CN103905603A - Mobile phone powering-on method and mobile phone powering-on system - Google Patents
Mobile phone powering-on method and mobile phone powering-on system Download PDFInfo
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- CN103905603A CN103905603A CN201210563267.2A CN201210563267A CN103905603A CN 103905603 A CN103905603 A CN 103905603A CN 201210563267 A CN201210563267 A CN 201210563267A CN 103905603 A CN103905603 A CN 103905603A
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Abstract
The invention discloses a mobile phone powering-on method and a mobile phone powering-on system. The mobile phone powering-on method comprises the following steps: a boot loader is started, and the elapsed time of a boot loading stage and the remaining time of the boot loading stage are calculated and displayed in real time; when boot loader starting is completed, the kernel is started, the elapsed time of a kernel stage and the remaining time of the kernel stage are calculated and displayed in real time; and when kernel starting is completed, an application system including at least one application program is started, and the elapsed time of an application system stage and the remaining time of the application system stage are calculated and displayed in real time. According to the mobile phone powering-on method and the mobile phone powering-on system of the invention, the elapsed time and the remaining time of each stage of mobile phone powering-on are calculated and displayed in real time in the stage to clearly and intuitively help users to know the condition of mobile phone powering-on, and a mobile phone powering-on failure can be quickly determined.
Description
Technical field
The present invention relates to a kind of mobile phone power-on method and mobile phone power-on system.
Background technology
Now, the use of mobile phone is very universal.Mobile phone power-on needed successively through three stages independently: the startup stage of boot, the startup stage of kernel and application system startup stage.Wherein, guide load phase startup stage of boot, as the first stage after mobile phone power-on, the work of guiding load phase is mainly electro-detection, flash partition etc. on each hardware, and the system of guiding load phase mobile phone not yet starts.The startup stage of entering kernel after guiding has loaded, the system of mobile phone starts to start.Kernel is operating system meat and potatoes, is called again kernel.Kernel is a part of software that the secure access to hardware is provided for numerous application programs, and this access is limited, and kernel determines that when to certain part hardware operation how long a program.The work startup stage of kernel is mainly the copying etc. of initialization, image file of kernel.After kernel has started, the startup stage that the start of mobile phone just can entering into application system.The work startup stage of application system mainly comprises the configuration to system and loads various application etc.
Whether existing mobile phone just shows a fixing start-up picture in when start, proceed to what degree, also need how long can complete in start process and start and break down for start process, and any information of user or prompting all cannot be provided.User cannot know the situation of start in mobile phone power-on process, in the time that fault occurs, can only guess the generation of being out of order with the experience of available machine time, cannot judge which stage is start fault occur in.
Summary of the invention
The technical problem to be solved in the present invention is that the mobile phone in order to overcome prior art cannot point out the start of user mobile phone to proceed to which step in start process, how long started shooting also needs and the start defect of information such as whether break down, a kind of mobile phone power-on method and mobile phone power-on system are proposed, by calculate in real time in each stage of mobile phone power-on and show each stage use time and remaining time, clear, help user to grasp the progress of mobile phone power-on intuitively, and can comparatively fast determine start fault.
The present invention solves above-mentioned technical problem by following technical proposals:
The invention provides a kind of mobile phone power-on method, its feature is, comprises the following steps:
S
101, start bootstrap loader, calculate in real time and show guiding load phase with the time and guiding load phase remaining time;
S
102, starting bootstrap loader while completing, start kernel, calculate in real time and show the remaining time of using time and kernel stage in kernel stage;
S
103, starting kernel while completing, start an application system that comprises at least one application program, calculate in real time and remaining time of using time and application system stage in display application system stage.
Wherein, the startup of bootstrap loader is mainly to carry out the tasks such as electro-detection on each hardware, flash partition, and these tasks need to complete before cell phone system starts.I.e. this guiding load phase of stage that starts the task before bootstrap loader starts with executive operating system, starts kernel afterwards.Kernel is meat and potatoes in operating system, starts the copying etc. of initialization, image file that kernel comprises kernel, and this kernel stage is exactly the stage that starts kernel.Kernel can start this application system after starting, and has completed to mobile phone power-on and completes i.e. this application system stage by starting kernel, and what this application system stage mainly completed is configuration and the loading application programs to operating system.
