CN101674171B - Port configuration management method, single board and port configuration management system - Google Patents

Abstract

The embodiment of the invention discloses a port configuration management method, a single board and a port configuration management system, wherein the method comprises the following steps: receiving port configuration information; confirming a physical position of a port that corresponds to the port configuration information; if the physical position of the port that corresponds to the port configuration information is on a first single board, carrying out configuration management on the port that corresponds to the first single board according to the port configuration information, and if the physical position of the port that corresponds to the port configuration information is on a second single board, transmitting the port configuration information to the second single board and carrying out configuration management on the port that corresponds to the second single board according to the port configuration information. The embodiment of the invention carries out centralized management on the port of the first single board and the port of the second single board, has mutually independent port backup and single board backup, is unnecessary to carry out the reversal between a main single board and a spare single board as a port on the single board is unavailable, and improves the reliability.

Description

A kind of port configuration management method, veneer and port configuration management system

Technical field

The present invention relates to communication equipment, relate in particular to a kind of port configuration management method, veneer and port configuration management system.

Background technology

In a lot of telecommunication apparatus, in order to improve the reliability of software and hardware, usually can adopt active and standby mechanism: be about to a veneer as mainboard, another piece veneer is as the slave board of this mainboard, and the data of mainboard are backuped to slave board.If the mainboard of work at present has been broken, the business of mainboard can be switched to slave board, slave board becomes mainboard and works on, and does not interrupt to guarantee business.

As shown in Figure 1, be the schematic diagram of existing a kind of single board main/standby structure, wherein, two veneers are mainboards independently, are retrained the main and standby relation of two veneers by application layer.The mainboard side application layer backups to the slave board application layer with configuration management by backup path at every turn.Break down in case detect mainboard, then carry out switching operation, slave board side application layer all issues execution with the operation of all application layer backups, and slave board is upgraded to mainboard and starts working.

In this structure, because two veneers all are mainboards independently, just use it is bound together the formation main and standby relation, so the mainboard steady state data consulting out cannot backup in the slave board and goes, if the generation masterslave switchover then needs again to consult these steady state datas.So in some applications, for example in wireless traffic, may there be call drop, perhaps data-bag lost occurs in the router forwarding.This backup architecture is equivalent to the effect that slave board does not really play backup in some applications.

As shown in Figure 2, be the schematic diagram of existing another kind of single board main/standby structure.This Fig. 2 shows the mechanism that adopts mirror back-up.Alleged mirror back-up is herein: data all on the mainboard are backuped to slave board, and in mainboard real-time operation and actual motion, also will be correlated with real-time operation and steady state data backups to slave board, to realize mainboard and slave board data consistent, so be referred to as " mirror image ", to guarantee that business is not interrupted after carrying out masterslave switchover.

Business was not interrupted after this mirror back-up mechanism can satisfy masterslave switchover, but because in mainboard work, slave board does not participate in processing service data, namely do not process the message that the slave board service port receives up, so cannot accomplish the port backup between mainboard and the slave board, if the part port on the mainboard can not be worked, for example port damages the link that is connected with port and breaks, then need whole mainboard is switched, like this guarantee with it relevant business do not interrupt.

Summary of the invention

The embodiment of the invention provides a kind of port configuration management method, veneer and port configuration management system, can carry out unified management to the port of mainboard and the port of slave board.

A kind of port configuration management method that the embodiment of the invention provides comprises: the receiving port configuration information; Determine the physical location of the port that described port configuration information is corresponding; If the physical location of the port that described port configuration information is corresponding is on the first veneer, then according to described port configuration information port corresponding to described the first veneer is managed for configuration, if the physical location of the port that described port configuration information is corresponding is on the second veneer, then described port configuration information is sent to described the second veneer, and according to described port configuration information port corresponding to described the second veneer is managed for configuration.

A kind of veneer for port configuration management that the embodiment of the invention provides comprises: the configuration information receiver module is used for the receiving port configuration information; The port position determination module, the described port configuration information that is used for receiving according to the configuration information receiver module is determined the physical location of corresponding port; Data processing module, the physical location that is used for determining the port that described port configuration information is corresponding at described port position determination module are managed for configuration port corresponding to described the first veneer according to described port configuration information during at the first veneer; And be used for physical location at port corresponding to described port configuration information on described the second veneer the time, described port configuration information is sent to described the second veneer, and according to described port configuration information port corresponding to described the second veneer is managed for configuration.

