JP3904099B2 - Information processing apparatus, program update method, and information processing system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an information processing device, a program update method, and an information processing system, and more particularly to an information processing device, a program update method, and an information processing system suitable for updating a program such as BIOS via a network.
[0002]
[Prior art]
Recently, networks typified by the Internet have been developed, and various information can be exchanged by connecting a personal computer or the like to the network.
[0003]
Such connection to the Internet can be made via a communication line such as an analog telephone line or ISDN (Integrated Services Digital Network). Recently, it has become possible to access a network such as the Internet via a cable of a cable television (CATV) system.
[0004]
As described above, when accessing a network such as the Internet, an information processing apparatus having a transmission / reception circuit that performs transmission and reception via a predetermined communication line is used.
[0005]
FIG. 18 shows an example of such an information processing apparatus. This information processing apparatus can transmit and receive via an analog telephone line using a modem 105. The CPU 101 executes various processes in accordance with a program stored in a flash ROM (hereinafter referred to simply as “flash ROM”). The RAM 103 appropriately stores data necessary for the CPU 101 to execute various processes. The CPU 101 receives data transmitted via an analog telephone line using the modem 105. Then, the CPU 101 processes the data, and displays the received image data on a display (not shown) via the display interface 106, for example.
[0006]
In addition to a program for processing data supplied via the modem 105, the flash ROM 102 is executed by the CPU 101 when the apparatus is started, and performs basic settings for setting the configuration of the RAM 103, initial setting of the floppy disk drive 104, and the like. BIOS (Basic Input / Output System), which is a program (a group of control programs depending on hardware), is stored. The flash ROM 102 is a non-volatile memory that can be electrically rewritten (erased and written), and can change the stored contents. By using the flash ROM 102 that can be rewritten in this way, such as when the specifications of other devices connected to the device are changed or when the OS (Operating System) of the device is updated, The BIOS can be updated in response to the update.
[0007]
When updating the BIOS in this information processing apparatus, first, a predetermined BIOS update program is operated to record the BIOS stored in the flash ROM 102 onto the floppy disk with the floppy disk drive 104, and then the floppy disk is recorded. The other floppy disk in which the new BIOS is recorded is inserted into the floppy disk drive 104, and the new BIOS is read from the floppy disk and stored in the flash ROM 102.
[0008]
In this way, by recording the original BIOS on the floppy disk, if the BIOS update fails, the floppy disk recording the new BIOS is defective and the new BIOS cannot be read, or the new BIOS If the BIOS program itself has a defect (bug) and does not operate normally, the original BIOS can be restored.
[0009]
[Problems to be solved by the invention]
However, in an information processing apparatus that does not have a floppy disk drive, such as a set top box (STB) used when accessing a network such as the Internet via a cable of a CATV system, for example, a predetermined connection Since a terminal is provided, another terminal device is connected to the terminal, the original BIOS is stored in the terminal device, and then the BIOS is updated, there is a problem that the operation at the time of updating the BIOS is complicated. ing.
[0010]
The present invention has been made in view of such a situation, and even if a BIOS writing failure occurs by updating the BIOS after saving the original BIOS in a spare storage area, it is immediately It is possible to return to the original state and to prevent a situation in which the original BIOS is lost due to a mistake in operation or the like.
[0011]
[Means for Solving the Problems]
  The information processing apparatus according to claim 1, wherein a main area in which a current basic program is stored and held, a common area in which an update program indicating a procedure for updating the basic program is stored and held, and a basic program before being updated Based on the storage means having a spare area in which data is stored and the update program stored in the common area of the storage means, the current basic program read from the main area is copied to the spare area and then copied to the spare area. A processing means for determining whether the current basic program has been correctly copied and performing an update process for writing the new basic program to the main area when it is determined that the current basic program has been correctly copied;Temporary storage means for storing basic programs;WithThe main area and the spare area of the storage means are allocated to the same logical address space as separate banks, and one bank is selectively selected and addressed by bank switching, and the power is turned on. When the bank is switched, the main area bank is selected and addressed, the main area bank is read, and the current basic program read from the main area is copied to the spare area. Is performed through temporary storage meansIt is characterized by that.
