KR100612443B1 - Apparatus and method for processing arp data in network - Google Patents

Abstract

The present invention relates to a network system having a redundancy structure, and more particularly, when switching from an active server to a standby server during communication between an arbitrary host and an active server is minimized, communication delay between the standby server and the host is minimized. It's about making things happen.

Redundancy Structure, Transfer, Network System, ARP

Description

AP information processing apparatus and method through a network {APPARATUS AND METHOD FOR PROCESSING ARP DATA IN NETWORK}

1 is a diagram illustrating a general network system.

FIG. 2 is a flow chart showing the communication procedure between the network system and any host shown in FIG.

3 is a diagram illustrating a server having a redundant structure according to the present invention.

FIG. 4 is a flow chart of operations performed in the standby server when the standby server of FIG. 3 transitions from the standby state to the active state.

5 is a flow diagram illustrating one embodiment of a communication procedure between a server having a redundant structure and any host in accordance with the present invention.

<Explanation of symbols for the main parts of the drawings>

300: active server 302: standby server

302a: host information storage unit

The present invention relates to a network system having a redundancy structure, and more particularly, when a switchover is performed from an active server to a standby server during communication between an arbitrary host and an active server, communication delay between the standby server and the host is reduced. ARP information processing apparatus and method for minimizing

Today's telecommunications is rapidly evolving to provide low prices and high quality services. With the spread of the Internet, we are moving away from schools, companies and research institutes into the home network era.

The proliferation of networks will play a more important role as the main means of information exchange using communication networks in the information age.

In this situation, the redundancy system provides a stable and reliable service to the communication network (network), which is an important means of information exchange, so that users can receive various low-cost services without interruption.

In order to realize a redundant system, an active device and a standby device are required. The active device is the main device, which handles all operations, and the standby device is a secondary device, which does not perform any operation externally, but executes a backup of all data stored in the active device.

Thus, in the event of a catastrophic failure of the active device, the system switches over to allow the standby device to continue running without interruption of the stored and ongoing work. In a sensitive system such as a communication system, a fault can occur inadvertently, so the active device and the standby device always need to match the states of the two boards through appropriate communication protocols.

Network systems include routers or switches. It is divided into access, edge, and core devices according to functions and processing capacity in the network. Redundancy on the main processor of the core device must be supported by default, and in some cases, the edge device also needs redundancy.

1 is a diagram in which a network system in which such duplication is performed and an arbitrary host are connected by Ethernet to perform communication.

Referring to FIG. 1, a host 102, an active server 104, and a standby server 106 are formed, and each of them is connected to the Ethernet 100.

Here, the IP address of the host 102 is "172.16.1.3", the hardware address is "0800.0020.1111", the IP address of the active server 104 is "172.20.1.1", and the hardware address is "0000.0C00. 1111 ", the IP address of the standby server 106 is" 172.20.1.1 ", and the hardware address is" 0000.0B00.1111 ".

In general, the hardware address of all devices connected by Ethernet is expressed as a MAC address. Therefore, the hardware addresses of the host 102, active server 104, and standby server 106 are represented by MAC addresses.

The communication between the host 102, the active server 104, and the standby server 106 is in the form of a packet. The packet includes hardware address information of a device that transmits a packet and hardware address information of a device that receives a packet. , The IP address information of the device that sent the packet, the IP address information of the device that receives the packet, and the data to be transmitted.

For example, when the host 102 transmits a packet to the active server 104, the packet includes the IP address "172.16.1.3" of the host 102, the hardware address "0800.0020.1111" of the host 102, and the packet. IP address "172.20.1.1" of the active server 104, hardware address "0000.0C00.1111" of the active server 104, and data to be sent are included.

2 is a flowchart illustrating a communication procedure between a network system and a host in which redundancy is shown in FIG. 1.

2, the host 102 transmits a packet to the active server 104 (S10). The packet transmitted to the active server 104 includes the IP address " 172.20.1.1 of the active server 104 on the receiving side. And the hardware address "0000.0C00.1111", the IP address "172.16.1.3" and the hardware address "0800.0020.1111" of the host 102 on the sending side, and data information to be sent.

The host 102 has an ARP (Address Resolution Protocol) table. The ARP table includes an IP address entry indicating IP address information of a receiving side to which the host wants to send data, a hardware address entry indicating hardware address information, and valid time information indicating an effective time of the ARP table.

