CN106445615A - Multi-system OTA upgrading method and device - Google Patents
Multi-system OTA upgrading method and device Download PDFInfo
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- CN106445615A CN106445615A CN201610889919.XA CN201610889919A CN106445615A CN 106445615 A CN106445615 A CN 106445615A CN 201610889919 A CN201610889919 A CN 201610889919A CN 106445615 A CN106445615 A CN 106445615A
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Abstract
The invention provides a method and a device for upgrading a multi-system OTA, wherein the method comprises the following steps: when the main control system receives an OTA upgrading instruction sent by any subsystem in the terminal equipment, acquiring a corresponding multi-system upgrading packet under a preset storage path of the subsystem indicated by the OTA upgrading instruction; and the master control system executes upgrading operation on the multiple systems based on the multiple system upgrading package. According to the invention, the required multi-system upgrading packets are flexibly acquired from the corresponding subsystems according to the requirements, different use requirements of users are met, so that the user experience is improved, meanwhile, the whole upgrading operation of each system in the terminal equipment is quickly executed according to the acquired multi-system upgrading packets through the main control system, the system upgrading operation process is simplified, the condition of complicated operation of independently upgrading each system is avoided, the time consumed in the upgrading process is saved, and the use experience of the users is further improved.
Description
Technical field
The present invention relates to field of computer technology, specifically, the present invention relates to a kind of method of multisystem OTA upgrading,
And a kind of device of multisystem OTA upgrading.
Background technology
Software release upgrade bag is typically placed in OTA (Over-the-Air Technology, sky by Ge great operator at present
Middle download technology) in server, the software version based on current system for the terminal device, by the manually operated side of automatic or user
Formula searches for the AKU of corresponding software version in OTA server, and software release upgrade bag is downloaded to terminal device, subsequently
Software release upgrade in the system of terminal device is new software version.
In prior art, in the terminal device comprising multiple operating system, user can be by being currently at the operation on foreground
System corresponding OTA server obtains corresponding system upgrade bag, to complete the upgrading to the operating system being currently at foreground
Operation, when user wishes to carry out system upgrade to the operating system being currently at backstage, user needs to be currently at backstage
Operating system switch to foreground, to complete the updating operation to the system currently switching to foreground, therefore, when user need right
When in the terminal device of multiple operating system, each operating system carries out system upgrade, need to carry out relatively complicated updating operation mistake
Journey, meanwhile, this updating operation process needs to expend user's substantial amounts of time, thus reducing the experience of user.
Content of the invention
For overcoming above-mentioned technical problem or solving above-mentioned technical problem at least in part, special proposition technical scheme below:
Embodiments of the invention propose a kind of method of multisystem OTA upgrading, including:
When master control system receives the OTA upgrade command that in terminal device, arbitrary subsystem sends, in OTA upgrade command institute
Corresponding multisystem AKU is obtained under the predetermined store path of subsystem indicating;
Master control system is based on multisystem AKU and executes updating operation to multisystem.
Preferably, obtain corresponding multisystem liter under the predetermined store path of the subsystem indicated by OTA upgrade command
Level bag, including:
Master control system controls the OTA client downloads corresponding multisystem upgrading of the subsystem indicated by OTA upgrade command
Bag, and under the predetermined store path storing to this subsystem;
Multisystem AKU is obtained from predetermined store path.
Preferably, master control system controls the OTA client downloads of the subsystem indicated by OTA upgrade command many accordingly
System upgrade bag, including:
Master control system controls the OTA client of the subsystem indicated by OTA upgrade command to send out to its corresponding OTA server
Send acquisition to meet the solicited message of the AKU of predetermined upgrade requirement, and receive this OTA server and feed back in response to solicited message
AKU.
Preferably, predetermined upgrade requirement includes following any case:
Institute in multisystem functional is upgraded;
Partial function in multisystem is upgraded;
The current system version of multisystem is upgraded with the difference section of recent systems version in server.
Preferably, when master control system receives the OTA upgrade command that in terminal device, arbitrary subsystem sends, in OTA liter
Corresponding multisystem AKU is obtained under the indicated predetermined store path of subsystem of level instruction, including:
User terminal device be in the subsystem on foreground trigger OTA upgrade command when, if indicated by OTA upgrade command
Subsystem be in the subsystem on backstage, then the subsystem being in foreground sends OTA upgrade command to master control system;
Master control system receives and is in the OTA upgrade command that the subsystem on foreground sends, and OTA upgrade command is sent to place
Subsystem in backstage;
Master control system obtains the OTA client of the subsystem being in backstage based on the OTA upgrade command feedback receiving
Corresponding multisystem AKU.
Preferably, OTA upgrade command is used for the multisystem AKU based on highest version number for the instruction and carries out system upgrade,
Wherein, obtain corresponding multisystem AKU under the predetermined store path of the subsystem indicated by OTA upgrade command, including:
Based on OTA upgrade command, obtained in each OTA server corresponding by the OTA client of subsystems
The version number of multisystem AKU;
Determine the corresponding OTA server of version number's highest multisystem AKU, and from this OTA server download version number
Highest multisystem AKU, and store to under the predetermined store path in this corresponding subsystem of OTA server.
Another embodiment of the present invention proposes a kind of device of multisystem OTA upgrading, including:
Acquisition module, when receiving, for master control system, the OTA upgrade command that in terminal device, arbitrary subsystem sends,
Corresponding multisystem AKU is obtained under the predetermined store path of the subsystem indicated by OTA upgrade command;
Upgraded module, is based on multisystem AKU for master control system and executes updating operation to multisystem.
Preferably, acquisition module, including:
Download and memory cell, control under the OTA client of the subsystem indicated by OTA upgrade command for master control system
Carry under corresponding multisystem AKU, and the predetermined store path storing to this subsystem;
First acquisition unit, for obtaining multisystem AKU under predetermined store path.