[0012]
  Claim7The program update method described in 1 is based on the update program stored and held in the common area of the storage unit, and updates the current basic program stored and held in the main area of the storage unit to a new basic program The step of copying the current basic program read from the main area to the spare area of the storage unit, and determining whether the current basic program copied to the spare area has been copied correctly, the current basic program is correctly An update process for writing a new basic program to the main area when it is determined that the copy has been made.The main area and the spare area of the storage unit are assigned to the same logical address space as separate banks, and one bank is selectively selected and addressed by bank switching, and the power is turned on. When the bank is switched, the main area bank is selected and addressed, the main area bank is read, and the current basic program read from the main area is copied to the spare area. Is performed via a temporary storage area for storing the basic program.It is characterized by that.
[0013]
  Claim8The program update method described in 1 is based on the update program stored and held in the common area of the storage unit, and updates the current basic program stored and held in the main area of the storage unit to a new basic program The step of saving the current basic program read from the main area to the temporary storage area, the step of writing the current basic program saved to the temporary storage area to the spare area of the storage unit, and saving to the temporary storage area To determine whether the current basic program matches the current basic program written in the spare area of the storage unit, the current basic program saved in the temporary storage area, and the spare area of the storage unit When it is determined that the current basic program written matches, a new basic program supplied from outside is temporarily recorded. After writing to the area, the step of writing this new basic program to the main area of the storage unit matches the new basic program written to the temporary storage area and the new basic program written to the main area of the storage unit And in the step of writing a new basic program to the main area of the storage unit, a new basic program written to the temporary storage area and a new basic program written to the main area of the storage unit When it is determined that the two do not match, the new basic program written to the temporary storage area is written again to the main area of the storage unit.However, the main area and spare area of the storage unit are allocated to the same logical address space as separate banks, and one bank is selectively selected and addressed by bank switching, and the power is turned on. When this is done, the bank in the main area is selectively selected and addressed by bank switching, and reading from the bank in the main area is performed.It is characterized by that.
[0014]
  Claim9The information processing system according to the present invention is based on information providing means for providing information via a predetermined transmission channel and the current basic read from the main area of the storage unit based on the update program stored in the common area of the storage unit. After copying the program to the spare area of the storage unit, determine whether the current basic program copied to the spare area has been correctly copied, and if it is determined that the current basic program has been correctly copied, And an information processing means for performing an update process for writing the supplied new basic program into the main area of the storage unit.The main area and the spare area of the storage unit are assigned to the same logical address space as separate banks, and one bank is selectively selected and addressed by bank switching, and the power is turned on. When the bank is switched, the main area bank is selected and addressed, the main area bank is read, and the current basic program read from the main area is copied to the spare area. Is performed via temporary storage means for storing the basic program.It is characterized by that.
[0015]
  In the information processing apparatus according to claim 1, the storage unit stores a main area in which a current basic program is stored, a common area in which an update program indicating a procedure for updating the basic program is stored, and It has a spare area where the basic program before update is stored and held, and the processing means copies the current basic program read from the main area to the spare area based on the update program stored in the common area of the storage means After that, it is determined whether the current basic program copied to the spare area has been correctly copied. If it is determined that the current basic program has been correctly copied, update processing is performed to write the new basic program to the main area.The temporary storage means stores the basic program. The main area and the spare area of the storage means are assigned to the same logical address space as separate banks, and one bank is selectively selected and addressed by bank switching, and when the power is turned on, By switching, the main area bank is alternatively selected and addressed, and reading from the main area bank is performed. Further, the current basic program read from the main area is copied to the spare area through a temporary storage means.