A kind of port configuration management system that the embodiment of the invention provides, comprise: interconnective the first veneer and the second veneer, described the first veneer receiving port configuration information, and determine the physical location of the port that described port configuration information is corresponding, if the physical location of the port that described port configuration information is corresponding is on the first veneer, then according to described port configuration information port corresponding to described the first veneer is managed for configuration, if the physical location of the port that described port configuration information is corresponding on the second veneer, then sends to described port configuration information described the second veneer; Described the second veneer receives the port configuration information from described the first veneer, and according to described port configuration information port corresponding to described the second veneer is managed for configuration.

The embodiment of the invention can be carried out unified management to the port of the first veneer and the port of the second veneer, and port backs up and single board backup is separate, can not carry out because a port on the veneer is unavailable switching of main and standby boards, and improves reliability.

Description of drawings

Fig. 1 is the schematic diagram of existing a kind of main and standby boards structure;

Fig. 2 is the schematic diagram of existing another kind of main and standby boards structure;

Fig. 3 is the main and standby boards schematic diagram in the embodiment of the invention;

Fig. 4 is the internal structure schematic diagram of main and standby boards in the embodiment of the invention;

Fig. 5 is the structural representation of active and standby configuration process module among Fig. 4;

Fig. 6 is the structural representation of active and standby chain of command message processing module (MPM) among Fig. 4;

Fig. 7 is the structural representation of master/slave data processing module among Fig. 4;

Fig. 8 is the port arrangement process flow diagram of mainboard side in one embodiment of the present of invention;

Fig. 9 is the port arrangement process flow diagram of slave board side in one embodiment of the present of invention;

Figure 10 is the chain of command message process chart of mainboard side in one embodiment of the present of invention;

Figure 11 is the chain of command message process chart of slave board side in one embodiment of the present of invention;

Figure 12 is the process chart of the reception message of mainboard side in one embodiment of the present of invention;

Figure 13 is the process chart of the reception message of slave board side in one embodiment of the present of invention.

Embodiment

As shown in Figure 3, comprise the first veneer and the second veneer, hereinafter so that the first veneer is configured to mainboard, the second veneer originally is set to slave board and describes, be understandable that, herein only for for example, in other embodiment, the second veneer can also be configured to mainboard, the first veneer is configured to slave board.This first veneer and the second veneer carry out the transmission of information by backup path and data channel, backup path wherein is used for carrying out the transmission of active and standby information, data channel is used for the transmission of business datum, in embodiments of the present invention, this backup path and data channel are passages independently, but when practical operation, also can adopt a passage to realize the transmission of active and standby information and the transmission of business datum.

In embodiments of the present invention, the port of the first veneer configuration management the first veneer and the port of the second veneer, namely the data of the first veneer port of coming the first veneer except the port that disposes the first veneer and reception ﹠ disposal, also dispose the port of the second veneer and reception ﹠ disposal from the data of the port of the second veneer.

Particularly, the first veneer comprises:

Primary configuration management element 10 is used for the port of the first veneer and the port of the second list are managed for configuration;

Primary chain of command message process unit 12 is used for the chain of command message that the first veneer generates is processed;

Mainboard data processing unit 14 is used for according to processing policy, to processing accordingly from the message of the first veneer or the second veneer, such as message is carried out this locality process, in the forwarding of this veneer or be sent to another veneer and transmit etc.;

Setting unit 13, for port backup relation between the port of the port that the first veneer is set and the second veneer, the perhaps load sharing strategy between the port, for example, port backup relation between the port of the first veneer and the second veneer is set, a port that can arrange on the first veneer is main port, at the second veneer a standby port corresponding with the main port of the first veneer is set, perhaps, a port on the second veneer is set to the standby port corresponding to a plurality of main ports on the first veneer; Load sharing strategy between the port of the first veneer and the second veneer is set, it is load sharing relation each other between the port, message by the transmission of the first veneer or forwarding, can be according to the load sharing strategy of these setting unit 13 settings, select corresponding outbound port to carry out message and send, realize the load sharing of port;

Port detecting unit 15, state for detection of the port of described the first veneer or the second veneer, for example can detect by two-way converting the current link circuit condition that (Bidirectional Forwarding Detection, BFD) or other detection methods detect described port;

Port switching unit 16 is used for breaking down when described Port detecting unit 15 is checked through the link that main port breaks down or main port connects, and the business of main port is switched on the standby port corresponding with this main port.

Port load sharing processing unit 18 for the load sharing strategy that sets according to setting unit 13, selects corresponding outbound port that the data on the port of the first veneer or the second veneer are transmitted.

Particularly, the second veneer comprises:

Standby configuration processing unit 20, be used for receiving the port configuration information from primary configuration process unit 10, and the port of the second veneer carried out the corresponding configuration management, wherein, the configuration information of all of the port all can back up in the second veneer on 10 pairs of the first veneers in primary configuration process unit or the second veneer;

Chain of command message process unit 22 for subsequent use is used for the chain of command message from the first veneer is processed;

Slave board data processing unit 24 is used for according to processing policy, to processing accordingly from the data of the second veneer or the first veneer, such as message is carried out this locality process, in the forwarding of this veneer or be sent to another veneer and transmit etc.

