KR20100062148A - Mobile commuication terminal and method for updating firmware thereof - Google Patents

Abstract

PURPOSE: A mobile communication terminal and a firmware update method thereof are provided to partition a firmware package downloaded through an FOTA function in the first and second storages. CONSTITUTION: A firmware size analyzer of a controller(100) analyzes the size of a firmware package to be downloaded through firmware package capacity information received from a firmware providing server. In case the size of the firmware package exceeds a set value, a firmware package divider partitions the received firmware package into the first and second firmware packages. In case a capacity of the firmware package is the set value or greater, the first storage(110) stores the first firmware package. The second storage(120) stores the second firmware package.

Description

MOBILE COMMUICATION TERMINAL AND METHOD FOR UPDATING FIRMWARE THEREOF}

The present invention relates to a mobile communication terminal and a firmware update method thereof.

FOTA (Firmware Over The Air) refers to wirelessly updating / upgrading the firmware of a mobile communication terminal such as a mobile phone or a personal digital assistant (PDA).

When the firmware is downloaded to the mobile terminal through the conventional FOTA method, the downloaded firmware is stored in the storage unit. At this time, the space for storing the firmware of the mobile communication terminal is stored separately from the space for storing pictures, phonebooks, memos, schedules, and the like, and the range in which the terminal firmware can be stored is limited to the size of the predefined firmware storage unit. The firmware storage unit is set to a limited size as a memory space that can be used only for the terminal firmware storage.

Recently, the functions of the mobile communication terminal are diversified, and as the capacity of a program used therein increases, the size of a file downloaded through the FOTA tends to increase. However, if the size of the firmware file downloaded for firmware upgrade is large, there is a problem because there is no space to be stored.

An object of the present invention is to propose a mobile communication terminal capable of dividing and storing a firmware package downloaded through FOTA into an internal memory space and an external memory space.

Another object of the present invention is to propose a method of storing a firmware package of a mobile communication terminal, which can be divided and stored in an internal memory space and an external memory space when a firmware package downloaded through a FOTA exceeds a set value.

Another object of the present invention is to divide the firmware package downloaded through the FOTA in the internal memory space and the external memory space when the setting value is exceeded, and to update the firmware by regenerating the divided and stored firmware package as a single file It is to propose a firmware update method of a mobile communication terminal.

According to an aspect of the present invention, in the mobile communication terminal to download the firmware via FOTA (Firmware Over The Air), the mobile communication terminal to download the firmware via a wireless communication network, firmware package capacity information received from the firmware providing server Firmware size analysis unit for analyzing the size of the firmware package to be downloaded through the firmware package separation unit for dividing the received firmware package into the first and second firmware package when the size of the firmware package to be downloaded exceeds a setting value A control unit including; A first storage unit storing the downloaded firmware package when the capacity of the firmware package is less than or equal to the set value, and storing the first firmware package when the capacity of the firmware package is greater than or equal to the set value; And a second storage unit in which the second firmware package is stored.

According to another aspect of the present invention, in the firmware update method through a wireless communication network of the mobile communication terminal, (a) connected to the firmware providing server to receive the capacity information of the firmware package, and compares the size of the firmware package to be downloaded to the setting value step; (b) dividing the received firmware package into first and second firmware packages when the size of the firmware package to be downloaded is greater than or equal to a set value; (c) storing the first firmware package in a first storage and storing the second firmware package in a second storage; And (d) updating the firmware through the stored first and second firmware.

In the mobile communication terminal and its firmware package storage method according to the present invention, since the firmware package downloaded through the FOTA function is divided and stored in the first and second storage units, a large capacity firmware package can be stored.

In addition, according to the present invention, there is an advantage in that the firmware packages divided and stored in the first and second storage units are regenerated into one firmware package and firmware update is possible through this.

As the invention allows for various changes and numerous embodiments, particular embodiments will be illustrated in the drawings and described in detail in the written description. However, this is not intended to limit the present invention to specific embodiments, it should be understood to include all transformations, equivalents, and substitutes included in the spirit and scope of the present invention. In the following description of the present invention, if it is determined that the detailed description of the related known technology may obscure the gist of the present invention, the detailed description thereof will be omitted.

