JP4228576B2 - Digital broadcast receiver and download method - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a digital broadcast receiver and a software download method.
[0002]
[Prior art]
Conventionally, since a digital broadcast receiver is a consumer product, the memory capacity is limited in order to realize a low price, and it is essential to select an operating system having a small code size and a high function. In addition, since a regular service for viewers is fundamental, in the event of an operating system update or an accident, the operating system is installed on the digital broadcast receiver from the broadcast center during a time when viewers are unlikely to watch at midnight. The downloading method is adopted. In the conventional digital broadcast receiver, there is one type of operating system that operates, and the operating environment supported by the receiver side, for example, one type of endian mode in byte order, such an operating environment, for example, the endian mode must be switched. There was no. In the endian mode, there are a big endian mode in which the LSB of the data string is the least significant byte and a little endian mode in which the MSB is the least significant byte in the order of byte arrangement in the word or double word data.
[0003]
Further, even in a personal computer which is a similar platform of a digital broadcast receiver, there is basically only one type of operating system that operates on the personal computer. When updating the same operating system, a CDROM, floppy disk, etc. The user manually installs a new operating system supplied via a recording medium or network. In rare cases, multiple operating systems may be run on the same personal computer. In this case as well, the installation method is manually installed by the user in the same way as the above operating system update. It is limited to the range where the operating environment such as endian mode does not need to be changed.
[0004]
However, with the diversification and sophistication of services in digital broadcasting, operating systems have been adopted and evaluated including compatible applications, and the comprehensive value including applications that can be supported by each operating system has been promoted. Has come to do. Along with this, it is possible for digital receivers to select multiple operating systems to support various services, and to switch between different operating systems by downloading in order to quickly respond to services requested by customers. It has become necessary.
[0005]
In the configuration of the conventional digital broadcast receiver, switching of the operating environment of the operating system is not assumed as described above, and therefore, operating systems that require different operating environments cannot be switched and used.
[0006]
Further, in the conventional digital broadcast receiver download method, there is no mechanism for downloading different operating systems to the same digital broadcast receiver.
[0007]
On the other hand, some high-performance workstations and dedicated computers have realized the operation of multiple operating systems that require different operating environments. However, the configuration does not change the operating environment depending on the operating system to be operated. However, it is a configuration in which multiple operating systems are operating in parallel on a platform that originally realized multiple operating environments at the same time, which requires a huge amount of memory and high-speed processing, resulting in an increase in price. It is difficult to adopt as a digital transmitter / receiver belonging to a general popular product such as a product.
[0008]
[Means for Solving the Problems]
In order to solve this problem, the present invention stores communication means for transmitting / receiving data to / from the broadcasting center facility and operating environment information of the operating system transmitted from the broadcasting center facility, as described in claim 1. Mode information storage register, non-volatile memory for storing data transmitted from the broadcasting center facility, a process for storing the data transmitted from the broadcasting center facility in the non-volatile memory, and boot means for controlling use of the stored data A processing unit for processing data transmitted from the broadcasting center facility according to the operating environment information, an initialization unit for initializing the processing unit, and a processing according to the operating environment information stored in the mode information storage register at the time of initialization. And a digital broadcast receiver having mode switching means for switching the operating environment of the broadcasting section, and a broadcasting center To provide a download method corresponding to a plurality of operating systems by exchanging operating environment information between the equipment and the digital broadcast receiver.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to FIGS. FIG. 1 is a block diagram of a digital broadcast receiver according to the present invention. In FIG. 1, 1 is a digital broadcast receiver, 2 is a processing unit, 3 is boot means, 4 is nonvolatile memory, 5 is initialization means, 6 Is a mode information storage register, 7 is a communication unit, 8 is a CPU, 9 is a processing unit A, 10 is a processing unit B, 11 is a bus A, 12 is a bus B, 13 is a bus C, 14 is a mode switching unit, 15 Broadcast center facilities. The operation of the digital broadcast receiver configured as described above will be described below.
[0010]
In the digital broadcasting receiver 1, the operating environment information of the operating system transmitted from the broadcasting center facility 15 is received by the communication means 7. The received operating environment information is stored in the mode information storage register 6. Of course, if the endian mode of the operating system and the endian mode of the CPU 8, processor A9, processor B10, bus A11, bus B12, and bus C13 do not all match, the word data or double to be processed at the unmatched location Word data is recognized as incorrect data and cannot be processed correctly. For example, even if data to be processed before switching the endian mode of the operating environment remains unprocessed after the endian mode is switched, it is recognized as incorrect data and correct processing cannot be performed.
