the decrypted operation data.

In one embodiment, the link sending success rate is equal to the total number of times the SIM platform sends the SIM card application instruction divided by the number of times the SIM platform receives the returned operation data. The link opening rate is equal to the total number of times the SIM platform sends the SIM card application instruction divided by the number of times the SIM platform receives the sub-operation data for the first control. The link sending success rate can be called a touch rate, and the link opening rate can be called a user conversion rate. The effect of sending an HTML link to a user and loading page data in the manner of fig. 1 can be measured by reach and user conversion.

In the above fig. 1, a page loading method is introduced from a user terminal side, and in an embodiment, the method in fig. 1 is executed by a SIM card application in the user terminal and an operating system in the user terminal in a coordinated manner, specifically:

the SIM card application receives an encrypted SIM card application instruction sent by a subscriber identity module SIM platform through a short message channel; the encrypted SIM card application instruction is generated by the SIM platform based on a hypertext markup language (HTML) link and link description information sent by a service platform;

the SIM card application decrypts the encrypted SIM card application instruction, and analyzes the decrypted SIM card application instruction to obtain the HTML link and the link description information;

the SIM card application sends an instruction for generating a popup window to an operating system according to the HTML link and the link description information, wherein the instruction can be an ME instruction or an instruction in other forms, which is not limited herein;

responding to the instruction for generating the popup by the operating system, and generating the popup based on the HTML link and the link description information; wherein the link description information is displayed in the popup window; the HTML link is packaged in a first control in the popup window;

and the operating system displays the popup through a display screen of the user terminal, responds to the operation of the user on the first control, starts a browser and loads page data corresponding to the HTML link in the browser.

In this embodiment, the user may open the HTML link by clicking on the first control. The HTML link can be checked by the SIM platform regularly, and the page content of the HTML link can be dialed and tested by the SIM platform regularly, so that the safety of the HTML link and the page content of the HTML link can be loaded smoothly.

Fig. 1 above describes a page loading method from the user terminal side, and another page loading method from the SIM platform side is described below. Fig. 4 is a schematic flowchart of a page loading method according to another embodiment of this specification, where the method is applied to a SIM platform and executed by the SIM platform, and as shown in fig. 4, the process includes:

step S402, receiving HTML link and link description information sent by a service platform;

step S404, generating an SIM card application instruction according to the HTML link and the link description information;

step S406, encrypting the SIM card application instruction;

step S408, sending the encrypted SIM card application instruction to a user terminal corresponding to the HTML link through a short message channel so that the user terminal generates and displays a popup window based on the HTML link and link description information, and loading page data corresponding to the HTML link in a browser in response to the operation of a user on a first control in the popup window; wherein, link description information is displayed in the popup; the first control has an HTML link encapsulated therein.

In this embodiment, the SIM platform may receive an HTML link and link description information sent by the service platform, generate an encrypted SIM card application instruction based on the HTML link and the link description information, and send the encrypted SIM card application instruction to the user terminal corresponding to the HTML link through the short message channel, so that the user terminal generates and displays a popup window based on the HTML link and the link description information, and loads page data corresponding to the HTML link in the browser in response to a user operating a first control in the popup window, where the link description information is displayed in the popup window, and the HTML link is encapsulated in the first control in the popup window. It can be seen that, according to the embodiment, the HTML link and the link description information can be transmitted between the SIM platform and the user terminal in an encrypted manner, and the user terminal can prompt the user with the HTML link and the link description information in a pop-up window manner, and the HTML link is not directly exposed to the user but is encapsulated in the first control in the pop-up window, so that the security of the HTML link is improved, the effect that the HTML link is not exposed is achieved, the HTML link is prevented from being illegally intercepted and tampered, the problems that the link is directly issued to the user mobile phone in a plaintext manner, the link is easily tampered by illegal molecules and has low security are solved, the user is prompted in a pop-up window manner, the perception of the user is improved, the user does not need to actively search for information in the user terminal, and the problems that the user perception is not strong and the link is easily ignored are solved.