Preferably, download and memory cell is used for
Master control system controls the OTA client of the subsystem indicated by OTA upgrade command to send out to its corresponding OTA server
Send acquisition to meet the solicited message of the AKU of predetermined upgrade requirement, and receive this OTA server and feed back in response to solicited message
AKU.
Preferably, predetermined upgrade requirement includes following any case:
Institute in multisystem functional is upgraded;
Partial function in multisystem is upgraded;
The current system version of multisystem is upgraded with the difference section of recent systems version in server.
Preferably, acquisition module, including:
First transmitting element, for user when terminal device is in and triggers OTA upgrade command in the subsystem on foreground, if
Subsystem indicated by OTA upgrade command is in the subsystem on backstage, then OTA upgrade command is sent by the subsystem being in foreground
To master control system;
Second transmitting element, receives for master control system and is in the OTA upgrade command that the subsystem on foreground sends, will
OTA upgrade command sends to the subsystem being in backstage;
Second acquisition unit, obtains the OTA client of the subsystem being in backstage based on receiving for master control system
The corresponding multisystem AKU of OTA upgrade command feedback.
It is proposed that a kind of scheme of multisystem OTA upgrading in embodiments of the invention, master control system receives terminal device
In arbitrary subsystem send OTA upgrade command when, obtain under the predetermined store path of the subsystem indicated by OTA upgrade command
Take corresponding multisystem AKU it is achieved that neatly obtaining required multisystem upgrading from corresponding subsystem according to demand
Bag, meeting the different use demands of user, thus improve the experience of user, meanwhile, being that master control system executes to each system
Updating operation provides necessary premise guarantee;Master control system is based on multisystem AKU and executes updating operation to multisystem, real
Show and quickly move through master control system according to the multisystem AKU getting to system overall execution upgrading each in terminal device
Operation, simplifies the process of system upgrade operation, it is to avoid individually each system is carried out with the situation of the troublesome operation of system upgrade,
Thus having saved the time of escalation process consuming, further, improve the experience of user.
The aspect that the present invention adds and advantage will be set forth in part in the description, and these will become from the following description
Obtain substantially, or recognized by the practice of the present invention.
Brief description
The above-mentioned and/or additional aspect of the present invention and advantage will become from the following description of the accompanying drawings of embodiments
Substantially and easy to understand, wherein:
Fig. 1 is the relation schematic diagram in the multisystem terminal device of an embodiment in the present invention between each system;
Fig. 2 is the flow chart of the method for multisystem OTA upgrading of an embodiment in the present invention;
Fig. 3 be in the multisystem terminal device of a preferred embodiment in the present invention OTA client between each system and its
The corresponding relation schematic diagram of server;
Fig. 4 is the structural representation of the device of multisystem OTA upgrading of another embodiment in the present invention.
Specific embodiment
Embodiments of the invention are described below in detail, the example of described embodiment is shown in the drawings, wherein from start to finish
The element that same or similar label represents same or similar element or has same or like function.Below with reference to attached
The embodiment of figure description is exemplary, is only used for explaining the present invention, and is not construed as limiting the claims.
Those skilled in the art of the present technique are appreciated that unless expressly stated, singulative " " used herein, "
Individual ", " described " and " being somebody's turn to do " may also comprise plural form.It is to be further understood that arranging used in the specification of the present invention
Diction " inclusion " refers to there is described feature, integer, step, operation, element and/or assembly, but it is not excluded that existing or adding
Other features one or more, integer, step, operation, element, assembly and/or their group.It should be understood that when we claim unit
Part is " connected " or during " coupled " to another element, and it can be directly connected or coupled to other elements, or can also exist
Intermediary element.Additionally, " connection " used herein or " coupling " can include wirelessly connecting or wirelessly coupling.Used herein arrange
Diction "and/or" includes one or more associated list the whole of item or any cell and combines with whole.
Those skilled in the art of the present technique are appreciated that unless otherwise defined, and all terms used herein (include technology art
Language and scientific terminology), there is the general understanding identical meaning with the those of ordinary skill in art of the present invention.Also should
Be understood by, those terms defined in such as general dictionary it should be understood that have with the context of prior art in
The consistent meaning of meaning, and unless by specific definitions as here, otherwise will not use idealization or excessively formal implication
To explain.
Specifically introduce the technical scheme of the embodiment of the present invention below in conjunction with the accompanying drawings.
The block schematic illustration of the internal structure of the terminal device of the embodiment of the present invention is as shown in figure 1, include:Master control system and
Plural subsystem.
Wherein, the subsystem in the embodiment of the present invention, can be provided in virtualizing with Linux container (container)
Operating system in the container that technology creates.Operating system can be traditional (SuSE) Linux OS or Unix operation
System or the android system being derived based on (SuSE) Linux OS, Ubuntu system or FireFox system
Deng can also be windows system based on windows platform etc..In fact, the subsystem in the present invention is not limited to
The aforementioned operating system enumerating, can cover all operating systems that can run in a reservoir.
Preferably, master control system can be above-mentioned traditional operating system or traditional kernel is changed
Enter and/or after outside kernel, (such as ccf layer and application layer) increases functional module, the operating system that obtains.
Master control system is mainly used in carrying out AM/BAM management to multiple subsystems, interacts with each subsystem.
Fig. 2 is the flow chart of the method for multisystem OTA upgrading of an embodiment in the present invention.
It should be noted that in embodiments of the invention, the master control system in terminal device can provide phase for each subsystem
The support answered and service, master control system is the SOS of the core of terminal device, be mainly used in managing each subsystem it
Between AM/BAM switching, and provide the related resource of software and hardware, message communicating, system backup, system to recover for each subsystem and
System upgrade etc. services.