[0016]
  Claim7In the program update method described in (2), based on the update program stored and held in the common area of the storage unit, the program update for updating the current basic program stored and held in the main area of the storage unit to a new basic program A method of copying the current basic program read from the main area to the spare area of the storage unit, determining whether the current basic program copied to the spare area is correctly copied, and An update process for writing a new basic program to the main area when it is determined that the copy has been made correctly.The main area and the spare area of the storage unit are allocated to the same logical address space as separate banks, and one bank is selectively selected and addressed by bank switching, and when the power is turned on, the bank switching Thus, a bank in the main area is selectively selected and addressed, and reading from the bank in the main area is performed. Further, copying of the current basic program read from the main area to the spare area is performed via a temporary storage area for storing the basic program.
[0017]
  Claim8In the program update method described in (2), based on the update program stored and held in the common area of the storage unit, the program update for updating the current basic program stored and held in the main area of the storage unit to a new basic program A method of saving a current basic program read from a main area to a temporary storage area, a step of writing a current basic program saved to a temporary storage area to a spare area of a storage unit, and a temporary storage area A step of determining whether the current basic program saved and the current basic program written in the spare area of the storage unit match, the current basic program saved in the temporary storage area, and the spare area of the storage unit New basic program supplied from outside when it is determined that the current basic program written in After writing to the temporary storage area, a step of writing this new basic program to the main area of the storage unit, a new basic program written to the temporary storage area, and a new basic program written to the main area of the storage unit And a step of writing a new basic program in the main area of the storage unit in the step of writing a new basic program in the main area of the storage unit and a new basic program written in the main area of the storage unit When it is determined that the basic program does not match, the new basic program written in the temporary storage area is written again into the main area of the storage unit.However, the main area and the spare area of the storage unit are allocated to the same logical address space as separate banks, and when one bank is selectively selected and addressed by bank switching, the bank is turned on when the power is turned on. By switching, the main area bank is alternatively selected and addressed, and reading from the main area bank is performed.
[0018]
  Claim9In the information processing system described inInformation provision meansProvides information via a predetermined transmission channel, and the information processing means stores the current basic program read from the main area of the storage unit based on the update program stored in the common area of the storage unit. After copying to the spare area, it is determined whether the current basic program copied to the spare area has been correctly copied. An update process for writing the basic program to the main area of the storage unit is performed.In addition, the main area and the spare area of the storage unit are allocated to the same logical address space as separate banks, and one bank is selectively selected and addressed by bank switching, and when the power is turned on, By switching, the main area bank is alternatively selected and addressed, and reading from the main area bank is performed. Further, the current basic program read from the main area is copied to the spare area via a temporary storage means for storing the basic program.
[0019]
DETAILED DESCRIPTION OF THE INVENTION
FIG. 1 is a diagram showing a configuration example of an embodiment of an information processing system to which the present invention is applied. In the present specification, the term “system” represents an overall apparatus including a plurality of apparatuses.
[0020]
Servers 1-1 and 1-2 (information providing means) mainly provide information on VOD (Video On Demand Service) consisting of images and corresponding audio or data to each home via a network. Yes. In this embodiment, a cable television network 2, ISDN 3, and analog telephone line 4 are used as the network.
[0021]
That is, for example, the server 1-1 provides information to the cable television center 2-1 or 2-2 via the cable television network 2. The cable television center 2-1 provides the provided information to the homes 5-1 and 5-2 subscribed to the cable television system. Similarly, the cable television center 2-2 provides information to the homes 5-1, 5-3, and 5-4 that are subscribed to the cable television system.
[0022]
The server 1-1 also provides information via the ISDN 3 or the analog telephone line 4. Accordingly, the homes 5-1 to 5-6 can access the server 1-1 through the ISDN 3 or the analog telephone line 4 and receive information.
[0023]
Similarly to the server 1-1, the server 1-2 also provides various types of information to the homes 5-1 to 5-6.