In step S402, the SIM platform receives the HTML link and the link description information sent by the service platform. Specifically, the service platform sends the HTML link and the link description information to the SIM platform. In an example, the page data corresponding to the HTML link is monthly bill data of the user, and the link description information may be "your monthly bill has been sent, please click a view button to view", so that the SIM platform receives the HTML link and the link description information.

In step S404, the SIM platform generates an SIM card application instruction according to the HTML link and the link description information. In one embodiment, generating the SIM card application instruction according to the HTML link and the link description information specifically includes: and packaging the HTML link and the link description information according to a message format corresponding to the SIM card application instruction to obtain the SIM card application instruction.

In step S406, the SIM platform encrypts the SIM card application instruction. In one embodiment, encrypting the SIM card application instruction specifically includes: and generating an encryption key according to the card information of the SIM card of the user terminal and a symmetric encryption algorithm agreed by the SIM platform and the user terminal, and encrypting the SIM card application instruction by using the encryption key.

Specifically, the SIM card application has a symmetric encryption algorithm agreed with the SIM platform in advance, the SIM card application obtains card information of the SIM card of the user terminal, such as a card serial number, as a parameter of the symmetric encryption algorithm, calculates an encryption key according to the parameter and the agreed symmetric encryption algorithm, and encrypts the SIM card application command by using the encryption key.

In step S408, the SIM platform sends the encrypted SIM card application instruction to the user terminal corresponding to the HTML link through the short message channel, and specifically sends the encrypted SIM card application instruction to the SIM card application in the user terminal. Specifically, the SIM platform further encapsulates the encrypted SIM card application instruction according to the data transmission requirement of the short message channel, and sends the encrypted SIM card application instruction to the SIM card application in the user terminal corresponding to the HTML link through the short message channel.

The processing procedure after the user terminal receives the encrypted SIM card application instruction may be as shown in the method in fig. 1.

Further, the popup window further comprises a second control, and a link for exiting the popup window is packaged in the second control in advance. Correspondingly, in the embodiment shown in fig. 4, after the SIM platform sends the encrypted SIM card application instruction to the user terminal corresponding to the HTML link through the short message channel, the method may further include:

(1) receiving operation data of a user aiming at the popup window sent by a user terminal; the operation data comprises any one of sub-operation data of a user for the first control, sub-operation data of the user for the second control and overtime unresponsive data of the user for the popup window;

(2) and counting at least one of a link sending success rate and a link opening rate of link skip in a popup mode based on operation data of the user for respective popup sent by a plurality of user terminals.

Specifically, in the action (1), the SIM platform receives operation data of the user for the popup, which is sent by the SIM card application in the user terminal. The operation data comprises any one of sub-operation data of the user for the first control, sub-operation data of the user for the second control and timeout unresponsive data of the user for the popup window. The sub-operation data of the user for the first control can be data of click time, click times and the like of the click operation of the user for the first control. The sub-operation data of the user for the second control can be data of click time, click times and the like of the click operation of the user for the second control. And if the user does not click the first control or the second control for a certain time, the user terminal records overtime unresponsive data of the user for the popup window, and the data shows that the user does not click the first control or the second control for a certain time.

In the action (2), the SIM card application may employ a symmetric encryption algorithm agreed with the SIM platform to encrypt the operation data and send the encrypted operation data to the SIM platform. And after receiving the encrypted operation data, the SIM platform decrypts the operation data. In this embodiment, the SIM platform may communicate with a plurality of user terminals, and send an SIM card application instruction corresponding to each user terminal to the plurality of user terminals, so that each user terminal loads a corresponding popup window. Therefore, after receiving the encrypted operation data returned by the plurality of user terminals, the SIM platform may decrypt the encrypted operation data, and count at least one of a link sending success rate and a link opening rate of the link jump in the form of a popup window based on the decrypted operation data.

In one embodiment, the link sending success rate is equal to the total number of times the SIM platform sends the SIM card application instruction divided by the number of times the SIM platform receives the returned operation data. The link opening rate is equal to the total number of times that the SIM platform sends the SIM card application instruction, divided by the number of times that the SIM platform receives the sub-operation data of the user for the first control. The link sending success rate can be called a touch rate, and the link opening rate can be called a user conversion rate. The effect of sending an HTML link to a user and loading page data in the manner of fig. 1 can be measured by reach and user conversion.

