JP2007281904A - Communication control system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To comparatively inexpensively obtain a communication control system capable of reliably performing the updating processing of a file to be updated such as the upgrading of a software module necessary for a slave station without imposing a load on the user of the slave station. <P>SOLUTION: A file server 100 is arranged by connection with a monitor network 10 which is separated from a transfer network 20 for transmitting/receiving a main signal. A master station 200 functions as a gateway between the file server 100 and the slave stations 300 (300A-300C) so as to form a safe communication paths between the file server 100 and the slave stations 300. Then, the slave station 300 determines the propriety of downloading by itself in starting and performs downloading from the file server 100. Downloading processing between the slave station 300 and the master station 200 is performed by using a standardized logical channel for maintenance. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an EPON (Ethernet (registered trademark) Passive Optical Network) type communication control system or the like that accommodates a plurality of slave stations with respect to one master station interface using passive optical branching elements.

  PON (Passive Optical Network) is a transmission system that connects multiple slave stations to a single master station using an optical branching element and shares an optical fiber, and is used as a means for constructing a wide-area access network represented by Internet connection services. Has been. For this reason, the system is deployed in a wide area, and the number of slave stations introduced is extremely large. Further, since the slave station is turned on by the user in the same manner as in the home general equipment, it is not always connected to the master station. Under such circumstances, the slave stations are equipped with software that implements communication services and update files such as FPGA (Field Programmable Gate Array), so there is a need for remote upgrades and additional functions. is there.

  As a basic technique for such a request, there is a method of using a communication path between a master station and a slave station and performing download by file transfer to the slave station under the control of the master station. It is assumed that a slave station is connected when implementing, and it is necessary to avoid the problem of not being downloaded to a slave station that is not connected by an operation operation.

  As a means for solving this problem, for example, as disclosed in Patent Document 1, there is a method for determining whether or not a download is necessary after establishing a communication path by starting a remote device, and when this method is applied to a PON system, Needs to hold a download file on the master station for updating the update file of the slave station.

JP-A-8-6770

  However, if the download file to the slave station is held on the master station of a large number of access systems installed, the entire system becomes a high-cost structure. Therefore, the number of files handled by multiple slave station models and manufacturers increases. It becomes difficult to cope. In addition, in order for the master station to detect the version of the slave station and determine whether it is necessary to download, it is necessary to pre-arrange the file structure in the slave station in the system in advance, and the slave station functions for future service expansion There is a possibility of restricting diversification.

  In addition, as another example that is generally performed, there is a method in which the location of a file server is disclosed to the user and accessed by the user's own operation so that the download file is downloaded and the home device is written. This method has an advantage that it can cope with the diversification of the model of the apparatus, but there is no guarantee that the download is left to the user and is thoroughly enforced. For this reason, it is not an appropriate operation method for many wireline operators whose slave station devices are included in the scope of maintenance responsibility, and it is necessary to install a file server on the transfer network through which main signals are transmitted and received. There was a problem that operation cost was high for security assurance and load reduction measures for simultaneous access.

  The present invention has been made to solve the above problems, and can reliably perform update processing of required configuration files such as version upgrades of software modules necessary for a slave station without burdening the user of the slave station. The object is to obtain a control system relatively inexpensively.

  The communication control system according to claim 1 of the present invention comprises a master station and a plurality of slave stations interconnected with the master station, and each of the slave stations has an update file that needs to be updated. And storing a configuration definition file that is connected to the master station and that defines information regarding the necessity of updating the update files required for each of the plurality of slave stations, and a download file for updating the update files that are required. A plurality of slave stations, wherein each of the plurality of slave stations causes the master station to function as a gateway between the slave stations and the file server, downloads the configuration definition file, and sets the contents of the configuration definition file. Based on this, a download process for downloading the download file as necessary is automatically performed at startup.

  In the communication control system according to claim 1 of the present invention, each of the plurality of slave stations automatically performs the above-described download process at the time of start-up, so that the download is surely performed without imposing a burden on each user of the plurality of slave stations. The effect of being able to download a file for use is achieved.

  In addition, since the file server stores the configuration files and download files for all of the multiple slave stations, the master station does not have to hold these files completely, making it relatively inexpensive as a whole system. There is an effect that can be done.

