WO2017036229A1 - Method and device for realizing control channel binding - Google Patents

Abstract

A method of realizing control channel binding, comprising: a first node sending a configuration message to a second node, the configuration message having an IPCC identifier of the second node; when the first node receives a configuration confirmation message from the second node, if the first node determines that the IPCC identifier of the second node in the configuration confirmation message is identical to the IPCC identifier of the second node in the configuration message, sending a hello message to the second node. Through the above technical solution, since the configuration message includes an IPCC identifier of the second node, an IPCC of the first node can be bound to a plurality of IPCCs of the second node. Thus, when sending a hello message, only one hello message needs to be sent to refresh a plurality of IPCCs of the second node, reducing the number of hello messages sent, and ensuring timely refreshing of IPCCs.

Description

Method and device for realizing control channel binding Technical field

This document relates to but not limited to the field of data network communication, especially a method and device for implementing control channel binding.

Background technique

In the current Generalized Multi-protocol Label Switching (GMPLS), the Link Management Protocol (LMP) is used to manage the links between nodes and the management of control channels.

LMP functions include control channel management, link attribute association, link connectivity verification, and fault management. The first two are used to manage traffic engineering (TE, Traffic Engineering), which is the core function of the link; It is an optional extension function for dealing with the separation of control channels from data channels.

Control channel management is used to establish and maintain the connection of the IP Control Channel (IPCC) between two adjacent nodes. Between two adjacent nodes, the LMP requires at least one available bidirectional control channel. Each control channel is independent of each other, and a Hello message is independently sent on the control channel for keepalive.

Control channel management is for the negotiation and maintenance of the LMP session itself. After neighbor discovery, the IPCC between adjacent physical nodes is established on the control plane to run parameter negotiation and signaling message transmission. The IPCC is used to transmit control plane information, including link management, resource management, label distribution information, and dynamic routing information. The implementation of IPCC has two modes: in-band and out-of-band: in-band means that the channel carrying signaling is embedded in the optical link carrying data, that is, signaling and service data share the same channel; The dedicated signaling channel is separated from the optical link carrying the data, that is, the signaling and the service data are transmitted separately.

Related methods for implementing control channel binding generally include:

The first node sends a configuration (Config) message to the second node adjacent to itself by using an interface corresponding to the IPCC to be bound; wherein the Config message structure is as shown in Table 1.

Common Header

LOCAL_CCID

MESSAGE_ID

LOCAL_NODE_ID

CONFIG

Table 1

The Common Header field is a control header, the LOCAL_CCID field is an identifier of the IPCC of the first node, the MESSAGE_ID field is an identifier for implementing message reliability, the LOCAL_NODE_ID field is an identifier of the first node, and the CONFIG field is a negotiation parameter.

The second node performs parameter negotiation according to the CONFIG field in the Config message, and if the negotiation is successful, sends a configuration confirmation (ConfigAck) message to the first node; if the negotiation fails, sends a configuration non-acknowledgement (ConfigNack) message to the first node; The ConfigAck message or ConfigNack message structure is shown in Table 2.

Common Header	LOCAL_CCID	LOCAL_NODE_ID	REMOTE_CCID
MESSAGE_ID_ACK	REMOTE_NODE_ID	CONFIG

Table 2

The LOCAL_CCID field is an identifier of the IPCC corresponding to the interface that receives the Config message in the second node, the LOCAL_NODE_ID field is the identifier of the second node, the REMOTE_NODE_ID field is the identifier of the first node, and the REMOTE_CCID is the identifier of the IPCC of the first node, The MESSAGE_ID_ACK field is a response to the MESSAGE_ID field.

The first node sends a Hello message to the second node according to the negotiation parameter through the interface corresponding to the bound IPCC, so as to implement the refresh of the IPCC corresponding to the interface that receives the Hello message of the second node; the Hello message structure is as shown in Table 3. Show.

Common Header

LOCAL_CCID

HELLO

table 3

Where LOCAL_CCID is the identifier of the IPCC of the first node, and the HELLO field is the serial number.

In the related method for implementing control channel binding, since the IPCC of the first node and the IPCC of the second node are bound by an interface, one IPCC of the first node can only bind one IPCC of the second node, so When the number of IPCCs increases, a large number of Hello messages need to be sent to implement IPCC refresh, which may cause congestion of messages on the network, and thus cannot refresh the IPCC in time.