For above-mentioned three phases, all calculate and used time and remaining time.With the time, the timing when since a stage obtains, by the operand having completed in real-time current residing stage of calculating with can calculate average calculating operation speed with the time, then estimate remaining time by average calculating operation speed and remaining operand.
Preferably, whether the real-time detection of this mobile phone power-on method has start fault, detect start when fault immediately termination process, send a fault and point out and shut down.
Preferably, at this step S
101also comprise a step S before
100:
S
100, default guiding load phase total time, a total time in kernel stage and a total time in application system stage;
This step S
101also comprise: calculate in real time and show a total surplus time, the summation of remaining time, this total time in kernel stage and this total time in application system stage that this total surplus time is this guiding load phase;
This step S
102also comprise: calculate in real time, by this total surplus time be updated to this kernel stage remaining time and this total time in application system stage sum, and this total surplus time after display update;
This step S
103also comprise: calculate in real time, this total surplus time be updated to the remaining time in this application system stage, and this total surplus time after display update.
No matter which stage mobile phone power-on proceeds to, and all can show in real time this total surplus time, and by this total surplus time, how long user can learn that mobile phone power-on completes also needs, and has greatly improved user's experience.
The present invention also provides a kind of mobile phone power-on system, and its feature is, comprising:
One guiding load-on module, be used for starting bootstrap loader and after this bootstrap loader has started, enable a kernel module, this guiding load-on module comprises one first timing unit, for calculate in real time guiding load phase between the used time as remaining time of the very first time, guiding load phase as the second time;
This kernel module, be used for starting kernel and after this kernel has started, enable an application system module, this kernel module comprises one second timing unit, for calculate in real time and by this very first time be updated to the kernel stage with the time, be updated to remaining time in kernel stage this second time;
This application system module, for starting an application system that comprises at least one application program, this application system module comprises one the 3rd timing unit, for calculate in real time and by this very first time be updated to the application system stage with the time, be updated to remaining time in application system stage this second time;
One display module, for showing this very first time and this second time.
Wherein, the startup of bootstrap loader is mainly to carry out the tasks such as electro-detection on each hardware, flash partition.This guiding load-on module starts i.e. this guiding load phase of stage of bootstrap loader.After this guiding load phase, this kernel module starts copying of kernel, the initialization that comprises kernel and image file etc., and this kernel stage is exactly the stage that starts kernel.This application system stage is that this application system module starts this application system until the stage that mobile phone power-on completes.
Preferably, this mobile phone power-on system also comprises a fault detection module, whether has start fault for detection in real time, and termination process, this display module of instruction send a fault and point out and shut down immediately in the time start fault being detected.
Preferably, this mobile phone power-on systemic presupposition has a guiding load phase total time, a total time in kernel stage and a total time in application system stage, this first timing unit also for the summation of remaining time, this total time in kernel stage and this total time in application system stage of calculating in real time this guiding load phase as the total surplus time;
This second timing unit also for calculate in real time and by this total surplus time be updated to this kernel stage remaining time and this total time in application system stage sum;
The 3rd timing unit is also for calculating and this total surplus time is updated in real time the remaining time in this application system stage;
This display module is also for showing this total surplus time.
By this total surplus time, how long user can learn that mobile phone power-on completes also needs, the situation of clearer grasp mobile phone power-on.
Preferably, this display module adopts progress bar to show this very first time, this second time and this total surplus time.
Meeting on the basis of this area general knowledge, above-mentioned each optimum condition, can combination in any, obtains the preferred embodiments of the invention.
Positive progressive effect of the present invention is:
Mobile phone power-on method of the present invention and mobile phone power-on system, by calculate in real time in each stage of mobile phone power-on and show each stage use time and remaining time, clear, help user to grasp the progress of mobile phone power-on intuitively, and can comparatively fast determine start fault.