[0024]
As such a video transmission system, the trunk line of the transmission channel is made of optical fiber, an optical fiber node covering 300 to 500 households is installed, and a coaxial cable is connected from the optical fiber node to each household. It is also possible to use an HFC (Hybrid Fiber Coax) that transmits information through the network. Alternatively, FTTC (Fiber To The Curb) is used to transmit information via optical fiber to a pedestal (relay device) covering about 24 households, which is very close to the home, and to provide information to each home via a coaxial cable from the pedestal. It is also possible to use a so-called method or FTTH (Fiber To The Home) that transmits information to each home via an optical fiber.
[0025]
In the case of the embodiment of FIG. 1, the transmission capacity of the network is in the order of the cable television network 2, ISDN 3, and analog telephone line 4 from the largest. Therefore, by using the cable television network 2, it is possible to receive a high-speed and high-speed moving image in real time. Further, when ISDN 3 is used, a general moving image can be received in real time, although not as quickly as cable television network 2. However, it is impossible to receive a moving image that changes at a very high speed in real time. On the other hand, when the analog telephone line 4 is used, since the transmission capacity is small, a moving image cannot be received, and only a still image can be received. The audio signal can be received in real time regardless of which network is used.
[0026]
FIG. 2 shows a configuration example of an information receiving system provided in the home 5-1. Although not shown, the other homes 5-2 to 5-6 are basically provided with the same information processing system.
[0027]
The home server 11 is connected to the cable television network 2, ISDN 3, and analog telephone line 4, and at least one of the networks is a personal computer 12-1, 12-2, STB 16 (information processing means), or telephone 18. Has been made to connect to.
[0028]
A keyboard 14-1 and a mouse 15-1 are connected to the personal computer 12-1, and various commands are input thereto. In addition, an image from the personal computer 12-1 is appropriately output and displayed on the display 13-1.
[0029]
Similarly, a keyboard 14-2, a mouse 15-2, and a display 13-2 are connected to the personal computer 12-2.
[0030]
The STB 16 receives the image data supplied from the home server 11, demodulates it, outputs it to the television receiver 17, and displays it. The STB 16 is also used for a video on demand (VOD) service that provides a program in response to a user request. In addition, the telephone 18 can make a call via the home server 11.
[0031]
FIG. 3 shows an example of the internal configuration of the home server 11. The CPU 31 executes various processes according to programs stored in the ROM 32. The RAM 33 appropriately stores data necessary for the CPU 31 to execute various commands. The hard disk drive 34 records and reproduces information with respect to the built-in hard disk.
[0032]
The home server 11 has various interfaces. The network interfaces 35 to 37 perform interface processing when exchanging data with the cable television network 2, ISDN 3, and analog telephone line 4, respectively. The STB interface 38 executes ATM (Asynchronous Transfer Mode) mode interface processing with the STB 16. The computer interface 39 is connected to the personal computer 12-1, and performs Ethernet interface processing. The computer interface 40 is connected to the personal computer 12-2 and executes interface processing corresponding to a protocol dedicated to the personal computer. The telephone interface 41 executes interface processing with the telephone 18.
[0033]
FIG. 4 shows an internal configuration example of the personal computer 12-1. The CPU 71 executes various processes according to programs stored in the ROM 72. The RAM 73 appropriately stores data necessary for the CPU 71 to execute various processes. The hard disk drive 74 is controlled by the CPU 71 and records and reproduces data on a hard disk containing various data and programs. The floppy disk drive 75 executes a recording / reproducing process for the floppy disk.
[0034]
The home server interface 76 executes interface processing with the home server 11. The keyboard interface 77 and the mouse interface 78 execute interface processing between the keyboard 14-1 and the mouse 15-1. The display interface 79 executes interface processing for the display 13-1.
[0035]
The personal computer 12-2 is configured in the same manner as the personal computer 12-1.
[0036]
FIG. 5 shows an internal configuration example of the STB 16 which is an embodiment of the information processing apparatus of the present invention. The CPU 51 (processing means) executes various processes in accordance with programs stored in the flash ROM 91 (FIG. 6) mounted on the flash ROM board 52. The RAM 53 appropriately stores data necessary for the CPU 51 to execute various processes. The graphics controller 54 outputs the graphics data supplied from the CPU 51 to the television receiver 17 for display. An MPEG (Moving Picture Experts Group) 2 video decoder 55 and an MPEG audio decoder 56 convert video data and audio data supplied from the home server 11 via the network interface card 57 (reception means) in the MPEG2 or MPEG format, respectively. Decode and output to the television receiver 17 for display or sound emission.