In embodiments of the invention, the Description of content performed by each step is as follows:Step S210:Master control system receives end
During the OTA upgrade command that in end equipment, arbitrary subsystem sends, the predetermined storage road of the subsystem indicated by OTA upgrade command
Corresponding multisystem AKU is obtained under footpath;Step S220:Master control system executes upgrading based on multisystem AKU to multisystem
Operation.
It is proposed that a kind of method of multisystem OTA upgrading in embodiments of the invention, master control system receives terminal device
In arbitrary subsystem send OTA upgrade command when, obtain under the predetermined store path of the subsystem indicated by OTA upgrade command
Take corresponding multisystem AKU it is achieved that neatly obtaining required multisystem upgrading from corresponding subsystem according to demand
Bag, meeting the different use demands of user, thus improve the experience of user, meanwhile, being that master control system executes to each system
Updating operation provides necessary premise guarantee;Master control system is based on multisystem AKU and executes updating operation to multisystem, real
Show and quickly move through master control system according to the multisystem AKU getting to system overall execution upgrading each in terminal device
Operation, simplifies the process of system upgrade operation, it is to avoid individually each system is carried out with the situation of the troublesome operation of system upgrade,
Thus having saved the time of escalation process consuming, further, improve the experience of user.Below for each step
Implement and be described further:
Step S210:When master control system receives the OTA upgrade command that in terminal device, arbitrary subsystem sends, in OTA
Corresponding multisystem AKU is obtained under the predetermined store path of the subsystem indicated by upgrade command.
For example, master control system OS_Control and subsystem OS are being included1, subsystem OS2Terminal device running environment
In, user passes through to click on subsystem OS1The human-computer interaction interface of OTA client in system upgrade button, with realize to master
Control system OS_Control, subsystem OS1With subsystem OS2System upgrade, subsystem OS1OTA upgrade command is sent to master
Control system, master control system OS_Control receives subsystem OS1During the OTA upgrade command sending, by identifying call master control
The related news of system OS_Control upgrade service can determine that the subsystem indicated by OTA upgrade command is system OS2, subsequently
Master control system OS_Control is in system OS2Predetermined store path under obtain corresponding multisystem AKU.
It should be noted that those skilled in the art are it can be appreciated that mobile terminal OTA upgrading refers to that mobile terminal operates
The standard software upgrading mode that system provides, can be with free of losses upgrade-system, and Main Means are automatically to download OTA liter by network
Level bag, automatically upgrading, also support operating system to be upgraded to SD card by downloading OTA AKU.Simultaneously it is desirable to move eventually
End is provided with OTA client application, therefore, in embodiments of the invention, the master control system of terminal device and each subsystem
In be mounted on OTA client application in OTA client application, and each subsystem and its each self-corresponding service
Device is communicated, as shown in figure 3, subsystem OS1In OTA client application communicated with server 1, subsystem OS2
In OTA client application communicate etc. with server 2.
Preferably, in step S210 in OTA upgrade command indicated by the predetermined store path of subsystem under obtain corresponding
The step of multisystem AKU further include step S211 and step S212;Step S211:Master control system controls OTA upgrading
The OTA client downloads corresponding multisystem AKU of the indicated subsystem of instruction, and store predetermined to this subsystem
Under store path;Step S212:Multisystem AKU is obtained from predetermined store path.
For example, when master control system OS_Control receives subsystem OS1During the OTA upgrade command sending, master control system
OS_Control determines that the subsystem indicated by OTA upgrade command is system OS2, subsequently, master control system OS_Control controls
System OS2OTA client download corresponding multisystem AKU in its corresponding server, and by this multisystem AKU
Store to system OS2In predetermined store path under, such as under " .. down " path, subsequently, master control system OS_Control from
System OS2In " .. down " path under obtain multisystem AKU.
Preferably, in step S211, master control system controls the OTA client of the subsystem indicated by OTA upgrade command
Download corresponding multisystem AKU, specifically include:Master control system controls the OTA visitor of the subsystem indicated by OTA upgrade command
Family end sends, to its corresponding OTA server, the solicited message obtaining the AKU meeting predetermined upgrade requirement, and receives this OTA
The AKU that server feeds back in response to solicited message.
Wherein, predetermined upgrade requirement includes following any case:
Institute in multisystem functional is upgraded;Specifically include:Based on recent systems version in server in server
This in multisystem functional carry out upgrading, carry out based on user's system specified version is functional to the institute in multisystem
Upgrading;
Partial function in multisystem is upgraded;Specifically include:Based on recent systems version in server in server
This is carried out to the partial function in multisystem upgrading, based on user's system specified version, the partial function in multisystem is carried out
Upgrading;
The current system version of multisystem is upgraded with the difference section of recent systems version in server.
For example, when master control system OS_Control receives subsystem OS1During the OTA upgrade command sending, master control system
OS_Control determines that the subsystem indicated by OTA upgrade command is system OS2, subsequently, master control system OS_Control is to being
System OS2OTA client send in its corresponding server and obtain the AKU meeting predetermined upgrade requirement, such as based on server
Middle recent systems version, in multisystem the functional solicited message upgraded, subsequently, server according to this request believe
Breath, to subsystem OS2Issue based on recent systems version in server functional to the institute in multisystem carry out upgrading corresponding
System entirety AKU, subsequent subsystem OS2Receive this system entirety AKU.
