CN103077048A - Method for updating operating parameters of communication module and communication terminal - Google Patents

Abstract

The invention is applied to the technical field of communication and provides a method for updating operating parameters of a communication module, and a communication terminal. The method comprises the following steps: saving a first operating parameter file and a second operating parameter file of the communication module respectively in a first partition and a second partition of a file system of an application processor; before the communication module is started, judging whether the first operating parameter file of the first partition is the same as the second operating parameter file in the second partition or not; if the first and second operating parameter files are the same, loading the second operating parameter file in the second partition to the communication module, and executing the starting; if the first operating parameter file is not the same as the second operating parameter file, updating first operating parameters in the first partition into the second partition; and loading the updated first operating parameter file in the second partition to the communication module, and executing the starting. Therefore, the operating parameter files of the communication module can be upgraded conveniently and effectively.

Description

Operational factor update method and the communication terminal of communication module

Technical field

The present invention relates to communication technical field, relate in particular to a kind of operational factor update method and communication terminal of communication module.

Background technology

For adopting AP processor (AP processor plication Porcessor, application processor)+CP (Cooperate Processor, communication processor) communication terminal of Duo-Core Architecture, because the communication module of communication terminal runs on independently in the CP processor, if want to upgrade the operational factor of communication module, such as NV (family district data) parameter, audio frequency parameter etc. all needs again the firmware of the whole communication module of burning (Firmware) version basically.Because the firmware version of burning communication module needs specific tool software or equipment, the user is difficult to upgrade firmware version when encountering problems, and the terminal maintenace point that must take appointment upgrades, and this can use to the user and cause larger inconvenience and worried.

In summary, the operational factor renewal technology of the communication module of existing communication terminal obviously exists inconvenience and defective in actual use, so be necessary to be improved.

Summary of the invention

For above-mentioned defective, the object of the present invention is to provide a kind of operational factor update method and communication terminal of communication module, it can make things convenient for, effectively the operational factor file of communication module be upgraded.

To achieve these goals, the invention provides a kind of operational factor update method of communication module, be applied to comprise the communication terminal of described communication module, application processor and communication processor, described method comprises that step has:

Deposit step, in the first subregion of the file system of described application processor and the second subregion, deposit respectively the first operational factor file and the second operational factor file of described communication module;

The first determining step before starting described communication module, judges whether described the first operational factor file in described the first subregion is identical with described the second operational factor file in described the second subregion;

The first load step if described first, second operational factor file is identical, then starts described the second operational factor file load in described the second subregion to described communication module and execution;

The first step of updating if described first, second operational factor file is not identical, then is updated to described the first operational factor in described the first subregion in described the second subregion;

The second load step starts described the first operational factor file load after upgrading in described the second subregion to described communication module and execution.

According to operational factor update method of the present invention, described the first determining step comprises:

Read respectively described the first operational factor file in described the first subregion and first version information and second version information of described the second operational factor file in described the second subregion;

Judge whether described first version information is identical with described the second version information, if identically judge that then described first, second operational factor file is identical, otherwise judge that described first, second operational factor file is not identical.

According to operational factor update method of the present invention, the described step of depositing also includes afterwards:

Download step when receiving the remote update instruction, is downloaded the 4th operational factor file of described communication module from remote server;

Whether effective first effective detecting step detects described the 4th operational factor file;

The second step of updating, if described the 4th operational factor file is effective, then with described the 4th operational factor file update in described the first subregion;

The second determining step judges whether described the 4th operational factor file in described the first subregion is identical with described the second operational factor file in described the second subregion;

The 3rd upgrades step, if described the second, the 4th operational factor file is not identical, then with described the 4th operational factor file update in described the first subregion in described the second subregion;

The 3rd load step starts described the 4th operational factor file load after upgrading in described the second subregion to described communication module and execution.