In general, the validity time of the ARP table may be determined between 30 seconds and 5 minutes.

Here, the valid time information of the ARP table for the active server 104 in the host 102 is set to 5 minutes.

When a transfer occurs between the active server 104 and the standby server 106 while a packet is transmitted from the host 102 to the active server 104, and is switched from the active server 104 to the standby server 106 (S12). The host 102 transmits the packet to the active server 104 during the valid time of the corresponding ARP table (S14).

Here, the switching between the active server 104 and the standby server 106 means that the standby server is active due to hardware defects or software defects of the active server or switching between the active server and the standby server by the administrator of the network communication system. To perform a server function.

In step S14, the packet transmitted from the host 102 to the active server 104 is lost without being transmitted to the active server 104 during the valid time of the ARP table. This continues to occur until the valid time of the ARP table is reached (S16).

When the valid time of the ARP table is expired, the host 102 transmits an ARP request message (ARP Request) to the Ethernet 100 (S18). The ARP request message is transmitted to the active server 104 and the standby server 106, which includes hardware address information "172.20.1.1", which is the IP address of the network communication system at the host 102. Since the hardware address information has not been determined yet, it is recorded as "0".

The ARP request message is transmitted to the active server 104 and the standby server 106 via the Ethernet (100). The active server 104 cannot respond to the ARP request message because the switchover to the standby server 106 is made, and the standby server 106 responds to the ARP request message. The standby server 106 updates its ARP table in response to the ARP request message (S20).

Thereafter, after the standby server 106 updates its ARP table, the standby server 106 generates an ARP response message (ARP Response) in response to the ARP request message and transmits it to the host 102 through the Ethernet 100 (S22). . The ARP response message includes the IP address "172.20.1.1" of the standby server 106 and the hardware address "0000.0B00.1111" of the standby server 106.

The host 102 updates its ARP table using the ARP response message transmitted through the Ethernet 100 (S24). The ARP table of the host 102 newly registers with the validity time information of the IP address "172.20.1.1" for the standby server 106 and the hardware address "0000.0B00.1111" and the ARP table of the host 102. do.

Thereafter, when the host 102 intends to transmit the packet to the network communication system, the host 102 transmits the packet to the standby server 106 (S26).

As described above, when a switchover is performed from the active server to the standby server while communication between the active server and the host is performed, the host 102 performs IP address information on the active server 104 registered in its ARP table. The packet is transmitted to the active server 104 until the hardware address information is deleted. Thus, packets sent from the host 102 to the active server 104 are lost. Then, communication is performed until the IP address information and hardware address information of the active server 104 are deleted from the entry of the ARP table of the host 102 and the IP address information and hardware address information of the standby server 106 are registered. The problem arises.

Accordingly, the present invention was devised to solve the above problems, and in the case where a switchover is performed from an active server to a standby server during communication between an arbitrary host and an active server in a network system having a redundant structure, the standby It is an object of the present invention to provide an ARP information processing apparatus and method through a network which minimizes communication delay between a server and a host.

ARP information processing method of a server having a duplex structure according to an aspect of the present invention for achieving the above object, when the server receives a packet from any host through the network, the transfer of the server occurs, the The transfer server extracts host information stored in its database to generate an ARP request message, and transmits the ARP request message to the host through the network, wherein the transfer server requests the ARP request from the host. If the ARP response message for the message is received through the network, updating the ARP information included in the ARP response message to the database.

The ARP request message includes at least one of IP address information and hardware address information of the server where the switching is performed.

The ARP response message includes at least one of IP address information and hardware address information of the host.

ARP information processing method of a terminal performing communication with a server having a duplex structure according to another aspect of the present invention for achieving the above object, when an abnormality occurs in the server having the duplex structure, the switching of the server, Receiving an ARP request message transmitted from a server that has been transferred through the network, Updating its own ARP information according to the information contained in the ARP request message, After updating the ARP information, in response to the ARP request message Generating an ARP response message and transmitting the ARP response message to the server where the transfer is made;

The ARP request message includes at least one of IP address information and hardware address information of the server where the switching is performed.

The ARP response message includes at least one of IP address information and hardware address information of the terminal.

