JPWO2004025897A1 - Communication device, communication system, and management device - Google Patents

Abstract

A communication device that communicates based on a predetermined communication protocol, a protocol determination unit that determines whether a received packet received from outside is a packet based on a predetermined communication protocol, and the received packet is based on a predetermined communication protocol And a transfer unit that transfers the received packet to a predetermined protocol processing device provided outside the communication device when it is determined that the packet is not a packet.

Description

  The present invention relates to a communication device, a communication system, and a management device. In particular, the present invention relates to a communication apparatus that performs communication based on a predetermined communication protocol.

2. Description of the Related Art Conventionally, a method for managing managed devices such as communication devices based on SNMP (Simple Network Management Protocol) is known. In this case, the management device transmits and receives packets based on SNMP to the managed device to manage the managed device.
However, in order to improve security and the like, it may be desirable to use a communication protocol other than SNMP. However, when managing a managed device based on another communication protocol, a management device based on the widely used SNMP cannot be used, and the cost of the system may increase.
Then, an object of this invention is to provide the communication apparatus, communication system, and management apparatus which can solve said subject. This object is achieved by a combination of features described in the independent claims. The dependent claims define further advantageous specific examples of the present invention.

In order to achieve such an object, according to the first aspect of the present invention, a communication device that communicates based on a predetermined communication protocol, wherein a received packet received from outside is based on a predetermined communication protocol. A protocol determination unit for determining whether the packet is a packet, and a predetermined protocol provided outside the communication device when the received packet is determined not to be a packet based on a predetermined communication protocol. And a transfer unit that transfers the data to the processing device.
The protocol determination unit may determine whether the received IP address indicating the communication device is a packet based on a predetermined communication protocol. The protocol determination unit identifies the destination port number of the received packet based on the header information of the received packet. When the identified destination port number is not a predetermined value, the received packet is not a packet based on a predetermined communication protocol. The transfer unit may transfer the received packet determined not to be based on a predetermined communication protocol to the protocol processing device.
When it is determined that the received packet received from one predetermined communication terminal is not a packet based on a predetermined communication protocol, each of the communication units further includes a plurality of communication terminals that receive the received packet. Is transferred to the protocol processing device, and if it is determined that the received packet received from a communication terminal different from the predetermined one communication terminal is not a packet based on a predetermined communication protocol, the transfer unit It can be discarded.
The protocol processing device is a conversion device that converts a received packet into a conversion packet based on a predetermined communication protocol. The communication device receives the conversion packet from the conversion device, and performs processing based on the predetermined communication protocol for the conversion packet. A packet processing unit may be further provided.
The protocol determining unit identifies the destination port number of the received packet based on the header information of the received packet, and the transfer unit is based on the destination port number identified by the protocol determining unit and is at least one conversion device from the plurality of conversion devices. And the received packet may be transferred to the selected converter.
The protocol determination unit determines whether the received packet is a packet based on HTTP (Hyper Text Transfer Protocol) which is a predetermined communication protocol, and the communication device is a received SNMP which is a received packet based on SNMP (Simple Network Management Protocol). When the packet is received, the protocol determination unit determines that the received SNMP packet is not a packet based on HTTP, the transfer unit transfers the received SNMP packet to the conversion device, and the conversion device converts the received SNMP packet based on HTTP. The packet may be converted into a converted HTTP packet that is a packet, and the packet processing unit may receive and process the converted HTTP packet.
The received SNMP packet includes an instruction to set a data value in MIB (Management Information Base), and the conversion apparatus includes a conversion HTTP including an instruction to set the data value of the received SNMP packet based on XML (eXtensible Markup Language). The packet processing unit may convert the data into a packet, and set the data value in the communication device based on the converted HTTP packet.
The packet processing unit transmits a transmission HTTP packet based on HTTP including transmission information to be transmitted to the transmission source of the received packet to the conversion device, and the conversion device converts the transmission HTTP packet into a conversion SNMP packet based on SNMP. The transmission unit may transmit the converted SNMP packet to the transmission source of the received packet.
