RU2714383C2 - Method and device for processing switch routing conflict - Google Patents

Abstract

FIELD: electrical communication engineering.

SUBSTANCE: invention relates to communication equipment. Port information is received, through which a certain message is sent to a switch, the determined message may contain identification information of a virtual local area network (VLAN) and each port may have corresponding virtual private network (VPN). VPN, to which the specific message routing belongs, can be determined based on the identification information and the port information.

EFFECT: technical result is enabling to eliminate routing conflict of switch.

13 cl, 7 dwg

Description

Technical field

The present invention relates to the field of communications and, in particular, to a method and apparatus for processing a routing conflict of a switch.

State of the art

Network layer switching devices (Layer 3, further layer 3) with routing functions can configure level 3 ports on the basis of a virtual local area network (VLAN). Routing configuration settings and virtual private network (VPN) configurations in which routing is routed can be made on the basis of the VLAN.

To provide the routing subport function of a layer 3 switch, one port can be configured with one VLAN, i.e. a single physical port can be configured with multiple routing subports in different VLANs. Configuring the routing configuration and the configuration of the VPN, in which routing is done for these subports, as a rule, can be done on the basis of each VLAN in which each subport is located.

The configuration process of the routing subport of the switching device may include the following steps S11 to S13.

At step S11, the routing subport and the VLAN to which the subport belongs can be configured, and the switch can add the physical subport port to the VLAN that this subport belongs to.

In step S12, a VLAN level 3 port can be configured in accordance with the VLAN configured for the routing subport.

In step S13, the routing information and the VPN information in which routing is routed can be configured on the layer 3 port in which the VLAN is located.

The process of forwarding a Layer 3 message through a routing subport of a switching device may include the following steps S21 to S23.

In step S21, a message to be forwarded at level 3 via a routing subport may arrive at a physical port corresponding to the subport. The message may comprise a VLAN tag corresponding to the subport.

In step S22, the switch can find the Layer 3 port of the corresponding VLAN by the VLAN tag contained in the message (for example, VLAN ID), can obtain information about the Layer 3 port and can find the information about the VPN in which routing is routed by the VLAN tag.

At step S23, you can view the switch routing table for VPN information and the destination IP address in a layer 3 message to forward the message.

Thus, we can conclude that although the configuration and forwarding of the routing subport can be performed on the switch, there may be a restriction on installation. In particular, when performing a specific routing subport with the ability and binding to a specific VLAN, as well as during the subsequent separate execution of a VLAN with the possibility of a level 3 port, a routing conflict may occur during forwarding.

For example, suppose a routing subport is configured, for example, subport 1, and the property is that physical port 1 is tied to VLAN 100 and the configured IP address is 123.1.1.1/24.

VLAN 100 Layer 3 port can be configured on the switch at the same time. This VLAN can contain a physical port 2 and can be configured with VPN A routing. In this case, since the VLAN 100 layer 3 port and the subport, for example, subport 1, are not in the same VPN, the VLAN 100 layer 3 port can still be configured to configure the IP address 123.1.1.1/24.

Moreover, if a message containing the destination IP address 123.1.1.1 and VLAN 100 tag arrives at port 1, there is a possibility of sending a message to the host routing address 123.1.1.1 of subport 1. However, since the VPS property of VLAN 100 was configured in VPS A and routing subport 1 also belongs to the VLAN 100 network, when searching for the VPS to which routing belongs, for the presence of a message when it is forwarded, such a search can be performed using the VLAN 100 tag contained in the message, as a result of which it can be immediately found VPN property VLAN 100, i.e. The VPN that the routing belongs to can be defined as VPN A.

It can be concluded that the expected message forwarding cannot be completed. For example, in the case under consideration, a message can be routed to host routing of a VLAN 100 Layer 3 port with IP address 123.1.1.1 via VPN and A instead of host routing of the subport 1 to which the subport belongs. In this case, a routing conflict may occur, thus causing subport failure.

Considering the problem of the possible occurrence of a routing conflict when searching for the VPS to which the message routing belongs, using the VLAN tag, no more effective solutions were proposed.

Disclosure of Invention

In some exemplary embodiments of the invention, there is provided a method and apparatus for processing a routing conflict of a switch, with which you can solve the problem that a routing conflict can occur when searching for the VPN that the message routing belongs to using the VLAN tag.

