CN108763601B - Control method and control device for automatic switching in dual-kernel browser - Google Patents

Abstract

The invention discloses a control method for automatically switching kernels in a dual-kernel browser, which comprises the following steps: a. judging whether a switching type and a kernel mode corresponding to the current URL can be called or not from a cloud end unit of the browser manager based on the current URL; b. judging whether the switching type is a mandatory kernel type; c. judging whether the current URL is consistent with the current kernel mode, if so, executing the step e, and if not, executing the step f; d. judging whether a kernel mode corresponding to the current URL can be called or not from a local unit of the browser manager based on the current URL, if the kernel mode is not called, executing the step e, and if the kernel mode can be called, executing the step c; e. continuing to use the first browser kernel for access; f. and the browser manager sends an access instruction to the second browser kernel. The invention has the advantages of convenient use, simple operation, high efficiency, good compatibility and extremely high commercial value.

Description

Control method and control device for automatic switching in dual-kernel browser

Technical Field

The invention relates to the field of mobile terminal application, in particular to a control method and a control device for automatically switching kernels in a dual-kernel browser.

Background

With the continuous progress of society, people have higher and higher popularization and utilization rate of computers, and especially for users working and browsing for a long time by using computers, the use of browsers in the computers is particularly important.

In the general existing computer browsers, a third-party browser is often used as a common browser, and the common third-party browsers on the market, such as a chrome browser and a firefox browser, are all used single-kernel browsers, in such browsers, people access websites based on a single kernel, but in the loading process of some webpages, due to the fact that the accessed websites conflict with the browser or the situation that the loading cannot be performed or the pages are loaded abnormally; in addition, some websites have slow loading and analyzing speed under a certain kernel, and the defects in the prior art can greatly reduce the working efficiency of users and eliminate the patience of the users, thereby reducing the enthusiasm of the users when browsing the webpages.

At present, a browser capable of smoothly running loading of different URLs does not exist, a technical scheme capable of automatically switching browser cores based on different URLs does not exist, and specifically, a control method and a control device for automatically switching kernels in a dual-kernel browser do not exist.

Disclosure of Invention

The present invention aims to provide a control method for automatically switching kernels in a dual-kernel browser, which is used for the dual-kernel browser to automatically switch between a first browser kernel and a second browser kernel according to different pages, and comprises the following steps:

a. judging whether a switching type and a kernel mode corresponding to the current URL can be called or not from a cloud end unit of a browser manager based on the current URL, if the switching type and the kernel mode can be called, executing a step b, and if the switching type and the kernel mode are not called, executing a step d, wherein the switching type and the kernel mode are added into a kernel switching list of the cloud end unit;

b. judging whether the switching type is a mandatory kernel type or not to judge whether a kernel mode in a cloud end unit of a browser manager is preferentially used or not, wherein the kernel mode corresponding to the mandatory kernel type is better than the kernel mode in a local unit of the browser manager to be used, if the switching type is the mandatory kernel type, executing the step c, and if the switching type is not the mandatory kernel type, executing the step d;

c. judging whether the kernel mode corresponding to the current URL is consistent with the current kernel mode, if so, executing the step e, and if not, executing the step f, wherein the kernel mode corresponding to the current URL is as follows: the method comprises the following steps that a switching type and a kernel mode can be called from a cloud end unit, and the kernel mode corresponding to the switching type which is a mandatory kernel type; the method comprises the steps that when a switching type and a kernel mode can be called from a cloud end unit and the switching type is not a mandatory kernel type, the corresponding kernel mode is called from a local unit of the browser manager; failing to invoke, from a cloud unit, a corresponding kernel mode of a switch type and kernel mode and invoked from a local unit of the browser manager;

d. judging whether a kernel mode corresponding to the current URL can be further called from a local unit of the browser manager based on the current URL, if the kernel mode can be called, executing a step c, and if the kernel mode is not called, executing a step e, wherein the kernel mode is added into a local kernel cutting list of the local unit, and the local kernel cutting list does not include a switching type;

e. continuing to use the first browser kernel for access, wherein the first browser kernel is a kernel corresponding to the current kernel mode;

f. and the browser manager sends an access instruction to the second browser kernel, wherein the second browser kernel is a kernel corresponding to the kernel mode corresponding to the current URL.