Summary of the invention

The following is an overview of the topics detailed in this document. This Summary is not intended to limit the scope of the claims.

The embodiment of the invention provides a method and a device for implementing control channel binding, which can ensure timely refresh of the IPCC.

The embodiment of the invention provides a method for implementing IPCC binding of a control channel, including:

The first node sends a configuration message to the second node, where the configuration message includes an identifier of the IPCC of the second node;

After the first node receives the configuration confirmation message from the second node, determining, by the first node, the identifier of the IPCC of the second node in the configuration confirmation message and the number in the configuration message When the identifiers of the IPCCs of the two nodes are the same, the hello message is sent to the second node.

Optionally, the method further includes: when the first node determines that the identifier of the IPCC of the second node in the configuration confirmation message is different from the identifier of the IPCC of the second node in the configuration message, The first node sends information indicating that the configuration modification operation is performed to the user.

Optionally, the method further includes: after the first node receives the configuration non-confirmation message from the second node,

Determining, in the first node, that the configuration non-acknowledgement message includes information indicating that the second node does not support a binding operation of multiple IPCCs or contains an error indicating that the second node performs an IPCC binding operation. The information is sent to the user indicating that the configuration modification operation is performed.

Optionally, the method further includes: when the first node determines that the configuration confirmation message does not include information indicating that the second node does not support a binding operation of multiple IPCCs and does not include the second node When an error message occurs during an IPCC binding operation,

After the first node adjusts the negotiation parameter in the configuration message, the first node sends the adjusted configuration message to the second node.

Optionally, the hello message includes an identifier of one or more IPCCs of the second node.

The embodiment of the present invention further provides a method for implementing IPCC binding of a control channel, including:

After the second node receives the configuration message from the first node, when the identifier of the IPCC of the second node in the configuration message is found in the identifier of the IPC that is set in advance, according to the configuration message Negotiate parameters for negotiation;

When the negotiation is successful, the configuration confirmation message is sent to the first node, and the correspondence between the identifier of the IPCC of the first node and the identifier of the IPCC of the second node in the configuration message is saved;

After the second node receives the hello message from the first node, the identifier of the IPCC of the second node corresponding to the identifier of the IPCC of the first node in the hello message is searched for in the corresponding relationship, and the second node of the second node is found. The identity of the IPCC is refreshed.

Optionally, the method further includes: when the second node does not find the identifier of the IPCC of the second node in the configuration message in the identifier of the preset IPCC,

The second node sends a configuration unacknowledgment message to the first node that includes information indicating that an error occurred when performing an IPCC binding operation.

Optionally, the method further includes: when the negotiation is unsuccessful, the second node sends, to the first node, information that does not include an error that indicates that the user is performing an IPCC binding operation, and that the user does not support multiple IPCCs. The configuration of the information for the binding operation does not acknowledge the message.

Optionally, after the second node receives the configuration message from the first node, before the identifier of the IPCC of the second node in the configuration message is found in the identifier of the preset IPCC, The method further includes:

The second node determines whether the configuration message includes the identifier of the IPCC of the second node, and supports the binding operation of multiple IPCCs.

Optionally, the method further includes: when the second node determines that the configuration message includes the identifier of the IPCC of the second node, and does not support the binding operation of multiple IPCCs by itself,

The second node sends a configuration unacknowledgment message containing information indicating that the binding operation of the multiple IPCCs is not supported to the first node.

Optionally, after the second node receives the hello message from the first node, before searching, in the correspondence, the identifier of the IPCC of the second node corresponding to the identifier of the IPCC of the first node in the hello message, The method further includes:

The second node determines whether the hello message contains an identifier of an IPCC of the second node.

Optionally, the method further includes: when the second node determines that the hello message includes the identifier of the IPCC of the second node,

The second node refreshes the identifier of the IPCC of the second node in the hello message.

The embodiment of the invention further provides a first node, which at least includes:

a first sending module, configured to send a configuration message to the second node, where the configuration message includes an identifier of the IPCC of the second node; after receiving the first notification message, sending a hello message to the second node;

a first receiving module, configured to receive a configuration confirmation message from the second node;

The first determining module is configured to: when it is determined that the identifier of the IPCC of the second node in the configuration confirmation message is the same as the identifier of the IPCC of the second node in the configuration message, send the first notification to the first sending module Message.