The packet processing unit transmits the transmission information, a transmission HTTP packet based on XML, to the conversion device, and the conversion device converts the transmission HTTP packet into a converted SNMP packet including a MIB data value indicating the transmission information. The transmission unit may transmit the converted SNMP packet to the transmission source of the received packet. The packet processing unit may transmit a transmission HTTP packet based on HTTP to a transmission source of the reception packet.
According to a second aspect of the present invention, there is provided a communication system that performs communication based on a predetermined communication protocol, a first communication device, a second communication device that receives a received packet from the first communication device, and a second A conversion device that receives the received packet from the communication device, converts the received packet into a converted packet based on a predetermined communication protocol, and transmits the converted packet to the second communication device; the second communication device includes: A protocol determination unit that determines whether or not a received packet received from a communication device is a packet based on a predetermined communication protocol; and when it is determined that the received packet is not a packet based on a predetermined communication protocol, the received packet is And a transfer unit that transfers the data to the conversion device.
The second communication device further includes a packet processing unit that transmits a transmission HTTP packet based on HTTP including transmission information to be transmitted to the first communication device to the conversion device, and the conversion device is based on the SNMP based on the transmission HTTP packet. The converted SNMP packet may be converted and transmitted to the second communication device, and the transfer unit may transfer the converted SNMP packet to the first communication device. When it is detected that the second communication device is in a preset state, the packet processing unit transmits a transmission HTTP packet, the conversion device converts the transmission HTTP packet into a converted SNMP packet, and the transfer unit The converted SNMP packet may be transferred to the first communication device. The second communication device may further include a packet processing unit that transmits a transmission HTTP packet based on HTTP to the first communication device.
A plurality of conversion devices, the protocol determination unit identifies a destination port number of the received packet based on the header information of the received packet, and the transfer unit performs a plurality of conversions based on the destination port number identified by the protocol determination unit At least one conversion device may be selected from the devices, and the received packet may be transferred to the selected conversion device.
Provided with a plurality of converters, the transfer unit transfers the received packet to one converter, and the one converter converts the received packet into a converted packet when the received packet is a packet based on one communication protocol. If the received packet is not a packet based on the one communication protocol, the received packet is transferred to another conversion device. If the received packet is a packet based on another communication protocol different from the one communication protocol, the other The conversion device may convert the received packet received from the one conversion device into a conversion packet, and the second communication device may receive the conversion packet.
According to the third aspect of the present invention, a management device that manages a communication device, a packet output unit that outputs a packet based on SNMP, a packet based on SNMP is converted into a packet based on HTTP, and a communication device A packet conversion unit for transmitting to the network.
The above summary of the invention does not enumerate all the necessary features of the present invention, and sub-combinations of these feature groups can also be the invention.

FIG. 1 shows an example of the configuration of a communication system 100 according to an embodiment of the present invention.
FIG. 2 shows an example of the configuration of the relay device 104a.
FIG. 3 is a flowchart illustrating an example of the operation of the communication system 100.
FIG. 4 is a flowchart illustrating an example of the operation of the relay device 104a.
FIG. 5 shows another example of the configuration of the management apparatus 102.
FIG. 6 shows an example of the hardware configuration of the information processing apparatus 25.

Hereinafter, the present invention will be described through embodiments of the invention. However, the following embodiments do not limit the claimed invention, and all combinations of features described in the embodiments are the solution of the invention. It is not always essential to the means.
FIG. 1 shows an example of the configuration of a communication system 100 according to an embodiment of the present invention. The communication system 100 includes a management device 102, a plurality of conversion devices 106a to 106c, a plurality of terminals 108a to 108c, and a plurality of relay devices 104a to 104b. Each of the plurality of relay devices 104a-b and the plurality of terminals 108a-c is an example of a communication device that performs communication based on HTTP (Hyper Text Transfer Protocol), which is an example of a predetermined communication protocol. According to the present embodiment, the relay device 104a can be managed by appropriately converting the packet transmitted from the management device 102 to the relay device 104a by any of the conversion devices 106a to 106c.
The management device 102 is an example of a communication device that manages the relay device 104a. The management apparatus 102 transmits and receives packets based on SNMP to the relay device 104a to manage the relay device 104a. The management apparatus 102 may further manage these by transmitting / receiving packets to / from the relay device 104b or the terminals 108a to 108c.