<Embodiment>
(Overview)
FIG. 1 is a block diagram showing a configuration of a communication control system according to an embodiment of the present invention.
As shown in the figure, in the embodiment, a file server 100 is installed by connecting to a monitoring network (monitoring dedicated network) 10 separated from a transfer network 20 (connected to the backbone 30) that transmits and receives main signals. Then, by causing the master station 200 to function as a gateway between the file server 100 and the slave stations 300 (300A to 300C), a safe communication path (indicated by a broken line in the figure) is established between the file server 100 and the slave stations 300. Form. The slave station 300 is configured to determine whether or not download is necessary and download from the file server 100 when it is activated and connected to the master station 200.

  The download procedure is executed between the slave station 300 and the master station 200 using a standardized logical channel for maintenance. At this time, a standardized file transfer protocol used on the Internet is encapsulated on the maintenance channel. The master station 200 implements a gateway with a simple function of transferring the protocol on the maintenance channel to the Internet protocol.

  Prior to determining whether the slave station 300 needs to be downloaded, the configuration definition file 120 is first downloaded from the server, and the model information and the number of necessary files of the target slave station 300 are described in the configuration definition file 120. ing. Therefore, when the slave station 300 executes the download as necessary in accordance with the description contents of the configuration definition file 120, even if the slave station 300 to be newly introduced in the future is targeted, the download can be performed without changing the operation system. .

  The operation seat 150 is connected to the file server 100 and the master station 200 via the monitoring network 10, and stores the necessary files in the file server 100 and authenticates the slave station to the master station in order to open the slave station. Registers information and performs master station setting processing such as parameter setting. Also, processing such as reading and confirming the download progress status of the slave station 300 from the operation seat 150 can be performed.

  In FIG. 1, only one parent station 200 is shown for convenience of explanation, but in an actual communication control system, one file server 100 corresponds to a plurality of parent stations 200.

(Gateway function)
FIG. 2 is an explanatory diagram schematically showing the contents of transfer of the maintenance signal to the Internet protocol by the gateway function of the master station 200. As shown in the figure, when data is transmitted from the slave station 300 to the file server 100, the slave station 300 transmits a maintenance signal S300 to the master station 200. The maintenance signal S300 includes a header part S300h, a data packet part S300p, and a trailer part S300t.

  FIG. 3 is an explanatory diagram showing details of the internal structure of the maintenance signal S300 transmitted and received between the master station 200 and the slave station 300. As shown in the figure, an address part d11, a frame type part d12, an extension identifier part d13, a length part d14 and a protocol type part d15 are described as the header part S300h, and a protocol data part d16 is described as the data packet part S300p. CRC-32 part d17 is described as trailer part S300t.

  In the header part S300h, the address part d11 specifies the address of the destination and the transmission source, the frame type part d12 specifies information indicating a maintenance signal, and the extended identifier part d13 specifies information indicating non-standard data. . The length part d14 defines the protocol type part d15 and the bit length L15 in the protocol data part d16. The protocol type part d15 includes protocols such as SNMP (Simple Network Management Protocol) and TFTP (Trivial File Transfer Protocol). An identifier indicating the type is defined. Note that the length part d14 and the protocol type part d15 are not headers defined in the standard but are unique, and the contents and length are given before in order to encapsulate the entire packet.

  In the data packet part S300p, packet data such as SNMP and TFTP is stored in the protocol data part d16. Further, error check information is defined in the CRC-32 part d17 of the trailer part S300t.

  The master station 200 receives the maintenance signal S300, extracts only the data packet part S300p in the maintenance signal S300, uses the extracted data packet part S300p as it is as the data packet part S200p, and defines a header part S200h that defines header information such as an IP address. And a trailer unit S200t are added to obtain an internet protocol packet S200. Then, the master station 200 transmits an Internet protocol packet S200 to the file server 100 via the monitoring network 10.

  2 and 3 show data transmission from the slave station 300 in the direction of the file server 100. Similarly, when transmitting data from the file server 100 to the slave station 300, the Internet transmitted from the file server 100 is used. In the protocol packet S200, the master station 200 uses the data packet part S200p in the Internet protocol packet S200 as it is as the data packet part S300p, and a maintenance signal to which a header part S300h and a trailer part S300t such as address information for maintenance signals are added. After being encapsulated in S300, it is transmitted to the slave station 300.