Based on the methods in fig. 1 and fig. 4, an embodiment of the present specification further provides a multi-party interactive page loading method, fig. 5 is a schematic flowchart of the page loading method provided in another embodiment of the present specification, where the method is described by taking an HTML link as an H5 link, as shown in fig. 5, the flow includes:

step S502, the service platform sends H5 link and link description information to the SIM platform.

Specifically, the service platform generates H5 link and link description information, encapsulates the H5 link and link description information, and sends the encapsulated H5 link and link description information to the SIM platform through an agreed interface.

Step S504, the SIM platform generates a SIM card application instruction according to the received H5 link and the link description information, and encrypts the SIM card application instruction.

Specifically, the SIM platform encapsulates the H5 link and the link description information according to a message format corresponding to the SIM card application instruction to obtain the SIM card application instruction, and encrypts the SIM card application instruction by using a symmetric encryption algorithm agreed with the SIM card application.

Step S506, the SIM platform sends the encrypted SIM card application instruction to the SIM card application through the short message channel.

Specifically, the SIM platform encapsulates the encrypted SIM card application instruction according to the data transmission requirement of the short message channel, and sends the encrypted SIM card application instruction to the SIM card application in the user terminal through the short message channel.

Step S508, the SIM card application receives the encrypted SIM card application instruction through the short message channel, and obtains the H5 link and the link description information from the SIM card application instruction.

Specifically, the SIM card receives the encrypted SIM card application instruction through the short communication channel, and decrypts the SIM card application instruction according to the symmetric encryption algorithm agreed with the SIM platform, so as to obtain the H5 link and the link description information.

Step S510, the SIM card application interacts with the operating system, and sends a popup window generation instruction to the operating system. The instruction may be an ME instruction or other form of instruction, and is not limited herein.

Step S512, the operating system receives the popup generating instruction, generates a popup, and displays the generated popup through the display screen. The pop-up window may be in the form of an STK.

In step S514, the operating system receives an operation of clicking the first control in the popup by the user, and determines that the user allows loading the page corresponding to the H5 link.

In step S516, the operating system loads the page data corresponding to the H5 link in the browser.

Step S518, the operating system obtains the operation data of the user for the popup window, and sends the operation data to the SIM card application.

In step S520, the SIM card application sends the received operation data of the user for the popup to the SIM platform, so that the SIM platform can count the reach and user conversion rate.

In the embodiment of fig. 5, if the user clicks the second control, or the user does not click the first control within a certain time period, or the user does not click the second control within a certain time period, the pop-up window disappears, and the process is ended.

In the embodiment of fig. 5, before step S516, the user terminal may further ask whether the user allows starting the browser, if so, the operating system starts the browser and loads the page data corresponding to the H5 link in the browser, and if not, the pop-up window disappears and the process ends.

In summary, the page loading method in the above embodiment has at least the following technical effects:

1. the encrypted SIM card application instruction is transmitted between the SIM platform and the SIM card application through the short message channel, and based on the safety of the short message channel and the safety of data encryption, the risk of interception and tampering of an HTML link is reduced, the safety of the HTML link is improved, and the safety of data transmission is improved;

2. the HTML link is packaged in the first control, so that link hiding is realized, the problem of link exposure is avoided, and the safety of the HTML link is further improved;

3. the SIM card application can interact with an operating system through an ME instruction, and the interaction priority is high, so that the popup can be displayed preferentially;

4. the user is prompted to carry out link skipping in a pop-up window mode, the reminding performance is strong, and the problem that the user forgets to check information is solved;

5. the user terminal can realize the whole process through the SIM card application and the operating system without installing other application programs, and the scheme has good compatibility;

6. only a legal business party can access the SIM platform and send HTML links to the SIM platform, and illegal molecules cannot access the SIM platform, so that the problem that the illegal molecules pretend to be business parties and directly send risk links to users is solved, and the safety and reliability of the links are ensured;

7. the information reaching rate and the user conversion rate can be counted, so that the implementation effect of the scheme is evaluated.