The relay device 104a is an example of a management target device of the management apparatus 102, and may be a router, for example. In the present embodiment, the relay device 104a is communicably connected to each of the management device 102, the relay device 104b, the plurality of conversion devices 106a and 106b, and the plurality of terminals 108a and 108b.
The relay device 104 a processes an instruction from the management apparatus 102 based on the received packet that is a packet received from the management apparatus 102. Here, when the received packet is not a packet based on HTTP, the relay device 104a selects one of the plurality of conversion devices 106a and 106b based on the communication protocol of the received packet. Then, the received packet is transferred to the selected conversion device 106, converted into a converted HTTP packet that is a conversion packet based on HTTP, and an instruction from the management device 102 is processed based on the converted HTTP packet.
For example, when the received packet is a packet based on SNMP, the relay device 104a transfers the received packet to the conversion device 106a. When the received packet is not a packet based on either HTTP or SNMP, the relay device 104a transfers the received packet to the conversion device 106b. The relay device 104a may transfer the received packet to the conversion device 106c via the conversion device 106b.
In addition, the relay device 104a transmits a transmission HTTP packet that is a packet based on HTTP to the conversion device 106a and converts the packet into a converted SNMP packet that is a conversion packet based on SNMP. The relay device 104a receives the converted SNMP packet from the conversion device 106a and transfers it to the management device 102. Accordingly, the relay device 104a converts transmission information to be transmitted to the management apparatus 102 into a communication protocol that can be processed by the management apparatus 102, and transmits the communication protocol to the management apparatus 102.
In another embodiment, the relay device 104a may transmit the transmission HTTP packet to the conversion device 106b or c to convert it into a conversion packet based on a communication protocol that can be processed by the management device 102. In this case, the relay device 104 a receives the conversion packet from the conversion device 106 b or c and transfers it to the management device 102.
The relay device 104b is communicably connected to each of the relay device 104a and the terminal 108c. In addition, the relay device 104b communicates with the management device 102 and each of the plurality of conversion devices 106a to 106c via the relay device 104a. Since the relay device 104b has the same or similar function as the relay device 104a except for the above points, the description thereof is omitted.
The plurality of conversion devices 106a to 106c are an example of a protocol processing device that converts received packets into converted packets based on a predetermined communication protocol. The conversion device 106a is provided outside the relay device 104a and receives a packet from the relay device 104a. Then, the converting device 106a converts the packet into a converted packet and transmits the converted packet to the relay device 104a.
For example, when a packet based on SNMP is received, the conversion device 106a converts this into a converted HTTP packet. When receiving a packet based on HTTP, the conversion device 106a converts the packet into a converted SNMP packet.
The conversion device 106a may further convert a packet received from the relay device 104b or the terminals 108a to 108c into a conversion packet and send it back to these communication devices. In this case, the conversion device 106a may store information based on packets received from the relay device 104b or the terminals 108a to 108c, and centrally manage these communication devices based on the stored information.
When receiving a packet based on the first communication protocol different from SNMP, the conversion device 106b converts this into a converted HTTP packet. When a packet based on HTTP is received, it is converted into a converted packet based on a communication protocol that can be processed by the management apparatus 102. The conversion device 106b may convert the packet based on HTTP into, for example, a converted packet based on the first communication protocol. If the received packet is not a packet based on either the first communication protocol or HTTP, the conversion device 106b transfers the packet to the conversion device 106c.
The conversion device 106c is communicably connected to the conversion device 106b, and communicates with the relay device 104a via the conversion device 106b. Then, the converter 106c converts the packet received from the converter 106b into a converted packet.
When receiving a packet based on the second communication protocol different from both SNMP and the first communication protocol, the conversion device 106c converts the packet into a converted HTTP packet. When a packet based on HTTP is received, it is converted into a converted packet based on a communication protocol that can be processed by the management apparatus 102. The conversion device 106b may convert the packet based on HTTP into, for example, a converted packet based on the second communication protocol. When the received packet is not a packet based on the second communication protocol, the conversion device 106c may further transfer the packet to another conversion device (not shown). Except for the above points, each of the plurality of conversion devices 106b to 106c has the same or similar function as the conversion device 106a, and a description thereof will be omitted.
