KR20070092392A - Method for controlling server with multicast transmitting and system thereof - Google Patents

Abstract

A method and a system for controlling a multicast distribution server are provided to reduce a network traffic by enabling a distribution server to communicate with a connection server according to a multicast scheme. A system for controlling a multicast distribution server includes a distribution server portion(200), a message buffer server, and a connection server(220). The distribution server portion includes plural distribution servers, which perform a traffic distribution on service request packets, which are generated at plural clients, and output a response packet according to a multicast scheme. The message buffer server sequentially stores the response packets from the distribution servers. The connection server receives the response packet. When a lost packet occurs in the response packet, the connection server restores a lost packet from the stored response packet and transmits the restored response packet to the clients.

Description

Multicast distributed server control method and system {Method for controlling server with multicast transmitting and System approximately}

1 is a layout view of a conventional distributed system.

2 is a layout view according to an embodiment of the present invention.

3 is a signal flow diagram according to an embodiment of the present invention.

4 is a signal flow diagram according to another embodiment of the present invention.

FIG. 5 illustrates a packet recovery process in FIG. 4.

6 is a signal flow diagram according to another embodiment of the present invention.

7A-7C are signal flow diagrams inside the message buffer of FIG.

The present invention relates to a server for providing a service on the Internet, and more particularly, to a multicast distributed server control method and a system thereof.

In a conventional server system, a server unicasts a service to each client even if a client simultaneously requests the same service. For example, if one piece of content is to be served at 100kbps, and 100 clients request the service at the same time, the server makes 100 unicast connections for each client and requires 100 Mbps of service bandwidth. .

Therefore, if the number of clients requesting the service exceeds the bandwidth limit, the server cannot provide the service. Conventional distributed system divides the server into several in order to solve the above bandwidth problem.

1 is a layout view of a conventional distributed system.

Multiple servers (DB, PC, NPC, Chat) provide services by interworking with each client. Since the conventional distributed system uses the TCP method, when a plurality of servers are linked to each other for distributed processing, too many connections are generated. In addition, when transmitting the same information to each server (DB, PC, NPC, Chat), as many packets as each server occurs.

Therefore, the conventional distributed system has a problem of generating too many connections and packets, thereby lowering the efficiency of the network.

The first technical problem to be achieved by the present invention is to provide a multicast distributed server control method that can reduce the amount of connection and packet generation, and improve the efficiency of the network.

A second technical object of the present invention is to provide a distributed system to which the multicast distributed server control method is applied.

In order to solve the first technical problem, the present invention performs distributed processing by interworking a plurality of distributed servers with respect to service request packets generated by a plurality of clients, and multicasts a response packet that is a result of performing the distributed processing. Outputting the received response packet sequentially in a message buffer server; receiving the outputted response packet, and if a lost packet exists among the received response packets, the response packet stored in the message buffer server And recovering the lost packet from the packet and transmitting the response packet to the client.

In this case, the step of outputting in the multicast method may be performed by using a multicast conversion means for transmitting the response packet in a multicast method.

In this case, the step of transmitting to the client may be a step of transmitting the response packet to two or more of the clients using a plurality of access servers connected to the client.

In addition, in order to solve the first technical problem, the present invention comprises the steps of receiving a service request packet generated in a plurality of clients, and outputting the received service request packet in a multicast manner using a plurality of access servers, Sequentially storing the output service request packet in a message buffer server; receiving the service request packet, and if a lost packet exists among the received service request packets, the lost service request packet stored in the message buffer server. It provides a multicast distributed server control method comprising the step of restoring a packet and performing a distributed process by interworking a plurality of distributed servers for the service request packet of the client.

In this case, the outputting in the multicast method may be performed by using a multicast conversion unit for transmitting the service request packet in a multicast method.

In this case, the step of sequentially storing the message buffer server includes transmitting the stored service request packet to the expanded new server when a new server is added to the distributed servers, and performing the distributed processing. The method may include performing distributed processing by interworking the distributed servers and the expanded new server with respect to the service request packet of the client.

In order to solve the above second technical problem, the present invention performs a distributed process by interworking with a service request packet generated by a plurality of clients, and outputs a response packet which is a result of performing the distributed process in a multicast manner. A distributed server unit configured of distributed servers of the server, a message buffer server for sequentially storing the outputted response packet, and receiving the outputted response packet, and if a lost packet exists among the received response packets, It provides a multicast distributed system comprising a connection server unit for recovering the lost packet from the stored response packet, and transmits the response packet to the client.

In this case, the distributed server unit may include multicast conversion means for transmitting the response packet in a multicast manner to each of the distributed servers.

In this case, the access server unit receives the output response packet, if there is a lost packet among the received response packets, restores the lost packet from the response packet stored in the message buffer server, and returns the response packet to the client. Comprising a plurality of access server for transmitting, the access server may transmit the response packet to two or more of the clients.

In addition, in order to solve the above second technical problem, the present invention receives a service request packet generated in a plurality of clients, the access server unit for outputting the received service request packet in a multicast manner, the output service request A message buffer server for sequentially storing packets and a plurality of distributions for receiving the service request packet and recovering the lost packet from the service request packet stored in the message buffer server if a lost packet exists among the received service request packets Comprising a server, and provides a distributed system of the multicast method including a distributed server unit for performing the distributed processing in conjunction with the distributed server for the service request packet.

