JP2005229146A - Communication control apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a communication control apparatus the maintenance of which can easily be carried out. <P>SOLUTION: A management section 102 of the communication control apparatus 101 is provided with: a processing section 121; a memory 123; and a connector unit 124. The memory 123 stores a communication control program and management information. The connector unit 124 is e.g., a USB (Universal Serial Bus) connector. An external storage device 201 such as a USB memory is connected to the USB connector 124. The communication control apparatus 101 spontaneously executes the input / output of an update program and the management information to / from the external storage device 201. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

  The present invention relates to a communication control apparatus. In particular, by connecting the communication interface of the communication control device and the communication interface of the terminal device, it is possible for the communication control device and the terminal device to spontaneously transmit and receive various information stored in each device. The present invention relates to a communication control device.

  In a network such as a local area network (LAN) or a wide area network (WAN), a communication control device such as a router or a switch is used. A terminal device such as a server or personal computer connected to the network designates a destination terminal device, and transmits data to be transmitted to the network in the form of a packet or a frame. The communication control device receives such a packet from the network and relays the packet to a destination terminal device or another communication control device according to a destination address included in the packet.

  The communication control device holds, for example, a communication control program and various control data in an internal storage device (for example, ROM, RAM, HDD, etc.) and executes these programs and data to execute the above-described packet transmission. Relay. When such programs and data for communication control are created for the purpose of adding new functions or correcting defects, etc. The update program and data are installed in the communication control device, and the communication control program and data are updated (version up).

  The update (version upgrade) of the communication control program and data is performed by, for example, a device management (or maintenance) terminal device connected to the communication control device by a device administrator or maintenance staff. It is common. In other words, device managers, maintenance personnel, etc., set portable recording media (CD-ROM, etc.) pre-stored with update programs, etc. to the terminal device, and update it to the communication control device via the terminal device. Enter the command (command). Then, update (version upgrade) is performed by causing the communication control device to read the update program from the recording medium into the internal storage device.

  Further, when a failure occurs in the communication control device itself or the network, the communication control device has a function of detecting the occurrence of the failure and collecting information on the cause of the failure. Further, the communication control device collects internal information of the communication control device, for example, control information stored in a memory or a register, as necessary. The information collected in this way is then output from the communication control device, and the cause of the failure is analyzed by the device administrator, maintenance personnel, or the like. As a technique related to such a technique, there is a technique disclosed in Japanese Patent Laid-Open No. 6-62089.

  Furthermore, the communication control apparatus may have a function of collecting statistical information such as the number of transmitted / received packets and bytes, or the number of discarded packets and bytes. In this case, the collected statistical information is used by a device administrator or the like for monitoring the network utilization rate or the congestion state. As a technique related to such a technique, there is a technique disclosed in Japanese Patent Laid-Open No. 2001-230805.

JP-A-6-62089

JP 2001-230805 A

  As described above, operations for management and maintenance of the communication control apparatus may require specialized knowledge or may be erroneously operated, and may be difficult unless the person is familiar with the operation.

  That is, in order to update (version upgrade) the communication control program and data, an operation such as inputting an update instruction (command) to the communication control apparatus is required. Therefore, when there are a plurality of communication control programs and data, there is a possibility that an erroneous operation such as erroneous specification of a command or program to be input by the operator may occur.

  Also, in order to analyze the failure information collected by the communication control device, an operation (command input or failure) for causing the communication control device to read out and output the failure information stored in the memory or the like. It is necessary to specify information). These operations require commands and complex settings specific to the communication control device, and may vary depending on the device and the type of failure, so they can only be executed by device administrators who are familiar with such operations. difficult.

  Furthermore, even when statistical information is collected by the communication control device or when the collected statistical information is used, conditions for collecting the statistical information are set for the communication control device or stored in a memory or the like. It is necessary to perform an operation (command input, failure information specification, etc.) for reading out and outputting the statistical information. These operations often require commands unique to the communication control device and complicated settings, and are difficult to execute unless the device manager is familiar with such operations.

  For this reason, the user who uses the communication control apparatus needs to secure a maintenance staff having specialized knowledge for management, maintenance, and the like, which may not be efficient.

  Therefore, the present invention provides a communication control device that can easily update the program and data (version upgrade) of the communication control device and acquire failure information or statistical information without requiring a special operation. .

  In the present invention, a communication control device that is connected to a plurality of lines and relays packets to each line, a storage unit that stores a control program or management information, a connector unit to which an arbitrary device is connected, and a connector unit A management unit including a processing unit that communicates with an arbitrary device connected to the computer.

  The processing unit further detects a connection processing by detecting that an arbitrary device is connected to the connector unit, and reads one or more commands or update control programs stored in the arbitrary device, Means for executing the above command or updating the control program stored in the storage unit by the control program for update, and means for transferring the management information stored in the storage unit to an arbitrary device and storing it.

  The communication control device includes a USB connector as the connector unit.

  In the present invention, the management terminal device is connected to the management connector of the communication control device that relays packets between lines. The terminal device stores one or more commands or an update control program or stores management information transmitted from the communication control device, a connector unit connected to the management connector via a connection medium, A processing unit that communicates with the communication control device via the connector unit is provided. When the communication control device is connected to the connector unit, the processing unit transmits the one or more commands or the update control program stored in the storage unit to the communication control device. Or means for instructing update of the control program by the control program for update, and means for instructing transmission of management information stored in the communication control device and storing the received management information in the storage unit.

  Further, the terminal device and the communication control device include a LAN connector as a connector.

  According to the present invention, the information stored in the communication control device can be output to the outside without requiring a complicated operation or maintenance personnel with specialized knowledge, or the program or data can be externally transmitted to the communication control device. Can be read.

  Embodiments of the present invention will be described below.

  1A and 1B show the configuration of a communication control apparatus in one embodiment. The communication control device is a relay device such as a router or various switches.