Each of the plurality of terminals 108a to 108c is a terminal such as a personal computer, for example, and is an example of a communication device connected to the relay device 104a or b. Each of the plurality of terminals 108a to 108c may communicate with each other via the plurality of relay devices 104a to 104b, or may be connected to the Internet. In this case, the terminal 108c communicates with the relay device 104a via the relay device 104b.
In the present embodiment, each of the plurality of conversion devices 106a to 106c appropriately converts a packet transmitted from the management device 102 to the relay device 104a into a packet based on a protocol with which the relay device 104a can communicate. Thereby, the management apparatus 102 can manage the relay device 104a using the communication protocol corresponding to the relay device 104a. Therefore, according to the present embodiment, the management apparatus 102 that manages managed devices based on SNMP can manage the relay device 104a and the like that do not implement SNMP.
In the present embodiment, the management device 102, the plurality of relay devices 104a to 104b, the plurality of conversion devices 106a to 106c, and the plurality of terminals 108a to 108c each have an IP address (192.168.8.1. 1 to 192.168.1.9). Each of the management apparatus 102, the plurality of relay devices 104a to 104b, the plurality of conversion apparatuses 106a to 106c, and the plurality of terminals 108a to 108c may be connected to each other via a network such as the Internet. In addition, the communication system 100 may include, for example, a plurality of management devices 102, and may include more relay devices 104, conversion devices 106, or terminals 108.
FIG. 2 shows an example of the configuration of the relay device 104a. The relay device 104a includes a plurality of communication terminals 202a to 202f, a relay unit 204, a protocol determination unit 206, a transfer unit 208, a packet processing unit 210, and a management information storage unit 212.
Each of the plurality of communication terminals 202a to 202f is a terminal that is electrically connected to another communication device via, for example, a communication cable or wireless, receives a packet from the other communication device, and transmits the packet to the communication device. Transmit the packet to be transmitted. In the present embodiment, each of the plurality of communication terminals 202a to 202f is connected to each of the management device 102, the plurality of conversion devices 106a to 106b, the plurality of terminals 108a to 108b, and the relay device 104b.
The relay unit 204 is electrically connected to each of the plurality of communication terminals 202a to 202f, receives a received packet from each of the plurality of communication terminals 202a to 202f, and supplies the received packet to the protocol determination unit 206. In addition, the transmission packet is received from the transfer unit 208 or the packet processing unit 210, supplied to one of the plurality of communication terminals 202a to 202f, and transmitted to the corresponding communication device.
The protocol determination unit 206 determines whether the received packet received from the management apparatus 102 is a packet based on HTTP. For example, when the relay device 104a receives a received SNMP packet, the protocol determination unit 206 may determine that the received SNMP packet is not a packet based on HTTP.
Further, the protocol determination unit 206 may identify the destination port number of the received packet based on the header information of the received packet. For example, when the identified destination port number is not a predetermined value, the protocol determination unit 206 may determine that the received packet is not a packet based on HTTP.
For example, the protocol determination unit 206 refers to the IP header information of the received packet, and determines that the received packet whose destination port number is not 80 is not a packet based on HTTP. Instead, the protocol determination unit 206 determines that the received packet is not a packet based on HTTP when the destination port number is a predetermined value such as a port number of 161 indicating an SNMP communication socket. You may judge.
The protocol determination unit 206 determines whether the destination IP address indicated by the header information of the received packet is a packet based on HTTP with respect to the received packet indicating the relay device 104a. In the present embodiment, the protocol determination unit 206 performs the determination on a received packet whose destination IP address is 192.168.1.1. Thereby, for example, a packet having a destination IP address as another communication device such as the relay device 104b can be appropriately transferred.
For example, when it is determined that a received packet such as a received SNMP packet is not an HTTP-based packet, the transfer unit 208 transfers the received packet to the conversion device 106a or b. The transfer unit 208 may transfer the received packet to the conversion device 106c via the conversion device 106b.
Here, when it is determined that a received packet received from a communication terminal other than the predetermined one communication terminal is not an HTTP-based packet, the transfer unit 208 may discard the received packet. For example, when it is determined that the received packet received from the communication terminal 202a, which is one predetermined communication terminal, is not a packet based on HTTP, the transfer unit 208 transfers the received packet to the conversion device 106a or b. You can do it. On the other hand, when it is determined that the received packet received from the communication terminals 202b to 202f, which are communication terminals different from the communication terminal 202a, is not a packet based on HTTP, the transfer unit 208 may discard the received packet. As a result, the transfer unit 208 can discard an invalid management packet received from a network other than the network to which the management apparatus 102 is connected.