The terms first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another.

The terminology used herein is for the purpose of describing particular example embodiments only and is not intended to be limiting of the present invention. Singular expressions include plural expressions unless the context clearly indicates otherwise. In this application, the terms "comprise" or "have" are intended to indicate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, and one or more other features. It is to be understood that the present invention does not exclude the possibility of the presence or the addition of numbers, steps, operations, components, components, or a combination thereof.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In order to facilitate a thorough understanding of the present invention, the same reference numerals are used for the same means regardless of the number of the drawings.

1 is a block diagram schematically illustrating a system for downloading firmware via FOTA according to an embodiment of the present invention.

Referring to FIG. 1, a firmware download system through FOTA (Firmware Over The Air; hereinafter referred to as “FOTA”) is a mobile communication terminal 10, a mobile communication network 20, and a FOTA server 30. It may include.

In particular, the mobile communication network 20 may include a base station, a base station controller and a switch.

The base station performs wireless communication with the mobile communication terminal 10 and transmits and receives voice and data signals from the mobile communication terminal 10 through wired communication with the base station controller. The base station controller establishes communication between the base station and the switch by wire, and performs a handover function so that the user can communicate while moving. The exchange performs incoming and outgoing call processing of the mobile communication terminal 10, and enables communication and data communication in conjunction with other exchanges.

The FOTA server 30 receives firmware version information from the mobile communication terminal 10. The FOTA server 30 provides a firmware package for the firmware request requested from the mobile communication terminal 10 via the mobile communication network 20.

The mobile communication terminal 10 may store a firmware package downloaded from the FOTA server 30. In this case, the mobile communication terminal 10 may divide and store the firmware package downloaded from the FOTA server 30.

The mobile communication terminal 10 may store the firmware package in a first storage unit designated to store the firmware package, and store the remaining firmware package in the second storage unit when the firmware package exceeds the capacity of the first storage unit.

The second storage unit may be a predetermined area of the internal memory or a removable memory disk.

In addition, the mobile communication terminal 10 may update the built-in firmware through the stored firmware package. The mobile communication terminal 10 transmits the information about the firmware to the FOTA server 30 after updating the firmware. The mobile communication terminal will be described in detail with reference to FIG. 2.

Here, the FOTA server 30 is a server capable of providing firmware through a wireless communication network.

FIG. 2 is a block diagram illustrating in detail the configuration of the mobile communication terminal illustrated in FIG. 1.

Referring to FIG. 2, the mobile communication terminal 10 according to an exemplary embodiment of the present invention may include a control unit 100, a display unit 130, a key input unit 140, a voice processing unit 150, and a wireless transmission / reception unit 160. And a memory unit 170. Here, the memory unit 170 may include first and second storage units 110 and 120.

In detail, the controller 100 processes voice signals and data signals according to protocols for general telephone call, data communication, and wireless Internet access, and controls each area of the mobile communication terminal 10.

The controller 100 receives the capacity information of the firmware package from the FOTA server 30 through the FOTA function. The controller 100 analyzes the size through the received firmware package capacity information. If the size of the downloaded firmware package is larger than the capacity of the first storage unit 110, the controller 100 divides and stores the firmware package in the first and second storage units 110 and 120. In addition, the controller 100 may reconfigure firmware packages divided into the first and second storage units 110 and 120 into a single firmware package form during firmware update. The controller 100 updates the firmware through the downloaded firmware package. The controller 100 may transmit completion information to the FOTA server 30 after the firmware update is completed. Description of each function of the controller 100 will be described in detail again with reference to FIG. 3.

The display unit 130 is provided in a typical mobile communication terminal and displays information to a user. In addition, the display unit 130 may display image information. The display unit 130 may be implemented as a liquid crystal display (LCD), an organic light emitting diode (OLED), or the like.

The voice processor 150 may include a speaker and a microphone. The voice processor 150 outputs a voice signal received from the controller 100 through a speaker and transmits the voice input through the microphone to the controller 100.