  1A and 1B, a communication control apparatus 101 receives a received packet according to a line control unit 104 that transmits / receives a packet to / from one or more lines constituting the network, and a destination address included in the received packet. Relay unit 103 that relays the message to the destination terminal device or other communication control device, and management unit 102 that controls and manages the entire communication control device. The line control unit 104 includes one or more connectors 141 to 14n to which various types of lines in the network are connected. The management unit 102 executes various programs, and controls a processing unit 121 that controls the relay unit 103 and the line control unit 104, a memory 123 that stores various programs, control or management information (data), and the like. Alternatively, a connector unit (interface unit) 124 for inputting / outputting management information, programs, and the like, and a display unit 125 for displaying the operating state of the connector unit 124 are provided. The processing unit 121 includes an execution memory 122 that stores a communication control program that is a basic program for the communication control apparatus 101 to operate. The memory 123 includes, for example, a communication control program, a control program for the connector unit 124 (hereinafter referred to as a connector control program), a program for collecting failure information and statistical information, various control data, and various managements. Store information. Various types of management information include collected failure information, collected statistical information, and the like. The execution memory 122 holds the same program (copy) as the communication control program stored in the memory 123. The processing unit 121 executes a communication control program stored in the execution memory 122. This is because the communication control program can be updated (upgraded) using the memory 123 while the processing unit 121 is executing the communication control program, that is, even when the communication control apparatus 101 is operating.

  In FIGS. 1A and 1B, a connector unit 124 is a USB (Universal Serial Bus) connector (USB interface). That is, the management unit 102 includes a USB connector (hereinafter referred to as a USB connector 124) as the connector unit 124. In addition, the display unit 125 includes, for example, one or a plurality of light emitting diodes (LEDs).

  In FIG. 1A, the external storage device 201 is connected to the USB connector 124. The external storage device 201 includes a storage medium 202. In FIG. 1B, the terminal device 301 is connected to the USB connector 124 via the connection cable 303. The terminal device 301 includes a storage unit 302.

  The processing unit 121 communicates with the external storage device 201 and the terminal device 301 connected to the USB connector 124 by executing a connector control program for the USB connector, and inputs / outputs various information and programs from the USB connector 124. . Specific processing by the connector control program will be described later.

  2 and 3 are both external views of the communication control apparatus 101. FIG. 2 and 3, the communication control apparatus 101 includes a USB connector 124 and a display unit 125.

  2A shows a state in which the external storage device 201 is connected to the USB connector 124 of the communication control device 101 or has been disconnected (disconnected) from the USB connector 124. FIG. A state in which the storage device 201 is connected to the USB connector 124 of the communication control device 101 is shown. Note that the external storage device 201 in FIG. 2 is, for example, a USB memory.

  FIG. 3A shows a state in which the terminal device 301 is connected to the USB connector 124 of the communication control device 101 or removed (disconnected) from the USB connector 124, and FIG. A state where the terminal device 301 is connected to the USB connector 124 of the communication control device 101 via a connection cable is shown. The terminal device 301 in FIG. 3 is, for example, a personal computer (PC) equipped with a USB connector, a personal digital assistant (PDA (Personal Digital Assistants), or the like.

  FIG. 4 specifically shows various information and programs stored in the management unit 102 and the external storage device 201 of the communication control apparatus 101, respectively. In FIG. 4, the execution memory 122 stores a communication control program 411. The memory 123 includes a plurality of storage areas, and a communication control program 411 is stored in one storage area (communication control program storage area 412). Further, management information 414 such as failure information (log file) collected at the time of failure occurrence and collected statistical information is stored in one or more other storage areas (management information storage area 413). Further, the memory 123 stores the above-described connector control program and the like in other storage areas. On the other hand, in FIG. 4, the storage medium 202 of the external storage device 201 sets data related to the device configuration or the like for the communication control program 411 (or relates to the device configuration or the like used when executing the communication control program 411). A command data file 401 including one or more command data 404 (for setting data) is stored. The storage medium 202 stores an update program 402 for the communication control program 411. The storage medium 202 may store one or both of one or more command data files 401 and the update program 402, or may not store both. Further, the storage medium 202 may include a free area 403 for storing management information 414 output from the USB connector 124 of the management unit 102. The management unit 102 and the external storage device 201 input / output the information stored in the memory 123 and the command data file 401 or the update program 402 stored in the storage medium 202 via the USB connector 124. In addition, the display unit 125 receives an instruction from the processing unit 121 and displays the connection state and communication state of the external storage device. For example, the display unit 125 is lit when the external storage device 201 is connected, flashes while the external storage device 201 and the management unit 102 are communicating, and is disconnected (disconnected) when the external storage device 201 is removed. Off).

  4 shows only the external storage device 201, the storage unit 302 of the terminal device 301 shown in FIG. 1 (b) is similar to the storage medium 202 in the command data file 401 and the update program. 402 is stored, and a free area 403 is further provided. The terminal device 301 and the management unit 102 also input / output data and programs stored therein via the USB connector 124.

  5, 6 and 7 are flowcharts showing the flow of processing of the processing unit 121 that executes the connector control program.

  Hereinafter, processing performed by the processing unit 121 according to the connector control program when the external storage device 201 is connected to the USB connector 124 as an external device will be described with reference to FIGS. 2, 4, and 5 to 7. Note that the same processing is performed when the terminal device 301 is connected to the USB connector 124 as shown in FIG.

  As shown in FIG. 5, in the management unit 102 of the communication control unit 101, when the processing unit 121 starts executing the connector control program, it is first determined whether or not an external device is connected to the USB connector 124 (step 501). ). This determination is performed, for example, according to whether or not the processing unit 121 detects an interrupt signal that is transmitted when an external device is connected to the USB connector 124. If the external device is not connected, the processing unit 121 repeats step 501. When it is determined that the external device is connected to the USB connector 124 as shown in FIG. 2B, the processing unit 121 executes connection processing as preparation for starting communication with the external device (step 503). The connection process includes, for example, identification of a connected external device, setting (installation) of an appropriate driver, and the like. With this connection process, the processing unit 121 is in a state where it can communicate with an external device. When the connection process is completed, the processing unit 121 displays on the display unit 125 that the external device is connected (step 505). The display unit 125 lights, for example, one or more LEDs.