Preferably, the step f comprises the following steps:

f1. the browser manager transmits URL information and POST data context information transmitted by a first browser kernel to a second browser kernel;

f2. the browser manager initiates an access instruction to the second browser kernel;

f3. the second browser kernel acquires COOKIE information from the browser manager based on an access instruction;

f4. and the second browser kernel initiates a network request based on the COOKIE information.

Preferably, said step f is followed by:

g. and the second browser kernel receives an access result corresponding to the access request and displays a webpage corresponding to the current URL based on the access result.

According to another aspect of the present invention, there is provided a control apparatus for automatically switching kernels in a dual-kernel browser, which is used for automatically switching between a first browser kernel and a second browser kernel for different pages in the dual-kernel browser, including:

the first judgment device 1: judging whether a switching type and a kernel mode corresponding to a current URL can be called or not from a cloud end unit of a browser manager based on the current URL, wherein the switching type and the kernel mode are added into a kernel switching list of the cloud end unit;

second determination means 2: if the first judgment device calls the switching type and the kernel mode corresponding to the current URL, judging whether the switching type is a mandatory kernel type or not so as to judge whether the kernel mode in a cloud end unit of a browser manager is preferentially used or not, wherein the kernel mode corresponding to the mandatory kernel type is better than the kernel mode in a local unit of the browser manager;

third judgment means 3: if the judgment result in the second judgment device is the mandatory kernel type, or if the kernel mode can be called in the fourth judgment device, judging whether the kernel mode corresponding to the current URL is consistent with the current kernel mode, wherein the kernel mode corresponding to the current URL is: the method comprises the following steps that a switching type and a kernel mode can be called from a cloud end unit, and the kernel mode corresponding to the switching type which is a mandatory kernel type; the method comprises the steps that when a switching type and a kernel mode can be called from a cloud end unit and the switching type is not a mandatory kernel type, the corresponding kernel mode is called from a local unit of the browser manager; failing to invoke, from a cloud unit, a corresponding kernel mode of a switch type and kernel mode and invoked from a local unit of the browser manager;

fourth judgment means 4: if the switching type and the kernel mode are not called in the first judging device, or if the judging result in the second judging device is not the mandatory kernel type, judging whether the kernel mode corresponding to the current URL can be called from a local unit of the browser manager based on the current URL, wherein the kernel mode is added into a local kernel cutting list of the local unit, and the local kernel cutting list does not include the switching type;

the first processing device 5: if the judgment result in the third judgment device is consistent, or if the kernel mode is not called in the fourth judgment device, continuing to use the first browser kernel for access, wherein the first browser kernel is a kernel corresponding to the current kernel mode;

the second processing device 6: and if the judgment result in the third judgment device is inconsistent, the browser manager sends an access instruction to the second browser kernel, and the second browser kernel is a kernel corresponding to the kernel mode corresponding to the current URL.

Preferably, the second treatment means 6 comprise:

the third processing device 61: the browser manager transmits URL information and POST data context information transmitted by a first browser kernel to a second browser kernel;

fourth processing device 62: the browser manager initiates an access instruction to the second browser kernel;

the first acquiring means 63: the second browser kernel acquires COOKIE information from the browser manager based on an access instruction;

the fifth processing device 64: and the second browser kernel initiates a network request based on the COOKIE information.

Preferably, the method further comprises the following steps:

sixth processing means 7: and the second browser kernel receives an access result corresponding to the access instruction and displays a webpage corresponding to the current URL based on the access result.