[0037]
The network interface card 57 is connected to the home server 11 and executes interface processing for the home server 11. The smart card interface 58 executes interface processing with the smart card 59. The smart card 59 is appropriately attached to and detached from the STB 16. The smart card 59 stores personal information of the user, key information for scrambling data, billing information, and the like.
[0038]
The joystick interface 60 executes interface processing with the game machine 61 connected to the STB 16. The IR remote commander interface 62 executes processing for receiving an infrared (IR) signal from the remote commander 63 and outputting the command to the CPU 51.
[0039]
The flash ROM 91 (storage means) mounted on the flash ROM board 52 includes a program for processing data supplied via the network interface card 57 and is executed by the CPU 51 when the apparatus is started up. And BIOS (a control program group depending on hardware in the OS executed by the CPU 51), which is a basic program for controlling the setting of data and the exchange of data with an external device such as the game machine 61, is stored. The flash ROM 91 in the flash ROM board 52 is a non-volatile memory that can be electrically rewritten (erased and written), the stored contents can be changed, and the stored contents are retained even after the power is turned off. Keep doing. By using the flash ROM 91 that can be electrically rewritten in this way, the BIOS can be updated as necessary. The new BIOS is transmitted by the server 1-1 or the server 1-2, supplied to the STB 16 via a predetermined communication line and the home server 11, and received by the network interface card 57 of the STB 16.
[0040]
FIG. 6 shows a configuration example of the flash ROM board 52. The flash ROM 91 is a rewritable nonvolatile storage element that stores data such as programs, and is used as two banks (a bank 91a (main area) and a bank 91b (reserve area)). The bank A (bank 91a) and the bank B (bank 91b) are used by the CPU 51 as the same logical address space. That is, as shown in FIG. 7A, two physical address spaces (bank 91a and bank 91b) are allocated to the same logical address space. Then, in response to the bank switching of the bank switching circuit 92, the contents (data such as programs) stored in the bank 91a (FIG. 7B) or the contents stored in the bank 91b (FIG. 7C) Is read out. Even when data such as a program is stored (written), the data is stored (written) in the bank 91a or the bank 91b in accordance with the bank switching of the bank switching circuit 92. That is, the bank switching circuit 92 is a circuit for converting a logical address addressed from the CPU 51 into a physical address (in the bank 91a or the bank 91b) of the actual flash ROM 91.
[0041]
The bank A of the flash ROM 91 stores a program such as a current new BIOS, and the bank B stores and stores a program such as a BIOS (old version) before update. A part of the flash ROM 91 is used as a common area 91c. The common area 91c can be accessed regardless of bank switching. That is, the same storage area (physical address) is designated by a predetermined logical address regardless of the bank switching. In this area, data read first when the apparatus is started up and a BIOS update program are stored, and the contents are not rewritten.
[0042]
The bank switching circuit 92 is constituted by a hardware logic circuit, switches the bank in the flash ROM 91 to bank A or bank B according to the value held by the bank status register 93, and stores the address supplied via the address bus. Data such as a program is stored in or read from the area. Note that the stored data and the read data are input or output via the data bus.
[0043]
The bank status register 93 holds a value corresponding to the bank to be used among the banks A and B. This value is supplied from the CPU 51 via the data bus. Since a normally used program such as BIOS is stored in the bank A, the bank status register 93 holds a value corresponding to the bank A except when updating the BIOS. In addition, when the STB 16 according to the present embodiment is turned on, the bank status register 93 is reset to a value corresponding to the bank A.
[0044]
Thus, in the flash ROM board 52, the bank A or the bank B of the flash ROM 91 is used according to the value held in the bank status register 93, and the data from the bank A is mainly used except when the BIOS is updated. Is read out.