  In the connection process (step 503), when the connected external device is specified as a device other than a storage device having a storage medium such as the external storage device 201 or the terminal device 301 (step 507), the flowchart of FIG. The process proceeds to step 707 shown in FIG. Note that the processing unit 121 may control a connected external device by executing a control program other than the connector control program in accordance with the identification result in the connection process.

  In the connection process (step 503), when the connected external device is specified as the external storage device 201 (step 507), the processing unit 121 stores the storage medium of the external storage device 201 as shown in FIG. It is determined whether the command data file 401 is stored in 202 (step 509). If the command data file 401 is stored, the processing unit 121 causes the display unit 125 to display that the command data file 401 is being processed (step 511). In this case, the display unit 125 blinks one or more LEDs or changes the color of the LED being lit. Next, the processing unit 121 reads the command data file 401 from the storage medium 202, and sequentially executes one or more command data 404 included in the command data file 401 (step 513). When two or more command data files 401 are stored in the storage medium 202 (step 515), the processing unit 121 sequentially reads the command data files 401 and executes the command data 404 included therein. (Step 517). When the processing of one or more command data files 401 stored in the storage medium 202 is completed, the processing unit 121 displays the processing completion of the command data file 401 on the display unit 125 (step 519). In this case, the display unit 125 ends the display of the command data file being processed and returns to the original display state.

  Subsequently, the processing unit 121 proceeds to the processing shown in the flowchart of FIG. Note that even if the command data file 401 is not stored in step 509 described above, steps 511 to 519 are not executed, and the process proceeds to the process shown in the flowchart of FIG. As illustrated in FIG. 6, when the processing unit 121 determines that the processing of the command data file 401 is completed or the command data file 401 is not stored in the storage medium 202, the processing unit 121 stores the communication control program in the storage medium 202. It is determined whether the update program 402 of 411 is stored (step 601). If the update program 402 is stored, the processing unit 121 causes the display unit 125 to display that the communication control program 411 is being updated (step 603). In this case, the display unit 125 blinks one or more LEDs or changes the color of the LED being lit. Next, the processing unit 121 reads the update program 402 from the storage medium 202 and stores the update program 402 in the communication control program storage area 412 of the memory 123 (step 605). As a result, the communication control program 411 stored in the communication control program storage area 412 is updated by the update program 402. When the update process of the communication control program 411 is completed, the processing unit 121 displays the update completion of the communication control program 411 on the display unit 125 (step 607). In this case, the display unit 125 ends the display during updating of the communication control program 411 and returns to the original display state.

  When it is determined that the update process of the communication control program 411 is completed or the update program 402 is not stored in the storage medium 202, the processing unit 121 stores the management information 414 in the management information storage area 413 of the memory 123. It is determined whether it has been done (step 609). When the management information 414 is stored in the management information storage area 413, the processing unit 121 determines whether there is a free area 403 having a capacity capable of storing the management information 414 in the storage medium 202 (step 611). If there is a free area 403, the processing unit 121 displays on the display unit 125 that the management information 414 is being transferred (step 613). In this case, the display unit 125 blinks one or more LEDs or changes the color of the LED being lit. Next, the processing unit 121 determines whether other management information is already stored in the storage medium 202 (step 615). The processing unit 121 assigns a name (save name) to the management information read from the memory 123 according to a predetermined rule and stores the management information in the storage medium 202. However, if another management information is stored with the same storage name as the management information already stored in the storage medium 202, the management information already stored is replaced by another management information. End up. In order to avoid such a situation, when other management information is already stored in the storage medium 202, a storage name different from the storage name of the management information is determined according to a predetermined rule (step 617). If the storage name is determined, or if other management information is not stored in the storage medium 202, the processing unit 121 further determines whether or not write prohibition to the storage medium 202 is set in the external storage device 201. (Step 619). Depending on the external storage device, there is a case where the write prohibition to the storage medium 202 is set in advance, so that the processing unit 121 detects such a setting. If writing to the storage medium 202 is not prohibited, the processing unit 121 continues to the processing of step 701 shown in the flowchart of FIG.

  If it is determined in step 611 that there is no free space 403, the processing unit 121 displays that the management information 414 cannot be transferred on the display unit 125 (step 621). Similarly, when it is determined in step 619 that writing to the storage medium 202 is prohibited, the processing unit 121 displays that the management information 414 cannot be transferred on the display unit 125 (step 623). In this case, the display unit 125 changes the above-described display during transfer to an unusable display. For example, the display unit 125 further changes the color of the LED that is blinking or lighting one or more LEDs. In either case, the processing unit 121 proceeds to the processing in step 707 shown in the flowchart of FIG.

  As shown in FIG. 7, if writing to the storage medium 202 is possible, the processing unit 121 reads the management information 414 from the management information storage area 413 of the memory 123, and stores it in the external storage via the USB connector 124. Transfer to the apparatus 201 (step 701). In this transfer process, the processing unit 121 attaches the storage name determined in step 617 to the management information 414 and writes it to the storage medium 202. At this time, the processing unit 121 monitors whether a failure (error) occurs when the management information 414 is read, output from the USB connector 124, or written to the storage medium 202. When the transfer of the management information 414 is completed (successful) without detecting the occurrence of an error (step 703), the processing unit 121 displays the transfer completion on the display unit 125 (step 705). In this case, the display unit 125 ends the display of the management information 414 being transferred and returns to the original display state.

  On the other hand, when the occurrence of any error is detected during the transfer of the management information 414 (step 703), the number of transfer attempts is added (+1) (step 715).

  The number of transfer attempts is stored in, for example, the memory 123 or another storage element, and the initial value is “0”. Alternatively, a transfer trial number counter that counts the number of transfer attempts may be provided in the management unit 102. The number of transfer attempts is set to an initial value, for example, when the communication control device 101 is started (when the management unit 102 is initially set), when the connector control program starts or ends, or when the transfer of the management information 414 is completed (when successful). Is done. Therefore, when transfer is completed in step 703, the number of transfer attempts is set to an initial value according to an instruction from the processing unit 121.