According to an exemplary embodiment of the invention, a method for processing a routing conflict of a switch is provided, which may include the following steps. Information about the port through which a particular message arrives at the switch may be required. In the present exemplary embodiment of the invention, a specific message may carry VLAN identification information and each port may have a corresponding VPN. The VPN, to which the routing of a specific message belongs, can be determined by identification information and port information.

In an exemplary embodiment of the invention, the port information may include information about a first physical port corresponding to a subport and / or information about a second physical port corresponding to a level 3 port.

In an exemplary embodiment of the invention, when the port information includes information about the first physical port, the step of determining the VPN that the routing of a particular message belongs to by identifying information and port information may include the following steps. The corresponding relationship between the information on the first physical port and the identification information can be configured according to a predefined rule. The VPNs for routing a specific message can be changed to the VPNs to which the routing of a specific message belongs, in an appropriate ratio.

In an exemplary embodiment of the invention, the step of setting up an appropriate relationship between the first physical port information and the identification information according to a predefined rule can be implemented in one of the following ways. The corresponding relationship between the information on the first physical port and the identification information can be configured on the Access Control List (ACS). The corresponding relationship between the information about the first physical port and the identification information can be configured by broadcasting the VLAN. The corresponding relationship between the first physical port information and the identification information can be pre-configured via a microcode chip.

In an exemplary embodiment of the invention, when the port information includes information about the second physical port, the step of determining the VPN that the routing of a particular message belongs to by identifying information and port information may include the next step. The VPN, to which the routing of a particular message belongs, can be determined by identification information.

According to an exemplary embodiment of the invention, there is provided a switch routing conflict processing device including an information acquiring module and a determining module. The information receiving module can be configured to receive information about the port through which a certain message arrives at the switch. In the present exemplary embodiment of the invention, a specific message may carry VLAN identification information and each port may have a corresponding VPN. The determination module may be configured to determine the VPN, to which the routing of a particular message belongs, by identification information and port information.

In an exemplary embodiment of the invention, the port information may include information about a first physical port corresponding to a subport and / or information about a second physical port corresponding to a level 3 port.

In an exemplary embodiment of the invention, when the port information includes information about the first physical port, the determination module may include a configuration unit and a modification unit. The configuration unit may be configured to configure an appropriate relationship between the information on the first physical port and the identification information according to a predefined rule. The modification unit may be configured to change the VHS routing of a particular message from the identification information and port information on the VMS to which the routing of a particular message belongs.

In an exemplary embodiment of the invention, the configuration unit may include one of the following: a first configuration unit, a second configuration unit, and a third configuration unit. The first configuration unit may be configured to configure an appropriate relationship between the information on the first physical port and the identification information on the COURT. The second configuration unit may be configured to configure an appropriate relationship between the information on the first physical port and the identification information of the VLAN broadcast. The third configuration unit may be configured to pre-configure the appropriate relationship between the information on the first physical port and the identification information via a microcode chip.

In an exemplary embodiment of the invention, when the port information includes information about the second physical port, the determination module may be further configured to determine the VPN that the routing of a particular message belongs to by identification information.

By means of the solution given in some exemplary embodiments of the disclosure, the VPN that the routing of a particular message belongs to can be determined based on the information received on the port through which the specific message arrives at the switch and the VLAN identification information of the specific message. Since each port has a corresponding VPN, the VPN that the message belongs to can be uniquely identified. Thus, this solution can solve the problem of routing conflict that arose when determining the VPN that the message belongs to, while achieving elimination of the routing conflict of the switch.

Brief Description of the Drawings

FIG. 1 is a flowchart of a method for processing a routing conflict of a switch in accordance with an exemplary embodiment of the invention.

FIG. 2 is a block diagram of a switch routing conflict processing device in accordance with an exemplary embodiment of the invention.

FIG. 3 is a first exemplary block diagram of a switch routing conflict processing device in accordance with an exemplary embodiment of the invention.

FIG. 4 is a second exemplary block diagram of a switch routing conflict processing device in accordance with an exemplary embodiment of the invention.

FIG. 5 is a diagram of a routing conflict between a routing subport and a VLAN layer 3 port.