[0011]
In accordance with the operating environment information stored in the mode information storage register 6, the mode switching means 14 in the processing unit 2 switches the operation modes of the CPU 8, the processing unit A9, the processing unit B10, the bus A11, the bus B12, and the bus C13. For example, when the operating environment information is about the endian mode of the operating system and the mode is big endian, the data processed by the CPU 8, the processing unit A9, the processing unit B10, the bus A11, the bus B12, and the bus C13 is a word. Or doubleword, the byte sequence is treated as big endian. Similarly, if the endian mode is little endian, the byte sequence is processed as little endian.
[0012]
Of course, if the endian mode of the operating system and the endian modes of the CPU 8, processor A9, processor B10, bus A11, bus B12, and bus C13 do not all match, the word data or double to be processed at the unmatched location Word data is recognized as incorrect data and cannot be processed correctly. Even if the data to be processed before the endian mode switching is left unprocessed after the endian mode switching, it is recognized as incorrect data and cannot be processed correctly.
[0013]
The initialization means 5 gives the operating environment change and update triggers as described above. The initialization means 5 is a state machine that recognizes the F / F written from the CPU 8 or a received specific data string and generates an initialization pulse.
[0014]
In this way, the operating environment of the terminal can be changed according to the operating environment information, so that a plurality of operating systems that require different operating environments can be operated.
[0015]
The boot means 3 stored in the non-volatile memory 4 can be constituted by a program decoded by the CPU 8, for example, and executes a procedure for downloading the operating system onto the memory of the digital broadcast receiver 1. Since the download cannot be performed unless the boot means 3 operates normally, the boot means 3 itself cannot be downloaded. Therefore, the boot means 3 is unique even if the operating environment is switched. When the digital broadcast receiver 1 is set in the operating environment required by the operating system as described above, the boot unit 3 needs to operate without problems in the operating environment.
[0016]
Here, the invention relating to the boot means 3 when the operating environment information is in the endian mode will be described in detail with reference to FIG.
[0017]
FIG. 2 is a block diagram showing an embodiment of the boot means of the digital transceiver according to the present invention. In FIG. 2, 15 is an initialization vector address, 16 is an initialization position of the nonvolatile memory 4, and 17 is nonvolatile. The areas A and 18 of the non-volatile memory 4 are the areas B and 19 of the non-volatile memory 4, 19 is the data decoded in the big endian mode, and 20 is the data decoded in the little endian mode.
[0018]
When the initialization means 5 triggers or initializes, the CPU 8 fetches the data stored in the memory location uniquely determined by the initialization vector address 15, that is, the initialization location 16. When the operating environment information is in the endian mode, the data byte order is interpreted in reverse depending on the mode, so that it is handled as different data. The following mechanism can be realized by appropriately selecting the data stored in the initialization position 16.
[0019]
When the operating environment information is big endian in the endian mode, the data stored in the initialization position 16 is interpreted as a branch instruction to Location A. When the operation environment information is little endian, the data is interpreted as a NOP instruction and 32 in the initialization position 16. If the data is selected so that the data at the bit-added address position is interpreted as a branch instruction to Location B, the branch can be made to the area A17 when it is big endian, and it can be branched to the area B18 when it is little endian. In the endian mode, the boot means 3 described assuming big endian is stored, and the boot means 3 described assuming little endian is stored in the area B18. By providing boot means 3 that works That.
[0020]
In this way, it is possible to provide boot means that can operate normally regardless of whether the endian mode of the operating environment is the big endian mode or the little endian mode, so that an operating system that operates in a different endian mode can be downloaded normally.
[0021]
That is, by adopting the configuration of the present embodiment, even if the operating system changes, it is possible to appropriately cope with the operating environment.
[0022]
Next, a method for downloading a plurality of operating systems that require different operating environments between the digital broadcast receiver and the broadcast center facility will be described with reference to FIGS. FIG. 3 is a flowchart showing an embodiment of the operating system download method according to the present invention. FIG. 4 is a block diagram showing an embodiment of the operating system download method according to the present invention, in which 21 is an operating system and 22 is a kernel, which implements the basic functions of the operating system. , 23 are all libraries and drivers necessary for the receiver, 24 is all libraries and drivers necessary for TV viewing, and 25 is a library and drivers necessary for basic TV viewing.