  In this way, the data packet part S300p in the maintenance signal S300 transmitted from the slave station 300 is encapsulated as it is in the data packet part S200p in the Internet protocol packet S200, and is transmitted from the file server 100. The data packet part S200p in the packet S200 is directly encapsulated in the maintenance signal S300 as the data packet part S300p, so that data transmission / reception between the file server 100 and the slave station 300 using the parent station 200 as a gateway is possible. The above-described encapsulation is performed by the gateway control unit 212 in the master station 200.

(Detailed configuration)
The detailed configuration of the communication control system according to the embodiment will be described below. As shown in FIG. 1, the file server 100 stores various program files 110, 111, and 112 for downloading to the slave station 300. The program files 110 to 112 are download files in which software modules to be updated to be executed on the slave station 300 are described, for example, and are stored on the file server 100 together with the configuration definition file 120. In order to receive an optimal service on the communication control system, the slave station 300 needs to be operated with the latest software module that matches the model used.

  The slave station 300 can first download the configuration definition file 120 from the file server 100 using the maintenance channel when connected to the master station 200 via the optical branching element 50. The slave station 300 knows, for example, a file name as information for specifying the configuration definition file 120 in advance, and can request transfer of the configuration definition file 120 existing in the file server 100 by specifying the file name.

  FIG. 4 is an explanatory diagram showing an example of the contents of the configuration definition file 120. As shown in the figure, the configuration definition file 120 is stored as the file name “kokyoku.inf” on the home directory of the file server 100. The configuration definition file 120 includes model code information for identifying a slave station, version information indicating the version of a software module that can be operated on the slave station 300, and file information indicating the location of a download file (such as an update software module). Is stored. Further, depending on the model, parameter (version) information that defines versions of various parameters required by the slave station 300, P file information indicating the location of a parameter update download file (P file), and the like are stored.

  The slave station 300 recognizes the type and version of the file existing on the file server 100 according to the contents of the configuration definition file 120, takes out information (for example, file name) specifying the target file, and program files 110 to 112 as necessary. Select to download. For example, when the model type of the slave station 300A is specified as “kokyoku1”, the version information “F / W.099” defined in the configuration definition file 120 and the operation (save) of its own software module By comparing with the version, it is possible to determine whether the program file needs to be downloaded.

  In this way, the slave station 300 can recognize whether or not there is a need to update the software module in operation by verifying the contents of the configuration definition file 120. That is, the configuration definition file 120 defines information regarding the necessity of updating the software module in each slave station 300.

  The term described in the configuration definition file 120 may be any term that can be interpreted on the slave station 300 side (so-called reserved word), and is not limited to the example shown in FIG. A number may be used as long as it is determined between the slave station 300 and the side defining the configuration definition file 120.

  Then, when the necessity for downloading occurs, the slave station 300, based on “m / mod / software99.bin” that is the file information of “kokyoku1” obtained from the configuration definition file 120, the substation under the home directory. The program file 111 (“software99.bin”) existing under the subdirectory “mod” under the directory “m” can be selected and downloaded.

  FIG. 5 is a block diagram showing a detailed configuration example of the slave station and the master station. As shown in the figure, the master station 200 terminates the standardized line control signal among the signals received by the line interface unit 201 from the slave station 300 via the optical branching element 50, and maintains the maintenance signal S300. The configuration is such that the signal is sent to the signal termination unit 203 and the others are sent to the transfer network interface unit 202 as main signals. In this specification, “termination” means that the signal (in the above example, the line control signal) is extracted and processed at this portion, and is not transferred to the other.

  The monitoring control unit 210 is connected to the file server 100 on the monitoring network 10 side using the Internet protocol via the monitoring network interface unit 211 that receives the Internet protocol packet S200.

  The gateway control unit 212 relays between the monitoring network interface unit 211 and the maintenance signal termination unit 203, and data packet units (S300p, S200p) such as a file transfer protocol stored in the maintenance signal S300 and the Internet protocol S200, respectively. Are subjected to the above-described encapsulation processing and transferred to the mutual interface units 211 and 201. Further, the gateway control unit 212 has a function of copying the file data from the file transfer protocol in the data packet unit S200p and storing it in the cache unit 220 simultaneously with the relay between the monitoring network interface unit 211 and the maintenance signal termination unit 203. Yes.