Optionally, the first determining module is further configured to:

When it is determined that the identifier of the IPCC of the second node in the configuration confirmation message is different from the identifier of the IPCC of the second node in the configuration message, sending a second notification message to the first sending module;

The first sending module is further configured to:

After receiving the second notification message, the user is sent information indicating that the configuration modification operation is performed.

Optionally, the first receiving module is further configured to:

Receiving a configuration unacknowledgment message from the second node;

The first determining module is further configured to:

When it is determined that the configuration non-confirmation message includes information indicating that the second node does not support the binding operation of the multiple IPCC or contains information indicating that the second node generates an error when performing the IPCC binding operation, The first sending module sends a second notification message.

Optionally, the first determining module is further configured to:

Determining that the configuration non-acknowledgement message does not include information indicating that the second node does not support the binding operation of the multiple IPCC and does not include that the second node is performing the IPCC binding operation. When the error information occurs, sending a third notification message to the first sending module;

The first sending module is further configured to:

After receiving the third notification message, after adjusting the negotiation parameter in the configuration message, sending the adjusted configuration message to the second node.

The embodiment of the invention further provides a second node, which at least includes:

a second receiving module, configured to receive a configuration message from the first node; receive a greeting message from the first node;

a locating module, configured to: after the second receiving module receives the configuration message from the first node, find the IPCC of the second node in the configuration message in the identifier of the preset IPCC in advance When the identification is performed, the negotiation is performed according to the negotiation parameter in the configuration message; when the negotiation is successful, the fourth notification message is sent to the second sending module; in the corresponding relationship, the identifier of the IPCC of the first node in the hello message is searched for. The identifier of the IPCC of the second node refreshes the identifier of the IPCC of the second node that is found;

The second sending module is configured to: after receiving the fourth notification message, find the identifier of the IPCC of the second node in the configuration message in the identifier of the IPC that is set in advance, according to the negotiation in the configuration message. The parameters are negotiated.

Optionally, the searching module is further configured to:

When the identifier of the IPCC of the second node in the configuration message is not found in the identifier of the IPC that is set in advance, the fifth notification message is sent to the second sending module;

The second sending module is further configured to:

After receiving the fifth notification message, the configuration does not acknowledge the message containing the information indicating that an error occurred when performing the IPCC binding operation to the first node.

Optionally, the searching module is further configured to:

Sending a sixth notification message to the second sending module when the negotiation is unsuccessful;

The second sending module is further configured to:

After receiving the sixth notification message, sending, to the first node, information that does not include an error that indicates that the user is performing an IPCC binding operation, and a binding operation that indicates that the user does not support multiple IPCCs. The configuration of the information does not confirm the message.

Optionally, the second node further includes:

The second determining module is configured to: when it is determined that the configuration message includes the identifier of the IPCC of the second node, and supports the binding operation of multiple IPCCs, send a seventh notification message to the searching module;

The searching module is further configured to: after receiving the seventh notification message, find an identifier of the IPCC of the second node in the configuration message in the identifier of the IPCC that is set in advance.

Optionally, the second determining module is further configured to:

When it is determined that the configuration message includes the identifier of the IPCC of the second node, and does not support the binding operation of the multiple IPCCs, the eighth notification message is sent to the second sending module;

The second sending module is further configured to:

After receiving the eighth notification message, the configuration does not acknowledge the message containing the information indicating that the binding operation of the multiple IPCC is not supported by the first node.

Optionally, the second node further includes:

The second determining module is configured to: when determining that the hello message does not include the identifier of the IPCC of the second node, send a ninth notification message to the searching module;

The locating module is further configured to: after receiving the ninth notification message, find the identifier of the IPCC of the second node in the configuration message in the identifier of the IPCC that is set in advance.

Optionally, the second determining module is further configured to:

When it is determined that the hello message includes the identifier of the IPCC of the second node, the identifier of the IPCC of the second node in the hello message is refreshed.