Again for example, master control system OS_Control and subsystem OS are being included1, subsystem OS2Terminal device run
In environment, master control system OS_Control and subsystem OS1The system version number of current system such as V1.2.1, subsystem OS2Currently
The system version number of system such as V1.2.2, subsystem OS1OTA client detected the presence of by its corresponding OTA server
The AKU of multisystem, version number is V1.2.3, subsystem OS2OTA client detected by its corresponding OTA server
There is the AKU of multisystem, version number is V1.2.4, subsequently, by the currently used foreground system of user, such as subsystem OS1
Human-computer interaction interface point out user to there is the AKU of multisystem, when user passes through to click on subsystem OS1OTA client
After system upgrade button in human-computer interaction interface, according to the selection rule of predetermined AKU version, such as acquiescence obtains user
The multisystem AKU that the corresponding OTA server of currently used system provides is upgraded to multisystem, master control system OS_
Control determines that the subsystem indicated by OTA upgrade command is system OS1, master control system OS_Control control subsystem OS1
OTA client send in its corresponding server and obtain the AKU meeting predetermined upgrade requirement, subsequently, server is according to this
Solicited message, to the subsystem OS in terminal device1Issue and carry out, as functional to the institute in multisystem, corresponding system of upgrading
Version is the system entirety AKU of V1.2.3, subsequent subsystem OS1Receive the system that system version is V1.2.3 integrally to rise
Level bag.It should be noted that subsystem OS1With subsystem OS2Each self-corresponding OTA server all detects available polyphyly
During system AKU, also the multisystem each detecting AKU can be downloaded under predetermined store path in respective system, subsequently
According to the selection rule of predetermined AKU version, obtain corresponding multisystem upgrading from the predetermined store path of correspondence system
Bag.
By the present embodiment it is achieved that select the system upgrade bag system of user's needs according to the individual demand of user
System upgrading, meets the different use demands of user, improves the experience of user;Simultaneously, there is provided multiple acquisition systems
The mode of AKU, so that user can efficiently and rapidly get required system upgrade bag, further, improves user's
Experience.
Preferably, step S210 further includes step S213, step S214 and step S215;Step S213:User exists
Terminal device is in when triggering OTA upgrade command in the subsystem on foreground, if the subsystem indicated by OTA upgrade command is to be in
The subsystem on backstage, then the subsystem being in foreground sends OTA upgrade command to master control system;Step S214:Master control system
Receive and be in the OTA upgrade command that the subsystem on foreground sends, OTA upgrade command is sent to the subsystem being in backstage;
Step S215:Master control system obtains the OTA client of the subsystem being in backstage based on the OTA upgrade command feedback receiving
Corresponding multisystem AKU.
For example, user is currently at the subsystem OS on foreground in terminal device1During middle triggering OTA upgrade command, current place
Subsystem OS in foreground1OTA upgrade command is sent to master control system OS_Control, master control system OS_Control according to
Subsystem indicated by OTA upgrade command is the subsystem OS being in backstage2, this OTA upgrade command is sent to being currently at
The subsystem OS on backstage2, the OTA upgrade command according to receiving can determine that the AKU of the predetermined upgrade requirement of user, such as to many
The System level gray correlation that partial function in system is upgraded divides AKU, subsequent master control system OS_Control control subsystem OS2
OTA client download corresponding System level gray correlation at corresponding server and divide AKU, and store to subsystem OS2In
Under predetermined store path, subsequent master control system OS_Control is from subsystem OS2In predetermined store path under obtain to polyphyly
The System level gray correlation that partial function in system is upgraded divides AKU.
Preferably, OTA upgrade command is used for the multisystem AKU based on highest version number for the instruction and carries out system upgrade,
Wherein, in step S210 in OTA upgrade command indicated by the predetermined store path of subsystem under obtain corresponding multisystem
The step of AKU, further includes step S216 and step S217;Step S216:Based on OTA upgrade command, by each height
The OTA client of system obtains the version number of the multisystem AKU in each OTA server corresponding;Step S217:Determine
The corresponding OTA server of version number's highest multisystem AKU, and from this OTA server download version highest multisystem
AKU, and store to under the predetermined store path in this corresponding subsystem of OTA server.
For example, master control system OS_Control and subsystem OS are being included1, subsystem OS2Terminal device run ring
In border, master control system OS_Control and subsystem OS1The system version number of current system such as V1.2.1, subsystem OS2Current system
The system version number such as V1.2.2, subsystem OS of system1OTA client detected the presence of by its corresponding OTA server many
The AKU of system, version number is V1.2.3, subsystem OS2OTA client detected by its corresponding OTA server and deposit
In the AKU of multisystem, version number is V1.2.4;Subsequently, by the foreground system that user is currently used, such as subsystem OS1's
Human-computer interaction interface points out user to there is the AKU of multisystem, when user passes through to click on subsystem OS1OTA client people
After system upgrade button in machine interactive interface, obtain OTA upgrade command for indicate multisystem liter based on highest version number
When level bag is to carry out system upgrade, by subsystem OS1With subsystem OS2OTA client obtain corresponding each OTA service
The version number of the multisystem AKU in device, respectively V1.2.3 and V1.2.4, judge to determine that highest version number is V1.2.4, with
Can determine that the corresponding OTA server of version number's highest multisystem AKU is subsystem OS2Corresponding OTA server, with
Master control system OS_Control determines that the subsystem indicated by OTA upgrade command is system OS afterwards2, master control system OS_Control
Control subsystem OS2OTA client send to its corresponding server and obtain the AKU that multisystem version number is V1.2.4
Solicited message, subsequently, server according to this solicited message, to the subsystem OS in terminal device2Issue as in multisystem
The functional system entirety AKU that corresponding system version is V1.2.4 that carries out upgrading, and store to this OTA service
Device corresponding subsystem OS2In predetermined store path under, for follow-up system upgrading.
Step S220:Master control system is based on multisystem AKU and executes updating operation to multisystem.
For example, based on the system entirety AKU getting, version number such as V1.2.3, to version for master control system OS_Control
Master control system OS_Control of this number such as V1.2.1 and subsystem OS1And the subsystem OS of version number such as V1.2.22Execute system
System upgrades to the overall updating operation that version number is V1.2.3.
Fig. 4 is the structural representation of the device of multisystem OTA upgrading of another embodiment in the present invention.