Fig. 6 is a schematic block diagram of a page loading apparatus provided in an embodiment of this specification, where the apparatus is applied to a user terminal, and as shown in fig. 6, the apparatus includes:

the instruction receiving module 61 is used for receiving an encrypted SIM card application instruction sent by the SIM platform through a short message channel; the encrypted SIM card application instruction is generated by the SIM platform based on a hypertext markup language (HTML) link and link description information sent by a service platform;

the instruction decryption module 62 is configured to decrypt the encrypted SIM card application instruction, and analyze the decrypted SIM card application instruction to obtain the HTML link and the link description information;

a popup generating module 63 configured to generate a popup based on the HTML link and the link description information; wherein the link description information is displayed in the popup window; the HTML link is packaged in a first control in the popup window;

and a page loading module 64, configured to display the popup, start a browser in response to an operation of the first control by a user, and load page data corresponding to the HTML link in the browser.

Optionally, the instruction decryption module 62 is specifically configured to generate a decryption key according to the card information of the SIM card of the user terminal and a symmetric encryption algorithm agreed by the SIM platform and the user terminal, and decrypt the encrypted SIM card application instruction by using the decryption key.

Optionally, the pop-up window generating module 63 is specifically configured to obtain a preset pop-up window template; the popup template comprises a popup title area, an information display area, a first control and a second control; a link for exiting the popup window is packaged in the second control in advance; loading a preset popup title in the popup title area, loading the link description information in the information display area, and packaging the HTML link in the first control; and generating a popup according to the popup title area loaded with the popup title, the information display area loaded with the link description information, the first control and the second control packaged with the HTML link.

Optionally, the apparatus further includes a feedback module, configured to obtain operation data of the user for the popup window after the page data corresponding to the HTML link is loaded in the browser; the operation data comprises any one of sub-operation data of a user for the first control, sub-operation data of the user for the second control and overtime non-response data of the user for the popup window; and sending the operation data to the SIM platform, wherein the operation data is used for the SIM platform to count at least one of a link sending success rate and a link opening rate for carrying out link skip in a popup window mode.

The page loading device in this embodiment can implement each process of the page loading method applied to the user terminal side, and achieve the same effect and function, which is not repeated here.

Fig. 7 is a schematic block diagram of a page loading apparatus according to another embodiment of the present disclosure, where the apparatus is applied to a SIM platform, and as shown in fig. 7, the apparatus includes:

the information receiving module 71 is configured to receive a hypertext markup language HTML link and link description information sent by a service platform;

the instruction generating module 72 is configured to generate an SIM card application instruction according to the HTML link and the link description information;

an instruction encryption module 73, configured to encrypt the SIM card application instruction;

the instruction sending module 74 is configured to send the encrypted SIM card application instruction to the user terminal corresponding to the HTML link through a short message channel, so that the user terminal generates and displays a popup window based on the HTML link and the link description information, and loads page data corresponding to the HTML link in a browser in response to an operation of a user on a first control in the popup window; wherein the link description information is displayed in the popup window; the HTML link is encapsulated in the first control.

Optionally, the instruction generating module 72 is specifically configured to encapsulate the HTML link and the link description information according to a message format corresponding to the SIM card application instruction, so as to obtain the SIM card application instruction.

Optionally, the instruction encryption module 73 is specifically configured to generate an encryption key according to the card information of the SIM card of the user terminal and a symmetric encryption algorithm agreed by the SIM platform and the user terminal, and encrypt the SIM card application instruction by using the encryption key.

Optionally, the pop-up window further comprises a second control; a link for exiting the popup window is packaged in the second control in advance; the device also comprises a statistical module, a short message processing module and a popup window processing module, wherein the statistical module is used for receiving operation data of a user for the popup window sent by the user terminal after sending the encrypted SIM card application instruction to the user terminal corresponding to the HTML link through a short message channel; the operation data comprises any one of sub-operation data of a user for the first control, sub-operation data of the user for the second control and overtime non-response data of the user for the popup window; and counting at least one of a link sending success rate and a link opening rate of link skip in a popup mode based on operation data of the user for respective popup sent by a plurality of user terminals.