In this embodiment, the transfer unit 208 selects at least one conversion device 106 from the plurality of conversion devices 106a to 106c based on the destination port number of the received packet identified by the protocol determination unit 206, and selects the selected conversion device. Forward the received packet to device 106. Thereby, the converter 106 to which the received packet is to be transferred can be appropriately selected.
The management information storage unit 212 stores management information for managing the relay device 104a. For example, the management information storage unit 212 may store the management information as data based on XML (extensible Markup Language). In this case, the management information storage unit 212 can store highly available management information that can be expressed in HTML. In addition, the management information storage unit 212 may manage various data such as images and sounds in a tree structure, for example.
The packet processing unit 210 receives the converted HTTP packet from the conversion device 106, and performs processing based on the HTTP packet. For example, the packet processing unit 210 may set the data value in the management information storage unit 212 according to the setting described based on the converted HTTP packet.
Further, the packet processing unit 210 transmits a transmission HTTP packet including transmission information to be transmitted to the management device 102 that is a transmission source of the received SNMP packet to the conversion device 106a via the relay unit 204 and the communication terminal 202b. Then, the conversion device 106a converts the transmission HTTP packet into a converted SNMP packet and transmits it to the relay device 104a. The transfer unit 208 transfers the received converted SNMP packet to the management apparatus 102. Thereby, the relay apparatus 104a can transmit transmission information to the management apparatus 102 appropriately.
The packet processing unit 210 transmits, for example, a transmission HTTP packet including a data value to be sent by a GetResponse message or the like, or transmission information corresponding to a trap message based on SNMP, in response to an SNMP Get message or Set message. It's okay.
FIG. 3 is a flowchart illustrating an example of the operation of the communication system 100. First, the management apparatus 102 transmits the received SNMP packet to the relay device 104a (S102). For example, the management apparatus 102 may transmit a received SNMP packet including an instruction to set a data value in a MIB (Management Information Base). Then, the relay device 104a determines that the received SNMP packet is not an HTTP-based packet and transfers it to the conversion device 106a (S202).
Next, the conversion device 106a receives the received SNMP packet from the relay device 104a (S302), and converts it into a converted HTTP packet (S304). The conversion device 106a may convert the received SNMP packet into a converted HTTP packet including an instruction to set a data value based on, for example, XML. In this case, the converted HTTP packet may instruct the setting of data corresponding to the data instructed by the received SNMP packet. Then, the conversion device 106a transmits the converted converted HTTP packet to the relay device 104a (S306).
Next, the relay device 104a receives the converted HTTP packet from the conversion device 106a (S204), and the packet processing unit 210 processes the converted HTTP packet (S204). For example, the packet processing unit 210 may store, in the management information storage unit 212, data indicated by the converted HTTP packet based on XML. Accordingly, the relay device 104a can set the data received from the management apparatus 102.
Next, the relay device 104a transmits the transmission HTTP packet to the conversion device 106a (S208). In this case, for example, the packet processing unit 210 may transmit a transmission HTTP packet indicating transmission information based on XML.
Here, the packet processing unit 210 may transmit the transmission HTTP packet based on an instruction included in the converted HTTP packet, for example. For example, in S102, the management apparatus 102 transmits a received SNMP packet including the Get message, and in S304, the conversion apparatus 106a converts the received SNMP packet into a converted HTTP packet including an instruction corresponding to the Get message. Good. Then, the packet processing unit 210 may transmit a transmission HTTP packet including transmission information to be transmitted in response to the Get message.
Next, the conversion device 106a receives the transmission HTTP packet (S308), and converts the transmission HTTP packet into a converted SNMP packet (S310). For example, the conversion apparatus 106a may convert the transmission HTTP packet into a conversion SNMP packet including a MIB data value indicating transmission information. Then, the conversion device 106a transmits the converted SNMP packet to the relay device 104a (S312).