It should be noted that in embodiments of the invention, the master control system in terminal device can provide phase for each subsystem
The support answered and service, master control system is the SOS of the core of terminal device, be mainly used in managing each subsystem it
Between AM/BAM switching, and provide the related resource of software and hardware, message communicating, system backup, system to recover for each subsystem and
System upgrade etc. services.
In embodiments of the invention, the Description of content performed by each module is as follows:Acquisition module 410 master control system receives
During the OTA upgrade command that in terminal device, arbitrary subsystem sends, the predetermined storage of the subsystem indicated by OTA upgrade command
Corresponding multisystem AKU is obtained under path;Upgraded module 420 master control system is based on multisystem AKU and multisystem is executed
Updating operation.
It is proposed that a kind of device of multisystem OTA upgrading in embodiments of the invention, master control system receives terminal device
In arbitrary subsystem send OTA upgrade command when, obtain under the predetermined store path of the subsystem indicated by OTA upgrade command
Take corresponding multisystem AKU it is achieved that neatly obtaining required multisystem upgrading from corresponding subsystem according to demand
Bag, meeting the different use demands of user, thus improve the experience of user, meanwhile, being that master control system executes to each system
Updating operation provides necessary premise guarantee;Master control system is based on multisystem AKU and executes updating operation to multisystem, real
Show and quickly move through master control system according to the multisystem AKU getting to system overall execution upgrading each in terminal device
Operation, simplifies the process of system upgrade operation, it is to avoid individually each system is carried out with the situation of the troublesome operation of system upgrade,
Thus having saved the time of escalation process consuming, further, improve the experience of user.Below for modules
Implement and be described further:
When acquisition module 410 master control system receives the OTA upgrade command that in terminal device, arbitrary subsystem sends,
Corresponding multisystem AKU is obtained under the predetermined store path of the subsystem indicated by OTA upgrade command.
For example, master control system OS_Control and subsystem OS are being included1, subsystem OS2Terminal device running environment
In, user passes through to click on subsystem OS1The human-computer interaction interface of OTA client in system upgrade button, with realize to master
Control system OS_Control, subsystem OS1With subsystem OS2System upgrade, subsystem OS1OTA upgrade command is sent to master
Control system, master control system OS_Control receives subsystem OS1During the OTA upgrade command sending, by identifying call master control
The related news of system OS_Control upgrade service can determine that the subsystem indicated by OTA upgrade command is system OS2, subsequently
Master control system OS_Control is in system OS2Predetermined store path under obtain corresponding multisystem AKU.
It should be noted that those skilled in the art are it can be appreciated that mobile terminal OTA upgrading refers to that mobile terminal operates
The standard software upgrading mode that system provides, can be with free of losses upgrade-system, and Main Means are automatically to download OTA liter by network
Level bag, automatically upgrading, also support operating system to be upgraded to SD card by downloading OTA AKU.Simultaneously it is desirable to move eventually
End is provided with OTA client application, therefore, in embodiments of the invention, the master control system of terminal device and each subsystem
In be mounted on OTA client application in OTA client application, and each subsystem and its each self-corresponding service
Device is communicated, as shown in figure 3, subsystem OS1In OTA client application communicated with server 1, subsystem OS2
In OTA client application communicate etc. with server 2.
Preferably, acquisition module 410 further includes to download and memory cell and first acquisition unit;Download and storage is single
First master control system controls the OTA client downloads corresponding multisystem AKU of the subsystem indicated by OTA upgrade command, and deposits
Store up under the predetermined store path to this subsystem;First acquisition unit obtains multisystem AKU from predetermined store path.
For example, when master control system OS_Control receives subsystem OS1During the OTA upgrade command sending, master control system
OS_Control determines that the subsystem indicated by OTA upgrade command is system OS2, subsequently, master control system OS_Control controls
System OS2OTA client download corresponding multisystem AKU in its corresponding server, and by this multisystem AKU
Store to system OS2In predetermined store path under, such as under " .. down " path, subsequently, master control system OS_Control from
System OS2In " .. down " path under obtain multisystem AKU.
Preferably, download and memory cell is used for the OTA visitor that master control system controls the subsystem indicated by OTA upgrade command
Family end sends, to its corresponding OTA server, the solicited message obtaining the AKU meeting predetermined upgrade requirement, and receives this OTA
The AKU that server feeds back in response to solicited message.
Wherein, predetermined upgrade requirement includes following any case:
Institute in multisystem functional is upgraded;Specifically include:Based on recent systems version in server in server
This in multisystem functional carry out upgrading, carry out based on user's system specified version is functional to the institute in multisystem
Upgrading;
Partial function in multisystem is upgraded;Specifically include:Based on recent systems version in server in server
This is carried out to the partial function in multisystem upgrading, based on user's system specified version, the partial function in multisystem is carried out
Upgrading;
The current system version of multisystem is upgraded with the difference section of recent systems version in server.
For example, when master control system OS_Control receives subsystem OS1During the OTA upgrade command sending, master control system
OS_Control determines that the subsystem indicated by OTA upgrade command is system OS2, subsequently, master control system OS_Control is to being
System OS2OTA client send in its corresponding server and obtain the AKU meeting predetermined upgrade requirement, such as based on server
Middle recent systems version, in multisystem the functional solicited message upgraded, subsequently, server according to this request believe
Breath, to subsystem OS2Issue based on recent systems version in server functional to the institute in multisystem carry out upgrading corresponding
System entirety AKU, subsequent subsystem OS2Receive this system entirety AKU.