  The processing unit 121 compares the added number of transfer attempts with a predetermined number of times (specified number), and determines whether the number of transfer attempts exceeds the specified number of times (step 717). If the number of transfer attempts does not exceed the specified number, the process returns to step 701, and the transfer process of the management information 414 is executed again. If the number of transfer attempts exceeds the specified number in step 717, the processing unit 121 stops the transfer process and displays on the display unit 125 that the management information 414 cannot be transferred (step 719). The display unit 125 changes the above-described display during transfer to disabled display. Note that the processing unit 121 may determine that the transfer is stopped when the number of transfer attempts reaches a specified number.

  After step 705 or step 719 is executed, the processing unit 121 executes disconnection processing of the external storage device 201 (step 707). As described above, after the execution of step 621 or step 623, the processing unit 121 executes the cutting process (step 707). The disconnection process is a process for completely terminating communication between the processing unit 121 and the external storage device 201 so that the external storage device 201 can be normally removed from the USB connector 124. When the disconnection process is completed, the processing unit 121 displays on the display unit 125 that the external storage device 201 has been disconnected (step 709). In this case, the display unit 125 turns off one or more LEDs that have been turned on according to the connection of the external storage device 201, for example. As a result, the external storage device 201 can be removed from the USB connector 124 at any time, and the external storage device 201 is removed from the USB connector 124 at an arbitrary timing as shown in FIG.

  Furthermore, after execution of step 709, the processing unit 121 determines whether or not the update processing (step 605) of the communication control program 711 has been executed (step 711). When the update process (step 605) has not been executed (when the update program 402 has not been stored in the storage medium 202), the process returns to the process of the flowchart of FIG. When the update process (step 605) of the communication control program 411 has been executed, the processing unit 121 executes a restart process of the communication control apparatus 101 (step 713). In this restart process, the processing unit 121 ends the execution of the communication control program 411 stored in the execution memory 122 (this program has not yet been updated by the update program 402). Next, the processing unit 121 transfers the update program 402 stored in the communication control program storage area 712 of the memory 123 to the execution memory 122 and stores it. That is, the processing unit 121 copies the update program 402 to the execution memory 122. As a result, the communication control program 411 stored in the execution memory 122 is updated by the update program 402. Then, the processing unit 121 temporarily stops the entire communication control apparatus 101 and restarts it. After the restart, the processing unit 121 executes the update program 402 stored in the execution memory 122 as the communication control program 411. Further, the processing unit 121 starts execution of the connector control program, and executes the processing of step 501 shown in FIG.

  The processing unit 121 may repeat the processing of the flowcharts of FIGS. 5 to 7 by always executing the connector control program. Further, the processing unit 121 starts executing the connector control program when the external storage device 201 or the terminal device 301 is connected to the USB connector 124, and executes the connector control program by executing step 711 or step 713. You may end. Further, the processing unit 121 may periodically execute a connector control program.

  When the terminal device 301 is connected to the USB connector 124, the terminal device 301 performs the processing shown in FIGS. 5 to 7, that is, the connection processing, command data file 401 stored in the storage unit 302. The transfer process, the transfer (update) process of the update program 402, the transfer process of the management information 414 stored in the memory 123, and the disconnection process may be executed. In this case, the processing unit 121 of the communication control device 101 executes only the processing of the command data file 401 stored in the memory 123 by the terminal device 301 and the restart processing when the update program 402 is stored in the memory 123. To do.

  As described above, the communication control apparatus 101 voluntarily executes an update program and management information input / output with the external storage device 201 and the terminal device 301 connected to the USB connector 124. Therefore, there is no need for an apparatus administrator or maintenance staff with specialized knowledge for updating the communication control program or collecting management information.

  FIG. 8 shows a configuration of a communication control apparatus in another embodiment. As in the above-described embodiments, the communication control device is a relay device such as a router or various switches.

  In FIG. 8, a communication control apparatus 801 includes a line control unit 804 that transmits / receives a packet to / from one or more lines constituting a network, a destination terminal device that receives a received packet according to a destination address included in the received packet, and the like. A relay unit 803 that relays to the communication control device, and a management unit 802 that controls and manages the entire communication control device. The line control unit 804 includes one or more connectors 841 to 84n to which various types of lines in the network are connected. The management unit 802 executes various programs and controls the management unit itself, the control unit 821 that controls the relay unit 803 and the line control unit 804, and a memory that holds various programs, control or management information (data), and the like 823, a connector portion 824 for inputting / outputting control or management information, programs, and the like, and a display portion 825 for displaying the operating state of the connector portion 824. The control unit 821 includes an execution memory 822 that stores a communication control program that is a basic program for the communication control device 801 to operate. The memory 823 includes, for example, the above-described communication control program, a control program for the connector unit 824 (hereinafter referred to as a connector control program), a program for collecting fault information and statistical information, various control data, Stores various management information. Various types of management information include collected failure information, collected statistical information, and the like. The execution memory 822 holds the same program (copy) as the communication control program stored in the memory 823. The control unit 821 executes the communication control program stored in the execution memory 822. This is because the communication control program can be updated (upgraded) using the memory 823 even when the control unit 821 is executing the communication control program, that is, even when the communication control device 801 is operating. Further, the control unit 821 executes the connector control program described above, and communicates with a device connected to the connector unit 824.

  In FIG. 8, a connector unit 824 is a LAN (Local Area Network) connector. That is, the management unit 802 includes a LAN connector (hereinafter referred to as a LAN connector 824) as the connector unit 824. The display unit 825 includes, for example, one or a plurality of light emitting diodes (LEDs).

  In FIG. 8, the terminal device 901 is connected to the LAN connector 824 via the LAN cable 916. The terminal device 901 includes a processing unit 911, a storage unit 913, and a LAN connector 914. Further, a display 915 is connected to the terminal device 901. The processing unit 911 executes a LAN communication program 912 for communicating with an apparatus connected to the LAN connector 914, in addition to an OS (Operating System). The LAN communication program 912 is always activated as a resident program in the terminal device 901, for example.