Judging whether a switching type and a kernel mode corresponding to the current URL can be called or not from a cloud end unit of the browser manager based on the current URL, if the switching type and the kernel mode are not called, executing a step d, and if the switching type and the kernel mode can be called, executing a step b; judging whether the switching type is a mandatory kernel type, if so, executing the step c, otherwise, executing the step d; judging whether the kernel mode corresponding to the current URL is consistent with the current kernel mode, if so, executing the step e, and if not, executing the step f; judging whether a kernel mode corresponding to the current URL can be called or not from a local unit of the browser manager based on the current URL, if the kernel mode is not called, executing the step e, and if the kernel mode can be called, executing the step c; continuing to use the first browser kernel for access; and the browser manager sends an access instruction to the second browser kernel. The invention greatly reduces the load of the browser in the operation process, increases the working efficiency of the user in the use process, reduces the loading time and the error probability by automatically switching different URLs when the URLs are accessed, thereby saving the time and improving the compatibility.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic flowchart illustrating a control method for automatically switching kernels in a dual-kernel browser according to an embodiment of the present invention;

fig. 2 is a schematic specific flowchart illustrating that the browser manager issues an access instruction to the second browser kernel according to a fourth embodiment of the present invention; and

fig. 3 is a schematic block diagram illustrating a control apparatus for automatically switching kernels in a dual-kernel browser according to another embodiment of the present invention.

Detailed Description

In order to better and clearly show the technical scheme of the invention, the invention is further described with reference to the attached drawings.

Fig. 1 shows a detailed flowchart of a control method for automatically switching kernels in a dual-kernel browser according to a specific embodiment of the present invention, and those skilled in the art understand that the present invention provides a control method for automatically switching kernels in a dual-kernel browser, which will be further described in conjunction with the control method and a control device, specifically, the control method is mainly used for automatically switching between browser kernels for different pages in the dual-kernel browser, that is, the present invention shows a technical scheme of using dual kernels in a browser, where the kernels are mainly used for processing URLs when loading and accessing web pages, and in the present invention, for different pages, the browser can switch between browser kernels to adapt to different URLs and further accelerate the speed of loading web pages, thereby providing operational efficiency, in particular comprising the steps of:

fig. 1 shows a specific flowchart of a control method for automatically switching kernels in a dual-kernel browser according to an embodiment of the present invention, which specifically includes the following steps:

firstly, step S101 is entered, whether a switch type and a kernel mode corresponding to a current URL can be called is determined from a cloud end unit of the browser manager based on the current URL, if the switch type and the kernel mode are not called, step S104 is executed, if the switch type and the kernel mode can be called, step S102 is executed, a person skilled in the art understands that the cloud end unit in the browser manager comprises one or more core switching lists and adds the one or more switch types and the one or more kernel modes to the core switching list, the browser manager calls the switch type and the kernel mode corresponding to the current URL in the core switching list based on the current URL, if the switch type and the kernel mode corresponding to the current URL are not called in the core switching list, step S104 is executed, otherwise, the switch type and the kernel mode corresponding to the current URL can be called in the core switching list, step S102 is executed, which is a determination step.

Then, step S102 is performed, whether the switching type is a mandatory kernel type is determined, if yes, step S103 is performed, if not, step S104 is performed, whether the switching type is a mandatory kernel type is determined, which is used to determine whether a kernel mode is better than a kernel mode in a local unit in the browser manager, if so, step S103 is performed, otherwise, step S104 is performed.