[0045]
Next, the operation of the present embodiment when updating the BIOS of the flash ROM board 52 will be described with reference to the flowchart of FIG. 8 and the conceptual diagrams of FIGS. 9 to 17. In the present embodiment, since a device for driving a portable recording medium such as a floppy disk is not provided, a new BIOS is acquired by the network interface card 57 via a predetermined communication line, and the BIOS is updated. It is made like that.
[0046]
When the remote commander 63 or the like is operated to receive an instruction to update the BIOS, the CPU 51 starts the following processing based on the update program stored in the common area 91c.
[0047]
First, in step S <b> 1, as shown in FIG. 9, the CPU 51 reads the current version of the BIOS to be updated stored in the bank A (bank 91 a) of the flash ROM 91 and temporarily stores (saves) it in the RAM 53.
[0048]
Next, in step S2, the CPU 51 changes the value of the bank status register 93 and switches the bank to the bank B.
[0049]
In step S3, as shown in FIG. 10, the CPU 51 erases the old version of the BIOS in the bank B (bank 91b) of the flash ROM 91. In step S4, as shown in FIG. Read and store in bank B (bank 91b).
[0050]
Next, in step S5, as shown in FIG. 12, the CPU 51 collates the current BIOS in the RAM 53 with the current BIOS in the bank B (bank 91b) of the flash ROM 91, and in step S6, whether or not they match. In step S7, the bank status register 93 is switched to the bank A, and then the process returns to step S1 to again store the BIOS stored in the bank A (bank 91a) of the flash ROM 91. Is moved to the bank B (bank 91b) via the RAM 53.
[0051]
On the other hand, if it is determined in step S6 that the BIOS of the RAM 53 matches the BIOS of the bank B (bank 91b) of the flash ROM 91, the process proceeds to step S8, and the CPU 51 changes the value of the bank status register 93 to To bank A.
[0052]
Next, in step S9, the network interface card 57 receives a new BIOS supplied via a predetermined communication line and the home server 11, and the CPU 51 receives the network interface card 57 as shown in FIG. A new BIOS is stored in the RAM 53.
[0053]
In step S10, as shown in FIG. 14, the CPU 51 erases the contents (current BIOS) of the bank A of the flash ROM 91, and in step S11, is stored in the RAM 53 as shown in FIG. The new BIOS is stored in the bank A (bank 91a) of the flash ROM 91.
[0054]
Next, in step S12, as shown in FIG. 16, the CPU 51 collates the BIOS of the RAM 53 with the BIOS of the bank A (bank 91a) of the flash ROM 91, and determines whether or not they match in step S13. If it is determined that they do not coincide with each other, the process returns to step S9, and the operation of moving the new BIOS stored in the RAM 53 to the bank A (bank 91a) of the flash ROM 91 is performed again.
[0055]
On the other hand, if it is determined in step S13 that the BIOS of the RAM 53 matches the BIOS of the bank A (bank 91a) of the flash ROM 91, the BIOS update process is terminated. As a result, the update process is terminated in the state shown in FIG.
[0056]
In this way, in steps S1 to S7, the BIOS of the bank A (bank 91a) of the flash ROM 91 is moved to the bank B (bank 91b), and supplied via a predetermined communication line in steps S8 to S13. The new BIOS is stored in the bank A (bank 91a), and the BIOS is updated. If the new BIOS does not operate well after updating in this way, the operation reverse to the above steps S1 to S7 is performed, and the BIOS of the bank B (bank 91b) of the flash ROM 91 is transferred via the RAM 53. The original BIOS can be restored by moving to the bank A (bank 91a).
[0057]
In the above embodiment, the flash ROM 91 having a plurality of banks is used. Instead of the flash ROM 91, a plurality of flash ROMs having a single storage area can be used.
[0058]
In the above embodiment, the BIOS is updated, but other programs (for example, OS) may be updated. The flash ROM can also be used in the home server 11, personal computers 12-1, 12-2, and the like.