FIG. 6 is a diagram for preventing a routing conflict between a routing subport and a VLAN layer 3 port in accordance with an exemplary embodiment of the invention.

FIG. 7 is a flowchart of a method for preventing routing conflict for a routing port in accordance with an exemplary embodiment of the invention.

Detailed Description of Embodiments

In an exemplary embodiment of the invention, a method for processing a routing conflict of a switch is provided. FIG. 1 is a flowchart of a method for processing a routing conflict of a switch in accordance with an exemplary embodiment of the invention. As shown in FIG. 1, the method may include steps S102 and S104.

At step S102, information about the port through which a specific message arrives at the switch may be required.

Here, a specific message may carry identification information about the VLAN and each port may have a corresponding VPN.

In step S104, the VPN, to which the routing of the specific message belongs, can be determined from the identification information and the port information.

By means of this exemplary embodiment of the invention, the VPS to which the routing of a particular message belongs can be determined based on the information received on the port through which the particular message arrives at the switch and the VLAN identification information of the particular message. Since each port has a corresponding VPN, the VPN that the message belongs to can be uniquely identified. Thus, this solution can solve the problem of routing conflict that arose when determining the VPN that the message belongs to, while achieving elimination of the routing conflict of the switch.

The port information for this exemplary embodiment of the invention may include information about a first physical port corresponding to a subport and / or information about a second physical port corresponding to a level 3 port. Some exemplary embodiments of the invention are described below based on corresponding types of information about port taken as an example.

In an additional embodiment of the invention, when the port information includes information on the first physical port corresponding to the subport, the step of determining the VPN that the routing of the specific message belongs to from the identification information and port information in step S104 of this exemplary embodiment of the invention can be implemented in the following way. This method may include the following steps S31 and S32.

In step S31, the corresponding relationship between the first physical port information and the identification information can be configured according to a predefined rule.

In step S32, the VPN of the routing of a specific message can be changed to the VPN that the routing of a specific message belongs to in the corresponding relation.

In step S31, the corresponding relationship between the first physical port information and the identification information can be configured according to a predefined rule by one of the following methods specified in the present exemplary embodiment of the invention.

Method 1: the corresponding relationship between the information on the first physical port and the identification information can be configured by the COURT.

For example, switch ports 1, 2, and 3 can be installed with VLAN 100. The COURT rule can be set to correspond to the message on which the input port is port 1 and which carries the VLAN 100 tag. The COURT rule action be set to change the VPS routing to VPS 0, it should be noted that VPS is not set on the subport, so the VPS global routing can be set to 0 by default. VPS routing, to which VLAN 100 belongs, can be set to VPS A.

Method 2: the corresponding relationship between the information on the first physical port and the identification information can be configured by broadcasting the VLAN.

For example, ports 1, 2, and 3 of the switch can be installed with VLAN 100. Broadcast VLAN can be installed to broadcast port 1 and VLAN 100, while the broadcast function is to broadcast the VPNs for routing to VPN 0, it should be noted that the subport is not set to VPN, so the global routing VPN can default to 0. The routing VPN to which VLAN 100 belongs can be set to VPN A. When a message that has the VLAN 100 tag arrives at the switch through port 1, message can It can be obtained in accordance with the COURT rule, and then it can trigger the COURT rule to change the VPN settings for VPN 0. When a message with the VLAN tag 100 arrives at the switch through port 2 or port 3, the message can directly match VPN 1, which belongs to VLAN 100. Using the above methods, a conflict between routing / forwarding of a subport and routing / forwarding of a VLAN is not likely to arise.

Method 3: the corresponding relationship between the information on the first physical port and the identification information can be pre-configured via a microcode chip.

For example, switch ports 1, 2, and 3 can be installed with VLAN 100. Port 1 + VLAN 100 forwarding relationship table indicating VPS 0 routing can be installed in the microcode chip so that a message with VLAN 100 tag and arriving through port 1 could be routed to VPN 0; it should be noted that no VPNs are set to subport, so the global routing VPNs can be set to 0 by default. The routing VPNs to which VLAN 100 belongs can be set to VPS A. When a message that has VLAN tag 100, arrives at the switch through port 1, the message can be received in accordance with the COURT rule, and then it can trigger the COURT rule to change the VPN from routing to VPN 0. When a message with the VLAN tag 100 arrives at the switch through port 2 or port 3, the message may eposredstvenno coincide with VPN A, which belongs to VLAN 100. Using the above methods conflict between routing / forwarding subporta and routing / forwarding VLAN is likely to arise.