According to operational factor update method of the present invention, the described step of depositing also comprises:

In the 3rd subregion of the described file system of described application processor, deposit the 3rd operational factor file of described communication module as backup;

The described step of depositing also includes afterwards:

The loss detection step, before starting described communication module, whether described the first operational factor file that detects in described the first subregion is lost, if described the first operational factor is not lost, then carries out described the first determining step;

Second effective detecting step, if described the first operational factor File lose, whether described the second operational factor file that then detects in described the second subregion is effective;

The 4th step of updating, if described the second operational factor file is effective, then with described the second operational factor file update in described the second subregion in described the first subregion;

The 4th load step starts described the second operational factor file load in described the second subregion to described communication module and execution.

According to operational factor update method of the present invention, also comprise after described second effective detecting step:

The 3rd effective detecting step, if file is invalid for described the second operational factor, whether described the 3rd operational factor file that then detects in described the 3rd subregion is effective;

The prompting step if file is invalid for described the 3rd operational factor, then points out the operational factor file to damage;

The the new step just before dawn if described the 3rd operational factor file is effective, then is updated to described the 3rd operational factor file in described the 3rd subregion respectively in described the first subregion and described the second subregion;

Slender acanthopanax is carried step, and described the 3rd operational factor file load after upgrading in described the second subregion is started to described communication module and execution.

The present invention also provides a kind of communication terminal, comprises communication module, application processor and communication processor, and described communication terminal also includes:

Storage module is used at the first subregion of the file system of described application processor and the first operational factor file and the second operational factor file that the second subregion is deposited respectively described communication module;

The first judge module is used for before starting described communication module, judges whether described the first operational factor file in described the first subregion is identical with described the second operational factor file in described the second subregion;

The first load-on module, if be used for described first, second operational factor file when identical, with described the second operational factor file load in described the second subregion to described communication module and carry out and start;

The first update module if be used for described first, second operational factor file when not identical, is updated to described the first operational factor in described the first subregion in described the second subregion;

The second load-on module is used for described the first operational factor file load after described the second subregion renewal is started to described communication module and execution.

According to communication terminal of the present invention, described the first judge module also is used for reading respectively the described first operational factor file of described the first subregion and first version information and second version information of described the second operational factor file in described the second subregion; Judge whether described first version information is identical with described the second version information, if identically judge that then described first, second operational factor file is identical, otherwise judge that described first, second operational factor file is not identical.

According to communication terminal of the present invention, also include:

Download module is used for when receiving the remote update instruction, downloads the 4th operational factor file of described communication module from remote server;

First effective detection module, whether effective for detection of described the 4th operational factor file;

The second update module, if be used for described the 4th operational factor file when effective, with described the 4th operational factor file update in described the first subregion;

The second judge module is used for judging whether described the 4th operational factor file of described the first subregion is identical with described the second operational factor file in described the second subregion;

The 3rd update module, if be used for described the second, the 4th operational factor file when not identical, with described the 4th operational factor file update in described the first subregion in described the second subregion;

The 3rd load-on module is used for described the 4th operational factor file load after described the second subregion renewal is started to described communication module and execution.

According to communication terminal of the present invention, described storage module also is used for depositing the 3rd operational factor file of described communication module as backup at the 3rd subregion of the described file system of described application processor;

Described communication terminal also includes:

The loss detection module is used for before starting described communication module, and whether described the first operational factor file that detects in described the first subregion is lost, if described the first operational factor is not lost, then starts described the first judge module work;

Second effective detection module is if when being used for described the first operational factor File lose, whether described the second operational factor file that detects in described the second subregion is effective;

The 4th update module, if be used for described the second operational factor file when effective, with described the second operational factor file update in described the second subregion in described the first subregion;

The 4th load-on module is used for the described second operational factor file load of described the second subregion is started to described communication module and execution.