[0059]
【The invention's effect】
  As described above, the information processing apparatus according to claim 1 and the claim7According to the program update method described in the above, the current basic program read from the main area is copied to the spare area, and a new basic program is written to the main area based on the update program. Even in a device that does not have the recording device, the BIOS can be updated after the original BIOS is saved in the spare storage area. Therefore, even if a failure occurs in the writing of the BIOS, the original state can be immediately restored, and a situation where the original BIOS is lost due to a mistake in operation or the like can be prevented.
[0060]
  Claims8According to the program update method described in the above, the current basic program read from the main area or a new program supplied from the outside is written in the temporary storage area and the spare area, and both are collated. The update process can be performed more reliably.
[0061]
  Claim9Since the current basic program read from the main area is copied to the spare area, a new basic program from the transmission channel is written to the main area. Even in a device that does not have a recording device, after the original BIOS is saved in a spare storage area, a new BIOS can be obtained via a network such as a transmission channel, and the BIOS can be updated.
[Brief description of the drawings]
FIG. 1 is a diagram showing a configuration of an information providing system to which an information receiving apparatus of the present invention is applied.
FIG. 2 is a diagram illustrating a configuration of an information processing device in the home 5-1 in FIG.
FIG. 3 is a block diagram showing an example of the internal configuration of the home server 11 of FIG. 2;
4 is a block diagram illustrating an internal configuration example of the personal computer 12-1 of FIG. 2;
FIG. 5 is a block diagram showing an internal configuration example of an STB 16 of FIG. 2;
6 is a block diagram showing an example of the internal configuration of the flash ROM 91 of FIG. 5. FIG.
7 is a diagram for explaining a relationship between a logical address space and a physical address space in the flash ROM 91 of FIG. 5. FIG.
FIG. 8 is a flowchart for explaining the operation of the STB 16 when updating the BIOS.
FIG. 9 is a conceptual diagram illustrating the operation of the STB 16 when updating the BIOS.
FIG. 10 is a conceptual diagram for explaining the operation of the STB 16 at the time of BIOS update.
FIG. 11 is a conceptual diagram for explaining the operation of the STB 16 at the time of BIOS update.
FIG. 12 is a conceptual diagram for explaining the operation of the STB 16 when updating the BIOS.
FIG. 13 is a conceptual diagram illustrating the operation of the STB 16 when updating the BIOS.
FIG. 14 is a conceptual diagram for explaining the operation of the STB 16 at the time of BIOS update.
FIG. 15 is a conceptual diagram illustrating the operation of the STB 16 when updating the BIOS.
FIG. 16 is a conceptual diagram illustrating the operation of the STB 16 when updating the BIOS.
FIG. 17 is a conceptual diagram illustrating the operation of the STB 16 at the time of BIOS update.
FIG. 18 is a block diagram illustrating an example of an information processing apparatus having a recording apparatus.