Next, step S103 is performed, and it is determined whether the kernel mode corresponding to the current URL is consistent with the current kernel mode, if so, step S105 is performed, and if not, step S106 is performed, where the kernel mode corresponding to the current URL is: the method comprises the following steps that a switching type and a kernel mode can be called from a cloud end unit, and the kernel mode corresponding to the switching type which is a mandatory kernel type; the method comprises the steps that when a switching type and a kernel mode can be called from a cloud end unit and the switching type is not a mandatory kernel type, the corresponding kernel mode is called from a local unit of the browser manager; the browser manager matches the current kernel with the current URL if the switching type and the kernel mode cannot be called from the cloud unit and the corresponding kernel mode is called from the local unit of the browser manager, if the current URL is consistent with the current kernel mode, step S105 is executed if the current kernel mode is consistent with the current URL, and if the current kernel mode is not consistent with the current kernel mode, step S106 is executed, which is understood by those skilled in the art as a judgment step.

Then, step S104 is performed, whether a kernel mode corresponding to the current URL can be called is determined from the local unit of the browser manager based on the current URL, if the kernel mode is not called, step S105 is performed, if the kernel mode can be called, step S103 is performed, and those skilled in the art understand that one or local kernel switching lists are further set in the browser manager, the browser manager calls the kernel mode corresponding to the current URL from the one or more local kernel switching lists based on the current URL, if the kernel mode can be called, step S103 is performed, otherwise, if the kernel mode is not called, step S105 is performed, which is a determination step.

Then, step S105 is performed, the first browser kernel is continuously used for accessing, where the first browser kernel is a kernel corresponding to the current kernel mode, in such an embodiment, when the browser manager does not call the current URL to the switching type and the kernel mode corresponding to the current URL in the kernel switching list, the browser manager continues to use the first browser kernel for accessing, if the switching type and the kernel mode corresponding to the current URL are called in the kernel switching list, it is further determined whether the switching type is a mandatory kernel type, so as to determine whether to preferentially use the kernel mode in the cloud end unit of the browser manager, and if the switching type is not the mandatory kernel type, the kernel mode is further called from the local unit of the browser manager, and accordingly, by determining whether the current URL is consistent with the current kernel mode, if the URL is consistent with the current kernel, the current URL is proved to be consistent with the current kernel, namely the current URL is consistent with the kernel of the first browser, and the first browser is used for continuing accessing.

And finally, entering step S106, where the browser manager sends an access instruction to the second browser kernel, where the second browser kernel is a kernel corresponding to the kernel mode corresponding to the current URL.

In such an embodiment, the browser manager calls the switching type and the kernel mode corresponding to the current URL in the kernel switching list, and meanwhile, if the kernel mode is a mandatory kernel type, the browser manager issues an access instruction to the second browser kernel.

Fig. 2 is a schematic diagram illustrating a specific flow of the browser manager issuing an access instruction to the second browser kernel according to a fourth embodiment of the present invention, specifically including the following steps:

firstly, step S201 is entered, the browser manager transfers URL information and POST data context information transferred by a first browser kernel to a second browser kernel, in such an embodiment, the browser manager transfers some necessary information and related data information to the second browser kernel by the first browser kernel, where the necessary information and related data include URL information and POST data context information.

Then, step S202 is performed, where the browser manager initiates an access instruction to the second browser kernel, and in the foregoing step, after the browser manager transmits the URL information and the POST data context information to the second browser kernel, the browser manager initiates an access instruction to the second browser kernel.

Subsequently, step S203 is performed, and the second browser kernel acquires COOKIE information from the browser manager based on the access instruction, and those skilled in the art understand that after receiving the access instruction sent by the browser manager, the second browser kernel acquires COOKIE information from the browser kernel based on the access instruction.

Finally, step S204 is entered, and the second browser kernel initiates a network request based on the COOKIE information, in such an embodiment, after acquiring the COOKIE information, the second browser kernel initiates a network request based on the COOKIE information.

Fig. 3 shows a module connection diagram of a control device for automatically switching kernels in a dual-kernel browser according to another embodiment of the present invention, and those skilled in the art understand that the present invention provides a control device for automatically switching kernels in a dual-kernel browser, which is used in conjunction with the control methods shown in fig. 1 to 3, and is used for automatically switching between a first browser kernel and a second browser kernel for different pages in the dual-kernel browser, and the control device includes: the first judgment device 1: the first determining device 1 may refer to step S101 in fig. 1, and details thereof are omitted here, where it is determined whether the switching type and the kernel mode corresponding to the current URL can be invoked from the cloud end unit of the browser manager based on the current URL.