According to communication terminal of the present invention, also include:

The 3rd effective detection module is if when being used for described the second operational factor file is invalid, whether described the 3rd operational factor file that detects in described the 3rd subregion is effective;

Reminding module is if when being used for described the 3rd operational factor file is invalid, prompting operational factor file damages;

The the new module just before dawn if be used for described the 3rd operational factor file when effective, is updated to described the 3rd operational factor file in described the 3rd subregion respectively in described the first subregion and described the second subregion;

Slender acanthopanax is carried module, is used for described the 3rd operational factor file load after described the second subregion renewal is started to described communication module and execution.

The present invention is applicable to adopt the communication terminal of the Duo-Core Architecture of AP (application processor)+CP (communication processor), the operational factor file of communication module is kept at two or three positions of AP processor side.All check the operational factor file of communication module in each position when each startup communication module or remote update, if the operational factor file changes, then upgrade the operational factor file and be loaded into communication module.Because the present invention is kept at AP processor side with the operational factor file of communication module, therefore can makes things convenient for, effectively the operational factor file of communication module be upgraded, and no longer need specific tool software or equipment.

Description of drawings

Fig. 1 is the structural representation of communication terminal of the present invention;

Fig. 2 is the structural representation of preferred communication terminal of the present invention;

Fig. 3 is the operational factor update method of communication module of the present invention;

Fig. 4 is the operational factor update method of communication module in the first embodiment of the invention;

Fig. 5 is the operational factor update method of communication module in the second embodiment of the invention; And

Fig. 6 is the status transition chart of the operational factor update method of communication module in the third embodiment of the invention.

Embodiment

In order to make purpose of the present invention, technical scheme and advantage clearer, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the present invention, is not intended to limit the present invention.

Fig. 1 is the structural representation of communication terminal of the present invention, described communication terminal 100 comprises communication module, AP (application processor) and CP (communication processor), namely adopt the Duo-Core Architecture of AP processor+CP processor, described communication module runs on independently in the CP processor, and the startup of described communication module is controlled by the AP processor, is powered on to communication module by the AP processor.Described communication terminal 100 can be mobile phone, PDA (Personal Digital Assistant, personal digital assistant), panel computer etc.And described communication terminal 100 also includes storage module 101, the first judge module 102, the first load-on module 103, the first update module 104 and the second load-on module 105, wherein:

Described storage module 101 is used at the first subregion of the file system of AP processor and the first operational factor file and the second operational factor file that the second subregion is deposited respectively communication module.The operational factor that is about to communication module is put into respectively the first subregion and second subregion of AP processor side, described the first subregion is preferably the user partition of AP processor side file system, and the file in this user partition can change or pass through remote upgrade in each AP processor version updating; Described the second subregion is preferably the special subregion of AP processor side file system, even the firmware version of burning AP processor again, the data in this special subregion can not be capped yet, but can upgrade.

Described the first judge module 102 is used for before starting communication module, judges whether the first operational factor file in the first subregion is identical with the second operational factor file in the second subregion.Can trigger the startup communication module when preferably, the AP processor powers on to communication module.Preferably, the first judge module 102 also is used for reading respectively the first operational factor file of the first subregion and first version information and second version information of the second operational factor file in the second subregion.Judge whether first version information is identical with the second version information, if identically judge that then first, second operational factor file is identical, otherwise judge that first, second operational factor file is not identical.

Described the first load-on module 103, if be used for first, second operational factor file when identical, for example both versions are identical, with the second operational factor file load in the second subregion to communication module and carry out startup.

Described the first update module 104, if when not identical for first, second operational factor file, for example both versions are different, and the first operational factor in the first subregion is updated in the second subregion, and former the second operational factor file that is about in the second subregion replaces to the first operational factor.

Described the second load-on module 105 is used for the first operational factor file load after the renewal of the second subregion is started to communication module and execution.