The wireless transceiver 160 may include a communication module applied to a communication protocol such as Code Division Multiple Access (CDMA), Wide-CDMA (WCDMA), and Global System for Mobile Communication (GSM). The wireless transceiver 160 transmits and receives a voice, a data signal, and the like through the mobile communication network 20. In addition, the wireless transceiver 160 may be connected to the FOTA server 30 through the mobile communication network 20 to receive a firmware package.

The key input unit 140 is a user interface for receiving various data from a user, and there is no particular limitation on its implementation. In general, a combination method of a combination of two or more of the keypad method, the wheel key method, the touch pad method, the touch screen method, and the like may be used. Recently, the touch screen method is mostly adopted due to an increase in space utilization, an enlargement of the display screen, and design considerations. In this case, the key input unit 140 may be implemented integrally with the display unit 130.

The memory unit 170 stores various programs for controlling the overall operation of the mobile communication terminal 10, various data generated by program execution, telephone number information data, and the like. In this case, the memory unit 170 may be implemented as an integrated memory or divided into a plurality of memories (for example, a program memory, a data memory, a phonebook memory, etc.).

The memory unit 170 may include a boot area, an operating system (hereinafter referred to as an "OS") code area, an embedded file system (hereinafter referred to as an "EFS") area, and an NV area. , May be divided into an area such as a work space (hereinafter, referred to as a “WS”) area.

The memory unit 170 may be a flash memory.

The memory unit 170 according to an embodiment of the present invention stores the downloaded firmware package. To this end, the memory unit 170 includes a first storage unit 110 and a second storage unit 120.

The first storage unit 110 stores the downloaded firmware package. In this case, the first storage unit 110 may store various programs for controlling the overall operation, various data generated by program execution, telephone number information data, and the like. In addition, the first storage unit 110 may be a WS region. In addition, the first storage unit 110 may include a WS region or a partial region of the EFS.

If the capacity of the downloaded firmware package is larger than that of the first storage unit 110, the second storage unit 120 stores the remaining capacity of the firmware package stored in the first storage unit 110. The second storage unit 120 may be a partial region of the EFS or a removable memory disk. A detailed description of the memory unit 170 will be described with reference to FIGS. 4 to 6.

3 is a block diagram illustrating in detail the configuration of a controller of the mobile communication terminal illustrated in FIG. 2.

Referring to FIG. 3, the control unit 100 according to an embodiment of the present invention may include an interface unit 210, a firmware package size analyzer 220, a firmware package separator 240, a file system 250, and a firmware update. The processor 260 may be included. In addition, the controller 100 may further include a storage capacity analyzer 230.

In detail, the interface unit 210 may provide a signal interface with the wireless transceiver 160 for a conventional telephone call, data communication, and wireless Internet connection. The interface unit 210 may provide an interface with the display unit 130, the voice processor 150, and the key input unit 140. The interface unit 210 may provide an interface with the memory unit 170.

The firmware package size analyzer 220 compares the size of the downloaded firmware package with a set value. The firmware package size analyzer 220 stores the firmware package in the first storage unit 110 when the size of the downloaded firmware package is equal to or smaller than a set value.

The firmware package size analyzer 220 delivers the firmware package to the firmware package separator 240 when the size of the downloaded firmware package is greater than or equal to a set value.

The firmware package separator 240 separates the first and second firmware packages when the size of the downloaded firmware package is greater than or equal to a set value. In this case, the capacity of the first firmware package is separated to be the capacity of the first storage unit 110.

The file system 250 regenerates the stored firmware package into an updateable file. For example, the file system 250 may update a firmware package transmitted from the first storage unit 110 when the firmware package is stored only in the first storage unit 110, when the firmware package is less than or equal to a set value. Regenerate with.

When the first and second firmware packages are stored in the first and second storage units 110 and 120, respectively, the file system 250 receives the first and second firmware packages and regenerates the firmware packages at the time of downloading. In this case, the firmware package may be converted into an updateable file.

The firmware update processing unit 260 may execute an update agency as a function unit for firmware update. The firmware update processing unit 260 updates the firmware package from the file system.