In another additional embodiment of the invention, when the port information includes information on the second physical port corresponding to the subport, the step of determining the VPN that the routing of the specific message belongs to from the identification information and port information in step S104 of this exemplary embodiment of the invention may implemented in the following way.

The VPN, to which the routing of a particular message belongs, can be determined by identification information. In other words, for a message that needs to be forwarded by a VLAN layer 3 port, the VLAN tag contained in the message can still be configured to search for information about the VLAN of the switch to determine the VPN of routing.

In another exemplary embodiment of the invention, a switch routing conflict processing apparatus is provided. This device can be configured to implement the above exemplary embodiments of the invention and additional embodiments. The information mentioned earlier is omitted here. The terms “module” and “block”, used hereinafter, may mean a combination of software and / or hardware with pre-installed functions. Although the device described in the following exemplary embodiments of the invention may, in a preferred embodiment of the invention, be implemented as software, an implementation as hardware or a combination of software and / or hardware is also possible and acceptable.

FIG. 2 is a block diagram of a switch routing conflict processing device in accordance with an exemplary embodiment of the invention. As shown in FIG. 2, the device may include an information acquiring module 22 and a determination module 24. The information acquiring module 22 may be configured to receive information about a port through which a specific message arrives at the switch. In the present exemplary embodiment of the invention, a specific message may carry VLAN identification information. The determination module 24 may be configured to determine the VPN, to which the routing of a particular message belongs, by identification information and port information.

In an exemplary embodiment of the invention, the port information may include information about a first physical port corresponding to a subport and / or information about a second physical port corresponding to a level 3 port.

FIG. 3 is a first exemplary block diagram of a switch routing conflict processing device in accordance with an exemplary embodiment of the invention. As shown in FIG. 3, when the port information includes information about the first physical port, the determining module 24 may include a configuration unit 32 and a modification unit 34. The configuration unit 32 may be configured to configure a corresponding relationship between the first physical port information and the identification information by pre established rule. Modification unit 34 may be configured to change the VHS routing of a particular message from the identification information and port information on the VMS to which the routing of a particular message belongs.

FIG. 4 is a second exemplary block diagram of a switch routing conflict processing device in accordance with an exemplary embodiment of the invention. As shown in FIG. 4, the configuration unit 32 may include one of the following: a first configuration unit 42, a second configuration unit 44, and a third configuration unit 46. The first configuration unit 42 may be configured to configure an appropriate relationship between the first physical port information and the identification information COURT. The second configuration unit 44 may be configured to configure an appropriate relationship between the information on the first physical port and the identification information of the VLAN broadcast. The third configuration block 46 may be configured to pre-configure the appropriate relationship between the information on the first physical port and the identification information through a microcode chip.

In an exemplary embodiment of the invention, when the port information includes information about the second physical port, the determining module 24 may be further configured to determine the VPN, to which the routing of a particular message belongs, from the identification information.

Disclosure of the invention is given below based on an exemplary embodiment of the disclosure of the invention, taken as an example.

This exemplary embodiment of the invention can ensure that the subport configuration does not have a routing conflict with the VLAN layer 3 port using the characteristic that the VLAN parameter and the physical port regarding the properties of the subport can uniquely identify the subport.

In related technology, since the VLAN sub-port and Layer 3 port uses the VLAN tag contained in the message to match the VPS to which the VLAN belongs to determine the VPS routing / forwarding, a routing conflict may occur, as mentioned in the above condition. However, in the present exemplary embodiment of the invention, in addition to the VLAN tag, the physical port to which the subport belongs is also configured to determine the VPN that the routing / forwarding belongs to.

In the application scenario of this exemplary embodiment of the invention, when a message arrives at the switch, physical port information can be obtained. Under this condition, both the physical port information received when the message arrives at the switch and the VLAN tag contained in the message can be configured to determine the VPN that the routing belongs to. To uniquely identify a subport, two properties can be configured.