Fig. 2 is the structural representation of preferred communication terminal of the present invention, described communication terminal 100 comprises communication module, AP processor and CP processor, namely adopt the Duo-Core Architecture of AP processor+CP processor, described communication module runs on independently in the CP processor, and the startup of described communication module is controlled by the AP processor, is powered on to communication module by the AP processor.Described communication terminal 100 also includes storage module 101, the first judge module 102, the first load-on module 103, the first update module 104, the second load-on module 105, download module 106, first effective detection module 107, the second update module 108, the second judge module 109, the 3rd update module 110, the 3rd load-on module 111, loss detection module 112, second effective detection module 113, the 4th update module 114, the 4th load-on module 115, the 3rd effective detection module 116, reminding module 117, just before dawn new module 118 and/or slender acanthopanax carry module 119, wherein:

Described storage module 101 is used at the first subregion of the file system of AP processor and the first operational factor file and the second operational factor file that the second subregion is deposited respectively communication module.

Described the first judge module 102 is used for before starting communication module, judges whether the first operational factor file in the first subregion is identical with the second operational factor file in the second subregion.Preferably, the first judge module 102 also is used for reading respectively the first operational factor file of the first subregion and first version information and second version information of the second operational factor file in the second subregion.Judge whether first version information is identical with the second version information, if identically judge that then first, second operational factor file is identical, otherwise judge that first, second operational factor file is not identical.

Described the first load-on module 103, if be used for first, second operational factor file when identical, with the second operational factor file load in the second subregion to communication module and carry out startup.

Described the first update module 104 if be used for first, second operational factor file when not identical, is updated to the first operational factor in the first subregion in the second subregion, and former the second operational factor file that is about in the second subregion replaces to the first operational factor.

Described the second load-on module 105 is used for the first operational factor file load after the renewal of the second subregion is started to communication module and execution.

In first embodiment of the invention, described communication terminal 100 also comprises:

Download module 106 is used for when receiving the remote update instruction the 4th operational factor file of download communication module from remote server.For example, if need OTA (Over the Air, the aerial download) upgrading, then will save as temporary file from the 4th operational factor file that the OTA server is downloaded.

Effectively whether detection module 107 is effective for detection of the 4th operational factor file.

The second update module 108, if be used for the 4th operational factor file when effective, in the first subregion, former the first operational factor file that is about in the first subregion replaces to the 4th operational factor file with the 4th operational factor file update.

The second judge module 109 is used for judging whether the 4th operational factor file of the first subregion is identical with the second operational factor file in the second subregion.Preferably, the second judge module 109 also is used for reading respectively the 4th operational factor file of the first subregion and the 4th version information and second version information of the second operational factor file in the second subregion; Judge whether the 4th version information is identical with the second version information, if identically judge that then the 4th, second operational factor file is identical, otherwise judge that the 4th, second operational factor file is not identical.

The 3rd update module 110, if be used for the second, the 4th operational factor file when not identical, in the second subregion, former the second operational factor file that is about in the second subregion replaces to the 4th operational factor file with the 4th operational factor file update in the first subregion.

The 3rd load-on module 111 is used for the 4th operational factor file load after the renewal of the second subregion is started to communication module and execution.

In second embodiment of the invention, storage module 101 also is used for depositing respectively at the first subregion, the second subregion and the 3rd subregion of the file system of AP processor the first operational factor file, the second operational factor file and the 3rd operational factor file of communication module, and described the 3rd operational factor file is as backup.Preferably, the first subregion, the second subregion and the 3rd subregion are respectively the user partition of the file system of AP processor, special subregion and system partitioning.

Described communication terminal 100 also comprises:

Loss detection module 112 is used for before starting communication module, and whether the first operational factor file that detects in the first subregion is lost, if the first operational factor is not lost, then starts 102 work of the first judge module.

Second effective detection module 113 is if when being used for the first operational factor File lose, whether the second operational factor file that detects in the second subregion is effective.

The 4th update module 114, if be used for the second operational factor file when effective, with the second operational factor file update in the second subregion in the first subregion.