Again for example, master control system OS_Control and subsystem OS are being included1, subsystem OS2Terminal device run
In environment, master control system OS_Control and subsystem OS1The system version number of current system such as V1.2.1, subsystem OS2Currently
The system version number of system such as V1.2.2, subsystem OS1OTA client detected the presence of by its corresponding OTA server
The AKU of multisystem, version number is V1.2.3, subsystem OS2OTA client detected by its corresponding OTA server
There is the AKU of multisystem, version number is V1.2.4, subsequently, by the currently used foreground system of user, such as subsystem OS1
Human-computer interaction interface point out user to there is the AKU of multisystem, when user passes through to click on subsystem OS1OTA client
After system upgrade button in human-computer interaction interface, according to the selection rule of predetermined AKU version, such as acquiescence obtains user
The multisystem AKU that the corresponding OTA server of currently used system provides is upgraded to multisystem, master control system OS_
Control determines that the subsystem indicated by OTA upgrade command is system OS1, master control system OS_Control control subsystem OS1
OTA client send in its corresponding server and obtain the AKU meeting predetermined upgrade requirement, subsequently, server is according to this
Solicited message, to the subsystem OS in terminal device1Issue and carry out, as functional to the institute in multisystem, corresponding system of upgrading
Version is the system entirety AKU of V1.2.3, subsequent subsystem OS1Receive the system that system version is V1.2.3 integrally to rise
Level bag.It should be noted that subsystem OS1With subsystem OS2Each self-corresponding OTA server all detects available polyphyly
During system AKU, also the multisystem each detecting AKU can be downloaded under predetermined store path in respective system, subsequently
According to the selection rule of predetermined AKU version, obtain corresponding multisystem upgrading from the predetermined store path of correspondence system
Bag.
By the present embodiment it is achieved that select the system upgrade bag system of user's needs according to the individual demand of user
System upgrading, meets the different use demands of user, improves the experience of user;Simultaneously, there is provided multiple acquisition systems
The mode of AKU, so that user can efficiently and rapidly get required system upgrade bag, further, improves user's
Experience.
Preferably, acquisition module 410 further includes the first transmitting element, the second transmitting element and second acquisition unit;
First transmitting element user terminal device be in the subsystem on foreground trigger OTA upgrade command when, if OTA upgrade command institute
The subsystem indicating is the subsystem being in backstage, then the subsystem being in foreground sends OTA upgrade command to master control system;
Second transmitting element master control system receives and is in the OTA upgrade command that the subsystem on foreground sends, and OTA upgrade command is sent
To the subsystem being in backstage;Second acquisition unit master control system obtain be in backstage subsystem OTA client be based on connect
The corresponding multisystem AKU of the OTA upgrade command feedback receiving.
For example, user is currently at the subsystem OS on foreground in terminal device1During middle triggering OTA upgrade command, current place
Subsystem OS in foreground1OTA upgrade command is sent to master control system OS_Control, master control system OS_Control according to
Subsystem indicated by OTA upgrade command is the subsystem OS being in backstage2, this OTA upgrade command is sent to being currently at
The subsystem OS on backstage2, the OTA upgrade command according to receiving can determine that the AKU of the predetermined upgrade requirement of user, such as to many
The System level gray correlation that partial function in system is upgraded divides AKU, subsequent master control system OS_Control control subsystem OS2
OTA client download corresponding System level gray correlation at corresponding server and divide AKU, and store to subsystem OS2In
Under predetermined store path, subsequent master control system OS_Control is from subsystem OS2In predetermined store path under obtain to polyphyly
The System level gray correlation that partial function in system is upgraded divides AKU.
Preferably, OTA upgrade command is used for the multisystem AKU based on highest version number for the instruction and carries out system upgrade,
Wherein, acquisition module 410 further includes version number's acquiring unit and download unit;Version number's acquiring unit is based on OTA and upgrades
Instruction, obtains the version of the multisystem AKU in each OTA server corresponding by the OTA client of subsystems
Number;Download unit determines the corresponding OTA server of version number's highest multisystem AKU, and downloads version from this OTA server
This number highest multisystem AKU, and store to under the predetermined store path in this corresponding subsystem of OTA server.
For example, master control system OS_Control and subsystem OS are being included1, subsystem OS2Terminal device run ring
In border, master control system OS_Control and subsystem OS1The system version number of current system such as V1.2.1, subsystem OS2Current system
The system version number such as V1.2.2, subsystem OS of system1OTA client detected the presence of by its corresponding OTA server many
The AKU of system, version number is V1.2.3, subsystem OS2OTA client detected by its corresponding OTA server and deposit
In the AKU of multisystem, version number is V1.2.4, subsequently, by the currently used foreground system of user, such as subsystem OS1's
Human-computer interaction interface points out user to there is the AKU of multisystem, when user passes through to click on subsystem OS1OTA client people
After system upgrade button in machine interactive interface, obtain OTA upgrade command for indicate multisystem liter based on highest version number
When level bag is to carry out system upgrade, by subsystem OS1With subsystem OS2OTA client obtain corresponding each OTA service
The version number of the multisystem AKU in device, respectively V1.2.3 and V1.2.4, obtain highest version number be V1.2.4 it may be determined that
The corresponding OTA server of version number's highest multisystem AKU is subsystem OS2Corresponding OTA server, subsequent master control system
System OS_Control determines that the subsystem indicated by OTA upgrade command is system OS2, master control system OS_Control control subsystem
System OS2OTA client send in its corresponding server and obtain the AKU that multisystem version number is V1.2.4, subsequently, clothes
Be engaged in device according to this solicited message, to the subsystem OS in terminal device2Issue and upgrade as functional to the institute in multisystem
Corresponding system version be V1.2.4 system entirety AKU, and store to this OTA server corresponding subsystem OS2In
Predetermined store path under.
Upgraded module 420 master control system is based on multisystem AKU and executes updating operation to multisystem.