Accompanying drawing explanation
Fig. 1 is the flow chart of the mobile phone power-on method of embodiments of the invention 1.
Fig. 2 is the schematic diagram of the mobile phone power-on system of embodiments of the invention 3.
Embodiment
Provide preferred embodiment of the present invention below in conjunction with accompanying drawing, to describe technical scheme of the present invention in detail, but therefore do not limit the present invention among described scope of embodiments.
As shown in Figure 1, the mobile phone power-on method of the present embodiment comprises the following steps:
S
101, start bootstrap loader, calculate in real time and show guiding load phase with the time and guiding load phase remaining time;
S
102, starting bootstrap loader while completing, start kernel, calculate in real time and show the remaining time of using time and kernel stage in kernel stage;
S
103, starting kernel while completing, start an application system that comprises at least one application program, calculate in real time and remaining time of using time and application system stage in display application system stage.
Wherein, for guiding load phase, kernel stage and the application system stage, all calculate and used time and remaining time.With the time, the timing when since a stage obtains, by the operand having completed in real-time current residing stage of calculating with calculated average calculating operation speed with the time, then estimates remaining time by average calculating operation speed and remaining operand.
For instance, the application program that need to start such as the application system stage has 6, is starting after 2 application programs, and what timing obtained has been 2 seconds with the time, needs the application program starting to also have 4 estimations to show that be 4 seconds remaining time by residue.Hold intelligibly, no matter in mobile phone power-on process in above-mentioned which in stage, with all calculating in real time time and remaining time, so reach certain hour if there is remaining unchanged remaining time, user can judge mobile phone power-on comparatively fast, relatively easily fault has occurred, and it is also clearer which is fault occur in stage, can be convenient to investigate failure cause.
Preferably, whether the real-time detection of this mobile phone power-on method has start fault, detect start when fault immediately termination process, send a fault and point out and shut down.
The mobile phone power-on method of the present embodiment is compared with embodiment 1, and difference is only:
At this step S
101also comprise a step S before
100:
S
100, default guiding load phase total time, a total time in kernel stage and a total time in application system stage;
This step S
101also comprise: calculate in real time and show a total surplus time, the summation of remaining time, this total time in kernel stage and this total time in application system stage that this total surplus time is this guiding load phase;
This step S
102also comprise: calculate in real time, by this total surplus time be updated to this kernel stage remaining time and this total time in application system stage sum, and this total surplus time after display update;
This step S
103also comprise: calculate in real time, this total surplus time be updated to the remaining time in this application system stage, and this total surplus time after display update.
Like this be arranged so that no matter which stage mobile phone power-on proceeds to, all can show in real time this total surplus time.By this total surplus time, how long user can learn that mobile phone power-on completes also needs, and has greatly improved user's experience.
As shown in Figure 2, the mobile phone power-on system of the present embodiment comprises:
One guiding load-on module 1, be used for starting bootstrap loader and after this bootstrap loader has started, enable a kernel module 2, this guiding load-on module 1 comprises one first timing unit, for calculate in real time guiding load phase between the used time as remaining time of the very first time, guiding load phase as the second time;
This kernel module 2, be used for starting kernel and after this kernel has started, enable an application system module 3, this kernel module 2 comprises one second timing unit, for calculate in real time and by this very first time be updated to the kernel stage with the time, be updated to remaining time in kernel stage this second time;
This application system module 3, for starting an application system that comprises at least one application program, this application system module 3 comprises one the 3rd timing unit, for calculate in real time and by this very first time be updated to the application system stage with the time, be updated to remaining time in application system stage this second time;
One display module 4, for showing this very first time and this second time.
Wherein, this mobile phone power-on system also comprises a fault detection module (not shown), whether has start fault for detection in real time, and termination process, this display module of instruction send a fault and point out and shut down immediately in the time start fault being detected.