The 4th load-on module 115 is used for the second operational factor file load of the second subregion is started to communication module and execution.

The 3rd effective detection module 116 is if when being used for the second operational factor file is invalid, whether the 3rd operational factor file that detects in the 3rd subregion is effective.

Reminding module 117, if when being used for the 3rd operational factor file is invalid, prompting operational factor file damages, this moment can reminding user contact manufacturer.Described prompting mode can be literal, image, voice and/or video etc.

The the new module 118 just before dawn if be used for the 3rd operational factor file when effective, is updated to the 3rd operational factor file in the 3rd subregion respectively in the first subregion and the second subregion.

Slender acanthopanax is carried module 119, is used for the 3rd operational factor file load after the renewal of the second subregion is started to communication module and execution.

The present invention is directed to the communication terminal of the Duo-Core Architecture that adopts AP (application processor)+CP (communication processor), preferably the operational factor file of communication module is kept at three positions of AP processor side.Each all check the version of operational factor when starting communication module or remote update, if there is version to change the operational factor of then upgrading communication module, with the replacement problem of the operational factor of effective solution communication module.

Fig. 3 is the operational factor update method of communication module of the present invention, is applied to such as Fig. 1 or communication terminal 100 shown in Figure 2, and described method comprises that step has:

Step S301 deposits step.In the first subregion of the file system of application processor and the second subregion, deposit respectively the first operational factor file and the second operational factor file of communication module.The operational factor that is about to communication module is put into respectively the first subregion and second subregion of AP processor side, described the first subregion is preferably the user partition of AP processor side file system, and the file in this user partition can change or pass through remote upgrade in each AP processor version updating; Described the second subregion is preferably the special subregion of AP processor side file system, even the firmware version of burning AP processor again, the data in this special subregion can not be capped yet, but can upgrade.

Step S302, the first determining step.Before starting communication module, judge whether the first operational factor file in the first subregion is identical with the second operational factor file in the second subregion, if identical then execution in step S303, otherwise execution in step S304.Can trigger the startup communication module when preferably, the AP processor powers on to communication module.This step preferably reads respectively the first operational factor file in the first subregion and first version information and second version information of the second operational factor file in the second subregion; Judge whether first version information is identical with the second version information, if identically judge that then first, second operational factor file is identical, otherwise judge that first, second operational factor file is not identical.

Step S303, the first load step.If first, second operational factor file is identical, for example both versions are identical, then the second operational factor file load in the second subregion started to communication module and execution.

Step S304, the first step of updating.If first, second operational factor file is not identical, for example both versions are not identical, then the first operational factor in the first subregion are updated in the second subregion, and former the second operational factor file that is about in the second subregion replaces to the first operational factor.

Step S305, the second load step.The first operational factor file load after upgrading in the second subregion is started to communication module and execution.

Fig. 4 is the operational factor update method of communication module in the first embodiment of the invention, is applied to communication terminal 100 as shown in Figure 2, and described method comprises that step has:

Step S401 deposits step.In the first subregion of the file system of application processor and the second subregion, deposit respectively the first operational factor file and the second operational factor file of communication module.

Step S402, download step.When receiving the remote update instruction, the 4th operational factor file of download communication module from remote server.For example, if need the OTA upgrading, then will save as temporary file from the 4th operational factor file that the OTA server is downloaded.

Step S403, first effective detecting step.Whether effectively detect the 4th operational factor file, if execution in step S404 effectively then, otherwise process ends.Can come the 4th operational factor is effectively detected according to predetermined detection mechanism.

Step S404, the second step of updating, if the 4th operational factor file is effective, then with the 4th operational factor file update in the first subregion.

Step S405, the second determining step.Judge whether the 4th operational factor file in the first subregion is identical with the second operational factor file in the second subregion, if identical then process ends, otherwise execution in step S406.This step preferably reads respectively the 4th operational factor file in the first subregion and the 4th version information and second version information of the second operational factor file in the second subregion.Judge whether the 4th version information is identical with the second version information, if identically judge that then the 4th, second operational factor file is identical, otherwise judge that the 4th, second operational factor file is not identical.