In the server having a redundant structure of an active server and a standby server according to an aspect of the present invention for achieving the above object, the ARP information processing apparatus of the standby server includes an ARP information storage unit for storing the ARP information for a plurality of hosts; ; When the transfer is made from the active server to the standby server, the host information stored in the ARP information storage unit is extracted to generate an ARP request message, the ARP request message is transmitted to the corresponding host through a network, and the ARP request message When an ARP response message is received from the host, the ARP information included in the ARP response message is updated to the ARP information storage unit.

In the ARP information processing apparatus of the standby server, the ARP request message includes at least one of IP address information and hardware address information of the standby server.

In the ARP information processing apparatus of the standby server, the ARP request message includes at least one of IP address information and hardware address information of the host receiving the ARP request message.

In order to achieve the above object, the ARP information processing apparatus of a terminal that communicates with a server having a duplex structure according to another aspect of the present invention, when an abnormality occurs in the server having the duplex structure and the server is switched, Update its own ARP information according to the information included in the ARP request message received from the server which has been switched through, update the ARP information, and generate an ARP response message for the ARP request message, The response message is transmitted to the server where the switchover is performed through the network.

In the ARP information processing apparatus of the terminal, the ARP request message includes at least one of IP address information and hardware address information of the server where the switching is performed.

In the ARP information processing apparatus of the terminal, the ARP response message includes at least one of IP address information and hardware address information of the terminal.

Hereinafter, an ARP information processing apparatus and a method through a network according to the present invention will be described in detail with reference to the accompanying drawings.

3 is a diagram illustrating a server system of a redundant structure according to the present invention.

Referring to FIG. 3, when a host communicating with itself is newly generated or disappeared, the active server 300 may transmit a host information message (ARP Trigger PDU) including IP address information and hardware address information of the host. 302).

The standby server 302 includes a host information storage unit 302a and stores the host information message (ARP Trigger PDU) in the host information storage unit 302a.

4 is a flowchart illustrating an operation performed by the standby server 302 when the standby server 302 of FIG. 3 transitions from the standby state to the active state.

Referring to FIG. 4, the standby server 302 checks its host information storage unit 302a (S400).

The standby server 302 checks whether there is any host entry in the host information storage unit 302a (S402). When there is a host entry in the host information storage unit 302a, the standby server 302 transmits an ARP request message (ARP Request) to the corresponding host (S404).

The ARP request message transmitted from the standby server 302 to the corresponding host includes IP address information and hardware address information of the standby server 302.

The host receiving the ARP request message from the standby server 302 transmits an ARP response message to the standby server 302 through a predetermined ARP process.

That is, the host receiving the ARP request message from the standby server 302 updates the IP address information and hardware address information of the standby server 302 included in the ARP request message in its ARP table.

The ARP response message includes hardware address information and IP address information of the host.

After receiving the ARP response message, the standby server 302 updates the host information included in the ARP response message in its ARP table (S406).

That is, the standby server 302 registers the IP address information and hardware address information of the host that sent the ARP response message in its ARP table.

Thereafter, the standby server 302 proceeds to step S402 to check whether there is another host entry in the host information storage unit 302a.

As a result of the check, if there is an entry of another host, the ARP table is updated through ARP processing with the corresponding host through steps S404 and S406. If there is no entry of another host, the update operation of the ARP table is terminated.

5 is a flowchart illustrating ARP information processing of a server having a redundant structure according to the present invention.

Here, the IP address of the host 102 is "172.16.1.3", the hardware address is "0800.0020.1111", the IP address of the active server 300 is "172.20.1.1", and the hardware address is "0000.0C00." 1111 ", the standby server 302 has an IP address of" 172.20.1.1 "and a hardware address of" 0000.0B00.1111 ".

The host 102 communicates with the active server 300 (S50). The active server 300 registers IP address information and hardware address information of the host 102 in its ARP table. The active server 300 provides the standby device 302 with IP address information and hardware address information about the host 102.

The standby server 302 stores IP address information and hardware address information of the host 102 provided by the active server 300 in the host information storage unit 302a. In this way, a plurality of host information stored in the host information storage unit 302a may exist.

