JP5405415B2 - Service distribution method and service distribution apparatus - Google Patents

Description

  The present invention relates to a service distribution method and a service distribution device for distributing a connection destination of a client according to a service provided to the client in an information communication network that provides a plurality of services to the client.

  Conventionally, in a network in which a plurality of services exist, in order to dynamically perform distribution setting to a device having a function for a client to perform a desired service process, an L4 switch or an L7 switch extracts service start requests and services The packet transfer which identified is performed.

  Since the L4 switch refers to the TCP or UDP port number and determines the distribution destination, it is possible to distribute service sessions in units of a larger number of services. Further, since the L7 switch refers to the contents of the payload of the packet and determines the allocation destination, it is possible to distribute the service session unit to a larger number of services as in the L4 switch.

  In addition, it is also considered that the service distribution as described above is performed using an L2 switch (see, for example, Patent Document 1). When the L2 switch is used, the device cost and power consumption can be reduced due to the low function.

JP 2005-31957 A

  However, those using the L4 switch or the L7 switch have a problem that the device cost and power consumption increase because of high functionality.

  Further, in the case of using an L2 switch, it is necessary to perform static setting such as assigning a service identifier to a client in advance and setting a route to be distributed based on the identifier in advance, which increases the setting management cost. There is a problem that.

  The present invention has been made in view of the problems of the prior art as described above. In the situation where there is a service providing unit for each of a plurality of services, distribution of connections from the client to the service providing unit is performed. An object of the present invention is to provide a service distribution method and a service distribution apparatus that can be realized while reducing apparatus cost, power consumption, and setting management cost.

In order to achieve the above object, the present invention provides:
Based on the packet transmitted from the client, the service desired by the client is identified and transmitted from the client to the service providing means for providing the identified service among a plurality of service providing means for providing the service. A service distribution method that distributes and forwards incoming packets,
In the first layer, a process of extracting a service start request from the client based on header information of a packet transmitted from the client;
A process of identifying the desired service from the extracted service start request in a second layer higher than the first layer;
In the second layer, confirming the usage status of the service of the client that transmitted the service start request, and confirming the client information that transmitted the service start request;
In the second layer, a process of determining a service providing unit to which a packet transmitted from the client is allocated based on the usage status of the service and the client information;
The first layer includes a process of transferring a packet transmitted from the client to the service providing means determined as the distribution destination.

Further, the plurality of service providing units are connected to the client and a plurality of service providing units for providing services to the client, and a desired service is identified by the client based on a packet transmitted from the client. A service distribution device that distributes and forwards packets transmitted from the client to service providing means for providing the identified service among the means,
A first processing unit that performs processing in the first layer;
A second processing unit that performs processing in a second layer higher than the first layer,
The first processing unit extracts a service start request from the client according to header information of a packet transmitted from the client,
The second processing unit identifies the desired service from the extracted service start request, confirms the usage status of the service of the client that has transmitted the service start request, and has transmitted the service start request. Confirming the information, and based on the usage status of the service and the client information, determine a service providing means to which the packet transmitted from the client is allocated,
The first processing unit transfers the packet transmitted from the client to the service providing unit determined as the distribution destination.

  As described above, in the present invention, the service distribution device extracts the distribution setting trigger from the client to the service providing means, sets the distribution path of the packet transmitted from the client, and follows the distribution path. By performing packet transfer, low setting management cost is realized. Also, extraction of setting trigger and packet transfer after distribution setting are performed in the first layer, service identification and service usage status after extraction of setting trigger. By limiting the high-level processing to the minimum necessary so that confirmation, client information confirmation, assignment destination service control unit determination and assignment route setting, etc. are performed in a second layer higher than the first layer, Realize low equipment cost and low power consumption.

  As described above, in the present invention, in a situation where there are a plurality of service providing means for each of a plurality of services, the distribution of connections from the client to the service providing means is dynamically set based on the service usage status and client information. The first layer performs packet transfer that identifies the service start request from the client that triggers dynamic setting and identifies the service for realizing the distribution. By performing service identification, service usage status confirmation, client information confirmation, assignment destination service control unit determination, distribution route setting, and the like in the second layer higher than the first layer after extracting the setting opportunity, Device cost and power consumption can be reduced.