Step S406, the 3rd upgrades step.If the second, the 4th operational factor file is not identical, then with the 4th operational factor file update in the first subregion in the second subregion, former the second operational factor file that is about in the second subregion replaces to the 4th operational factor file.

Step S407, the 3rd load step starts the 4th operational factor file load after upgrading in the second subregion to communication module and execution.

Fig. 5 is the operational factor update method of communication module in the second embodiment of the invention, is applied to communication terminal 100 as shown in Figure 2, and described method comprises that step has:

Step S501 deposits step.Deposit respectively the first operational factor file, the second operational factor file, the 3rd operational factor file of communication module in the first subregion of the file system of application processor, the second subregion, the 3rd subregion, described the 3rd operational factor file is as backup.Preferably, the first subregion, the second subregion and the 3rd subregion are respectively the user partition of the file system of AP processor, special subregion and system partitioning.

Step S502, the loss detection step, before starting communication module, whether the first operational factor file that detects in the first subregion is lost, if the first operational factor is not lost, then can carry out the first determining step shown in Figure 3, otherwise execution in step S503.

Step S503, second effective detecting step, if the first operational factor File lose, whether the second operational factor file that then detects in the second subregion is effective, if execution in step S504 effectively then, otherwise execution in step S506.Here, can come the second operational factor is effectively detected according to predetermined detection mechanism.

Step S504, the 4th step of updating, if the second operational factor file is effective, then with the second operational factor file update in the second subregion in the first subregion.

Step S505, the 4th load step starts the second operational factor file load in the second subregion to communication module and execution.

Step S506, the 3rd effective detecting step, if file is invalid for the second operational factor, whether the 3rd operational factor file that then detects in the 3rd subregion is effective, if execution in step S508 effectively then, otherwise execution in step S507.Here, can come the 3rd operational factor is effectively detected according to predetermined detection mechanism.

Step S507, the prompting step if file is invalid for the 3rd operational factor, then points out the operational factor file to damage.Described prompting mode can be literal, image, voice and/or video etc.

Step S508, the new step just before dawn if the 3rd operational factor file is effective, then is updated to the 3rd operational factor file in the 3rd subregion respectively in the first subregion and the second subregion.

Step S509, slender acanthopanax is carried step, and the 3rd operational factor file load after upgrading in the second subregion is started to communication module and execution.

In order better to describe technical scheme of the present invention, Fig. 6 shows the status transition chart of the operational factor update method of communication module in the third embodiment of the invention.

The present embodiment leaves the operational factor file of communication module in three places:

1) leaves in the user partition of AP processor side file system (each AP processor version updating can change this document or by OTA upgrading this document), rear title position 1 in;

2) leave in the special subregion of AP processor side file system (even this partition information of the firmware version of burning AP processor can not be capped yet again, but can upgrade), rear title position 2 in;

3) leave in the system partitioning of AP processor side file system and back up rear title position 3.

One, after each AP processor powers on to communication module, if the operational factor file of position 1 not accident is lost, read position 1 the operational factor file and and position 2 in the operational factor file compare, if different then upgrade the operational factor file of position 2, by driving the operational factor file load after upgrading in the position 2 in communication module and start; If identical, then directly by driving the operational factor file load in the position 2 is also started in communication module.

If two need the OTA upgrading, then will save as temporary file from the operational factor file that the OTA server is downloaded, carry out first validity check, if invalid then process ends; If effective then upgrade the operational factor file of position 1, and the operational factor file after position 1 upgraded and the operational factor file in the position 2 are made comparisons, if difference is then upgraded operational factor file in the position 2, be re-loaded in the communication module operational factor file after upgrading in the position 2 and startup by the reseting module among the ril.