Using the aforementioned method of this exemplary embodiment of the invention, the RFs of each subport can be uniquely determined. Information about the VPS subport can be uniquely determined based on the port + VLAN. The VLAN information of the VLAN level 3 ports can still be determined based on the VLAN parameter. Thus, the selection of information about the VPS subport can be implemented appropriately in order to avoid the error of the routing conflict as a result of the configuration of the VPS properties of the VLAN port level 3 of the VLAN.

In the present exemplary embodiment of the invention, if in a switch that uses a chip with a specialized integrated circuit, it is necessary to implement the function of determining the RFP routing based on the port + VLAN, the COURT can be configured to match the input port of the message and the VLAN containing the message, and then change VPN information for routing / forwarding this message. As another embodiment of the invention, a VLAN broadcasting option can also be used, which will ensure compliance with the special port + VLAN fields and change the VPN information on routing. It should be noted that the above two methods are provided solely as examples. In switches that use other network processors, other methods can also be used to match the key parameters of the port + VLAN to determine the sub-port Layer 3 forwarding / routing information.

The mentioned method of this exemplary embodiment of the invention may include the following steps S202 to S206.

In step S202, the switch may generate a relationship table using the information of the port to which the subport belongs and the VLAN information configured to subport. The relationship table contains the relationship between the port + VLAN and the VPN of routing to which the subport belongs.

In step S204, when the message arrives at the subport, the search for the relationship table containing the relationship between the port + VLAN and the VPN VPN can be performed based on the port + VLAN based on the physical port information through which the message enters the switch and the VLAN tag information, to which the message belongs to determine the VPN, to which the routing of the message belongs.

In step S206, when the message is forwarded by the VLAN link of the Layer 3 port, the information about the VLAN of the switch can be searched for from the VLAN tag contained in the message in order to determine the VPN of routing.

At the same time, since the physical port bound to the VLAN level 3 port and the physical subport port cannot conflict, the physical port to which the VLAN level 3 port belongs may not be in the relationship table containing the relationship between the VLAN + port and the VHS routing.

During the execution of the aforementioned steps S202 to S206, it is likely that a conflict will not arise between routing / forwarding the routing subport of the switch and the VLAN layer 3 port.

In the present exemplary embodiment of the invention, the VPN of message routing / forwarding can be determined using the physical port information through which the subport message arrives at the switch and the VLAN information contained in the message. By solving an exemplary embodiment of the invention, it is likely that a conflict will not occur between the forwarding of the sub-port routing VPN and the VLAN level 3 port, so that no conflict prevention configuration and configuration restriction is required.

The description of this exemplary embodiment of the invention is given below in the form of three separate application scenarios.

The first application scenario: the configuration of the prevention of subport routing conflict is performed using the court rule.

For example, switch ports 1, 2, and 3 can be installed with VLAN 100. The COURT rule can be set to correspond to the message on which the input port is port 1 and which carries the VLAN 100 tag. The COURT rule action be set to change the VPS routing to VPS 0, it should be noted that VPS is not set on the subport, so the VPS global routing can be set to 0 by default. VPS routing, to which VLAN 100 belongs, can be set to VPS A.

The second application scenario: Configuring the prevention of subport routing conflict is performed using VLAN broadcasting.

For example, ports 1, 2, and 3 of the switch can be installed with VLAN 100. Broadcast VLAN can be installed to broadcast port 1 and VLAN 100, while the broadcast function is to broadcast the VPNs for routing to VPN 0, it should be noted that the subport is not set to VPN, so the global routing VPN can default to 0. The routing VPN to which VLAN 100 belongs can be set to VPN A. When a message that has the VLAN 100 tag arrives at the switch through port 1, message can It can be obtained in accordance with the COURT rule, and then it can trigger the COURT rule to change the VPN settings for VPN 0. When a message with the VLAN tag 100 arrives at the switch through port 2 or port 3, the message can directly match VPN 1, which belongs to VLAN 100. Using the above methods, a conflict between routing / forwarding of a subport and routing / forwarding of a VLAN is not likely to arise.

Third application scenario: subport port routing conflict prevention is configured using a microcode chip.