In this case, the access server unit is composed of a plurality of access servers for receiving the service request packet of the client, and outputs the received service request packet in a multicast manner, the access servers are multicast scheme Multicast conversion means for transmitting to each other may be provided.

In this case, when a new server is added to the distributed server unit, the message buffer server transmits the stored service request packet to the expanded new server, and the distributed server unit transmits the distributed servers and the Distributed processing can be performed by interworking with the new server.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention.

2 is a layout view according to an embodiment of the present invention.

The distributed server unit 200 includes a plurality of servers, for example, two DB servers, two PC servers, two NPC servers, and two Chat servers. The connection server unit 220 includes a plurality of servers, for example, three connection servers.

The distributed server unit 200 and the access server unit 220 communicate in a multicast manner.

The message buffer server 210 sequentially stores the packets transmitted between the distributed server unit 200 and the access server unit 220, and transmits the requested packets to the specific server when a request is made for the packets stored in the specific server. do.

The client 230 includes user terminals and communicates with the distributed server 200 through the access server 220.

3 is a signal flow diagram according to an embodiment of the present invention.

3 assumes that there is no packet loss during multicast communication. 3, 4 and 6, "CM" in front of the message refers to the client message, "SM" refers to the server message.

First, the client 300 transmits a service request packet called PC_MOVE to the access server 320 (1). Next, the access server unit 320 transmits a service request packet called PC_MOVE to NPC servers in the distributed server unit 330 by multicast (2, 3, 4). Next, the NPC servers in the distributed server unit 330 interwork to perform distributed processing on the service request packet (5, 7). At this time, the message buffer server 310 stores a service request packet called PC_MOVE (6). Next, the NPC servers in the distributed server unit 330 transmit the response packet NPC_MOVE, which is a result of the distributed processing, to the access server unit 320 in a multicast manner (8, 9). Finally, the access server 320 transmits a response packet called NPC_MOVE to the client (10).

4 is a signal flow diagram according to another embodiment of the present invention.

4 assumes that there is a packet loss in multicast communication.

First, the client 400 transmits the first service request packet called PC_MOVE to the access server 420 (1). Next, the access server unit 420 multicasts the service request packet PC_MOVE to NPC servers in the distributed server unit 430 (2, 3, 4). At this time, the message buffer server 410 stores the first service request packet called PC_MOVE (4).

Next, the client 400 transmits a second service request packet called PC_MOVE to the access server 420 (5). Next, the access server unit 420 transmits a second service request packet called PC_MOVE to NPC servers in the distributed server unit 430 by multicast (6, 7). At this time, the message buffer server 410 stores a second service request packet called PC_MOVE (7). In this case, it is assumed that a packet transmitted to NPC Server-1 among NPC servers is lost.

Next, the client 400 transmits a third service request packet called PC_MOVE to the access server 420 (8). Next, the access server unit 420 transmits a third service request packet called PC_MOVE by multicast to NPC servers in the distributed server unit 430 (9, 10, 11). At this time, the message buffer server 410 stores a third service request packet called PC_MOVE (11).

Next, NPC Server-1 of the NPC servers recognizes that the second service request packet has not arrived (! 2). Next, NPC Server-1 of the NPC servers requests a second service request packet from the message buffer server 410 (13). Next, the message buffer server 410 transmits the stored second service request packet back to the NPC Server-1 (14). Finally, NPC Server-1 recovers the lost packet by using the received second service request packet and performs distribution processing (15).

FIG. 5 illustrates a packet recovery process in FIG. 4.

The distributed server unit 530 requests the message buffer server 510 for the lost packet 5 among the received packets 1, 2, 3, 4, 6, 7, 8, and 9. The message buffer server 510 retransmits the requested packet 5 among the stored packets 1 to 9 to the distributed server unit 530.

6 is a signal flow diagram according to another embodiment of the present invention.

In a distributed system including a client 600, a message buffer server 610, a connection server unit 620, and a distributed server unit 630, a new server (New NPC Server-3) is added to the distributed server unit 630. (One).

Next, the newly expanded server (New NPC Server-3) requests message synchronization to the message buffer server 610 (2).

Next, the message buffer server 610 refers to an internal memory database (3). Next, the message buffer server 610 transmits packets not transmitted to the newly expanded server (New NPC Server-3) to the newly expanded server (New NPC Server-3) to perform message synchronization processing (4).

Next, the newly expanded server (New NPC Server-3) completes message synchronization and starts server operation (5, 6).

7A-7C are signal flow diagrams inside the message buffer of FIG.

The message buffer server includes a multicast communication module 700 for receiving a packet transmitted in a multicast manner, a message buffer manager 710 for controlling storage of a multicast message, retrieval of lost packets, retrieval of synchronization packets, and packet transmission operations. ), A memory database module 720 which is a storage space for storing received packets.

Figure 7a illustrates the operation of a message buffer in the absence of packet loss.