[0023]
When downloading the operating system 21 from the broadcast center facility 15, first, the current operating environment information is notified from the digital broadcast receiver 1 to the broadcast center facility 15 (step 1), and the broadcast center facility 15 is notified of the notified current operating environment. The information and the operating environment information necessary for the operating system 21 to be downloaded are compared (step 2).
[0024]
If the current operating environment information and the operating environment information of the operating system 21 to be downloaded are the same as a result of the comparison, the operating system 21 is downloaded from the broadcasting center facility 15 to the digital broadcasting receiver 1.
[0025]
On the other hand, if the comparison result shows that the current operating environment information differs from the operating environment information of the operating system 21 to be downloaded, the operating system 21 to be downloaded from the broadcasting center facility 15 to the digital broadcast receiver 1. The digital broadcast receiver 1 changes the operating environment of the processing unit 2 according to the received operating environment information as described above (step 4), and the operating environment has been changed. Is notified to the broadcast center facility 15 (step 5). The operating system 21 is downloaded from the broadcast center facility 15 to the digital broadcast receiver 1 in response to the notification of the change of the operating environment (step 6).
[0026]
In this way, the broadcasting center facility 15 can select the download procedure of the operating system 21 according to the current operating environment information of the digital broadcasting receiver 1 and can surely realize the operating environment necessary for the operating system 21. A plurality of operating systems 21 can be downloaded.
[0027]
The current operating environment information notified from the digital broadcasting receiver 1 to the broadcasting center facility 15 includes information on services added by downloading the operating system 21 and information on services to be deleted, that is, changes in service contents requested by customers. It is. For example, if a customer requests a TV viewing only service, the minimum operating system 21 necessary to realize the requested service may be downloaded.
[0028]
As shown in FIG. 4, the operating system 21 includes a kernel 22 for realizing basic functions, a library and drivers 23 for realizing various services. The kernel 22 is a program that is commonly required regardless of the type of service, but the library and the driver 23 are defined by the service as necessary parts and unnecessary parts. For example, if the customer only wants a TV viewing service, only the library and driver 24 necessary for viewing the TV are necessary, and further basic if limited to basic TV viewing such as channel up and down. It can be limited to only the library and driver 25 necessary for TV viewing.
[0029]
When the operating system 21 is downloaded from the broadcast center facility 15 as described above, the service content requested by the customer is first notified from the digital broadcast receiver 1 to the broadcast center facility 15, and the broadcast center facility 15 notifies the requested request content. The libraries and drivers 23 required for the operation are compared with the libraries and drivers 23 included in the operating system 21 to be downloaded.
[0030]
As a result of comparison, when the library and driver 23 required for the customer's request and the library and driver 23 included in the operating system 21 to be downloaded are the same, the operating system is sent from the broadcasting center facility 15 to the digital broadcasting receiver 1. 21 is downloaded.
[0031]
If the library and driver 23 required for the customer's request and the library and driver 23 included in the operating system 21 to be downloaded are different depending on the comparison result, for example, the customer's request is only for TV viewing and the download is attempted. When the library and driver 23 included in the operating system 21 includes a library or driver necessary only for services other than TV viewing, the broadcasting center facility 15 uses only the kernel 22 and the library and driver 24 necessary for TV viewing. The configured operating system 21 is downloaded from the digital broadcast receiver 1.
[0032]
In this way, the broadcasting center facility 15 can select the optimal library and driver according to the customer's request and download the operating system, so that the time required for downloading can be minimized and efficient. In addition, by downloading the operating system 21 whose functions are limited in advance and then downloading the operating system 21 that can realize additional services in an appropriate time period, the operating system 21 can be efficiently operated without hindering the customer's broadcast use. Can be downloaded.
[0033]
【The invention's effect】
As described above, according to the present invention, since the operating system is downloaded after changing the operating environment of the digital broadcast receiver according to the operating environment information required by the operating system, a plurality of operating systems can be operated even with limited memory resources. Since each feature can be used, it is possible to freely select application software supported by each operating system and provide abundant services with a low-priced digital broadcast receiver.