  The processing unit 911 communicates with the communication control device 801 connected to the LAN connector 914 by executing the LAN communication program 912, and transmits and receives various information and programs from the LAN connector 914. Specific processing by the LAN communication program 912 will be described later.

  FIG. 9 shows an external view of the communication control device 801. In FIG. 9, the communication control device 801 includes a LAN connector 824.

  FIG. 9A shows a state in which the terminal device 901 is connected to the LAN connector 824 of the communication control device 801 via the LAN cable or removed (disconnected) from the LAN connector 824. FIG. ) Shows a state in which the terminal device 901 is connected to the LAN connector 824 of the communication control device 801 via a LAN cable. The terminal device 901 in FIG. 9 is, for example, a personal computer (PC) equipped with a LAN connector, a portable information terminal (PDA (Personal Digital Assistants), or the like.

  FIG. 10 specifically shows various types of information and programs stored in the management unit 802 and the terminal device 901 of the communication control device 801, respectively. In FIG. 10, the execution memory 822 stores a communication control program 1011. The memory 823 includes a plurality of storage areas, and a communication control program 1011 is stored in one storage area (communication control program storage area 1012). Further, one or more other storage areas (management information storage area 1013) store management information 1014 such as failure information (log file) collected when a failure occurs and collected statistical information. On the other hand, in FIG. 10, the storage unit 913 of the terminal device 901 also includes a plurality of storage areas. A command data file (also referred to as a script file) including one or more command data 1004 for setting data related to configuration etc. (or for setting data related to device configuration used when executing the communication control program 1011). 1001 is stored. In addition, the update program 1002 of the communication control program 1011 is stored in one or more other storage areas (update program storage area 1006). The storage unit 913 may store one or both of one or more command data files 1001 and the update program 1002, and may not store both. Furthermore, the storage unit 913 may include a storage area (free area) 1003 for storing the management information 1014 output from the communication control device 801. The management unit 802 and the terminal device 901 of the communication control device 801 receive the management information 1014 stored in the memory 823 and the command data file 1001 or the update program 1002 stored in the storage unit 913 from the LAN connector 824 and the LAN connector 914. Send and receive to each other. Further, the display 915 displays the connection state and communication state of the communication control device 801 in response to an instruction from the processing unit 911.

  11, 12, and 13 are flowcharts showing the flow of processing of the processing unit 911 of the terminal device 901 that executes the LAN communication program 912.

  Hereinafter, processing performed by the processing unit 911 according to the LAN communication program 912 when the terminal device 901 is connected to the LAN connector 824 of the communication control device 801 via the LAN cable 916 will be described with reference to FIGS.

  As described above, the LAN communication program 912 is always activated as a resident program in the terminal device 901. As shown in FIG. 11, the LAN communication program 912 monitors whether another device is connected to the LAN connector 914 (step 1101). This monitoring is performed, for example, depending on whether or not the processing unit 911 detects an interrupt signal (Link Up signal) that is transmitted when another device is connected via the LAN cable 916. If no interrupt signal (Link Up signal) is detected, monitoring is continued. As shown in FIG. 9B, when the LAN connector 914 of the terminal device 901 and the LAN connector 824 of the communication control device 801 are connected via the LAN cable 916, an interrupt signal is sent from the management unit 802 of the communication control device 801. (Link Up signal) is transmitted, and this signal is detected by the processing unit 911. When detecting the interrupt signal (Link Up signal) (step 1101), the processing unit 911 executes a negotiation process as preparation for starting communication with the communication control device 801 (step 1103). The negotiation process includes, for example, a process in which the processing unit 911 and the management unit 802 mutually determine and notify addresses (for example, IP addresses) used in communication. By this negotiation process, the processing unit 911 can communicate with the management unit 802 via the LAN. When the negotiation process is completed, the processing unit 911 displays on the display 915 that the communication control apparatus 801 is connected (step 1105). A display 915 displays that the communication control device 801 is connected in a predetermined format. In the following description, similarly, the display 915 displays the content instructed from the processing unit 911 in a predetermined format.

  Next, the processing unit 911 determines whether the command data file 1001 is stored in the command data file storage area 1005 of the storage unit 913 as shown in FIG. 10 (step 1107). When the command data file 1001 is stored, the processing unit 911 displays on the display 915 that the command data file 1001 is being processed (step 1109). Next, the processing unit 911 reads the command data file 1001 from the storage unit 913, transmits it to the management unit 802 from the LAN connector 914, and instructs the management unit 802 to execute the command data file 1001 (step S1). 1111). The control unit 821 of the management unit 802 receives the command data file 1001 via the LAN connector 824 and sequentially executes one or more command data 1004 included in the command data file 1001 in accordance with an instruction from the processing unit 911. When two or more command data files 1001 are stored (step 1113), the processing unit 911 sequentially reads the command data files 1001 and transfers them to the management unit 802 (step 1115). The control unit 821 of the management unit 802 sequentially receives the command data files 1001 and executes the command data 1004 included therein. When the processing of one or more command data files 1001 stored in the storage unit 913 is completed, the processing unit 911 displays the processing completion of the command data file 1001 on the display 915 (step 1117). In the management unit 802, while the control unit 821 executes the command data file 1001 according to the instruction of the processing unit 911, the display unit 825 displays that the command data file 1001 is being processed (for example, blinking LED or Light.

  Subsequently, the processing unit 911 proceeds to the processing illustrated in the flowchart of FIG. Even if the command data file 1001 is not stored in step 1107, the process proceeds to the process shown in the flowchart of FIG. 12 without executing steps 1109 to 1117.