The embodiment of the present invention further provides a computer readable storage medium, where the computer readable storage medium stores computer executable instructions, and when the computer executable instructions are executed, implementing implementation control channel binding applied to the first node Methods.

The embodiment of the present invention further provides a computer readable storage medium, where the computer readable storage medium stores computer executable instructions, and when the computer executable instructions are executed, implementing implementation control channel binding applied to the second node Methods.

Compared with the related art, the technical solution of the present application includes: the first node sends a configuration message to the second node; where the configuration message includes the identifier of the IPCC of the second node; when the first node receives the second node When the acknowledgment message is configured, the first node determines that the identifier of the IPCC of the second node in the configuration confirmation message is the same as the identifier of the IPCC of the second node in the configuration message, and sends a hello message to the second node. According to the technical solution of the embodiment of the present invention, since the configuration message includes the identifier of the IPCC of the second node, an IPCC of the first node can be bound to multiple IPCCs of the second node, so that when the hello message is sent Only one hello message needs to be sent to implement refreshing of multiple IPCCs of the second node, which reduces the number of sending hello messages and ensures that the IPCC is refreshed in time.

Other aspects will be apparent upon reading and understanding the drawings and detailed description.

DRAWINGS

The drawings in the embodiments of the present invention are described below, and the accompanying drawings are used to explain the present application, and the present invention is not to be construed as limiting the scope of the application.

FIG. 1 is a flowchart of a method for implementing control channel binding according to an embodiment of the present invention;

2 is a schematic structural diagram of a first node according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a second node according to an embodiment of the present invention.

detailed description

The embodiments of the present invention are further described below in conjunction with the accompanying drawings, and are not intended to limit the scope of the application. It should be noted that the embodiments in the present application and the various manners in the embodiments may be combined with each other without conflict.

Referring to FIG. 1, an embodiment of the present invention provides a method for implementing control channel binding, including:

Step 100: The first node sends a configuration message to the second node.

In this step, when the first node supports multiple IPCC binding operations, the configuration (Config) message may include the identifier of the IPCC of the second node in addition to all the fields in Table 1.

When the first node does not support multiple IPCC binding operations, the configuration (Config) message only contains All the fields in Table 1.

Step 101: After receiving the configuration message from the first node, the second node searches for the IPCC of the second node in the configuration message in the identifier of the IPC of the preset setting, according to the negotiation in the configuration message. The parameter is negotiated; when the negotiation is successful, the configuration confirmation message is sent to the first node, and the correspondence between the identifier of the IPCC of the first node and the identifier of the IPCC of the second node in the configuration message is saved;

In the embodiment of the present invention, the configuration confirmation (ConfigAck) message includes all the fields in Table 2.

Optionally, in the embodiment of the present invention, the method further includes: when the second node does not find the identifier of the IPCC of the second node in the configuration message in the identifier of the preset IPCC, the second node The first node transmits a configuration acknowledgment (ConfigNack) message containing information indicating that an error occurred when performing an IPCC binding operation.

Optionally, in the embodiment of the present invention, the method further includes: when the negotiation is unsuccessful, the second node sends, to the first node, information that does not include an error indicating that the IPCC binding operation is performed, and indicates that the second node does not support the error. The configuration of the information of the binding operation of multiple IPCCs does not acknowledge the message.

Optionally, in the embodiment of the present invention, after receiving the configuration message from the first node, the second node searches for the identifier of the IPCC of the second node in the configuration message in the identifier of the IPC that is set in advance. The method further includes: the second node determines that the configuration message includes the identifier of the IPCC of the second node, and supports the binding operation of the multiple IPCCs by itself.

When the second node determines that the configuration message includes the identifier of the IPCC of the second node, and does not support the binding operation of the multiple IPCCs, the second node sends the first node to the first node to indicate that the user does not support multiple IPCCs. The configuration of the information for the binding operation does not acknowledge the message.

Optionally, in the embodiment of the present invention, when the second node determines that there is no identifier of the IPCC of the second node in the configuration message, and does not support multiple IPCC binding operations, the second node may be described in section 3.1 of RFC4204. The flow of methods for normal processing of config messages.