For example, based on the system entirety AKU getting, version number such as V1.2.3, to version for master control system OS_Control
Master control system OS_Control of this number such as V1.2.1 and subsystem OS1And the subsystem OS of version number such as V1.2.22Execute system
System upgrades to the overall updating operation that version number is V1.2.3.
Those skilled in the art of the present technique are appreciated that the present invention includes relating to execute in operation described herein
One or more of equipment.These equipment can specially design for required purpose and manufacture, or can also include general
Known device in computer.These equipment have and are stored in its interior computer program, and these computer programs are optionally
Activation or reconstruct.Such computer program can be stored in equipment (for example, computer) computer-readable recording medium or be stored in
Be suitable to store e-command being coupled to respectively in any kind of medium of bus, described computer-readable medium include but not
Be limited to any kind of disk (including floppy disk, hard disk, CD, CD-ROM and magneto-optic disk), ROM (Read-Only Memory, only
Read memory), RAM (Random Access Memory, memory immediately), EPROM (Erasable Programmable
Read-Only Memory, Erarable Programmable Read only Memory), EEPROM (Electrically Erasable
Programmable Read-Only Memory, EEPROM), flash memory, magnetic card or light line card
Piece.It is, computer-readable recording medium include being stored in the form of can reading by equipment (for example, computer) or transmission information any Jie
Matter.
Those skilled in the art of the present technique be appreciated that can be realized with computer program instructions these structure charts and/or
Each frame in block diagram and/or flow graph and the combination of the frame in these structure charts and/or block diagram and/or flow graph.This technology is led
Field technique personnel be appreciated that can by these computer program instructions be supplied to all-purpose computer, special purpose computer or other
The processor of programmable data processing method is realizing, thus the process by computer or other programmable data processing methods
Device is executing the scheme specified in the frame of structure chart disclosed by the invention and/or block diagram and/or flow graph or multiple frame.
Those skilled in the art of the present technique be appreciated that the various operations having discussed in the present invention, method, in flow process
Step, measure, scheme can be replaced, changed, combined or deleted.Further, there is discussed in the present invention each
Kind of operation, method, other steps in flow process, measure, scheme can also be replaced, changed, reset, decomposed, combined or deleted.
Further, of the prior art have and the step in the various operations disclosed in the present invention, method, flow process, measure, scheme
Can also be replaced, changed, reset, decomposed, combined or deleted.
The above is only some embodiments of the present invention it is noted that ordinary skill people for the art
For member, under the premise without departing from the principles of the invention, some improvements and modifications can also be made, these improvements and modifications also should
It is considered as protection scope of the present invention.
Claims (10)
1. a kind of method of multisystem OTA upgrading is it is characterised in that include:
When master control system receives the OTA upgrade command that in terminal device, arbitrary subsystem sends, in described OTA upgrade command institute
Corresponding multisystem AKU is obtained under the predetermined store path of subsystem indicating;
Master control system is based on described multisystem AKU and executes updating operation to multisystem.
2. method according to claim 1 it is characterised in that subsystem indicated by described OTA upgrade command pre-
Determine under store path, to obtain corresponding multisystem AKU, including:
Master control system controls the OTA client downloads corresponding multisystem upgrading of the subsystem indicated by described OTA upgrade command
Bag, and under the predetermined store path storing to this subsystem;
Multisystem AKU is obtained from described predetermined store path.
3. method according to claim 2 is it is characterised in that master control system controls indicated by described OTA upgrade command
The OTA client downloads corresponding multisystem AKU of subsystem, including:
Master control system controls the OTA client of the subsystem indicated by described OTA upgrade command to send out to its corresponding OTA server
Send acquisition to meet the solicited message of the AKU of predetermined upgrade requirement, and receive this OTA server in response to described solicited message
The AKU of feedback.
4. method according to claim 3 is it is characterised in that described predetermined upgrade requirement includes following any case:
Institute in multisystem functional is upgraded;
Partial function in multisystem is upgraded;
The current system version of multisystem is upgraded with the difference section of recent systems version in server.
5. method according to claim 1 is it is characterised in that master control system receives arbitrary subsystem in terminal device sends out
During the OTA upgrade command sent, obtain many accordingly under the predetermined store path of the subsystem indicated by described OTA upgrade command
System upgrade bag, including:
User terminal device be in the subsystem on foreground trigger OTA upgrade command when, if indicated by described OTA upgrade command
Subsystem be in the subsystem on backstage, then the subsystem being in foreground sends described OTA upgrade command to master control system;
Master control system receives and is in the described OTA upgrade command that the subsystem on foreground sends, and described OTA upgrade command is sent
To the subsystem being in backstage;
Master control system obtains the OTA client of the subsystem being in backstage based on the described OTA upgrade command feedback receiving
Corresponding multisystem AKU.
6. method according to claim 1 is based on highest version it is characterised in that described OTA upgrade command is used for instruction
Number multisystem AKU carrying out system upgrade, wherein, the predetermined storage of the subsystem indicated by described OTA upgrade command
Corresponding multisystem AKU is obtained under path, including:
Based on described OTA upgrade command, obtained in each OTA server corresponding by the OTA client of subsystems
The version number of multisystem AKU;
Determine the corresponding OTA server of version number's highest multisystem AKU, and from this OTA server download version highest
Multisystem AKU, and store to under the predetermined store path in this corresponding subsystem of OTA server.
7. a kind of device of multisystem OTA upgrading is it is characterised in that include:
Acquisition module, when receiving, for master control system, the OTA upgrade command that in terminal device, arbitrary subsystem sends, described
Corresponding multisystem AKU is obtained under the predetermined store path of the subsystem indicated by OTA upgrade command;
Upgraded module, is based on described multisystem AKU for master control system and executes updating operation to multisystem.
8. device according to claim 7 is it is characterised in that described acquisition module, including:
Download and memory cell, control under the OTA client of the subsystem indicated by described OTA upgrade command for master control system
Carry under corresponding multisystem AKU, and the predetermined store path storing to this subsystem;
First acquisition unit, for obtaining multisystem AKU under described predetermined store path.