It is a block diagram which shows an example of the network structure using the service distribution apparatus of this invention. It is a block diagram which shows the other example of the network structure using the service distribution apparatus of this invention. It is a block diagram which shows the structure of the distribution part shown in FIG. 1 and FIG. 3 is a timing chart for explaining distribution setting processing by rewriting a MAC address when a broadcast is an ARP request in the network shown in FIG. 1. 3 is a timing chart for explaining distribution setting processing by dynamic VLAN setting when broadcast is an ARP request in the network shown in FIG. 1. 3 is a timing chart for explaining distribution setting processing by proxy response when broadcast is an ARP request in the network shown in FIG. 1.

  Embodiments of the present invention will be described below with reference to the drawings.

  FIG. 1 is a block diagram showing an example of a network configuration using the service distribution apparatus of the present invention.

  As shown in FIG. 1, the network in this embodiment is a service for determining whether or not to connect to a plurality of clients 2-1 and 2-2 that transmit and receive data, and a service providing network 6 that provides an A service, and a connection process. The service distribution device 1 is connected to the control units 3-1 and 3-2 and the service control unit 3-3 that performs connection determination and connection processing to the service providing network 7 that provides the B service. Yes. The service control units 3-1 and 3-2 are respectively connected to the service providing network via the network 8, and the service control unit 3-3 is connected to the service providing network 7 via the network 8, and these service control units 3-1 to 3-3 are connected to the subscriber management server 4 and the facility management server 5 via the network 8. The service control units 3-1 to 3-3 and the service providing networks 6 and 7 correspond to the service providing means of the present invention. The service distribution device 1 is provided with a distribution unit 10.

  In the network configured as described above, the clients 2-1 and 2-2 are service control units 3-1 to 3-3 provided for each of a plurality of services by the distribution unit 10 of the service distribution device 1. The service control unit is connected to one of the service control units of a desired service, and is connected to the service providing network through the service control unit and the network 8. As a result, the packets transmitted from the clients 2-1 and 2-2 pass through the distribution unit 10, the service control units 3-1 to 3-3 and the network 8 of the service distribution apparatus 1, and the service providing network 6 , 7.

  Here, regarding connection of the clients 2-1 and 2-2 to the service providing networks 6 and 7, the service control units 3-1 to 3-3 are SBC (Session Boarder Controller), and the service providing networks 6 and 7 are telephone calls. A case of a network will be described as an example.

  The clients 2-1 and 2-2 are connected to one of the SBCs of the plurality of service control units 3-1 to 3-3 by the distribution unit 10, and are subjected to NAPT and shaping processing by the SBC. Or the phone network to which the other party's device is connected.

  Based on the packets transmitted from the clients 2-1 and 2-2, the distribution unit 10 identifies the desired service at the clients 2-1 and 2-2, and the clients 2-1 and 2-2. If the service control unit to which the service combination is distributed is not set, the service control unit is selected, the distribution from the clients 2-1 and 2-2 to the service control unit is set, and a certain time The packet of the service transmitted from the clients 2-1 and 2-2 is distributed and transferred to the service control unit set with reference to the header information.

  The distribution unit 10 includes a subscriber management server 4 that manages information of the clients 2-1 and 2-2 via the network 8, and devices such as the distribution unit 10 and the service control units 3-1 to 3-3. It is connected to a facility management server 5 that manages information, and is connected to the subscriber management server 4 and the facility management server 5 via dedicated service control units 3-1 to 3-3 as necessary. Check the information.

  FIG. 2 is a block diagram showing another example of a network configuration using the service distribution apparatus of the present invention.

  As shown in FIG. 2, the network in this embodiment has a large number of clients 2-1 to 2-4 to be connected. Therefore, two distribution units 10 are included in the service distribution apparatus 1. -1 and 10-2 and the connection part 20 are provided.

  The connection unit 20 multiplexes connections between the plurality of distribution units 10-1 and 10-2 and the plurality of service control units 3-1 to 3-3. The distribution units 10-1 and 10-2 set to which service control unit 3-1 to 3-3 the packet of the desired service is distributed and transferred by the clients 2-1 to 2-4. The packets transferred from the sorting units 10-1 and 10-2 are sorted and transferred to the service control unit set with reference to the header information. Further, the packets from the service control units 3-1 to 3-3 to the clients 2-1 to 2-4 are allocated with reference to the header information and the clients 2-1 to 2-4 are connected. Forward to department.