Step 102: After the first node receives the configuration confirmation message from the second node, determine, by the first node, the identifier of the second node in the configuration confirmation message and the second node in the configuration message. Sending a hello message to the second node when the identifiers of the IPCCs are the same;

Optionally, in the embodiment of the present invention, the method further includes: when the first node determines the When the identifier of the IPCC of the second node in the confirmation message is different from the identifier of the IPCC of the second node in the Config message, the first node sends information indicating that the configuration modification operation is performed to the user.

In the embodiment of the present invention, the hello message includes all the fields in Table 3, and may also include the identifier of the IPCC of one or more second nodes. The identifier of the IPCC of the second node included in the hello message is an identifier that has been bound to the identifier of the IPCC of the first node in the Hello message.

Optionally, in the embodiment of the present invention, the method further includes: after the first node receives the configuration confirmation message from the second node, determining, by the first node, that the configuration confirmation message includes the second node When the information of the binding operation of the multiple IPCC is not supported or the information indicating that the second node has an error when performing the IPCC binding operation, the user is sent information indicating that the configuration modification operation is performed.

Optionally, in the embodiment of the present invention, the method further includes: when the first node determines that the configuration confirmation message does not include information indicating that the second node does not support the binding operation of the multiple IPCC, and does not include the second node. When an error message occurs during the IPCC binding operation, the first node adjusts the negotiation parameter in the configuration message and sends the adjusted configuration message to the second node.

The manner in which the first node adjusts the negotiation parameters in the configuration message belongs to the well-known technology of the present invention, and is not intended to limit the scope of protection of the present application, and details are not described herein again.

Step 103: After receiving the hello message from the first node, the second node searches for the identifier of the IPCC of the second node corresponding to the identifier of the IPCC of the first node in the hello message in the correspondence relationship, and finds the identifier of the second node. The identity of the IPCC of the two nodes is refreshed.

Optionally, in the embodiment of the present invention, after receiving the hello message from the first node, the second node searches for the IPCC of the second node corresponding to the identifier of the IPCC of the first node in the hello message in the corresponding relationship. Before the identification, the method further comprises: the second node determining that the greeting message master contains the identifier of the IPCC of the second node.

Optionally, the method further includes: when the second node determines that the hello message includes the identifier of the IPCC of the second node, the second node refreshes the identifier of the IPCC of the second node in the hello message.

Referring to FIG. 2, an embodiment of the present invention further provides a first node, including at least:

a first sending module, configured to send a configuration message to the second node, where the configuration message includes an identifier of the IPCC of the second node; receiving the first notification message, and sending a hello message to the second node;

a first receiving module, configured to receive a configuration confirmation message from the second node;

The first determining module is configured to: when it is determined that the identifier of the IPCC of the second node in the configuration confirmation message is the same as the identifier of the IPCC of the second node in the configuration message, send the first notification message to the first sending module.

Optionally, in the embodiment of the present invention, the first determining module is further configured to:

When it is determined that the identifier of the IPCC of the second node in the configuration confirmation message is different from the identifier of the IPCC of the second node in the configuration message, sending a second notification message to the first sending module;

The first sending module is also set to:

After receiving the second notification message, the user is sent information indicating that the configuration modification operation is performed.

Optionally, in the embodiment of the present invention, the first receiving module is further configured to:

Receiving a configuration non-confirmation message from the second node;

The first judging module is also set to:

When it is determined that the configuration non-confirmation message includes information indicating that the second node does not support the binding operation of the multiple IPCC or contains information indicating that the second node generates an error when performing the IPCC binding operation, the first sending module is sent Two notification messages.

Optionally, in the embodiment of the present invention, the first determining module is further configured to:

When it is determined that the configuration non-acknowledgement message does not indicate that the second node does not support the binding operation of the multiple IPCC and the information indicating that the second node generates an error when performing the IPCC binding operation, the third notification is sent to the first sending module. Message

The first sending module is also set to:

After receiving the third notification message, the negotiation parameter in the configuration message is adjusted, and the adjusted configuration message is sent to the second node.