The page loading device in this embodiment can implement each process of the aforementioned page loading method applied to the SIM platform side, and achieve the same effect and function, which is not repeated here.

Further, an embodiment of the present specification further provides a user terminal, fig. 8 is a schematic structural diagram of the user terminal provided in the embodiment of the present specification, and as shown in fig. 8, the user terminal includes: a memory 801, a processor 802, a bus 803, and a communication interface 804. The memory 801, processor 802, and communication interface 804 communicate via the bus 803, and the communication interface 804 may include input and output interfaces including, but not limited to, a keyboard, mouse, display, microphone, and the like.

In fig. 8, the memory 801 has stored thereon computer-executable instructions, which when executed on the processor 802, enable the following processes to be implemented:

receiving an encrypted SIM card application instruction sent by a subscriber identity module SIM platform through a short message channel; the encrypted SIM card application instruction is generated by the SIM platform based on a hypertext markup language (HTML) link and link description information sent by a service platform;

decrypting the encrypted SIM card application instruction, and analyzing the decrypted SIM card application instruction to obtain the HTML link and the link description information;

generating a popup based on the HTML link and the link description information; wherein the link description information is displayed in the popup window; the HTML link is packaged in a first control in the popup window;

and displaying the popup, responding to the operation of the user on the first control, starting a browser, and loading page data corresponding to the HTML link in the browser.

Optionally, the computer executable instructions, when run on the processor 802, decrypt the encrypted SIM card application instructions, including:

and generating a decryption key according to the card information of the SIM card of the user terminal and a symmetric encryption algorithm agreed by the SIM platform and the user terminal, and decrypting the encrypted SIM card application instruction by using the decryption key.

Optionally, the computer executable instructions, when executed on the processor 802, generate a popup based on the HTML link and the link description information, including:

acquiring a preset pop-up window template; the popup template comprises a popup title area, an information display area, a first control and a second control; a link for exiting the popup window is packaged in the second control in advance;

loading a preset popup title in the popup title area, loading the link description information in the information display area, and packaging the HTML link in the first control;

and generating a popup according to the popup title area loaded with the popup title, the information display area loaded with the link description information, the first control and the second control packaged with the HTML link.

Optionally, when the computer-executable instructions run on the processor 802, after loading the page data corresponding to the HTML link in the browser, the method further includes:

acquiring operation data of a user for the popup window; the operation data comprises any one of sub-operation data of a user for the first control, sub-operation data of the user for the second control and overtime non-response data of the user for the popup window;

and sending the operation data to the SIM platform, wherein the operation data is used for the SIM platform to count at least one of a link sending success rate and a link opening rate for carrying out link skip in a popup window mode.

The user terminal in this embodiment can implement each process of the aforementioned page loading method applied to the user terminal side, and achieve the same effect and function, which is not repeated here.

Further, an embodiment of the present specification also provides a SIM platform, which includes a memory and a processor, where the memory stores computer-executable instructions, and when the computer-executable instructions run on the processor, the following processes can be implemented:

receiving a hypertext markup language (HTML) link and link description information sent by a service platform;

generating an SIM card application instruction according to the HTML link and the link description information;

encrypting the SIM card application instruction;

sending the encrypted SIM card application instruction to a user terminal corresponding to the HTML link through a short message channel so that the user terminal generates and displays a popup window based on the HTML link and the link description information, and loading page data corresponding to the HTML link in a browser in response to the operation of a user on a first control in the popup window; wherein the link description information is displayed in the popup window; the HTML link is encapsulated in the first control.

Optionally, when the computer-executable instructions are run on the processor, generating an SIM card application instruction according to the HTML link and the link description information, including:

and packaging the HTML link and the link description information according to a message format corresponding to the SIM card application instruction to obtain the SIM card application instruction.

Optionally, the computer executable instructions, when executed on the processor, encrypt the SIM card application instructions, comprising:

and generating an encryption key according to the card information of the SIM card of the user terminal and a symmetric encryption algorithm agreed by the SIM platform and the user terminal, and encrypting the SIM card application instruction by using the encryption key.