For example, switch ports 1, 2, and 3 can be installed with VLAN 100. Port 1 + VLAN 100 forwarding relationship table indicating VPS 0 routing can be installed in the microcode chip so that a message with VLAN 100 tag and arriving through port 1 could be routed to VPN 0; it should be noted that no VPNs are set to subport, so the global routing VPNs can be set to 0 by default. The routing VPNs to which VLAN 100 belongs can be set to VPS A. When a message that has VLAN tag 100, arrives at the switch through port 1, the message can be received in accordance with the COURT rule, and then it can trigger the COURT rule to change the VPN from routing to VPN 0. When a message with the VLAN tag 100 arrives at the switch through port 2 or port 3, the message may eposredstvenno coincide with VPN A, which belongs to VLAN 100. Using the above methods conflict between routing / forwarding subporta and routing / forwarding VLAN is likely to arise.

From the solution of the above-mentioned exemplary embodiment of the invention, it can be seen that, in comparison with the method in the related technology for implementing the routing subport of the switch, in the present exemplary embodiment of the invention, a method is used to ensure unambiguous correspondence of the port and the VLAN of the RF VPN routing so that the configuration of the switch subport does not have restrictions and could coexist with the configuration of the overall VLAN of the switch, while there is a possibility that the route will not conflict between them calls / forwarding and interference. With this solution, the configuration of the switch routing subport can be more flexible and may not have restrictions, the restriction on the use of the switch routing subport can be removed, and the range of use of the switch routing subport can be expanded.

FIG. 5 is a diagram of a routing conflict between a routing subport and a VLAN layer 3 port. As shown in FIG. 5, one of the two ports can be configured with a VLAN with a layer 3 port, and the other can be configured with a VLAN with a subport. When both networks of the VLAN are identical, if the corresponding processing is not performed, the VPS routing can be determined for messages arriving at both ports in accordance with the VLAN, while creating a conflict between the VPS networks, since if either of the two ports is located on the other VPS, this may affect the second port.

FIG. 6 is a diagram for preventing a routing conflict between a routing subport and a VLAN layer 3 port in accordance with an exemplary embodiment of the invention. As shown in FIG. 6, appropriate processing methods, for example, any of the processing methods in the above three application scenarios, can be used to determine the VPS subport, respectively. The VPN can be determined using either the port or the VLAN of the subport, while differing from the VPN of the level 3 port. In this case, the VPN of the two options does not affect each other, and it is likely that a routing conflict will not occur.

FIG. 7 is a flowchart of a method for preventing routing conflict for a routing port in accordance with an exemplary embodiment of the invention. As shown in FIG. 7, the method may include steps S702 to S706.

At step S702, a routing subport can be configured.

At step S704, the pre-established decision policy for the VPN VPN routing can be configured in accordance with the information of the port in which the routing subport is located and the VLAN information.

At the same time, the pre-established decision-making policy for VChF routing can be implemented through the COURT, broadcast of the VLAN or microcode.

In step S706, if the message to be forwarded to Layer 3 arrives via the routing subport, the VPN message can be determined from both the VLAN information in the message and the port information.

When using this exemplary embodiment of the invention, when the VLAN sub-port and port are configured, a conflict prevention configuration may not be required and routing may be implemented in the usual manner without interference.

Obviously, those skilled in the art should understand that the modules or steps mentioned can be implemented using a universal computing device. Modules or steps can be integrated on a single computing device or distributed over a network of several computing devices. In an exemplary embodiment of the invention, the modules or steps may be implemented using program code executed by a computing device, so that they can be stored in a storage device used by a computing device and executed in a different order in some cases or performed in a separate integrated module , respectively, or several of them can be performed in one integrated module. In this case, the disclosure of the invention is not limited to any particular combination of hardware and software.

Said exemplary embodiments of the disclosure are exemplary and do not limit the disclosure of the invention. For specialists in this field of technology, various modifications and changes may lead to the disclosure of the invention. Any modification, equivalent replacement and improvement made within the framework of the principle of disclosure of the invention should be included in the scope of protection defined by the attached claims.

Industrial applicability

By means of this exemplary embodiment of the invention, the VPS to which the routing of a particular message belongs can be determined based on the information received on the port through which the particular message arrives at the switch and the VLAN identification information of the particular message. Since each port has a corresponding VPN, the VPN that the message belongs to can be uniquely identified. Thus, this solution can solve the problem of routing conflict that arose when determining the VPN that the message belongs to, while achieving elimination of the routing conflict of the switch.