  Accordingly, when the file requested to be downloaded from the slave station 300 already exists in the cache unit 220, the gateway control unit 212 sets the relay destination as the file transfer protocol termination unit 213 instead of the monitoring network interface unit 211, and the slave station 300 The download from the cache unit 220 via the file transfer protocol termination unit 213 is enabled.

  The slave station 300 terminates the standardized line control signal among the signals received via the line interface unit 301, sends the maintenance signal S300 to the maintenance signal termination unit 303, and the others as the main signals. Can be sent to. The user interface unit 302 is connected to the home device 60.

  The control unit 310 includes a configuration definition file holding unit 311, a file transfer protocol termination unit 315, an SNMP agent 330, saved file information 331, and operation information 332.

  After receiving the download start instruction via the master station 200, the control unit 310 downloads the configuration definition file 120 from the master station 200 or the file server 100 via the file transfer protocol termination unit 315, and holds the configuration definition file. The contents of the configuration definition file 120 are stored in the part 311.

  Next, the control unit 310 scrutinizes the model information and version information of the file described in the held configuration definition file 120 and saves the file 321 or 322 stored in the file storage unit 320 (here, Version information of “saved file 321” can be recognized from the saved file information 331.

  Further, the control unit 310 manages the currently operating version as the operation information 332 in addition to the version information of the file stored in the storage file 321. Therefore, the control unit 310 can also determine that the version of the file stored in the file storage unit 320 is different from the active version immediately after the download is performed, for example.

  FIG. 6 is a flowchart showing an algorithm of download necessity determination and execution processing executed under the control of the control unit 310. Hereinafter, the implementation content will be described with reference to FIG. Note that the processing shown in FIG. 6 means processing after a state in which the contents of the configuration definition file 120 are held in the configuration definition file holding unit 311.

  First, in step S1, the configuration definition file 120 is checked for the presence of a description that matches its model code, and if it exists (Yes), the process proceeds to step S2. On the other hand, if it does not exist in step S1 (No), it is determined that it is not necessary to download the download file, and the process ends.

  In step S2, the version information defined in the configuration definition file 120 and the operation version information in the current operation state defined in the operation information 332 are compared. If they do not match (No), the process proceeds to step S3. On the other hand, if they match in step S2 (Yes), it is determined that the download is not necessary, and the process is terminated.

  In step S 3, the version information defined in the configuration definition file 120 is compared with the version information (saved version information) of the file saved in the file saving unit 320 specified in the saved file information 331. In the case of (No), it is determined that there is a need for downloading, and the process proceeds to step S4. On the other hand, if they match in step S3 (Yes), it is determined that the download file for updating the software module is already stored in the file storage unit 320, and is restarted in step S6 and described in the download file. The updated software module is executed, and the software module update process is terminated.

  On the other hand, in step S4 that is executed when it is determined No in step S3, one of the target program files 110 to 112 from the file server 100 via the master station 200 (hereinafter referred to as the program file 110). Download. At this time, if the program file 110 already exists in the cache unit 220 of the master station 200, the program file 110 is downloaded from the cache unit 220 of the master station 200 in place of the file server 100.

  In step S 5, the downloaded program file 110 is stored in a nonvolatile manner in the storage file 321 or 322 in the file storage unit 320.

  Thereafter, the update process is terminated by restarting in step S6 and executing the program file 110 (download file) held in the file storage unit 320.

  As described above, when the models described in the configuration definition file 120 match and the stored versions are different based on the comparison results between the operating version and the stored version of the software module operating in the slave station 300, the control unit 310. Downloads the necessary program file 110 from the master station 200 or the file server 100 and stores it in the file storage unit 320 in a nonvolatile manner.

  Note that the control unit 310 of the slave station 300 has an SNMP agent 330. The SNMP agent 330 recognizes the version information of the software module installed in the slave station 300, the progress status and results of the download, and saves the file. The version information of the file stored in the unit 320 can be stored as stored file information 331, and the version information of the currently operating software module can be stored as operating information 332, respectively.

  The SNMP manager 230 of the master station 200 collects the version information from the SNMP agent 330 using the SNMP protocol, and the collected information is managed by the monitoring control unit 210.