Optionally, when the computer-executable instructions are run on the processor, the pop-up window further comprises a second control; a link for exiting the popup window is packaged in the second control in advance; after sending the encrypted SIM card application instruction to the user terminal corresponding to the HTML link through a short message channel, the method further comprises the following steps:

receiving operation data of a user aiming at the popup window sent by the user terminal; the operation data comprises any one of sub-operation data of a user for the first control, sub-operation data of the user for the second control and overtime non-response data of the user for the popup window;

and counting at least one of a link sending success rate and a link opening rate of link skip in a popup mode based on operation data of the user for respective popup sent by a plurality of user terminals.

The SIM platform in this embodiment can implement each process of the aforementioned page loading method applied to the SIM platform side, and achieve the same effect and function, which is not repeated here.

Further, another embodiment of the present specification also provides a storage medium having stored therein computer-executable instructions, which when executed by a processor, can implement the following process:

receiving an encrypted SIM card application instruction sent by a subscriber identity module SIM platform through a short message channel; the encrypted SIM card application instruction is generated by the SIM platform based on a hypertext markup language (HTML) link and link description information sent by a service platform;

decrypting the encrypted SIM card application instruction, and analyzing the decrypted SIM card application instruction to obtain the HTML link and the link description information;

generating a popup based on the HTML link and the link description information; wherein the link description information is displayed in the popup window; the HTML link is packaged in a first control in the popup window;

and displaying the popup, responding to the operation of the user on the first control, starting a browser, and loading page data corresponding to the HTML link in the browser.

Optionally, the computer executable instructions, when executed by a processor, decrypt the encrypted SIM card application instructions, include:

and generating a decryption key according to the card information of the SIM card of the user terminal and a symmetric encryption algorithm agreed by the SIM platform and the user terminal, and decrypting the encrypted SIM card application instruction by using the decryption key.

Optionally, the computer executable instructions, when executed by a processor, generate a popup based on the HTML link and the link description information, including:

acquiring a preset pop-up window template; the popup template comprises a popup title area, an information display area, a first control and a second control; a link for exiting the popup window is packaged in the second control in advance;

loading a preset popup title in the popup title area, loading the link description information in the information display area, and packaging the HTML link in the first control;

and generating a popup according to the popup title area loaded with the popup title, the information display area loaded with the link description information, the first control and the second control packaged with the HTML link.

Optionally, when executed by a processor, the computer-executable instructions, after loading page data corresponding to the HTML link in a browser, further include:

acquiring operation data of a user for the popup window; the operation data comprises any one of sub-operation data of a user for the first control, sub-operation data of the user for the second control and overtime non-response data of the user for the popup window;

and sending the operation data to the SIM platform, wherein the operation data is used for the SIM platform to count at least one of a link sending success rate and a link opening rate for carrying out link skip in a popup window mode.

The storage medium includes a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk.

The storage medium provided by this embodiment can implement the foregoing processes applied in the page loading method embodiment on the user terminal side, and achieve the same functions and effects, which are not repeated here.

Further, another embodiment of the present specification also provides a storage medium having stored therein computer-executable instructions, which when executed by a processor, can implement the following process:

receiving a hypertext markup language (HTML) link and link description information sent by a service platform;

generating an SIM card application instruction according to the HTML link and the link description information;

encrypting the SIM card application instruction;

sending the encrypted SIM card application instruction to a user terminal corresponding to the HTML link through a short message channel so that the user terminal generates and displays a popup window based on the HTML link and the link description information, and loading page data corresponding to the HTML link in a browser in response to the operation of a user on a first control in the popup window; wherein the link description information is displayed in the popup window; the HTML link is encapsulated in the first control.

Optionally, when executed by a processor, the computer-executable instructions generate SIM card application instructions according to the HTML link and the link description information, including:

and packaging the HTML link and the link description information according to a message format corresponding to the SIM card application instruction to obtain the SIM card application instruction.

Optionally, the computer executable instructions, when executed by the processor, encrypt the SIM card application instructions, comprising:

and generating an encryption key according to the card information of the SIM card of the user terminal and a symmetric encryption algorithm agreed by the SIM platform and the user terminal, and encrypting the SIM card application instruction by using the encryption key.