The storage capacity analyzer 230 checks the capacity of the first storage 110 and the second storage 120. The storage capacity analyzer 230 may analyze the remaining capacity of the first and second storage units 110 and 120 to analyze the remaining capacity of the firmware package size analyzer 220 and the firmware package separator. 240).

The firmware package size analyzer 220 may reset the set value through the residual capacity analysis results of the first and second storage units 110 and 120 received from the storage unit capacity analyzer 230. In addition, the storage analyzer 230 may separate the first and second firmware packages by transmitting the result of analyzing the remaining capacity of the first and second storage units 110 and 120 to the firmware package separator 240. Make sure

When the size of the firmware package is larger than the total capacity of the first and second storage units 110 and 120, the storage capacity analyzer 230 may determine that the download is impossible and stop the download and the firmware update. do.

4 to 6 are diagrams illustrating first to third embodiments of the memory unit illustrated in FIG. 2.

4 to 6, the memory unit 170 according to an embodiment of the present invention may include a boot area 310, an OS code area 320, an EFS area 330, an NV area 340, and a WS area ( 350). The removable memory disk area 360 corresponds to a case where the removable memory disk is connected through an interface.

The boot area 310 may be divided into a boot loader area 311 and an update agency area (hereinafter, referred to as “UA”) 312.

The boot loader area 311 is a code area for booting the mobile communication terminal, and the UA area 312 is a code area for firmware update.

The OS code area 320 may be divided into a code area 321 and a resource area 322 and stored. The code area 321 is an area in which the code of the firmware is stored, and the resource area 322 is an area in which resources such as an image used in the firmware are stored.

The EFS area 330 is divided into a manufacturer-related information storage area 331 and a user-related information storage area 332. The manufacturer related information storage area 331 stores manufacturer information, for example, manufacturer related information such as Samsung Electronics and LG Electronics. In this case, the manufacturer-related information storage area 331 generally determines a capacity of the mobile communication terminal at the manufacturer. The user related information storage area 332 stores user's telephone number information and the like. In this case, the firmware package may be stored in the user-related information storage area 332.

The NV area 340 stores mobile communication terminal related information, for example, network setting information of the mobile communication terminal. At this time, the NV area 340 is not changed during the firmware update process.

The WS area 350 is an area where the firmware package is stored. In addition, the WS region 350 may store information related to the UA, and information such as interworking information and backup with the DM client may be stored. At this time, the WS area 350 is generally fixed to a capacity of about 1 Mbyte, but the storage capacity is variable according to the mobile communication terminal.

Here, the EFS area 330 may include a resource area 333 in which resources such as an image used in firmware are stored instead of the manufacturer-related information storage area 331 as shown in FIGS. 5 and 6. .

The memory unit 170 may further include a DMB area 370 in which DMB related information is stored. The DMB area 370 may store channel information, download information, and the like.

The first storage unit 110 of the memory unit 170 according to an embodiment of the present invention is the WS region 350, and the second storage unit 120 stores the user-related information storage region 332 of the EFS region 330. Can be.

In addition, the first storage unit 110 may be a WS region 350 and an EFS region 330, and the second storage unit 120 may be a removable memory disk.

In addition, the first storage unit 110 may be a user-related information storage area 332, and the second storage unit 120 may be a removable memory disk.

As described above, the first and second storage units 110 and 120 may be set by a user, but the first storage unit 110 is a WS region 350 by default.

7 is a flowchart sequentially illustrating a firmware storage method of a mobile communication terminal according to an embodiment of the present invention.

Referring to FIG. 7, in the firmware storage method of the mobile terminal according to an embodiment of the present disclosure, the downloaded firmware package size comparison step (S10), the firmware package division step (S20), and the first and second firmware packages are divided. And storing (S30) and storing the firmware package (S40) in the first storage unit.