[0034]
In addition, since the operating environment required by the operating system is notified to the digital broadcast receiver prior to the download of the operating system itself, the download is performed reliably, and even a mixed download of a plurality of operating systems can be performed without failure.
[0035]
Further, by selectively downloading the functions of the operating system by category, the service desired by the customer can be quickly downloaded without waste, which is very efficient.
[Brief description of the drawings]
FIG. 1 is a block diagram of a digital broadcast receiver according to the present invention. FIG. 2 is a block diagram showing an embodiment of a boot means of a digital transmitter / receiver according to the present invention. FIG. 4 is a block diagram showing an embodiment of the operating system download method according to the present invention.
DESCRIPTION OF SYMBOLS 1 Digital broadcast receiver 2 Processing part 3 Boot means 4 Non-volatile memory 5 Initialization means 6 Mode information storage register 7 Communication means 8 CPU
9 Processing part A
10 Processing part B
11 Bus A
12 Bus B
13 Bus C
14 Mode switching means 15 Broadcast center equipment 16 Initialization position 17 Area A
18 Region B
19 Data interpreted in big endian 20 Data interpreted in little endian 21 Operating system 22 Kernel 23 Library and driver 24 Library and driver required for TV viewing 25 Library and driver required for basic TV viewing

Claims (9)

An operating system transmitted from a center facility and communication means for receiving operating environment information of the operating system, a mode information storage register for storing operating environment information received by the communication means, and an operating system received by the communication means A non-volatile memory that branches and stores in a storage area previously associated with operating environment information of the operating system, and a mode information storage register that stores the operating system branched and stored in the storage area of the non-volatile memory A digital broadcast receiver comprising processing means for performing operation processing in accordance with the operating environment information stored in. Before the processing means operates the operating system, initialization means that triggers a change or update of the operating environment information of the processing means, and the processing means according to the operating environment information stored in the mode information storage register The digital broadcast receiver according to claim 1, further comprising mode switching means for switching an operating environment at the time of initialization. The nonvolatile memory is capable of interpreting a data string accessed first regardless of the type of the operating environment information,
When the operating environment information is the first operating environment mode, the processing means associates with the first operating environment mode in advance by interpreting the first accessed data string as a first branch instruction. Access the specified storage area,
When the operating environment information is in the second operating environment mode, the processing means associates with the second operating environment mode in advance by interpreting the first accessed data string as a second branch instruction. 2. The digital broadcast receiver according to claim 1, wherein the stored storage area is accessed.   The operating environment information stored in the mode information storage register is an endian mode of the storage area in which an operating system is stored, the first operating environment mode is a big endian mode, and the second operating environment mode is 4. The digital broadcast receiver according to claim 3, wherein the digital broadcast receiver is in a little endian mode. A receiving step for receiving an operating system transmitted from a center facility and operating environment information of the operating system, an operating environment information storing step for storing operating environment information received in the receiving step, and an operating system received in the receiving step and operating system storage step of storing branch to advance the associated storage area for the operation environment information of the operating system, the storage in the operating system storage step according to the operation environment information stored in the operating environment information storing step An operating system download method comprising processing steps for operating the operating system stored in a branching area. Before the processing step, there is an initialization step that triggers a change or update of the operating environment information, and a mode switching step that switches the operating environment of the processing step according to the operating environment information stored in the operating environment information storage step. The operating system download method according to claim 5. The nonvolatile memory is capable of interpreting a data string accessed first regardless of the type of the operating environment information,
When the operating environment information is the first operating environment mode, the processing means associates with the first operating environment mode in advance by interpreting the first accessed data string as a first branch instruction. Access the specified storage area,
When the operating environment information is in the second operating environment mode, the processing means associates with the second operating environment mode in advance by interpreting the first accessed data string as a second branch instruction. 6. The operating system download method according to claim 5, wherein the stored storage area is accessed.   The operating environment information stored in the mode information storage register is an endian mode of the storage area in which an operating system is stored, the first operating environment mode is a big endian mode, and the second operating environment mode is 8. The operating system download method according to claim 7, wherein the operating system download mode is a little endian mode.   6. The operating system according to claim 5, further comprising a notification step of notifying the center facility of a service content desired by the customer and a step of downloading a necessary part of the operating system according to the service desired by the customer. How to download

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