[Explanation of symbols]
1-1, 1-2 server, 2 cable television network, 2-1, 2-2 cable television center, 3 ISDN, 4 analog telephone line, 5-1 to 5-6 home, 11 home server, 12- 1, 12-2 personal computer, 13-1, 13-2 display, 14-1, 14-2 keyboard, 15-1, 15-2 mouse, 16 set top box, 17 television receiver, 18 telephone, 51 CPU, 52 flash ROM board, 53 RAM, 57 network interface card, 91 flash ROM, 92 bank switching circuit,
93 Bank status register

Claims (9)

A storage having a main area in which a current basic program is stored, a common area in which an update program indicating a procedure for updating the basic program is stored, and a spare area in which a basic program before update is stored Means,
Based on the update program stored in the common area of the storage means, after copying the current basic program read from the main area to the spare area, the current basic program copied to the spare area is correctly copied. Processing means for performing an update process for writing a new basic program to the main area when it is determined that the current basic program has been correctly copied ;
Temporary storage means for storing the basic program ,
The main area and the spare area of the storage means are allocated to the same logical address space as separate banks, and one bank is selectively selected and addressed by bank switching, and the power is turned on. The bank of the main area is alternatively selected and addressed by bank switching, and reading from the bank of the main area is performed,
An information processing apparatus , wherein the current basic program read from the main area is copied to the spare area through the temporary storage means .   The processing means determines whether or not the new basic program written in the main area is correctly written, and determines that the new basic program is not correctly written and determines that the new basic program is the main area. The information processing apparatus according to claim 1, wherein the update process for writing to the file is executed again. The information processing apparatus according to claim 1, wherein the basic program is a BIOS that is a group of control programs depending on hardware. Receiving means for receiving information supplied via a predetermined transmission channel;
The receiving means receives a new basic program as the information from the transmission channel,
The processing means, based on the update program stored in the common area of the storage means, copies the current basic program read from the main area of the storage means to the spare area of the storage means, and then by the receiving means. The information processing apparatus according to claim 1, wherein an update process for writing the received new basic program to a main area of the storage unit is performed. The information processing apparatus according to claim 4, wherein the receiving unit receives information on a video on demand service from the transmission channel. The information processing apparatus according to claim 1, wherein the storage unit includes an EEPROM that is an electrically erasable and rewritable semiconductor storage element. Based on the update program stored and held in the common area of the storage unit, a program update method for updating the current basic program stored and held in the main area of the storage unit to a new basic program,
Copying the current basic program read from the main area to a spare area of the storage unit;
An update process is performed to determine whether the current basic program copied to the spare area has been correctly copied, and to write the new basic program to the main area when it is determined that the current basic program has been correctly copied. With steps to perform ,
The main area and the spare area of the storage unit are allocated to the same logical address space as separate banks, and one bank is selected and addressed by bank switching, and the power is turned on. The bank of the main area is alternatively selected and addressed by bank switching, and reading from the bank of the main area is performed,
A program updating method , wherein copying of the current basic program read from the main area to the spare area is performed via a temporary storage area for storing the basic program . Based on the update program stored and held in the common area of the storage unit, a program update method for updating the current basic program stored and held in the main area of the storage unit to a new basic program,
Saving the current basic program read from the main area to a temporary storage area;
Writing the current basic program saved in the temporary storage area to the spare area of the storage unit;
Determining whether the current basic program saved in the temporary storage area matches the current basic program written in the spare area of the storage unit;
When it is determined that the current basic program saved in the temporary storage area matches the current basic program written in the spare area of the storage unit, a new basic program supplied from the outside is stored in the temporary storage area. And writing the new basic program into the main area of the storage unit,
Determining whether the new basic program written in the temporary storage area matches the new basic program written in the main area of the storage unit, and
In the step of writing the new basic program to the main area of the storage unit, it is determined that the new basic program written to the temporary storage area does not match the new basic program written to the main area of the storage unit. The new basic program written in the temporary storage area is again written in the main area of the storage unit,
The main area and the spare area of the storage unit are allocated to the same logical address space as separate banks, and one bank is selected and addressed by bank switching, and the power is turned on. In this case, the bank of the main area is selectively selected and addressed by bank switching, and reading from the bank of the main area is performed. Information providing means for providing information via a predetermined transmission channel;
Based on the update program stored in the common area of the storage unit, after copying the current basic program read from the main area of the storage unit to the spare area of the storage unit, the current program copied to the spare area Update processing for determining whether the basic program has been correctly copied and writing the new basic program supplied via the transmission channel to the main area of the storage unit when it is determined that the current basic program has been correctly copied and an information processing means for performing,
The main area and the spare area of the storage unit are allocated to the same logical address space as separate banks, and one bank is selected and addressed by bank switching, and the power is turned on. The bank of the main area is alternatively selected and addressed by bank switching, and reading from the bank of the main area is performed,
An information processing system , wherein the current basic program read from the main area is copied to the spare area through a temporary storage means for storing the basic program .

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