  The collected information is used for download control of the master station 200 and is accumulated in the monitoring control unit 210. Therefore, the operation seat 150 can recognize the collected information (such as the download progress status and the slave station 300 version information) from the monitoring control unit 210.

  Note that the data transmission / reception between the SNMP manager 230 of the master station 200 and the SNMP agent 330 of the slave station 300 described above is the data described in the protocol data part d16 in the data packet part S300p in the maintenance signal S300 shown in FIG. Is done by.

  FIG. 7 is an explanatory diagram showing a download state between the file server 100 and the slave station 300 using the master station 200 as a gateway. Hereinafter, the download process by the slave station 300 will be described with reference to FIG.

  First, in step ST1, a line connection process is performed in which the slave station 300 is connected to the master station 200 via the optical branching element 50 by executing a startup process such as turning on the power. Thereafter, data transmission / reception between the slave station 300 and the master station 200 is performed between the line interface unit 301 of the slave station 300 and the line interface unit 201 of the master station 200 via the optical branching element 50. On the other hand, transmission / reception between the parent station 200 and the file server 100 is performed between the monitoring control unit 210 of the parent station 200 and the file server 100 via the monitoring network 10.

  Next, in step ST2, download prior confirmation processing is performed. As shown in FIG. 7, when information indicating that the download is valid is transmitted in advance from the operation seat 150 to the monitoring control unit 210 and the line interface unit 201 of the master station 200, the line interface unit 201 of the master station 200 transmits the slave station. An instruction to start downloading is given to 300. When the slave station 300 receives this start instruction, a response indicating that it has been received is sent back to the master station 200, whereby the download prior confirmation process is completed. The download start instruction includes an accompanying instruction such as whether or not to allow the slave station 300 to restart after downloading. In addition, since the instruction to enable download is given in advance by the operation seat 150, the download period can be set systematically on the operation seat 150 side.

  Thereafter, in step ST3, a configuration definition file acquisition process is executed. First, when the slave station 300 transmits a reception request for the configuration definition file 120 to the master station 200, the master station 200 normally requests the file server 100 to receive the configuration definition file 120, and the configuration definition file is received from the file server 100. 120 is received, and the received configuration definition file 120 is transmitted to the slave station 300 and is temporarily stored in the cache unit 220. If the configuration definition file 120 is already held in the cache unit 220, the configuration definition file 120 is directly transmitted from the cache unit 220 of the master station 200 to the slave station 300 without accessing the file server 100. The Then, a response indicating that the data has been received is returned from the slave station 300 to the master station 200, whereby the configuration definition file acquisition process is completed.

  Next, in step ST4, download necessity determination processing is executed. That is, the slave station 300 recognizes the contents of the configuration definition file 120 and determines whether or not it is necessary to download a new download file (such as the program file 110) in order to update (upgrade) the software module. To do. The details correspond to the processing of steps S1 to S3 in the flowchart shown in FIG. If it is determined that there is a download necessity in the download necessity determination process, the process proceeds to step ST5 as shown in FIG.

  In step ST5, a download execution process is performed. First, when the slave station 300 transmits a reception request for the target program file (assumed to be the program file 110) to the master station 200, the master station 200 normally requests the file server 100 to receive the program file 110, The program file 110 is received from the file server 100, and the received program file 110 is transmitted to the slave station 300 and is temporarily stored in the cache unit 220. If the program file 110 is already held in the cache unit 220, the program file 110 is directly transmitted to the slave station 300 from the cache unit 220 of the master station 200 without accessing the file server 100. Then, the download execution process is completed by returning a response indicating that the data has been received from the slave station 300 to the master station 200.

  Next, after a file storage process (corresponding to the process of step S5 in FIG. 6) is performed in step ST6, a restart process (corresponding to the process of step S6 in FIG. 6) is performed in step ST7. The slave station 300 completes the update (upgrade) process by operating the latest program file 110 stored in the file storage unit 320. In steps ST3 and ST5, transmission / reception between the file server 100 and the monitoring control unit 210 or between the line interface unit 201 and the slave station 300 is repeated because data is transmitted and received in multiple times. Means.

  As described above, since the slave station 300 automatically performs the download process at the time of activation, the communication control system according to the present embodiment reliably performs the configuration definition file 120 and the program without imposing a burden on the user of the slave station 300. There exists an effect which can perform the download process of the files 110-112.