  FIG. 3 is a block diagram illustrating the configuration of the distribution units 10, 10-1 and 10-2 illustrated in FIGS. 1 and 2.

  As shown in FIG. 3, the distribution units 10, 10-1, and 10-2 in the present embodiment are configured from an L2 processing unit 11 that is a first processing unit and a high-level processing unit 12 that is a second processing unit. Has been.

  The L2 processing unit 11 performs processing on the packets transmitted from the clients 2-1 to 2-4 in the layer 2 that is the first layer, and from the clients 2-1 to 2-4 Processing for extracting a service start request from the clients 2-1 to 2-4, which is a trigger for distribution setting, based on the header information of the transmitted packets, and transmission from the clients 2-1 to 2-4 The packet is transferred to the service control units 3-1 to 3-3 based on the header information of the packet that has already been set.

  The high-level processing unit 12 processes the packets transmitted from the clients 2-1 to 2-4 in the second layer, ie, layer 4 or layer 6, and the L2 processing unit 11 extracts the packets. The service start request is received from the clients 2-1 to 2-4, the service desired by the clients 2-1 to 2-4 is identified from the service start request packet, and the client management server 4 sends the client as necessary. The service control unit to which the packets transmitted from the clients 2-1 to 2-4 are allocated is determined based on the service usage status that can be checked by the sorting unit 10 and the confirmed client information. Then, the distribution setting to the service control unit is performed for the L2 processing unit 11. As shown in FIG. 2, when the connection unit 20 is provided in the service distribution device 1, distribution setting is also performed for the connection unit 20. If there is no service control unit that can be connected due to an overload condition, etc., the service is not connected to the service control unit for a certain period of time, and distribution is performed when a service start request is received after a certain period of time. Set up.

  This distribution setting is held for a certain period of time, and when the service start request is extracted, the high-level processing unit 12 checks whether the distribution of the client to the service has already been set. The packets transmitted from the clients 2-1 to 2-4 are continuously transferred to the already set service control unit.

  Here, a method for canceling the distribution setting will be described.

  A client 2-1 that has already been set by checking the packet transfer status of the allocating units 10, 10-1, and 10-2 or inquiring the usage status to the corresponding service control units 3-1 to 3-3. Periodically check the usage status of the distribution route of the combination of ~ 2-4 and service, and if there is no packet transfer or service usage for a certain period of time, cancel the distribution setting, and again at the next service start request Set.

  A network service that uses Layer 2 generally searches for a connection partner by broadcasting at the start of the service, and then transfers data (DHCP discovery, ARP request, PPPoE PADI). The operation used for extracting the trigger will be described.

  When the clients 2-1 and 2-2 try to use the service newly, the distribution unit 10 extracts the broadcast packets from the clients 2-1 and 2-2 from the packet header information in the L2 processing unit 11. And transferred to the high-level processing unit 12.

  In the high-level processing unit 12, the clients 2-1 and 2-2 and the service are identified from the packet information of the broadcast packet. Then, based on the client information and the service usage status, the service control unit to which the packets transmitted from the clients 2-1 and 2-2 are allocated is determined, and the allocation setting to the service control unit is performed. .

  Hereinafter, a case where the allocation setting is performed by rewriting the MAC address will be described.

  FIG. 4 is a timing chart for explaining the distribution setting process by rewriting the MAC address when the broadcast is an ARP request in the network shown in FIG.

  The IP address A for service A is assigned to the client 2-1 in advance by DNS. The service IP address is the same segment as the IP address assigned to the client 2-1, and directly transfers the packet to the service IP address.

  At the start of service, the client 2-1 transmits an ARP request as a broadcast packet in order to check the MAC address of the IP address A. The broadcast packet is received by the service distribution device 1, and the L2 processing unit 11 of the distribution unit 10 extracts this ARP request as a service start request and transfers it to the high-level processing unit 12.