Referring to FIG. 3, an embodiment of the present invention further provides a second node, including at least:

a second receiving module, configured to receive a configuration message from the first node; receive a greeting message from the first node;

a locating module, configured to: after the second receiving module receives the configuration message from the first node, find the IPCC of the second node in the configuration message in the identifier of the preset IPCC in advance The identifier is negotiated according to the negotiation parameter in the configuration message; when the negotiation is successful, the fourth notification message is sent to the second sending module; in the corresponding relationship, the identifier corresponding to the identifier of the first node in the hello message is searched for. The identifier of the IPCC of the second node refreshes the identifier of the IPCC of the second node that is found;

The second sending module is configured to: after receiving the fourth notification message, find the identifier of the IPCC of the second node in the configuration message in the identifier of the IPC that is set in advance, and perform the negotiation parameter according to the configuration message. Negotiation.

Optionally, in the embodiment of the present invention, the searching module is further configured to:

When the identifier of the IPCC of the second node in the configuration message is not found in the identifier of the IPC that is set in advance, the fifth notification message is sent to the second sending module.

The second sending module is also set to:

After receiving the notification message, the configuration does not send a configuration confirmation message including information indicating that an error occurred when performing the IPCC binding operation to the first node.

Optionally, in the embodiment of the present invention, the searching module is further configured to:

When the negotiation is unsuccessful, sending a sixth notification message to the second sending module;

The second sending module is also set to:

After receiving the sixth notification message, the configuration does not include a configuration non-confirmation message that does not include information indicating that an error occurred when performing an IPCC binding operation and information indicating that the binding operation of the multiple IPCC is not supported by itself.

Optionally, in the embodiment of the present invention, the second node further includes:

The second judging module is configured to: when it is determined that the configuration message includes the identifier of the IPCC of the second node, and supports the binding operation of the multiple IPCCs, send a seventh notification message to the searching module;

The lookup module is also set to set its own IPCC in advance after receiving the seventh notification message. The identifier of the IPCC of the second node in the configuration message is found in the identifier.

Optionally, in the embodiment of the present invention, the second determining module is further configured to:

When it is determined that the configuration message includes the identifier of the IPCC of the second node, and does not support the binding operation of the multiple IPCCs, the eighth notification message is sent to the second sending module.

The second sending module is also set to:

After receiving the eighth notification message, the configuration does not acknowledge the message containing the information indicating that the binding operation of the multi-IPCC is not supported by the first node.

Optionally, in the embodiment of the present invention, the second node further includes:

The second judging module is configured to determine that the hello message does not have the identifier of the IPCC of the second node, and send a ninth notification message to the lookup module;

The searching module is further configured to: after receiving the ninth notification message, find the identifier of the IPCC of the second node in the configuration message in the identifier of the IPC that is set in advance.

Optionally, in the embodiment of the present invention, the second determining module is further configured to:

The identifier of the IPCC of the second node is included in the hello message, and the identifier of the IPCC of the second node in the hello message is refreshed.

The functions of all modules of the first node and all modules of the second node of the embodiment of the present invention may be implemented by a processor executing a program/instruction stored in a memory, and may also be implemented by a firmware/logic circuit/integrated circuit.

The embodiment of the present invention further provides a computer readable storage medium, where the computer readable storage medium stores computer executable instructions, and when the computer executable instructions are executed, implementing implementation control channel binding applied to the first node Methods.

The embodiment of the present invention further provides a computer readable storage medium, where the computer readable storage medium stores computer executable instructions, and when the computer executable instructions are executed, implementing implementation control channel binding applied to the second node Methods.

One of ordinary skill in the art will appreciate that all or a portion of the above steps may be performed by a program to instruct related hardware, such as a processor, which may be stored in a computer readable storage medium, such as a read only memory, disk or optical disk. Wait. Optionally, all or part of the above embodiment The steps can also be implemented using one or more integrated circuits. Correspondingly, each module/unit in the above embodiment may be implemented in the form of hardware, for example, by implementing an integrated circuit to implement its corresponding function, or may be implemented in the form of a software function module, for example, executing a program stored in the memory by a processor. / instruction to achieve its corresponding function. This application is not limited to any specific combination of hardware and software. A person skilled in the art should understand that the technical solutions of the present application can be modified or equivalent, without departing from the spirit and scope of the technical solutions of the present application, and should be included in the scope of the claims of the present application.

Industrial applicability

The number of sending greeting messages is reduced, and the IPCC is refreshed in time.