The firmware package size comparison step (S10) to be downloaded is a step of receiving capacity information of the firmware package received from the FOTA server and comparing it with a preset setting value. That is, the mobile communication terminal accesses the FOTA server and receives the capacity information of the firmware package. The receiving procedure is performed through a device management session (hereinafter referred to as “DM”) of the mobile communication terminal, and the DM client receives a URL to download a firmware package from the FOTA server after connecting to the FOTA server. At this time, the DM client of the mobile communication terminal receives the firmware package capacity information to be downloaded and delivers it to the firmware package size analyzer of the mobile communication terminal. The firmware package size analyzer compares the size of the firmware package with a set value. Here, the set value may be the capacity of the first storage unit or the maximum storage capacity of the first storage unit. Next, the DL client proceeds to download the update package from the received URL.

Next, the firmware package dividing step (S20) is a step of dividing the size of the firmware package when the size of the received firmware package is greater than or equal to the set value. For example, when the size of the firmware package is greater than or equal to the capacity of the first storage unit, the firmware package downloaded into the first firmware package having the capacity to be stored in the first storage unit and the second firmware package to be stored in the second storage unit is divided. do.

On the other hand, before the firmware package dividing step (S20) may further comprise a storage capacity analysis step. That is, since the set value may change according to the capacity of the storage unit, the capacity of the storage unit is analyzed to divide the firmware package accordingly. For example, although the setting value is initially set to the capacity of the first storage unit, when other software is stored in the first storage unit, the setting value is the remaining space other than the space where other software is stored in the capacity of the first storage unit.

Here, when the size of the firmware package to be downloaded in the storage unit capacity analysis step exceeds the capacity of the first and second storage unit, the firmware package may not be downloaded.

Next, dividing and storing the first and second firmware packages (S30) is storing the divided first and second firmware packages in the first and second storage units. Here, the first storage unit is a storage unit in which a path to be stored when downloading the firmware package is designated, and any one of the WS region 350 or the WS region 350 and the user-related information storage region 332 of FIGS. It may be an area. The second storage unit may be a user-related information storage area 332 or a removable memory disk of the EFS. In this case, the user may designate an area in which the second firmware package is to be stored.

Next, the step of storing the firmware package in the first storage unit (S40) is a step of storing in the first storage unit when the size of the firmware package is less than or equal to the set value. At this time, the downloaded firmware package is stored in the first storage unit of the designated path. Here, the first storage unit is a storage unit in which a path to be stored when downloading the firmware package is designated, and the user-related information storage area of the WS area 350 or the WS area 350 and the EFS area 330 of FIGS. 332).

Meanwhile, in the embodiment of the present invention, the capacity information of the firmware package is received from the FOTA server, the size of the firmware package to be downloaded is analyzed based on the capacity information, and the received firmware package is stored in a first storage unit. If the capacity exceeds the capacity of the first storage unit, the firmware package of the remaining capacity may be divided and stored in the second storage unit.

8 is a flowchart sequentially illustrating a firmware update method of a mobile communication terminal according to an embodiment of the present invention.

Referring to FIG. 8, the firmware update method of the mobile communication terminal according to an embodiment of the present invention divides the firmware package size to be downloaded (S10), divides the firmware package (S20), and divides the first and second firmware packages. And storing (S30), storing a firmware package in a first storage unit (S40), starting a boot loader (S50), generating a firmware package (S60), and updating a firmware (S70).

Specifically, comparing the size of the firmware package to be downloaded (S10), dividing the firmware package (S20), dividing and storing the first and second firmware packages (S30), and storing the firmware package in the first storage unit (S40). ) Is the same as the method described with reference to FIG. 7, and thus a detailed description thereof will be omitted.

The stored firmware package restarts the mobile communication terminal through the DM client for update.

Next, the boot loader start step (S50) is a step of checking the presence of a firmware package for the firmware update of the mobile communication terminal. The boot loader checks the presence or absence of a firmware package and checks whether the firmware package is a large capacity, that is, divided into the first and second storage units.

Next, the firmware package generation step (S60) is a step in which the file system is loaded and receives the firmware packages stored in the first and second storage units to generate the same firmware package as the first downloaded firmware package. That is, the first and second firmware packages are received to generate the same firmware package as the first downloaded firmware package.

In this case, even when the first and second firmware packages are not divided, that is, the firmware package downloaded to the first storage unit, the file system is driven to receive the firmware package from the first storage unit, and the same as the first downloaded firmware package. Create a firmware package.