  The high-level processing unit 12 determines the client 2-1 from the transmission source MAC address, and identifies the service from the inquiry IP address information of the ARP request packet. The high-level processing unit 12 checks whether the distribution setting of the service A of the client is already set, and if not set, one service among the service control units 3-1 and 3-2 of the distribution service A The control unit 3-1 is selected, the destination MAC address of the broadcast packet is rewritten, and the ARP request is transferred as a unicast packet addressed to the MAC address A-1 of the selected service control unit 3-1.

  By the L2 packet transfer based on the destination MAC address A-1 of the L2 processing unit 11 or the connection unit 20 of the allocating unit 10, the ARP request reaches the selected service control unit 3-1, and the service control that receives the packet The unit 3-1 returns an ARP response to the client 2-1 so as to transmit to its own MAC address.

  Since the client 2-1 that has received the ARP response thereafter transmits the packet for the service A to the MAC address A-1, the allocating unit 10 performs forwarding based on the MAC address in the L2 processing unit 11. The packet transmitted from the client 2-1 can be transferred to the service control unit 3-1, which is the distribution destination, simply by performing.

  Since the distribution setting is maintained for a certain period of time, if the client 2-1 transmits a broadcast packet for an ARP request before canceling the setting, the client 2-1 does not perform the resetting and continues to transfer to the already set service control unit. The Since the client 2-1 refreshes the table at its own timing like the ARP table, the distribution setting on the distribution unit side is not canceled even though the ARP table on the client 2-1 side is not refreshed. Set a refresh timer with appropriate distribution settings.

  This operation is the same for other services that use broadcast packets at the start of the service, such as DHCP discovery and PPPoE PADI. In the case of DHCP or PPPOE, there is no need to pay out the IP address for each service by DNS, and the service is identified by the Ethertype field in the packet header.

  Hereinafter, a case where the distribution setting is performed by dynamic VLAN setting will be described.

  FIG. 5 is a timing chart for explaining distribution setting processing by dynamic VLAN setting when broadcast is ARP request in the network shown in FIG.

  VLANs for each of the clients 2-1 and 2-2 are set in advance in the clients 2-1 and 2-2.

  Until the broadcast packet is transferred to the high-order processing unit 12 of the allocating unit 10, it is the same as the distribution setting by rewriting the MAC address.

  The high-level processing unit 12 determines the client 2-1 from the VLAN tag or source MAC address of the packet, and identifies the service from the inquiry IP address of the ARP request packet. The high-level processing unit 12 confirms whether the distribution setting of the service A of the client 2-1 is already set, and if not, one of the service control units 3-1 and 3-2 of the service A to be distributed The service control unit 3-1 is selected, and VLAN a set in the client 2-1 is dynamically set to the route from the L2 processing unit 11 of the distribution unit 10 to the selected service control unit 3-1. . After the VLAN is set, the ARP request is transferred as the broadcast packet on the VLAN.

  By the transfer based on the VLAN setting of the L2 processing unit 11 and the connection unit 20 of the distribution unit 10, the ARP request is transferred only to the route in which the VLAN a is set even if it is a broadcast packet. Can be transferred only to the service control unit 3-1. The subsequent operation is the same as the distribution setting by rewriting the MAC address. In the case of canceling the distribution setting, the VLAN setting needs to be canceled in the distribution setting by the dynamic VLAN setting.

  Hereinafter, a case where the distribution setting is performed by proxy response will be described.

  FIG. 6 is a timing chart for explaining the distribution setting process by proxy response when the broadcast is an ARP request in the network shown in FIG.

  Until the broadcast packet is transferred to the high-order processing unit 12 of the allocating unit 10, it is the same as the distribution setting by rewriting the MAC address.

  The high-level processing unit 12 determines the client 2-1 from the packet source MAC address and identifies the service from the inquiry IP address of the ARP request packet. The high-level processing unit 12 confirms whether the distribution setting of the service A of the client 2-1 is already set, and if not, one of the service control units 3-1 and 3-2 of the service A to be distributed The service control unit 3-1 is selected, and the ARP response is transferred to the client 2-1 as the service control unit 3-1 of the selected MAC address A-1. The subsequent operation is the same as the distribution setting by rewriting the MAC address.

  In the distribution setting by proxy response, the distribution unit 10 has a response function for each service so that it can also respond to DHCP and PPPoE broadcasts.

  As described above, the service distribution device 1 makes a proxy response as the service control unit 3-1, so that a distribution route can be set for a plurality of services without performing complicated processing.