9. device according to claim 8 is it is characterised in that described download and memory cell are used for
Master control system controls the OTA client of the subsystem indicated by described OTA upgrade command to send out to its corresponding OTA server
Send acquisition to meet the solicited message of the AKU of predetermined upgrade requirement, and receive this OTA server in response to described solicited message
The AKU of feedback.
10. device according to claim 7 is it is characterised in that described acquisition module, including:
First transmitting element, for user when terminal device is in and triggers OTA upgrade command in the subsystem on foreground, if described
Subsystem indicated by OTA upgrade command is in the subsystem on backstage, then be in the subsystem on foreground by described OTA upgrade command
Send to master control system;
Second transmitting element, receives for master control system and is in the described OTA upgrade command that the subsystem on foreground sends, by institute
State OTA upgrade command to send to the subsystem being in backstage;
Second acquisition unit, obtains the OTA client of the subsystem being in backstage based on described in receiving for master control system
The corresponding multisystem AKU of OTA upgrade command feedback.
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Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107479927A (en) * | 2017-08-14 | 2017-12-15 | 青岛海信宽带多媒体技术有限公司 | The firmware upgrade method and device of pattern of fusion all-in-one |
CN107678846A (en) * | 2017-10-12 | 2018-02-09 | 北京元心科技有限公司 | The management method of application program, device and terminal in multisystem |
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Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101083532A (en) * | 2006-05-31 | 2007-12-05 | 华为技术有限公司 | Method and system for realizing data loading |
CN102831000A (en) * | 2012-09-11 | 2012-12-19 | 华为技术有限公司 | System upgrading method and system |
CN102984281A (en) * | 2012-12-20 | 2013-03-20 | 湖南纽曼数码科技有限公司 | Automatic upgrading method of multi-system vehicle-mounted equipment |
CN105049533A (en) * | 2015-08-31 | 2015-11-11 | 宇龙计算机通信科技(深圳)有限公司 | Terminal system upgrading method and system |
CN105302603A (en) * | 2015-10-26 | 2016-02-03 | 广州视睿电子科技有限公司 | Software upgrade method and apparatus |
CN105511920A (en) * | 2015-12-08 | 2016-04-20 | 北京元心科技有限公司 | Container based mobile terminal operating system upgrading method and device |
CN105573780A (en) * | 2015-12-08 | 2016-05-11 | 北京元心科技有限公司 | Container based mobile terminal operation system upgrading method and apparatus |
CN105897461A (en) * | 2016-03-23 | 2016-08-24 | 广州视睿电子科技有限公司 | Multi-system OTA upgrading method and multi-system device |
-
2016
- 2016-10-12 CN CN201610889919.XA patent/CN106445615A/en active Pending
Patent Citations (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101083532A (en) * | 2006-05-31 | 2007-12-05 | 华为技术有限公司 | Method and system for realizing data loading |
CN102831000A (en) * | 2012-09-11 | 2012-12-19 | 华为技术有限公司 | System upgrading method and system |
CN102984281A (en) * | 2012-12-20 | 2013-03-20 | 湖南纽曼数码科技有限公司 | Automatic upgrading method of multi-system vehicle-mounted equipment |
CN105049533A (en) * | 2015-08-31 | 2015-11-11 | 宇龙计算机通信科技(深圳)有限公司 | Terminal system upgrading method and system |
CN105302603A (en) * | 2015-10-26 | 2016-02-03 | 广州视睿电子科技有限公司 | Software upgrade method and apparatus |
CN105511920A (en) * | 2015-12-08 | 2016-04-20 | 北京元心科技有限公司 | Container based mobile terminal operating system upgrading method and device |
CN105573780A (en) * | 2015-12-08 | 2016-05-11 | 北京元心科技有限公司 | Container based mobile terminal operation system upgrading method and apparatus |
CN105897461A (en) * | 2016-03-23 | 2016-08-24 | 广州视睿电子科技有限公司 | Multi-system OTA upgrading method and multi-system device |
Cited By (10)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107479927A (en) * | 2017-08-14 | 2017-12-15 | 青岛海信宽带多媒体技术有限公司 | The firmware upgrade method and device of pattern of fusion all-in-one |
CN107678846A (en) * | 2017-10-12 | 2018-02-09 | 北京元心科技有限公司 | The management method of application program, device and terminal in multisystem |
CN110650169A (en) * | 2018-06-27 | 2020-01-03 | 视联动力信息技术股份有限公司 | Terminal equipment upgrading method and device |
CN109634629A (en) * | 2018-10-25 | 2019-04-16 | 努比亚技术有限公司 | A kind of method for upgrading system, terminal and computer readable storage medium |
CN109634629B (en) * | 2018-10-25 | 2022-04-15 | 努比亚技术有限公司 | System upgrading method, terminal and computer readable storage medium |
CN109787891A (en) * | 2018-12-24 | 2019-05-21 | 深圳市友华通信技术有限公司 | A kind of intelligence PON Convergence gateway equipment and its control method |
CN112748944A (en) * | 2020-12-24 | 2021-05-04 | 厦门厦华科技有限公司 | Upgrading method and upgrading system of intelligent interactive electronic whiteboard |
CN113407220A (en) * | 2021-07-12 | 2021-09-17 | 浙江华网俊业科技有限公司 | Updating method and device for mirror image pushing local terminal |
WO2023000320A1 (en) * | 2021-07-23 | 2023-01-26 | 华为技术有限公司 | Over-the-air (ota) upgrade method and apparatus |
WO2023015802A1 (en) * | 2021-08-12 | 2023-02-16 | 上海艾拉比智能科技有限公司 | Differential upgrade method for multi-operating system device |
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