Claims (39)

1. A method for processing a switch routing conflict, comprising: receiving information from the port through which the message enters the switch, the message contains the identification information of the virtual local area network (VLAN) and each port has a corresponding virtual private network (VPN); and port information contains information about a first physical port corresponding to a subport and / or information about a second physical port corresponding to a layer 3 port; and determination of the VPN, to which the routing of the message belongs, by identification information and port information; if the port information contains information about the first physical port, the definition of the VPN that the routing of the message belongs to by identification information and port information contains: setting up the appropriate relationship between the information about the first physical port and the identification information according to a predefined rule; and changing, in an appropriate manner, the VPS message routing to the VPS to which the message routing belongs; or, if the port information contains information about the second physical port, the definition of the VPN that the routing of the message belongs to by identification information and port information contains: determination of the VPN, to which message routing belongs, by identification information. 2. The method according to p. 1, in which the setting of the appropriate relationship between the information about the first physical port and the identification information according to a predefined rule, comprises: the switch forming the relationship table using the information of the port to which the subport belongs and the VLAN information configured to subport, the relationship table containing the relationship between the port + VLAN and the VPN of routing to which the sub port belongs. 3. The method according to p. 2, which determines the VPN, to which the routing of the message belongs, by identification information and port information, further comprises: search for a relationship table containing the relationship between port + VLAN and VLAN of routing based on port + VLAN based on the port information through which the message enters the switch and VLAN identification information to determine the VHS to which the message routing belongs. 4. The method according to claim 1, in which the method of setting the appropriate relationship between the information about the first physical port and the identification information according to a predefined rule contains one of the following: setting up an appropriate relationship between the information about the first physical port and the identification information according to the Rule of access control list (SUD); setting up the appropriate relationship between the information about the first physical port and the identification information for the transmission of VLANs; and pre-setting the appropriate relationship between the information on the first physical port and the identification information through the microcode chip. 5. The method according to p. 1, which determines the VPN, to which the routing of the message belongs, according to the identification information, contains: search for information about the VLAN of the switch using the identification information of the VLAN to determine the VPN that the message routing belongs to. 6. The method according to any one of paragraphs. 1-5, wherein the VLAN identification information contains VLAN tag information. 7. A switch routing conflict processing device, comprising: an information obtaining module configured to receive information about a port through which a message arrives at the switch, wherein the message contains identification information of a virtual local area network (VLAN) and each port has a corresponding virtual private network (VPN); and port information contains information about a first physical port corresponding to a subport and / or information about a second physical port corresponding to a layer 3 port; and a determination module configured to determine the VPN, to which the message routing belongs, by identification information and port information; however, if the port information contains information about the first physical port, the determination module contains: a configuration unit configured to configure an appropriate relationship between the first physical port information and the identification information according to a predefined rule; a modification unit configured to change, in an appropriate manner, the VHS message routing to the VMS to which the message routing belongs; or if the port information contains information about the second physical port, the determination module is further configured to determine the VPN, to which the routing of the message belongs, from the identification information. 8. The device according to claim 7, in which the configuration unit is configured to generate a relationship table using information of the port to which the subport belongs and VLAN information made with the possibility of subport, wherein the relationship table contains the relationship between the port + VLAN and the VPN to which the subport belongs. 9. The device according to claim 8, in which the determination module is further configured to search for a relationship table containing the relationship between the port + VLAN and the VHS based on the port + VLAN based on the port information through which the message enters the switch and VLAN identification information to determine the VPN that the message routing belongs to. 10. The device according to claim 7, in which the configuration block contains one of the following blocks: the first configuration unit, configured to configure the appropriate relationship between the information about the first physical port and the identification information on the Access Control List (ACS); the second configuration unit, configured to configure the corresponding relationship between the information about the first physical port and the identification information of the transmission of the VLAN; and the third configuration block, configured to pre-configure the corresponding relationship between the information about the first physical port and the identification information through the microcode chip. 11. The device according to claim 7, in which the determination module is further configured to search for information about the VLAN of the switch using the identification information of the VLAN to determine the VPS to which the routing of the message belongs. 12. The device according to any one of paragraphs. 7-11, wherein the VLAN identification information contains VLAN tag information. 13. A storage medium for storing information in which the program code is stored, while the program code, when used by a computing device, ensures that the computing device executes the method as claimed in any one of paragraphs. 1-6.

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