  As illustrated in FIG. 12, when the processing unit 911 determines that the processing of the command data file 1001 is completed or that the command data file 1001 is not stored, the processing unit 911 updates the program data in the update program storage area 1006 of the storage unit 913. It is determined whether the program 1002 is stored (step 1201). When the update program 1002 is stored, the processing unit 911 displays on the display 915 that the communication control program 1011 is being updated (step 1203). Next, the processing unit 911 reads the update program 1002 from the storage unit 913, transfers it from the LAN connector 914 to the management unit 802, and stores it in the communication control program storage area 1012 of the memory 823 with respect to the management unit 802. (Step 1205). The control unit 821 of the management unit 802 receives the update program 1002 via the LAN connector 824 and stores it in the communication control program storage area 1012 of the memory 823 in accordance with an instruction from the processing unit 911. During this time, the display unit 825 displays that the communication control program 1011 is being updated (for example, the LED blinks or lights up). As a result, the communication control program 1011 stored in the communication control program storage area 1012 is updated by the update program 1002. When the update process of the communication control program 1011 is completed, the processing unit 911 displays the update completion of the communication control program 1011 on the display 915 (step 1207).

  When the update process of the communication control program 1011 is completed or when it is determined that the update program 1002 is not stored in the storage unit 913, the processing unit 911 stores the management information 1014 in the management information storage area 1013 of the memory 823. It is determined whether it has been done (step 1209). This determination is performed, for example, by notifying the management unit 802 of the presence / absence of the management information 1014 or by searching the directory in the memory 823 by the processing unit 911. When the management information 1014 is stored in the management information storage area 1013, the processing unit 911 determines whether there is a free area 1003 having a capacity capable of storing the management information 1014 in the storage unit 913 (step 1211). When there is an empty area 1003, the processing unit 911 displays on the display 915 that the management information 1014 is being transferred (step 1213). Next, the processing unit 911 determines whether other management information is already stored in the storage unit 913 (step 1215). The processing unit 911 assigns a storage name to the management information read from the memory 823 according to a predetermined rule and stores the management information in the storage unit 913. At this time, the same storage name as the management information already stored in the storage unit 913 is obtained. If other management information is already stored in the storage unit 913, a storage name different from the management information is determined according to a predetermined rule (step S1). 1217). If the storage name is determined, or if no other management information is stored in the storage unit 913, the processing unit 911 further determines whether or not write prohibition to the storage unit 913 is set (step 1219). . Since the terminal device 901 may be set in advance to prohibit writing to the storage unit 913, the processing unit 911 detects such setting. If writing to the storage unit 913 is not prohibited, the processing unit 911 continues to the processing of step 1301 shown in the flowchart of FIG.

  If it is determined in step 1211 described above that there is no reception area 1003, the processing unit 911 displays that the management information 1014 cannot be transferred on the display 915 (step 1221). Similarly, when it is determined in step 1219 that writing to the storage unit 913 is prohibited, the processing unit 911 displays that the management information 1014 cannot be transferred on the display 915 (step 1223). In any case, the processing unit 911 proceeds to the processing of step 1307 shown in the flowchart of FIG.

  As illustrated in FIG. 13, if writing to the storage unit 913 is possible, the processing unit 911 instructs the management unit 802 to transfer the management information 1014. The control unit 812 of the management unit 802 reads the management information 1014 from the management information storage area 1013 of the memory 823 and transfers it to the terminal device 901 via the LAN connector 824. During this time, the display unit 825 displays that the management information 1014 is being transferred (for example, the LED blinks or lights up). The processing unit 911 receives the management information 1014 via the LAN connector 914 and writes it in the storage unit 913 with the storage name determined in step 1217 (step 1301). In this process, the processing unit 911 monitors whether a failure (error) occurs when the management information 1014 is read, transferred from the management unit 802 to the terminal device 901, or written to the storage unit 913. When the transfer and writing of the management information 1014 is completed (successful) without detecting the occurrence of an error (step 1303), the processing unit 911 displays the transfer completion on the display 915 (step 1305).

  On the other hand, when the occurrence of any error is detected (step 1303), the processing unit 911 adds (+1) the number of transfer attempts (step 1315).

  The number of transfer trials is stored in, for example, the storage unit 913 or another storage element, and the initial value is “0”. Alternatively, a transfer trial number counter that counts the number of transfer attempts may be provided in the terminal device 901. The number of transfer attempts is set to an initial value, for example, when the terminal device 901 is activated or when the management information 1014 is transferred (successful). Therefore, when the transfer is completed in step 1303, the number of transfer attempts is set to an initial value according to an instruction from the processing unit 911.

  The processing unit 911 compares the added number of transfer trials with a predetermined number (specified number), and determines whether the number of transfer attempts exceeds the specified number (step 1317). If the number of transfer attempts does not exceed the specified number, the process returns to step 1301 and the management information 1014 transfer and write processing is executed again. If the number of transfer attempts exceeds the specified number in step 1317, the processing unit 911 stops the transfer process and displays that the management information 1014 cannot be transferred on the display 915 (step 1319). Note that the processing unit 911 may stop the transfer when the number of transfer attempts reaches a specified number.

  After execution of step 1305 or step 1319, the processing unit 911 determines whether or not the update processing (step 1205) of the communication control program 1011 has been executed (step 1307). As described above, the processing unit 911 executes Step 1307 even after Step 1221 or Step 1223 is executed. When the update process (step 1205) of the communication control program 1011 has been executed, the processing unit 911 instructs the management unit 802 to restart the communication control apparatus 801 (step 1309).

  After instructing restart, or when the update process (step 1205) has not been executed (when the update program 1002 has not been stored in the storage unit 913), the processing unit 911 communicates with the terminal device 901. A disconnection process between the control devices 801 is executed (step 1311). The disconnection process is a process for completely terminating the communication between the terminal device 901 and the communication control device 801 so that the terminal device 901 can be normally disconnected from the communication control device 801. When the disconnection process is completed, the processing unit 911 displays on the display 915 that the communication control apparatus 801 has been disconnected (step 1313). As a result, the LAN cable 916 connecting the terminal device 901 and the communication control device 801 can be removed from the LAN connector 824 (or the LAN connector 914) at any time, and the LAN cable 916 can be connected at an arbitrary timing as shown in FIG. Is removed from the LAN connector 824 (or LAN connector 914).