  Furthermore, since the file server 100 stores the configuration definition file 120 and the program files 110 to 112 for all of the plurality of slave stations 300, the master station 200 does not have to hold these files completely, so that the entire system As a result, it can be realized at a relatively low cost.

  Further, the configuration definition file acquisition process in step ST3 and the download execution process in step ST5 are performed between the master station 200 and the slave station 300 by the maintenance signal S300 using the maintenance logical channel as described above. Between the master station 200 and the file server 100, since it is performed by the Internet protocol packet S200 through the monitoring network 10 isolated from the transfer network 20 through which the main signal is transmitted and received, confidentiality and safety in operation are ensured. There is an effect that can be.

  Furthermore, since the master station 200 includes the cache unit 220, in the configuration definition file acquisition process in step ST3 and the download execution process in step ST5, a download file (configuration definition file 120 or program file 110 to 110) is stored in the cache unit 220. 112) already exists, the download file can be transmitted from the cache unit 220 to the slave station 300 without accessing the file server 100. As a result, the load on the monitoring network 10 between the file server 100 and the master station 200 associated with simultaneous download processing of a large number of slave stations can be distributed. Even if the monitoring network 10 is used, downloading on the monitoring network 10 can be performed without any trouble.

  Note that the download process is an example in which a download valid instruction is given from the operation seat 150 prior to the start of the sequence so as to be executed systematically during operation. Since the control of the slave station 300 is started after this instruction reaches the slave station 300, for example, an incidental instruction such as whether or not the restart of the slave station 300 is permitted after the download is given at the download start instruction in step ST2, etc. Can be added to.

  In the present embodiment, the update required file is a software module and the download file is an example of the program file for updating the software module. However, the parameters, FPGA codes, and the like shown in FIG. If the station 300 is a file that needs to be updated, it corresponds to an update required file. For example, when an FPGA code is an update-needed file, the download file becomes a new FPGA code.

It is a block diagram which shows the structure of the communication control system which is embodiment of this invention. It is explanatory drawing which shows typically the transfer content to the internet protocol of the maintenance signal by the gateway function of a master station. It is explanatory drawing explaining the detail of the internal structure of the maintenance signal transmitted / received between a master station and a slave station. It is explanatory drawing which shows an example of the content of a structure definition file. It is a block diagram which shows the detailed structural example of a slave station and a master station. It is a flowchart which shows the algorithm of a download necessity judgment and execution process performed under control of the control part of a slave station. It is explanatory drawing which shows the download condition between the file server which made the main station the gateway, and a substation.

Explanation of symbols

10 monitoring network, 20 forwarding network, 50 optical branching element, 100 file server, 110-112 program file, 120 configuration definition file, 200 master station, 201, 301 line interface unit, 203, 303 maintenance signal termination unit, 211 monitoring network Interface unit, 212 Gateway control unit, 300, 300A to 300C Slave station, 310 control unit, 311 configuration definition file holding unit, 320 file storage unit, 321, 322 storage file, 331 storage file information, 332 operation information.

Claims (4)

With the master station,
A plurality of slave stations interconnected with the master station, each of the plurality of slave stations having update files that need to be updated,
A file that is connected to the master station and stores a configuration definition file that defines information on the necessity of updating the update required files of each of the plurality of slave stations, and a download file for updating the update required files A server,
Each of the plurality of slave stations causes the master station to function as a gateway between the slave station and the file server, downloads the configuration definition file, and based on the contents of the configuration definition file, the The download process to download the download file is automatically performed at startup,
Communication control system. The communication control system according to claim 1,
The plurality of slave stations and the master station are PON (Passive Optical Network) type communication using an optical branching element, and the download process between the master station and the slave station is executed using a maintenance logical channel,
The file server is connected to the master station on a monitoring network separated from a main signal network.
Communication control system. The communication control system according to claim 1 or claim 2,
The master station has a cache unit that temporarily stores the configuration definition file and the download file received from the file server at the time of the download process, and the file to be downloaded by the slave station exists in the cache unit If so, the download target file is transmitted from the cache unit on behalf of the file server to the slave station.
Communication control system. The communication control system according to any one of claims 1 to 3, wherein
The update required file includes a software module executed on the slave station,
The download file includes a program file for updating the program.
Communication control system.

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