The mobile phone power-on system of the present embodiment is compared with embodiment 3, and difference is only:
This mobile phone power-on systemic presupposition has a guiding load phase total time, a total time in kernel stage and a total time in application system stage, this first timing unit also for the summation of remaining time, this total time in kernel stage and this total time in application system stage of calculating in real time this guiding load phase as the total surplus time;
This second timing unit also for calculate in real time and by this total surplus time be updated to this kernel stage remaining time and this total time in application system stage sum;
The 3rd timing unit is also for calculating and this total surplus time is updated in real time the remaining time in this application system stage;
This display module is also for showing this total surplus time.
By this total surplus time, how long user can learn that mobile phone power-on completes also needs, the situation of clearer grasp mobile phone power-on.
In order to make user get more information about the situation of grasping mobile phone power-on, this display module adopts progress bar to show this very first time, this second time and this total surplus time.
Although more than described the specific embodiment of the present invention, it will be understood by those of skill in the art that these only illustrate, protection scope of the present invention is limited by appended claims.Those skilled in the art is not deviating under the prerequisite of principle of the present invention and essence, can make various changes or modifications to these execution modes, but these changes and modification all fall into protection scope of the present invention.
Claims (7)
1. a mobile phone power-on method, is characterized in that, comprises the following steps:
S
101, start bootstrap loader, calculate in real time and show guiding load phase with the time and guiding load phase remaining time;
S
102, starting bootstrap loader while completing, start kernel, calculate in real time and show the remaining time of using time and kernel stage in kernel stage;
S
103, starting kernel while completing, start an application system that comprises at least one application program, calculate in real time and remaining time of using time and application system stage in display application system stage.
2. mobile phone power-on method as claimed in claim 1, is characterized in that, whether the real-time detection of this mobile phone power-on method has start fault, detect start when fault immediately termination process, send a fault and point out and shut down.
3. mobile phone power-on method as claimed in claim 1, is characterized in that, at this step S
101also comprise a step S before
100:
S
100, default guiding load phase total time, a total time in kernel stage and a total time in application system stage;
This step S
101also comprise: calculate in real time and show a total surplus time, the summation of remaining time, this total time in kernel stage and this total time in application system stage that this total surplus time is this guiding load phase;
This step S
102also comprise: calculate in real time, by this total surplus time be updated to this kernel stage remaining time and this total time in application system stage sum, and this total surplus time after display update;
This step S
103also comprise: calculate in real time, this total surplus time be updated to the remaining time in this application system stage, and this total surplus time after display update.
4. a mobile phone power-on system, is characterized in that, comprising:
One guiding load-on module, be used for starting bootstrap loader and after this bootstrap loader has started, enable a kernel module, this guiding load-on module comprises one first timing unit, for calculate in real time guiding load phase between the used time as remaining time of the very first time, guiding load phase as the second time;
This kernel module, be used for starting kernel and after this kernel has started, enable an application system module, this kernel module comprises one second timing unit, for calculate in real time and by this very first time be updated to the kernel stage with the time, be updated to remaining time in kernel stage this second time;
This application system module, for starting an application system that comprises at least one application program, this application system module comprises one the 3rd timing unit, for calculate in real time and by this very first time be updated to the application system stage with the time, be updated to remaining time in application system stage this second time;
One display module, for showing this very first time and this second time.
5. mobile phone power-on system as claimed in claim 4, it is characterized in that, this mobile phone power-on system also comprises a fault detection module, whether has start fault for detection in real time, and termination process, this display module of instruction send a fault and point out and shut down immediately in the time start fault being detected.
6. mobile phone power-on system as claimed in claim 4, it is characterized in that, this mobile phone power-on systemic presupposition has a guiding load phase total time, a total time in kernel stage and a total time in application system stage, this first timing unit also for the summation of remaining time, this total time in kernel stage and this total time in application system stage of calculating in real time this guiding load phase as the total surplus time;
This second timing unit also for calculate in real time and by this total surplus time be updated to this kernel stage remaining time and this total time in application system stage sum;
The 3rd timing unit is also for calculating and this total surplus time is updated in real time the remaining time in this application system stage;
This display module is also for showing this total surplus time.
7. mobile phone power-on system as claimed in claim 6, is characterized in that, this display module adopts progress bar to show this very first time, this second time and this total surplus time.
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Application publication date: 20140702 |