Next, the relay device 104a transfers the converted SNMP packet to the management device 102 (S210), and the management device 102 receives the converted SNMP packet (S104). According to the present embodiment, the management apparatus 102 that transmits and receives packets based on SNMP can manage the relay device 104a that performs communication based on HTTP.
In S208, when it is detected that the relay device 104a has been set in advance, the packet processing unit 210 transmits a transmission HTTP packet corresponding to the trap message indicating that the relay device 104a has been set. May be. In this case, in S310, the conversion device 106a may convert the transmission HTTP packet into a converted SNMP packet indicating a trap message based on SNMP. In S210, the relay device 104a may transmit a trap message to the management apparatus 102 using a converted SNMP packet received from the conversion apparatus 106a. In this case, the relay device 104a may transmit the converted SNMP packet to, for example, the port number 162 of the management apparatus 102.
FIG. 4 is a flowchart illustrating an example of the operation of the relay device 104a when a received packet is received. First, the relay device 104a receives the received packet at any of the plurality of communication terminals 202a to 202f (S402). If the received packet is a packet based on HTTP (S404), the packet processing unit 210 processes the received packet based on HTTP (S406).
On the other hand, if it is determined in S404 that the received packet is not a packet based on HTTP (S408), if the received packet is a packet received from the communication terminal 202a (S408), the transfer unit 208 receives one from the plurality of conversion devices 106a to 106c. The converter 106 is selected (S410), and the received packet is transmitted to the selected converter 106 (S412). When the received packet is a packet received from a communication terminal other than the predetermined communication terminal 202a (S408), the transfer unit 208 discards the received packet (S414).
FIG. 5 shows another example of the configuration of the management apparatus 102. In this example, the relay device 104a receives a reception HTTP packet based on HTTP from the management apparatus 102, and transmits a transmission HTTP packet based on HTTP to the management apparatus 102. In this case, for example, the packet processing unit 210 (see FIG. 2) may transmit a transmission HTTP packet.
The management apparatus 102 includes an HTTP processing unit 302 that processes packets based on HTTP. The HTTP processing unit 302 transmits a reception HTTP packet to be received by the relay device 104a, and receives a transmission HTTP packet transmitted by the relay device 104a. Thereby, the HTTP processing unit 302 manages the relay device 104a.
The HTTP processing unit 302 includes an SNMP processing unit 402 and a packet conversion unit 404. The SNMP processing unit 402 is an example of a packet output unit that outputs a packet based on SNMP to the packet conversion unit 404. The SNMP processing unit 402 also receives a packet based on the SNMP from the packet conversion unit 404 and processes it.
The packet conversion unit 404 receives a packet based on the SNMP from the SNMP processing unit 402, converts it into a received HTTP packet, and transmits it to the relay device 104a. Further, the packet conversion unit 404 converts the transmission HTTP packet received from the relay device 104a into a packet based on SNMP and supplies the packet to the SNMP processing unit 402.
According to this example, the management apparatus 102 can directly manage the relay device 104a based on HTTP. In addition, it is possible to provide a management device that implements HTTP by efficiently using design assets of a conventional management device that implements SNMP. Note that the packet conversion unit 404 may be provided outside the management apparatus 102. The packet conversion unit 404 may be another server such as the conversion device 106 (see FIG. 1), for example.
Note that the relay device 104a processes the instruction of the management apparatus 102 based on the received HTTP packet. Accordingly, the relay device 104a can perform secure communication with the management apparatus 102 by performing, for example, session management and security management.
In this example, the relay device 104a may have a Web server function, for example. In this case, the management device 102 can easily manage the relay device 104a by using a display device such as a Web browser, for example. In addition, the management apparatus 102 may communicate with the relay device 104a using the same or similar protocol as that used by the Web browser to communicate with the Web server, for example, or may communicate using another protocol defined on HTTP.
FIG. 6 illustrates an example of a hardware configuration of the information processing apparatus 25 that is an example of the management apparatus 102 according to the present embodiment. The information processing apparatus 25 includes a CPU 700, a ROM 702, a RAM 704, a communication interface 706, a hard disk drive 708, a database interface 710, a flexible disk drive 712, and a CD-ROM drive 714. The CPU 700 operates based on a program stored in the ROM 702 and the RAM 704 and controls each unit. The communication interface 706 communicates with the relay device 104 or the conversion device 106 via a computer network. The database interface 710 writes data into the database and updates the contents of the database.