If three, detecting the operational factor file accident of position 1 before starting communication module loses, then read the operational factor file in the position 2 and judge whether effective, if effectively then import to position 1, and with the operational factor file load after upgrading in the position 2 in communication module and start; If invalidly then from position 3, read the operational factor file and carry out validity check; As effectively then and upgrade parameter in position 1 and the position 2, be re-loaded to the operational factor file after upgrading in the position 2 in the communication module and start by reseting module; Invalid then prompting user parameter is lost, and please contacts with manufacturer.

In sum, the present invention is applicable to adopt the communication terminal of the Duo-Core Architecture of AP processor (application processor)+CP (communication processor), the operational factor file of communication module is kept at two or three positions of AP processor side.All check the operational factor file of communication module in each position when each startup communication module or remote update, if the operational factor file changes, then upgrade the operational factor file and be loaded into communication module.Because the present invention is kept at AP processor side with the operational factor file of communication module, therefore can makes things convenient for, effectively the operational factor file of communication module be upgraded, and no longer need specific tool software or equipment.

Certainly; the present invention also can have other various embodiments; in the situation that do not deviate from spirit of the present invention and essence thereof; those of ordinary skill in the art work as can make according to the present invention various corresponding changes and distortion, but these corresponding changes and distortion all should belong to the protection domain of the appended claim of the present invention.

Claims (10)

1. the operational factor update method of a communication module is applied to comprise it is characterized in that the communication terminal of described communication module, application processor and communication processor, and described method comprises that step has:

Deposit step, in the first subregion of the file system of described application processor and the second subregion, deposit respectively the first operational factor file and the second operational factor file of described communication module;

The first determining step before starting described communication module, judges whether described the first operational factor file in described the first subregion is identical with described the second operational factor file in described the second subregion;

The first load step if described first, second operational factor file is identical, then starts described the second operational factor file load in described the second subregion to described communication module and execution;

The first step of updating if described first, second operational factor file is not identical, then is updated to described the first operational factor in described the first subregion in described the second subregion;

The second load step starts described the first operational factor file load after upgrading in described the second subregion to described communication module and execution.

2. operational factor update method according to claim 1 is characterized in that, described the first determining step comprises:

Read respectively described the first operational factor file in described the first subregion and first version information and second version information of described the second operational factor file in described the second subregion;

Judge whether described first version information is identical with described the second version information, if identically judge that then described first, second operational factor file is identical, otherwise judge that described first, second operational factor file is not identical.

3. operational factor update method according to claim 1 is characterized in that, the described step of depositing also includes afterwards:

Download step when receiving the remote update instruction, is downloaded the 4th operational factor file of described communication module from remote server;

Whether effective first effective detecting step detects described the 4th operational factor file;

The second step of updating, if described the 4th operational factor file is effective, then with described the 4th operational factor file update in described the first subregion;

The second determining step judges whether described the 4th operational factor file in described the first subregion is identical with described the second operational factor file in described the second subregion;

The 3rd upgrades step, if described the second, the 4th operational factor file is not identical, then with described the 4th operational factor file update in described the first subregion in described the second subregion;

The 3rd load step starts described the 4th operational factor file load after upgrading in described the second subregion to described communication module and execution.

4. each described operational factor update method is characterized in that according to claim 1～3, and the described step of depositing also comprises:

In the 3rd subregion of the described file system of described application processor, deposit the 3rd operational factor file of described communication module as backup;

The described step of depositing also includes afterwards:

The loss detection step, before starting described communication module, whether described the first operational factor file that detects in described the first subregion is lost, if described the first operational factor is not lost, then carries out described the first determining step;

Second effective detecting step, if described the first operational factor File lose, whether described the second operational factor file that then detects in described the second subregion is effective;

The 4th step of updating, if described the second operational factor file is effective, then with described the second operational factor file update in described the second subregion in described the first subregion;

The 4th load step starts described the second operational factor file load in described the second subregion to described communication module and execution.