Claims (23)

1. A method for implementing control channel IPCC binding includes:

   The first node sends a configuration message to the second node, where the configuration message includes an identifier of the IPCC of the second node;

   After the first node receives the configuration confirmation message from the second node, determining, by the first node, the identifier of the IPCC of the second node in the configuration confirmation message and the number in the configuration message When the identifiers of the IPCCs of the two nodes are the same, the hello message is sent to the second node.
2. The method according to claim 1, further comprising: determining, at the first node, an identifier of an IPCC of a second node in the configuration confirmation message and an identifier of an IPCC of a second node in the configuration message When not the same, the first node sends information indicating that the configuration modification operation is performed to the user.
3. The method of claim 1 or 2, further comprising: after the first node receives a configuration unacknowledgment message from the second node,

   Determining, by the first node, that the configuration non-acknowledgement message includes information indicating that the second node does not support a binding operation of multiple IPCCs or includes indicating that the second node is performing an IPCC binding operation When the information is incorrect, information indicating that the configuration modification operation is performed is sent to the user.
4. The method according to claim 3, further comprising: when the first node determines that the configuration unacknowledged message does not contain information indicating that the second node does not support a binding operation of multiple IPCCs and does not contain When the second node indicates an error message when performing an IPCC binding operation,

   After the first node adjusts the negotiation parameter in the configuration message, the first node sends the adjusted configuration message to the second node.
5. The method of claim 1 or 2, wherein the hello message includes an identification of an IPCC of one or more of the second nodes.
6. A method for implementing control channel IPCC binding includes:

   After the second node receives the configuration message from the first node, when the identifier of the IPCC of the second node in the configuration message is found in the identifier of the IPC that is set in advance, according to the configuration message Negotiate parameters for negotiation;

   And sending a configuration confirmation message to the first node, and saving a correspondence between the identifier of the IPCC of the first node and the identifier of the IPCC of the second node in the configuration message;

   After the second node receives the hello message from the first node, the identifier of the IPCC of the second node corresponding to the identifier of the IPCC of the first node in the hello message is searched in the corresponding relationship, and the identifier is searched. The identity of the IPCC of the second node is refreshed.
7. The method according to claim 6, further comprising: when the second node cannot find the identifier of the IPCC of the second node in the configuration message in the identifier of the preset IPCC,

   The second node sends a configuration unacknowledgment message to the first node that includes information indicating that an error occurred when performing an IPCC binding operation.
8. The method according to claim 6 or 7, further comprising: when the negotiation is unsuccessful, the second node sends information to the first node that does not contain an error indicating that the user is performing an IPCC binding operation and A configuration non-confirmation message indicating information that does not support the binding operation of multiple IPCCs.
9. The method according to claim 6 or 7, after the second node receives the configuration message from the first node, the second one of the configuration messages is found in the identifier of the IPCC set in itself. Before the identification of the IPCC of the node, the method further includes:

   The second node determines whether the configuration message includes the identifier of the IPCC of the second node, and whether it supports the binding operation of multiple IPCCs.
10. The method according to claim 9, further comprising: when the second node determines that the configuration message includes the identifier of the IPCC of the second node, and does not support the binding operation of multiple IPCCs by itself; ,

    The second node sends a configuration unacknowledgment message containing information indicating that the binding operation of the multiple IPCCs is not supported to the first node.
11. The method according to claim 6 or 7, after the second node receives the hello message from the first node, the second relationship corresponding to the identifier of the IPCC of the first node in the hello message is searched in the corresponding relationship. Before the identification of the IPCC of the node, the method further includes:

    Determining, by the second node, whether the hello message includes a label of an IPCC of the second node knowledge.
12. The method according to claim 11, further comprising: when the second node determines that the hello message includes the identifier of the IPCC of the second node,

    The second node refreshes the identifier of the IPCC of the second node in the hello message.
13. A first node comprising:

    a first sending module, configured to send a configuration message to the second node, where the configuration message includes an identifier of the IPCC of the second node; after receiving the first notification message, sending a hello message to the second node;

    a first receiving module, configured to receive a configuration confirmation message from the second node;

    The first determining module is configured to: when it is determined that the identifier of the IPCC of the second node in the configuration confirmation message is the same as the identifier of the IPCC of the second node in the configuration message, send the first notification to the first sending module Message.
14. The first node according to claim 13, wherein