  Here, an automatic registration method to the distribution unit 10 when the service control unit is added will be described.

  When the service control unit is added, the added service control unit transfers its addition notification to the distribution unit 10. The distribution unit 10 that has received the addition notification inquires about the detailed information of the service control unit added to the facility management server 5, registers the information in the distribution unit 10 itself, and recognizes it as a distribution target.

DESCRIPTION OF SYMBOLS 1 Service distribution apparatus 2-1 to 2-4 Client 3-1 to 3-4 Service control part 4 Subscriber management server 5 Equipment management server 6, 7 Service network 8 Network 10, 10-1, 10-2 distribution Section 11 L2 processing section 12 High-level processing section 20 Connection section

Claims (14)

Based on the packet transmitted from the client, the service desired by the client is identified and transmitted from the client to the service providing means for providing the identified service among a plurality of service providing means for providing the service. A service distribution method that distributes and forwards incoming packets,
In the first layer, a process of extracting a service start request from the client based on header information of a packet transmitted from the client;
A process of identifying the desired service from the extracted service start request in a second layer higher than the first layer;
In the second layer, confirming the usage status of the service of the client that transmitted the service start request, and confirming the client information that transmitted the service start request;
In the second layer, a process of determining a service providing unit to which a packet transmitted from the client is allocated based on the usage status of the service and the client information;
A service distribution method comprising: a process of transferring, in the first layer, a packet transmitted from the client to a service providing unit determined as the distribution destination. The service distribution method according to claim 1,
A service distribution method for extracting a broadcast packet from the client as the service start request. The service distribution method according to claim 2,
A service distribution method for rewriting and transferring the broadcast packet to unicast to the service providing means of the distribution destination. The service distribution method according to claim 2,
A service distribution method for transferring the broadcast packet only to the service providing means of the distribution destination by performing VLAN setting. The service distribution method according to claim 2,
A service distribution method for performing distribution setting by responding to the broadcast packet as a service providing unit of the distribution destination. The service distribution method according to any one of claims 1 to 5,
A service distribution method for periodically checking the transfer status of packets from the client to the service providing means of the distribution destination, and canceling the distribution setting if the packets are not transferred for a certain period. The service distribution method according to any one of claims 1 to 5,
On the service by the service provider means before Symbol allocation destination to provide, the usage by the client regularly to check, service allocation method service to cancel the distribution set if it is not certain period of time available. The client is connected to a plurality of service providing means for providing services to the client, and based on a packet transmitted from the client, a service desired by the client is identified, and the plurality of service providing means A service distribution device that distributes and forwards packets transmitted from the client to service providing means for providing the identified service.
A first processing unit that performs processing in the first layer;
A second processing unit that performs processing in a second layer higher than the first layer,
The first processing unit extracts a service start request from the client according to header information of a packet transmitted from the client,
The second processing unit identifies the desired service from the extracted service start request, confirms the usage status of the service of the client that has transmitted the service start request, and has transmitted the service start request. Confirming the information, and based on the usage status of the service and the client information, determine a service providing means to which the packet transmitted from the client is allocated,
The first processing unit transfers a packet transmitted from the client to a service providing unit determined as the distribution destination. The service distribution device according to claim 8,
The first processing unit is a service distribution device that extracts a broadcast packet from the client as the service start request. The service distribution device according to claim 9,
The first processing unit is a service distribution device that rewrites the broadcast packet into a unicast to the distribution destination service providing means and transfers the broadcast packet. The service distribution device according to claim 9,
The first processing unit is a service distribution device that transfers the broadcast packet only to the service providing means of the distribution destination by performing VLAN setting. The service distribution device according to claim 9,
The second processing unit is a service distribution device that performs distribution setting by responding to the broadcast packet as a service providing unit of the distribution destination. The service distribution device according to any one of claims 8 to 12,
The second processing unit periodically checks the transfer status of the packet from the client to the service providing means of the distribution destination, and if the packet has not been transferred for a certain period, the service distribution for canceling the distribution setting apparatus. The service distribution device according to any one of claims 8 to 12,
The second processing unit, pre-Symbol assignment destination service providing means about the services provided, the use state by the client periodically check, service releases the sorting settings unless a certain period utilized Service distribution device.

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