  Thereafter, the processing unit 911 returns to the processing of the flowchart of FIG. 11 and monitors whether another device is connected (step 1101).

  On the other hand, upon receiving a restart instruction from the processing unit 911, the control unit 821 of the management unit 802 stores the communication control program 1011 stored in the execution memory 822 (this program has not yet been updated by the update program 1002). The execution of is terminated. Next, the control unit 821 copies the update program 1002 stored in the communication control program storage area 1012 of the memory 823 to the execution memory 822. As a result, the communication control program 1011 stored in the execution memory 822 is updated by the update program 1002. Then, the control unit 821 temporarily stops and restarts the entire communication control apparatus 801. After the restart, the control unit 821 executes the update program 1002 stored in the execution memory 822 as the communication control program 1011.

  In the above description, the control unit 821 of the management unit 802 executes processing instructed from the processing unit 911 of the terminal device 901 according to the connector control program.

  Although the LAN communication program is described as a resident program, the processing unit 911 starts executing the LAN communication program when the communication control device 801 is connected to the LAN connector 914, and the execution of step 1313 causes the LAN communication program to be executed. The execution of the communication program may be terminated. Further, the processing unit 911 may periodically execute a LAN communication program.

  As described above, the terminal device 901 voluntarily executes transmission / reception of update programs and management information with the communication control device 801 connected to the LAN connector 914. Therefore, there is no need for an apparatus administrator or maintenance staff with specialized knowledge for updating the communication control program or collecting management information.

  Next, an example in which the communication control devices 101 and 801, the external storage device 201, or the terminal devices 301 and 901 in the above-described embodiments are actually applied will be described.

  For example, it is assumed that manufacturer A, which is a communication control device manufacturer, manufactures and sells the communication control device (communication control device 101) shown in FIG. Further, it is assumed that a company or individual customer B purchases one or more communication control devices from manufacturer A and installs them in an office or the like (company building or house) to construct a network.

  Manufacturer A develops an update program (version-up version) of a communication control program used in the communication control device as needed to add a new function or correct a defect. Customer B requests manufacturer A to install an update program developed as necessary. Customer B may also request manufacturer A to change the specifications of the purchased communication control device. In this case, depending on the contents of the change, it is necessary to reset data (configuration data) related to the device configuration and the like in the communication control device. Alternatively, there is a case where some trouble occurs while the customer B is using the communication control device, and the communication control device stops. Also in this case, the customer B requests the manufacturer A to analyze the cause of the failure and recover from the failure as necessary.

  In these cases, for example, it is assumed that the customer B desires the manufacturer A to expand the functions of the communication control device and introduce the update program. In addition, it is assumed that the configuration data of the communication control device needs to be reset for function expansion. In this case, manufacturer A prepares a command data file for setting configuration data necessary for function expansion in accordance with a request from customer B, and stores this command data file and an update program in the USB memory. The USB memory does not need to be a special one, and a commercially available one is used as appropriate. Then, manufacturer A sends the USB memory to customer B by using an arbitrary transportation means (for example, mail or courier service).

  When customer B receives the USB memory from manufacturer A, customer B connects the USB memory to a USB connector provided in the communication control device. Thereby, according to the flowcharts of FIGS. 5 to 7 described above, the processing unit (processing unit 121 in FIG. 1) in the communication control apparatus executes the command data file stored in the USB memory and sets the configuration data. Similarly, the communication control program is updated by the update program stored in the USB memory. The customer B can confirm the progress of the processing by referring to the display of the display unit provided in the communication control device. When the customer B confirms that the processing by the communication control device is completed, the customer B connects the USB memory to the USB connector. Remove from.

  Similarly, when analyzing a failure that has occurred in the communication control device of customer B, similarly, manufacturer A that has been contacted by customer B has a USB that has a capacity to store failure information collected in the communication control device. Prepare memory and give it to customer B. The customer B connects the received USB memory to the USB connector, waits for the failure information to be output to the USB memory, removes the USB memory, and returns it to the manufacturer A. Thus, manufacturer A can analyze the collected information and use it for recovery.

  Thus, the customer B does not need to perform any special operation in order to execute the desired process, and it is not necessary to secure a person in charge with specialized knowledge. Also, manufacturer A does not need to send a specialized maintenance staff or the like, and can respond to customer B's wishes simply by sending a USB memory.

  Next, a case where manufacturer A manufactures and sells the communication control device (communication control device 801) shown in FIG. 8 and customer B purchases it will be described.

  Similarly to the above-described example, it is assumed that the customer B desires the manufacturer A to expand the function of the communication control device and introduce the update program. In this case, manufacturer A prepares a command data file for setting configuration data necessary for function expansion according to the request from customer B, and stores the command data file and the update program in an arbitrary storage medium such as a CD-R. Store. In addition, the above-described LAN communication program is also stored in the storage medium. Of course, a commercially available storage medium may be used. The manufacturer A sends such a storage medium to the customer B by using any transportation means (for example, mail or courier service).

  Customer B prepares an arbitrary terminal device having a LAN connector, and sets the storage medium received from manufacturer A in the terminal device. Then, the customer B installs the LAN communication program stored in the storage medium in the terminal device in the same manner as the general software installation, and connects the terminal device to the LAN connector provided in the communication control device. Then, according to the flowcharts of FIGS. 11 to 13 described above, the processing unit (processing unit 911 in FIG. 8) of the terminal device transfers the command data file and update program stored in the storage medium to the communication control device for communication. Setting the configuration data and updating the communication control program is completed by causing the control device to perform processing. Customer B confirms the completion of processing by displaying the display on the terminal device, and disconnects the terminal device from the communication control device.

  The same applies to the case where a failure occurring in the communication control apparatus of customer B is analyzed. Since the failure information is written in a storage medium set in the terminal device, when the customer B returns it to the user A, the manufacturer A can analyze the cause of the failure.

  As described above, also in this case, the customer B does not need to perform any special operation in order to execute the desired process, and it is not necessary to secure a person in charge with specialized knowledge. Also, manufacturer A does not need to send a specialized maintenance staff or the like, and can meet customer B's wishes by simply sending a storage medium.