5. operational factor update method according to claim 4 is characterized in that, also comprises after described second effective detecting step:

The 3rd effective detecting step, if file is invalid for described the second operational factor, whether described the 3rd operational factor file that then detects in described the 3rd subregion is effective;

The prompting step if file is invalid for described the 3rd operational factor, then points out the operational factor file to damage;

The the new step just before dawn if described the 3rd operational factor file is effective, then is updated to described the 3rd operational factor file in described the 3rd subregion respectively in described the first subregion and described the second subregion;

Slender acanthopanax is carried step, and described the 3rd operational factor file load after upgrading in described the second subregion is started to described communication module and execution.

6. a communication terminal comprises communication module, application processor and communication processor, it is characterized in that, described communication terminal also includes:

Storage module is used at the first subregion of the file system of described application processor and the first operational factor file and the second operational factor file that the second subregion is deposited respectively described communication module;

The first judge module is used for before starting described communication module, judges whether described the first operational factor file in described the first subregion is identical with described the second operational factor file in described the second subregion;

The first load-on module, if be used for described first, second operational factor file when identical, with described the second operational factor file load in described the second subregion to described communication module and carry out and start;

The first update module if be used for described first, second operational factor file when not identical, is updated to described the first operational factor in described the first subregion in described the second subregion;

The second load-on module is used for described the first operational factor file load after described the second subregion renewal is started to described communication module and execution.

7. communication terminal according to claim 6, it is characterized in that, described the first judge module also is used for reading respectively the described first operational factor file of described the first subregion and first version information and second version information of described the second operational factor file in described the second subregion; Judge whether described first version information is identical with described the second version information, if identically judge that then described first, second operational factor file is identical, otherwise judge that described first, second operational factor file is not identical.

8. communication terminal according to claim 6 is characterized in that, also includes:

Download module is used for when receiving the remote update instruction, downloads the 4th operational factor file of described communication module from remote server;

First effective detection module, whether effective for detection of described the 4th operational factor file;

The second update module, if be used for described the 4th operational factor file when effective, with described the 4th operational factor file update in described the first subregion;

The second judge module is used for judging whether described the 4th operational factor file of described the first subregion is identical with described the second operational factor file in described the second subregion;

The 3rd update module, if be used for described the second, the 4th operational factor file when not identical, with described the 4th operational factor file update in described the first subregion in described the second subregion;

The 3rd load-on module is used for described the 4th operational factor file load after described the second subregion renewal is started to described communication module and execution.

9. each described communication terminal is characterized in that according to claim 6～8, and described storage module also is used for depositing the 3rd operational factor file of described communication module as backup at the 3rd subregion of the described file system of described application processor;

Described communication terminal also includes:

The loss detection module is used for before starting described communication module, and whether described the first operational factor file that detects in described the first subregion is lost, if described the first operational factor is not lost, then starts described the first judge module work;

Second effective detection module is if when being used for described the first operational factor File lose, whether described the second operational factor file that detects in described the second subregion is effective;

The 4th update module, if be used for described the second operational factor file when effective, with described the second operational factor file update in described the second subregion in described the first subregion;

The 4th load-on module is used for the described second operational factor file load of described the second subregion is started to described communication module and execution.

10. communication terminal according to claim 9 is characterized in that, also comprises:

The 3rd effective detection module is if when being used for described the second operational factor file is invalid, whether described the 3rd operational factor file that detects in described the 3rd subregion is effective;

Reminding module is if when being used for described the 3rd operational factor file is invalid, prompting operational factor file damages;

The the new module just before dawn if be used for described the 3rd operational factor file when effective, is updated to described the 3rd operational factor file in described the 3rd subregion respectively in described the first subregion and described the second subregion;

Slender acanthopanax is carried module, is used for described the 3rd operational factor file load after described the second subregion renewal is started to described communication module and execution.

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