When switching is generated while the host 102 and the active server 300 are communicating (S52), the standby server 302 stores the host entries stored in the host information storage unit 302a in the order shown in FIG. Check for presence. As a result of the check, the ARP request message is generated for the stored host and transmitted to the corresponding host (S54).

Here, the host stored in the host information storage unit 302a is the host 102.

That is, the standby server 302 transmits an ARP request message to the host 102 stored in the host information storage unit 302a. The ARP request message transmitted from the standby server 302 to the host 102 includes the IP address "172.20.1.1" of the standby server 302 and the hardware address "0000.0B00.1111".

The host 102 updates its ARP table using the information included in the ARP request message received from the standby server 302 (S56).

That is, the host 102 registers the IP address "172.20.1.1" and the hardware address "0000.0B00.1111" of the standby server 302 included in the ARP response message received from the standby server 302 in its ARP table. do.

The host 102 provides an ARP Response message (ARP Response) to the standby server 302 after updating its ARP table (S58).

The ARP response message sent to the standby server 302 includes the IP address "172.16.1.3" of the host 102 and the hardware address "0800.0020.1111".

The standby server 302 updates its ARP table in response to the ARP response message received from the host 102 (S60). That is, the standby server 302 registers the IP address "172.16.1.3" and the hardware address "0800.0020.1111" of the host 102 included in the ARP response message received from the host 102 in its ARP table. do.

Thereafter, the host 102 transmits data to the standby server 302 (S62).

Although the present invention has been described in detail only with respect to the described embodiments, it will be apparent to those skilled in the art that various modifications and changes are possible within the technical spirit of the present invention, and such modifications and modifications belong to the appended claims.

As described above, according to the present invention, when the transfer is performed from the active server to the standby server while the communication between any host and the active server is performed, the communication is smoothly minimized by minimizing the communication delay between the standby server and the host. There is an advantage.

Claims (12)

In the ARP information processing method of a server having a redundant structure, When an abnormality occurs in a server that receives a packet through a network from an arbitrary host, and the server is switched, the server that has been switched out generates an ARP request message by extracting host information stored in its database. Sending a message to the host via the network; The server performing the switching, when the ARP response message for the ARP request message from the host is received through the network, ARP information processing method comprising the step of updating the ARP information included in the ARP response message to the database. . The method of claim 1, The ARP request message, ARP information processing method comprising at least one of the IP address information, the hardware address information of the server is transferred. The method of claim 1, The ARP response message, And at least one of IP address information and hardware address information of the host. In the ARP information processing method of a terminal communicating with a server having a redundant structure, Receiving an ARP request message transmitted from the server where the switchover is performed through the network when an error occurs in the server having the redundant structure and the switchover of the server occurs Updating own ARP information according to the information included in the ARP request message; After the ARP information is updated, generating an ARP response message in response to the ARP request message and transmitting the ARP information message to the server where the transfer is made through the network. The method of claim 4, wherein The ARP request message, ARP information processing method comprising at least one of the IP address information, the hardware address information of the server is transferred. The method of claim 4, wherein The ARP response message, ARP information processing method comprising at least one of IP address information, hardware address information of the terminal. In an ARP information processing apparatus of a standby server in a server having a redundant structure of an active server and a standby server, An ARP information storage unit for storing ARP information for a plurality of hosts; When the transfer is made from the active server to the standby server, the host information stored in the ARP information storage unit is extracted to generate an ARP request message, the ARP request message is transmitted to the corresponding host through a network, and the ARP request message If the ARP response message is received from the host receiving the ARP information processing apparatus for updating the ARP information contained in the ARP response message to the ARP information storage unit. The method of claim 7, wherein The ARP request message, And at least one of IP address information and hardware address information of the standby server. The method of claim 7, wherein The ARP response message, And at least one of IP address information and hardware address information of a host receiving the ARP request message. In the ARP information processing apparatus of the terminal for communicating with the server having a redundant structure, When a server is switched due to an abnormality in the server having the redundant structure, the ARP information is updated according to the information included in the ARP request message received from the server having been switched over the network, and the ARP information is updated. After updating, generating an ARP response message for the ARP request message, and transmitting the ARP response message to the server where the transfer is made through the network. The method of claim 10, The ARP request message, And at least one of IP address information and hardware address information of the server where the switching is performed. The method of claim 10, The ARP response message, And at least one of IP address information and hardware address information of the terminal.

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