Next, the firmware update step (S70) receives the firmware package generated in the file system by executing the UA in the boot loader to update the firmware through the received firmware package.

Next, after the firmware update of the mobile terminal is completed, the mobile terminal is restarted. The mobile communication terminal executes the DM client, sends the update completion result to the FOTA server in the DM session, and terminates the DM session.

In the present invention, when the capacity of the firmware package exceeds the capacity of the first and second storage units, an insufficient memory error code is generated and displayed on the display unit of the mobile communication terminal, transmitted to the FOTA server, and the download and update are terminated. .

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. It will be understood that the invention may be varied and varied without departing from the scope of the invention.

1 is a block diagram schematically showing a system for downloading firmware via FOTA according to an embodiment of the present invention.

2 is a block diagram showing in detail the configuration of the mobile communication terminal shown in FIG.

3 is a block diagram showing in detail the configuration of a control unit of the mobile communication terminal shown in FIG.

4 to 6 illustrate first to third embodiments of the memory unit illustrated in FIG. 2;

7 is a flowchart sequentially illustrating a firmware storage method of a mobile communication terminal according to an embodiment of the present invention.

8 is a flowchart sequentially illustrating a firmware update method of a mobile communication terminal according to an embodiment of the present invention.

<Description of the symbols for the main parts of the drawings>

10: mobile communication terminal 20: mobile communication network

30: FOTA server 100: control unit

110: first storage unit 120: second storage unit

130: display unit 140: key input unit

150: voice processing unit 160: wireless transceiver

170: memory unit 210: interface unit

220: firmware package size analysis unit 230: storage unit capacity analysis unit

240: firmware package separation unit 250: file system

260: firmware update processing unit 310: boot area

320: OS code area 330: EFS area

340: NV area 350: WS area

360: removable memory disk portion

Claims (10)

In the mobile communication terminal to download the firmware through a wireless communication network, A firmware size analyzer for analyzing a size of a firmware package to be downloaded through firmware package capacity information received from a firmware providing server, and a firmware package received when the size of the firmware package to be downloaded exceeds a setting value. A control unit including a firmware package separation unit for dividing into two firmware packages; A first storage unit storing the downloaded firmware package when the capacity of the firmware package is less than or equal to the set value, and storing the first firmware package when the capacity of the firmware package is greater than or equal to the set value; And And a second storage unit for storing the second firmware package. The method of claim 1, The control unit A file system unit which regenerates the first and second firmware packages into one firmware package file; And And a firmware update processing unit for updating the firmware through the firmware package reproduced from the file system unit. The method according to any one of claims 1 and 2, The control unit The mobile communication terminal of claim 1, further comprising a storage unit analyzing unit for retrieving the storage capacity of the first and second storage units and transmitting the storage capacity to the firmware package separating unit. The method of claim 1 The first storage unit includes a workspace area which is basically set to store a firmware package. The second storage unit includes any one of a user-related information storage area and a removable memory disk of the embedded file system area. The method of claim 1, The set value is a mobile communication terminal, characterized in that the storage space of the first storage. In the firmware update method via a wireless communication network of a mobile communication terminal, (a) connecting to a firmware providing server to receive capacity information of a firmware package, and comparing a size of a firmware package to be downloaded with a setting value; (b) dividing the received firmware package into first and second firmware packages when the size of the firmware package to be downloaded is greater than or equal to a set value; (c) storing the first firmware package in a first storage and storing the second firmware package in a second storage; And (d) updating the firmware through the stored first and second firmware. The method of claim 6, In step (a), The setting value is the firmware firmware updating method of the mobile communication terminal, characterized in that the storage capacity of the first storage unit. The method of claim 6, Checking the storage capacity of the first and second storage units and dividing the firmware package to correspond to the storage capacity of the first and second storage units. The method of claim 6, Step (d) is Regenerating a firmware package through the first and second firmware packages; And And updating through the regenerated firmware package. The method of claim 6, In step (c) And storing the firmware package to be downloaded in the first storage unit when the size of the firmware package to be downloaded is equal to or smaller than a set value.

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