Further, a second determination device 2 is also included: if the first determining device retrieves the switching type and the kernel mode corresponding to the current URL, it determines whether the switching type is a mandatory kernel type, and the second determining device may refer to step S102 in fig. 1, which is not described herein again.

Further, third judging means 3 is included: the third determining device may refer to step S103 in fig. 1, which is not described herein again.

Further, a fourth judging device 4 is also included: the fourth determining device may refer to step S104 in fig. 1, and details thereof are omitted here, where the fourth determining device determines whether the kernel mode corresponding to the current URL can be invoked from the local unit of the browser manager based on the current URL.

Further, the first processing device 5 is also included: the first processing device may refer to step S105 in fig. 1, which is not described herein again.

Further, a second processing device 6 is also included: the browser manager sends an access instruction to the second browser kernel, and the second processing device may refer to step S106 in fig. 1, which is not described herein again.

Further, a third processing device 61 is also included: the browser manager transmits the URL information and the POST data context information transmitted by the first browser core to the second browser core, and the third processing device may refer to step S201 in fig. 2, which is not described herein again.

Further, a fourth processing device 62 is also included: the browser manager initiates an access instruction to the second browser kernel, and the fourth processing device may refer to step S202 in fig. 2, which is not described herein again.

Further, a first obtaining device 63 is also included: the second browser kernel obtains COOKIE information from the browser manager based on the access instruction, and the first obtaining device may refer to step S203 in fig. 2, which is not described herein again.

Further, a fifth processing device 64 is also included: the second browser kernel initiates a network request based on the COOKIE information, and the fifth processing device may refer to step S204 in fig. 2, which is not described herein again.

Further, a sixth processing device 7 is included: and the second browser kernel receives an access result corresponding to the access request and displays a webpage corresponding to the current URL based on the access result.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes and modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention.

Claims (6)

1. A control method for automatically switching kernels in a dual-kernel browser is used for the dual-kernel browser to automatically switch between a first browser kernel and a second browser kernel aiming at different pages, and is characterized by comprising the following steps:

a. judging whether a switching type and a kernel mode corresponding to the current URL can be called or not from a cloud end unit of a browser manager based on the current URL, if the switching type and the kernel mode can be called, executing a step b, and if the switching type and the kernel mode are not called, executing a step d, wherein the switching type and the kernel mode are added into a kernel switching list of the cloud end unit;

b. judging whether the switching type is a mandatory kernel type or not to judge whether a kernel mode in a cloud end unit of a browser manager is preferentially used or not, wherein the kernel mode corresponding to the mandatory kernel type is better than the kernel mode in a local unit of the browser manager to be used, if the switching type is the mandatory kernel type, executing the step c, and if the switching type is not the mandatory kernel type, executing the step d;

c. judging whether the kernel mode corresponding to the current URL is consistent with the current kernel mode, if so, executing the step e, and if not, executing the step f, wherein the step e is executed; the kernel mode corresponding to the current URL is as follows: the method comprises the following steps that a switching type and a kernel mode can be called from a cloud end unit, and the kernel mode corresponding to the switching type which is a mandatory kernel type; the method comprises the steps that when a switching type and a kernel mode can be called from a cloud end unit and the switching type is not a mandatory kernel type, the corresponding kernel mode is called from a local unit of the browser manager; failing to invoke, from a cloud unit, a corresponding kernel mode of a switch type and kernel mode and invoked from a local unit of the browser manager;

d. judging whether a kernel mode corresponding to the current URL can be further called from a local unit of the browser manager based on the current URL, if the kernel mode can be called, executing a step c, and if the kernel mode is not called, executing a step e, wherein the kernel mode is added into a local kernel cutting list of the local unit, and the local kernel cutting list does not include a switching type;

e. continuing to use the first browser kernel for access, wherein the first browser kernel is a kernel corresponding to the current kernel mode;

f. the browser manager issues an access instruction to the second browser kernel,

and the second browser kernel is a kernel corresponding to the kernel mode corresponding to the current URL.