  The manufacturer A may hand over the terminal device such as a mobile PC to the customer B instead of the storage medium. In this case, since the customer B only needs to connect the terminal device to the communication control device via the LAN connector, the convenience for the customer B can be further improved.

The block diagram of the communication control apparatus in one Example. The external view of the communication control apparatus in one Example. The external view of the communication control apparatus in one Example. The conceptual diagram of the various information and program which the communication control apparatus and the external storage device each store. The flowchart of the process part 121 which performs a connector control program. The flowchart of the process part 121 which performs a connector control program. The flowchart of the process part 121 which performs a connector control program. The block diagram of the communication control apparatus in another Example. The external view of the communication control apparatus in another Example. The conceptual diagram of the various information and program which the communication control apparatus and the terminal device each store. The flowchart of the process part 911 which performs a LAN communication program. The flowchart of the process part 911 which performs a LAN communication program. The flowchart of the process part 911 which performs a LAN communication program.

Explanation of symbols

101, 801 ... Communication control devices 102, 802 ... Management units 103, 803 ... Relay units 104, 804 ... Line control unit 121 ... Processing units 122, 822 ... Execution memory 123, 823 ... Memory 124 ... USB connectors 125, 825 ... Display units 141-14n, 841-84n ... Connector 201 ... External storage device 202 ... Storage media 301, 901 ... Terminal devices 302, 913 ... Storage unit 303 ... Connection cable 814, 914 ... LAN connector 821 ... Control unit 911 ...・ Processing unit 912... LAN communication program 915... Display 916.

Claims (12)

In a communication control device that is connected to a plurality of lines, receives a packet from an arbitrary line, and relays the received packet according to a destination address included in the received packet.
A management unit comprising a storage unit for storing a control program or management information, a connector unit to which an arbitrary device is connected, and a processing unit that communicates with an arbitrary device connected to the connector unit;
The processing unit further includes means for detecting that an arbitrary device is connected to the connector unit and performing a connection process with the arbitrary device, and one or more commands stored in the arbitrary device or Means for reading an update control program through the connector unit, executing the one or more commands or updating the control program stored in the storage unit by the update control program; and storing in the storage unit And a means for transferring the stored management information to the arbitrary device via the connector unit and storing it. The communication control device according to claim 1, wherein the connector unit is a USB connector. 3. The communication control apparatus according to claim 2, wherein a USB memory is connected as the arbitrary apparatus. The communication control device according to claim 2, wherein a terminal device including a USB connector as the arbitrary device is connected via a USB cable. The communication control device according to claim 1, wherein the processing unit stores failure information or statistical information as the management information in the arbitrary device. In a communication control device that is connected to a plurality of lines, receives a packet from an arbitrary line, and relays the received packet according to a destination address included in the received packet.
A storage unit that stores a control program or management information, a connector unit to which an arbitrary device is connected, and when an arbitrary device is connected to the connector unit, a connection process is performed with the arbitrary device, and the arbitrary device One or more commands stored in the storage unit are executed, or the control program stored in the storage unit is updated by an update control program, and the management information stored in the storage unit is stored in the arbitrary device. A communication control apparatus comprising: a processing unit that transfers to the network. In a communication control device that is connected to a plurality of lines, receives a packet from an arbitrary line, and relays the received packet according to a destination address included in the received packet.
A line control unit that is connected to a plurality of lines and transmits / receives packets to / from each line, a relay unit that relays received packets according to a destination address included in the received packet, and a management that controls the line control unit and the relay unit And
The management unit includes a storage unit that stores a control program or management information, a connector unit to which an arbitrary device is connected, and a processing unit that communicates with an arbitrary device connected to the connector unit,
The processing unit detects that an arbitrary device is connected to the connector unit and performs a connection process with the arbitrary device, and one or more commands stored in the arbitrary device or for update Means for reading out a control program via the connector unit, executing the one or more commands or updating the control program stored in the storage unit by the control program for update, and management stored in the storage unit Means for transferring and storing information to the arbitrary device via the connector unit. A plurality of line connectors each connected to a line, and a management connector different from the line connector, connected to the management connector of the communication control device that relays packets received from each line to other lines A management terminal device,
A storage unit that stores one or more commands or an update control program or stores management information transmitted from the communication control device, a connector unit that is connected to the management connector via a connection medium, and the connector A processing unit that communicates with the communication control device via a unit,
When the communication control device is connected to the connector unit, the processing unit includes a means for performing connection processing with the communication control device, and one or more commands or update control programs stored in the storage unit. Means for instructing execution of the one or more commands or updating of the control program by the control program for update, and transmission of management information stored in the communication control device via the connector unit; And a means for storing the management information received via the connector unit in the storage unit. 9. The terminal device according to claim 8, wherein the connector unit is a LAN connector. 9. The terminal device according to claim 8, wherein the processing unit receives failure information or statistical information as the management information from the communication control device, and stores the failure information or statistical information in the storage unit. A maintenance method for a communication control device comprising a plurality of line connectors each connected to a line and a management connector different from the line connector, and relaying packets received from each line to other lines,
Detects that an arbitrary storage device is connected to the management connector, starts communication with the storage device, and sends one or more commands or update control programs stored in the storage device via the connector unit. Read out, execute the one or more commands, or update the control program in the communication control device by the update control program, or manage information stored in the communication control device via the connector unit A maintenance method comprising transferring to the storage device and storing the management information in the storage device. A maintenance method for a communication control device comprising a plurality of line connectors each connected to a line and a management connector different from the line connector, and relaying packets received from each line to other lines,
One or more commands or an update control program are stored in advance, or a terminal device having a storage area for storing information output from the communication control device is prepared, and the terminal device is connected to the management connector The one or more commands or the update control program is transmitted from the terminal device to the communication control device, and the one or more commands are executed in the communication control device, or the communication control is performed by the update control program. A maintenance method, comprising: updating a control program in the apparatus, or transmitting management information stored in the communication control apparatus to the terminal apparatus, and storing the management information in the terminal apparatus.

Images