    The first determining module is further configured to: when it is determined that the identifier of the IPCC of the second node in the configuration confirmation message is different from the identifier of the IPCC of the second node in the configuration message, to the first The sending module sends a second notification message;

    The first sending module is further configured to: after receiving the second notification message, send information indicating that the configuration modification operation is performed to the user.
15. A first node according to claim 13 or 14, wherein

    The first receiving module is further configured to: receive a configuration unacknowledgment message from the second node;

    The first judging module is further configured to: when it is determined that the configuration non-confirmation message includes information indicating that the second node does not support a binding operation of multiple IPCCs, or includes indicating that the second node is performing IPCC binding When the error information occurs during operation, the second notification message is sent to the first sending module.
16. The first node according to claim 15, wherein the first determining module is further configured to:

    When it is determined that the configuration non-confirmation message does not include information indicating that the second node does not support the binding operation of the multiple IPCC, and does not include information indicating that the second node generates an error when performing the IPCC binding operation, Sending a third notification message to the first sending module;

    The first sending module is further configured to:

    After receiving the third notification message, after adjusting the negotiation parameter in the configuration message, sending the adjusted configuration message to the second node.
17. A second node comprising:

    a second receiving module, configured to receive a configuration message from the first node; receive a greeting message from the first node;

    a locating module, configured to: after the second receiving module receives the configuration message from the first node, find the IPCC of the second node in the configuration message in the identifier of the preset IPCC in advance When the identification is performed, the negotiation is performed according to the negotiation parameter in the configuration message; when the negotiation is successful, the fourth notification message is sent to the second sending module; in the corresponding relationship, the identifier of the IPCC of the first node in the hello message is searched for. The identifier of the IPCC of the second node refreshes the identifier of the IPCC of the second node that is found;

    The second sending module is configured to: after receiving the fourth notification message, find the identifier of the IPCC of the second node in the configuration message in the identifier of the IPC that is set in advance, according to the negotiation in the configuration message. The parameters are negotiated.
18. The second node according to claim 17, wherein

    The lookup module is further configured to:

    When the identifier of the IPCC of the second node in the configuration message is not found in the identifier of the IPC that is set in advance, the fifth notification message is sent to the second sending module;

    The second sending module is further configured to:

    After receiving the fifth notification message, the configuration does not acknowledge the message containing the information indicating that an error occurred when performing the IPCC binding operation to the first node.
19. A second node according to claim 17 or 18, wherein

    The lookup module is further configured to:

    Sending a sixth notification message to the second sending module when the negotiation is unsuccessful;

    The second sending module is further configured to:

    After receiving the sixth notification message, sending, to the first node, a configuration that does not include information indicating that an error occurs when performing an IPCC binding operation and information indicating that the binding operation of the IPCC is not supported by the first IPCC is not confirmed. Message.
20. The second node according to claim 17 or 18, the second node further comprising:

    The second determining module is configured to: when it is determined that the configuration message includes the identifier of the IPCC of the second node, and supports the binding operation of multiple IPCCs, send a seventh notification message to the searching module;

    The searching module is further configured to: after receiving the seventh notification message, find an identifier of the IPCC of the second node in the configuration message in the identifier of the IPCC that is set in advance.
21. A second node according to claim 20, wherein

    The second determining module is further configured to:

    When it is determined that the configuration message includes the identifier of the IPCC of the second node, and does not support the binding operation of the multiple IPCCs, the eighth notification message is sent to the second sending module;

    The second sending module is further configured to:

    After receiving the eighth notification message, the configuration does not acknowledge the message containing the information indicating that the binding operation of the multiple IPCC is not supported by the first node.
22. The second node according to claim 17 or 18, the second node further comprising:

    The second determining module is configured to: when determining that the hello message does not include the identifier of the IPCC of the second node, send a ninth notification message to the searching module;

    The locating module is further configured to: after receiving the ninth notification message, find the identifier of the IPCC of the second node in the configuration message in the identifier of the IPCC that is set in advance.
23. The second node according to claim 22, wherein the second determining module is further configured to: when it is determined that the identifier of the IPCC of the second node is included in the hello message, in the hello message The identity of the second node's IPCC is refreshed.

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