Optionally, the computer executable instructions, when executed by the processor, further comprise a second control; a link for exiting the popup window is packaged in the second control in advance; after sending the encrypted SIM card application instruction to the user terminal corresponding to the HTML link through a short message channel, the method further comprises the following steps:

receiving operation data of a user aiming at the popup window sent by the user terminal; the operation data comprises any one of sub-operation data of a user for the first control, sub-operation data of the user for the second control and overtime non-response data of the user for the popup window;

and counting at least one of a link sending success rate and a link opening rate of link skip in a popup mode based on operation data of the user for respective popup sent by a plurality of user terminals.

The storage medium includes a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk.

The storage medium provided by this embodiment can implement the foregoing processes applied in the embodiment of the page loading method on the SIM platform side, and achieve the same functions and effects, which are not repeated here.

As will be appreciated by one skilled in the art, embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

In a typical configuration, a computing device includes one or more processors (CPUs), input/output interfaces, network interfaces, and memory.

The memory may include forms of volatile memory in a computer readable medium, Random Access Memory (RAM) and/or non-volatile memory, such as Read Only Memory (ROM) or flash memory (flash RAM). Memory is an example of a computer-readable medium.

Computer-readable media, including both non-transitory and non-transitory, removable and non-removable media, may implement information storage by any method or technology. The information may be computer readable instructions, data structures, modules of a program, or other data. Examples of computer storage media include, but are not limited to, phase change memory (PRAM), Static Random Access Memory (SRAM), Dynamic Random Access Memory (DRAM), other types of Random Access Memory (RAM), Read Only Memory (ROM), Electrically Erasable Programmable Read Only Memory (EEPROM), flash memory or other memory technology, compact disc read only memory (CD-ROM), Digital Versatile Discs (DVD) or other optical storage, magnetic cassettes, magnetic tape magnetic disk storage or other magnetic storage devices, or any other non-transmission medium that can be used to store information that can be accessed by a computing device. As defined herein, a computer readable medium does not include a transitory computer readable medium such as a modulated data signal and a carrier wave.

It should also be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

As will be appreciated by one skilled in the art, embodiments of the present description may be provided as a method, system, or computer program product. Accordingly, the description may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the description may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The above description is only an example of the present specification, and is not intended to limit the present specification. Various modifications and alterations to this description will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement or the like made within the spirit and principle of the present specification should be included in the scope of the claims.

Claims (13)

1. A page loading method is applied to a user terminal and comprises the following steps:

receiving an encrypted SIM card application instruction sent by a subscriber identity module SIM platform through a short message channel; the encrypted SIM card application instruction is generated by the SIM platform based on a hypertext markup language (HTML) link and link description information sent by a service platform;

decrypting the encrypted SIM card application instruction, and analyzing the decrypted SIM card application instruction to obtain the HTML link and the link description information;

generating a popup based on the HTML link and the link description information; wherein the link description information is displayed in the popup window; the HTML link is packaged in a first control in the popup window;

and displaying the popup, responding to the operation of the user on the first control, starting a browser, and loading page data corresponding to the HTML link in the browser.

2. The method of claim 1, wherein decrypting the encrypted SIM card application instructions comprises:

and generating a decryption key according to the card information of the SIM card of the user terminal and a symmetric encryption algorithm agreed by the SIM platform and the user terminal, and decrypting the encrypted SIM card application instruction by using the decryption key.

3. The method of claim 1 or 2, wherein generating a popup based on the HTML link and the link description information comprises:

acquiring a preset pop-up window template; the popup template comprises a popup title area, an information display area, a first control and a second control; a link for exiting the popup window is packaged in the second control in advance;

loading a preset popup title in the popup title area, loading the link description information in the information display area, and packaging the HTML link in the first control;

and generating a popup according to the popup title area loaded with the popup title, the information display area loaded with the link description information, the first control and the second control packaged with the HTML link.