2. The control method according to claim 1, characterized by comprising, at said step f, the steps of:

f1. the browser manager transmits URL information and POST data context information transmitted by a first browser kernel to a second browser kernel;

f2. the browser manager initiates an access instruction to the second browser;

f3. the second browser acquires COOKIE information from the browser manager based on the access instruction;

f4. and the second browser kernel initiates a network request based on the COOKIE information.

3. The control method according to any one of claims 1 to 2, characterized by comprising, after step f:

g. and the second browser receives an access result corresponding to the access instruction and displays a webpage corresponding to the current URL based on the access result.

4. A control device for automatically switching kernels in a dual-kernel browser, which automatically switches between a first browser kernel and a second browser kernel for different pages by using the control method of any one of claims 1 to 3, comprising:

first determination device (1): judging whether a switching type and a kernel mode corresponding to a current URL can be called or not from a cloud end unit of a browser manager based on the current URL, wherein the switching type and the kernel mode are added into a kernel switching list of the cloud end unit;

second determination means (2): if the first judgment device calls the switching type and the kernel mode corresponding to the current URL, judging whether the switching type is a mandatory kernel type or not so as to judge whether the kernel mode in a cloud end unit of a browser manager is preferentially used or not, wherein the kernel mode corresponding to the mandatory kernel type is better than the kernel mode in a local unit of the browser manager;

third judging means (3): if the judgment result in the second judgment device is the mandatory kernel type, or if the kernel mode can be called in the fourth judgment device, judging whether the kernel mode corresponding to the current URL is consistent with the current kernel mode, wherein the kernel mode corresponding to the current URL is: the method comprises the following steps that a switching type and a kernel mode can be called from a cloud end unit, and the kernel mode corresponding to the switching type which is a mandatory kernel type; the method comprises the steps that when a switching type and a kernel mode can be called from a cloud end unit and the switching type is not a mandatory kernel type, the corresponding kernel mode is called from a local unit of the browser manager; failing to invoke, from a cloud unit, a corresponding kernel mode of a switch type and kernel mode and invoked from a local unit of the browser manager;

fourth judgment means (4): if the switching type and the kernel mode are not called in the first judging device, or if the judging result in the second judging device is not the mandatory kernel type, judging whether the kernel mode corresponding to the current URL can be called from a local unit of the browser manager based on the current URL, wherein the kernel mode is added into a local kernel cutting list of the local unit, and the local kernel cutting list does not include the switching type;

first processing device (5): if the judgment result in the third judgment device is consistent, or if the kernel mode is not called in the fourth judgment device, continuing to use the first browser kernel for access, wherein the first browser kernel is a kernel corresponding to the current kernel mode;

second treatment device (6): and if the judgment result in the third judgment device is inconsistent, the browser manager sends an access instruction to the second browser kernel, and the second browser kernel is a kernel corresponding to the kernel mode corresponding to the current URL.

5. The control device according to claim 4, characterized in that the second processing means (6) comprise:

third processing device (61): the browser manager transmits URL information and POST data context information transmitted by a first browser kernel to a second browser kernel;

fourth processing device (62): the browser manager initiates an access instruction to the second browser kernel;

first acquisition means (63): the second browser kernel acquires COOKIE information from the browser manager based on an access instruction;

fifth processing device (64): and the second browser kernel initiates a network request based on the COOKIE information.

6. The control device according to claim 5, characterized by further comprising:

sixth processing device (7): and the second browser kernel receives an access result corresponding to the access instruction and displays a webpage corresponding to the current URL based on the access result.

Images