The flexible disk drive 712 reads data or a program from the flexible disk 720 and provides it to the communication interface 706. The CD-ROM drive 714 reads data or a program from the CD-ROM 722 and provides it to the communication interface 706. The communication interface 706 transmits data or a program provided from the flexible disk drive 712 or the CD-ROM drive 714 to the relay device 104 or the conversion device 106. The database interface 710 is connected to various databases 724 to transmit / receive data.
The program provided to the relay device 104 or the conversion device 106 is stored in a recording medium such as the flexible disk 720 or the CD-ROM 722 and provided by the user. The program stored in the recording medium may be compressed or uncompressed. The program is read from the recording medium, installed in the relay device 104 or the conversion device 106 via the communication interface 706, and executed in the relay device 104 or the conversion device 106.
The program that implements the relay device 104 includes a protocol determination module, a transfer module, and a packet processing module. These modules are programs that cause the relay device 104 to operate as the protocol determination unit 206, the transfer unit 208, and the packet processing unit 210.
A program for realizing the conversion device 106a includes a conversion module. The module is a program that causes the conversion device 106a to operate as the conversion device 106a.
A flexible disk 720 or a CD-ROM 722 as an example of a recording medium can store a part or all of functions of the relay device 104 or the conversion device 106 in all the embodiments described in the present application.
These programs may be read and executed directly from the recording medium by the relay device 104 or the conversion device 106, or may be executed by the relay device 104 or the conversion device 106 after being installed in the relay device 104 or the conversion device 106. . Further, the program may be stored in a single recording medium or a plurality of recording media. Further, it may be stored in a form encoded by encryption, compression or the like.
As recording media, in addition to flexible disks and CD-ROMs, optical recording media such as DVD and PD, magneto-optical recording media such as MD, tape media, magnetic recording media, semiconductor memories such as IC cards and miniature cards, etc. Can be used. Further, a storage device such as a hard disk or RAM provided in a server system connected to a dedicated communication network or the Internet may be used as a recording medium, and the program may be provided to the relay device 104 or the conversion device 106 via the communication network. .
As mentioned above, although this invention was demonstrated using embodiment, the technical scope of this invention is not limited to the range as described in the said embodiment. Various changes or improvements can be added to the above embodiment. It is apparent from the description of the scope of claims that embodiments with such changes or improvements can be included in the technical scope of the present invention.

  As is apparent from the above description, according to the present invention, communication devices can be managed by appropriately converting packets transmitted by the management device.

Claims (18)

A communication device that communicates based on a predetermined communication protocol,
A protocol determination unit that determines whether a received packet received from the outside is a packet based on the predetermined communication protocol;
A transfer unit that transfers the received packet to a predetermined protocol processing device provided outside the communication device when it is determined that the received packet is not a packet based on the predetermined communication protocol; A communication device comprising: The communication apparatus according to claim 1, wherein the protocol determination unit determines whether a destination IP address is a packet based on the predetermined communication protocol with respect to the received packet indicating the communication apparatus. The protocol determination unit identifies a destination port number of the received packet based on header information of the received packet. When the identified destination port number is not a predetermined value, the received packet is Determine that the packet is not based on the communication protocol,
The communication device according to claim 1, wherein the transfer unit transfers the received packet determined not to be based on the predetermined communication protocol to the protocol processing device. A plurality of communication terminals each receiving the received packet;
When it is determined that the received packet received from the predetermined one communication terminal is not a packet based on the predetermined communication protocol, the transfer unit transfers the received packet to the protocol processing device,
When it is determined that the received packet received from the communication terminal different from the predetermined one communication terminal is not a packet based on the predetermined communication protocol, the transfer unit discards the received packet. The communication device according to claim 1. The protocol processing device is a conversion device that converts the received packet into a conversion packet based on the predetermined communication protocol,
The communication device according to claim 1, further comprising a packet processing unit that receives the converted packet from the converting device and performs processing based on the predetermined communication protocol for the converted packet. . The protocol determination unit identifies a destination port number of the received packet based on header information of the received packet;
The transfer unit selects at least one conversion device from a plurality of the conversion devices based on the destination port number identified by the protocol determination unit, and transfers the received packet to the selected conversion device. The communication device according to claim 5. The protocol determination unit determines whether the received packet is a packet based on HTTP (Hyper Text Transfer Protocol) that is the predetermined communication protocol,