First, the multicast communication module 700 transmits the received multicast packet to the message buffer manager 710 (1). Next, the message buffer manager 710 stores the transmitted multicast packet in the memory database module 720 (2).

7B illustrates the operation of a message buffer when packet loss occurs.

First, the multicast communication module 700 receives a request for a lost packet from a specific distributed server and transmits it to the message buffer manager 710 (1).

The message buffer manager 710 then analyzes the packet information and retrieves the requested missing packet from the memory database 720 (2, 3). Next, the memory database module 720 transmits the retrieved lost packet to the message buffer manager 710 (4).

Finally, the message buffer manager 710 transmits the lost packet to the specific distributed server using the multicast communication module 700 (5).

7C illustrates the operation of a message buffer when a new server is added.

First, the multicast communication module 700 receives a packet synchronization request from a newly expanded server and transmits it to the message buffer server 710 (1). Next, the message buffer server 710 checks the packet synchronization information and retrieves the synchronization packet from the memory database module 720 (2, 3). Next, the memory database module 720 transmits the retrieved synchronization packet to the message buffer manager 710 (4).

Finally, the message buffer manager 710 transmits the synchronization packet to the newly expanded server using the multicast communication module 700 (5).

Preferably, a program for executing the multicast distributed server control method of the present invention on a computer may be provided recorded on a computer-readable recording medium. In this case, examples of the recording medium include ROM, RAM, CD_ROM, magnetic tape, floppy disk, and optical data storage device.

The invention can be implemented via software. When implemented in software, the constituent means of the present invention are code segments that perform the necessary work. The program or code segments may be stored on a processor readable medium or transmitted by a computer data signal coupled with a carrier on a transmission medium or network.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary and will be understood by those skilled in the art that various modifications and embodiments may be made therefrom. However, such modifications should be considered to be within the technical protection scope of the present invention. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, according to the present invention, a system is composed of a plurality of connection servers connected to a plurality of distributed servers and clients, and communication between the spray server and the connection server is performed in a multicast manner, thereby reducing the amount of connection and the amount of packet generation. It can reduce and improve the efficiency of the network.

Claims (12)

A distributed server unit configured to perform a distributed process by interworking service request packets generated by a plurality of clients and to output a response packet resulting from the distributed process in a multicast manner; A message buffer server that sequentially stores the output response packet; And A connection server unit which receives the output response packet, restores the lost packet from the response packet stored in the message buffer server if there is a lost packet among the received response packets, and transmits the response packet to the client. Multicast distributed system. The method of claim 1, The distributed server unit And multicast conversion means for transmitting the response packet in a multicast manner to the distributed servers, respectively. The method of claim 1, The connection server unit A plurality of accesses for receiving the outputted response packet, if a lost packet exists among the received response packets, recovering the lost packet from the response packet stored in the message buffer server, and transmitting the response packet to the client; Consists of servers, And the access servers transmit the response packet to two or more of the clients. An access server unit for receiving a service request packet generated by a plurality of clients and outputting the received service request packet in a multicast manner; A message buffer server that sequentially stores the output service request packet; And A plurality of distributed servers configured to receive the service request packet and recover the lost packet from the service request packet stored in the message buffer server if a lost packet exists among the received service request packets; And a distributed server unit configured to perform distributed processing by interworking with the distributed servers. The method of claim 4, wherein The connection server unit A plurality of access servers receiving the service request packet of the client and outputting the received service request packet in a multicast manner, wherein the access servers are multicast for transmitting the service request packet in a multicast manner A distribution system of a multicast method, characterized by comprising conversion means respectively. The method of claim 4, wherein The message buffer server When a new server is added to the distributed server unit, the stored service request packet is transmitted to the expanded new server, The distributed server unit And distributing the service request packet by interworking the distributed servers and the expanded new server. Performing a distributed process by interworking a plurality of distributed servers with respect to service request packets generated by a plurality of clients, and outputting a response packet resulting from the distributed process in a multicast manner; Sequentially storing the output response packet in a message buffer server; Receiving the output response packet and recovering the lost packet from the response packet stored in the message buffer server if a lost packet exists among the received response packets; And And transmitting the response packet to the client. The method of claim 7, wherein The output in the multicast method And a multicast conversion means for transmitting the response packet in a multicast manner. The method of claim 7, wherein Sending to the client And transmitting the response packet to at least two of the clients using a plurality of access servers connected to the client. Receiving a service request packet generated by a plurality of clients and outputting the received service request packet in a multicast manner using a plurality of access servers; Sequentially storing the output service request packet in a message buffer server; Receiving the service request packet and recovering the lost packet from the service request packet stored in the message buffer server if a lost packet exists among the received service request packets; And And performing a distributed process by interworking a plurality of distributed servers with respect to the service request packet of the client. The method of claim 10, The output in the multicast method And a multicast conversion means for transmitting the service request packet in a multicast manner. The method of claim 10, The step of sequentially storing the message buffer server If a new server is added to the distributed servers, transmitting the stored service request packet to the expanded new server, Performing the distributed processing is And performing distributed processing on the service request packet of the client by interworking the distributed servers and the expanded new server.

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