4. The method of claim 3, wherein after loading the page data corresponding to the HTML link in the browser, the method further comprises:

acquiring operation data of a user for the popup window; the operation data comprises any one of sub-operation data of a user for the first control, sub-operation data of the user for the second control and overtime non-response data of the user for the popup window;

and sending the operation data to the SIM platform, wherein the operation data is used for the SIM platform to count at least one of a link sending success rate and a link opening rate for carrying out link skip in a popup window mode.

5. A page loading method is applied to a Subscriber Identity Module (SIM) platform and comprises the following steps:

receiving a hypertext markup language (HTML) link and link description information sent by a service platform;

generating an SIM card application instruction according to the HTML link and the link description information;

encrypting the SIM card application instruction;

sending the encrypted SIM card application instruction to a user terminal corresponding to the HTML link through a short message channel so that the user terminal generates and displays a popup window based on the HTML link and the link description information, and loading page data corresponding to the HTML link in a browser in response to the operation of a user on a first control in the popup window; wherein the link description information is displayed in the popup window; the HTML link is encapsulated in the first control.

6. The method of claim 5, wherein generating SIM card application instructions based on the HTML link and the link description information comprises:

and packaging the HTML link and the link description information according to a message format corresponding to the SIM card application instruction to obtain the SIM card application instruction.

7. The method of claim 5, wherein encrypting the SIM card application instructions comprises:

and generating an encryption key according to the card information of the SIM card of the user terminal and a symmetric encryption algorithm agreed by the SIM platform and the user terminal, and encrypting the SIM card application instruction by using the encryption key.

8. The method of any of claims 5-7, wherein the pop-up window further comprises a second control; a link for exiting the popup window is packaged in the second control in advance; after sending the encrypted SIM card application instruction to the user terminal corresponding to the HTML link through a short message channel, the method further comprises the following steps:

receiving operation data of a user aiming at the popup window sent by the user terminal; the operation data comprises any one of sub-operation data of a user for the first control, sub-operation data of the user for the second control and overtime non-response data of the user for the popup window;

and counting at least one of a link sending success rate and a link opening rate of link skip in a popup mode based on operation data of the user for respective popup sent by a plurality of user terminals.

9. A page loading device is applied to a user terminal and comprises:

the instruction receiving module is used for receiving an encrypted SIM card application instruction sent by the SIM platform through a short message channel; the encrypted SIM card application instruction is generated by the SIM platform based on a hypertext markup language (HTML) link and link description information sent by a service platform;

the instruction decryption module is used for decrypting the encrypted SIM card application instruction and analyzing the decrypted SIM card application instruction to obtain the HTML link and the link description information;

the popup window generation module is used for generating popup windows based on the HTML links and the link description information; wherein the link description information is displayed in the popup window; the HTML link is packaged in a first control in the popup window;

and the page loading module is used for displaying the popup, responding to the operation of the user on the first control, starting the browser and loading the page data corresponding to the HTML link in the browser.

10. A page loading device is applied to a Subscriber Identity Module (SIM) platform, and comprises:

the information receiving module is used for receiving the HTML link and the link description information sent by the service platform;

the instruction generating module is used for generating an SIM card application instruction according to the HTML link and the link description information;

the instruction encryption module is used for encrypting the SIM card application instruction;

the instruction sending module is used for sending the encrypted SIM card application instruction to a user terminal corresponding to the HTML link through a short message channel so that the user terminal generates and displays a popup window based on the HTML link and the link description information, and loading page data corresponding to the HTML link in a browser in response to the operation of a user on a first control in the popup window; wherein the link description information is displayed in the popup window; the HTML link is encapsulated in the first control.

11. A user terminal comprising a memory and a processor, the memory having stored thereon computer-executable instructions capable, when run on the processor, of carrying out the steps of the method of any one of claims 1 to 4.

12. A subscriber identity module, SIM, platform comprising a memory and a processor, the memory having stored thereon computer-executable instructions capable, when run on the processor, of carrying out the steps of the method of any one of claims 5 to 8.

13. A storage medium having stored thereon computer-executable instructions, which when executed by a processor, are capable of performing the steps of the method of any one of claims 1 to 4 or any one of claims 5 to 8.

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