When the communication device receives a received SNMP packet that is the received packet based on SNMP (Simple Network Management Protocol), the protocol determination unit determines that the received SNMP packet is not a packet based on HTTP,
The transfer unit transfers the received SNMP packet to the conversion device;
The converting device converts the received SNMP packet into a converted HTTP packet that is the converted packet based on HTTP,
The communication apparatus according to claim 5, wherein the packet processing unit receives and processes the converted HTTP packet. The received SNMP packet includes an instruction to set a data value in MIB (Management Information Base),
The conversion device converts the received SNMP packet into the converted HTTP packet including an instruction to set the data value based on XML (extensible Markup Language),
The communication apparatus according to claim 7, wherein the packet processing unit sets the data value in the communication apparatus based on the converted HTTP packet. The packet processing unit transmits a transmission HTTP packet based on HTTP including transmission information to be transmitted to a transmission source of the received packet to the conversion device,
The conversion device converts the transmission HTTP packet into a converted SNMP packet based on SNMP and transmits the converted SNMP packet to the communication device,
The communication device according to claim 7, wherein the transfer unit transfers the converted SNMP packet to a transmission source of the received packet. The packet processing unit transmits the transmission HTTP packet indicating the transmission information based on XML to the conversion device;
The conversion device converts the transmission HTTP packet into the converted SNMP packet including a MIB data value indicating the transmission information, and transmits the converted packet to the communication device.
The communication device according to claim 9, wherein the transfer unit transfers the converted SNMP packet to a transmission source of the received packet. The communication apparatus according to claim 7, wherein the packet processing unit transmits a transmission HTTP packet based on HTTP to a transmission source of the reception packet. A communication system that communicates based on a predetermined communication protocol,
A first communication device;
A second communication device for receiving a received packet from the first communication device;
A conversion device that receives the received packet from the second communication device, converts the received packet into a converted packet based on the predetermined communication protocol, and transmits the converted packet to the second communication device;
The second communication device is
A protocol determination unit that determines whether or not a received packet received from the first communication device is a packet based on the predetermined communication protocol;
And a transfer unit configured to transfer the received packet to the conversion device when it is determined that the received packet is not a packet based on the predetermined communication protocol. The second communication device further includes a packet processing unit that transmits a transmission HTTP packet based on HTTP including transmission information to be transmitted to the first communication device to the conversion device,
The conversion device converts the transmission HTTP packet into a converted SNMP packet based on SNMP and transmits the converted packet to the second communication device,
The communication system according to claim 12, wherein the transfer unit transfers the converted SNMP packet to the first communication device. When it is detected that the second communication device is in a preset state, the packet processing unit transmits the transmission HTTP packet,
The conversion device converts the transmission HTTP packet into the converted SNMP packet,
The communication system according to claim 13, wherein the transfer unit transfers the converted SNMP packet to the first communication device. The communication system according to claim 12, wherein the second communication device further includes a packet processing unit that transmits a transmission HTTP packet based on HTTP to the first communication device. A plurality of the conversion devices;
The protocol determination unit identifies a destination port number of the received packet based on header information of the received packet;
The transfer unit selects at least one conversion device from the plurality of conversion devices based on the destination port number identified by the protocol determination unit, and transfers the received packet to the selected conversion device. The communication system according to claim 12, characterized in that: A plurality of the conversion devices;
The transfer unit transfers the received packet to one conversion device;
The one converting device converts the received packet into the converted packet when the received packet is a packet based on one communication protocol, and when the received packet is not a packet based on the one communication protocol, Forward the received packet to the other conversion device;
When the received packet is a packet based on another communication protocol different from the one communication protocol, the other converter converts the received packet received from the one converter into the converted packet,
The communication system according to claim 12, wherein the second communication device receives the converted packet. A management device for managing communication devices,
A packet output unit for outputting a packet based on SNMP;
A management apparatus comprising: a packet conversion unit that converts the SNMP-based packet into an HTTP-based packet and transmits the packet to the communication device.

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