Below in conjunction with Fig. 5 to 7, each module among Fig. 4 is described in detail.

As shown in Figure 5, primary configuration process unit 10 further comprises:

Primary configuration information receiver module 100 is used for receiving the port configuration information to the first veneer or the second veneer, and in actual applications, this port configuration information can generate in the application layer of the first veneer;

Main port position determination module 102 is for the physical location of determining corresponding port according to the port configuration information of primary configuration information receiver module 100 receptions;

Primary processing module 104, the physical location that is used for determining the port that port configuration informations are corresponding in main port position determination module 102 are managed for configuration port corresponding to the first veneer according to port configuration information during at the first veneer; And be used for physical location at port corresponding to port configuration information on the second veneer the time, port configuration information is sent to described the second veneer;

Backup module 106 is used for the configuration information that primary configuration information receiver module 100 receives is sent to the second veneer by backup path;

Standby configuration processing unit 20 further comprises:

Standby configuration information receiver module 200 is used for receiving the port configuration information from the first veneer;

Standby port position determination module 202 is used for determining the physical location of corresponding port according to what standby configuration information receiver module 200 received from the port configuration information of the first veneer;

Processing module 204 for subsequent use is used for according to configuration information corresponding port being configured, and in this process, may need configuration information middle-end slogan is carried out the process of migration processing, and the detailed process of this migration processing can describe below.

As shown in Figure 6, primary chain of command message processing module (MPM) 12 further comprises:

Primary chain of command message receiver module 120 is used for receiving the chain of command message, and this chain of command message can generate in the application layer of the first veneer, for example the ping message;

Outbound port judge module 122, be used for judging whether the outbound port of described chain of command message is the port of the first veneer, in this process, need to determine port by the information in this chain of command message, for example, determine port by the purpose IP address in the ping message;

Primary chain of command message processing module (MPM) 124 is used for the result that judges at outbound port judge module 122 when being, with the chain of command message in the first veneer accordingly outbound port send; Otherwise, the chain of command message is sent to the second veneer by data channel;

Chain of command message processing module (MPM) 22 for subsequent use further comprises:

Chain of command message receiver module 220 for subsequent use is used for receiving the chain of command message from the first veneer;

Chain of command message processing module (MPM) 222 for subsequent use, outbound port for the chain of command message that chain of command message receiver module 220 for subsequent use is received carries out migration processing, determine outbound port in the second veneer by the information in this chain of command message, and corresponding outbound port in second veneer of this chain of command message through determining is sent.

Such as Fig. 7, mainboard data processing unit 14 further comprises:

Mainboard message receiver module 140 is used for receiving from the port of the first veneer or the message of the second veneer;

Mainboard judge module 142 is judged for the destination of the message that mainboard message receiver module 140 is received, and determines the processing mode that need to take this message;

Mainboard processing module 144 is used for determining described message at mainboard judging unit 142 and need to carries out this locality processing, and respective handling is carried out on the upper strata that then message is sent to the first veneer; Perhaps determining message at mainboard judging unit 142 need to be when the first veneer be transmitted, and message is sent on the corresponding port of the first veneer to transmit; Perhaps determining described message at mainboard judging unit 142 need to transmit at the second veneer, then described message is sent to the second veneer by data channel, allows the second veneer transmit accordingly work;

Mainboard is transmitted module 146, is used to mainboard judging treatmenting module 144 that the port information of forwarding is provided.

Described slave board data processing module 24 further comprises:

Slave board message receiving element 240 is used for receiving from the port of the second veneer or the message of the first veneer;

Slave board judging unit 242, the destination of the message that slave board message receiver module 240 is received are judged, determine the processing mode that need to take this message;

Slave board judging treatmenting module 244 is used for determining described message at slave board judging unit 242 and need to carries out this locality processing, and respective handling is carried out on the upper strata that then this message is sent to the first veneer; Perhaps determining described message at slave board judging unit 242 need to be when the second veneer be transmitted, and message is sent on the corresponding port of the second veneer to transmit; Perhaps determining described message at slave board judging unit 242 need to transmit at the first veneer, then described message is sent to the first veneer by data channel, allows the first veneer transmit accordingly work;

Slave board is transmitted module 246, is used to slave board judging treatmenting module 244 that the port information of forwarding is provided.

The first veneer side and the corresponding workflow of the second veneer side are described in the embodiment of the invention below in conjunction with Fig. 8 to Figure 13.

Networking demand according to this communication equipment, dispose port backup relation between the port of the port of the first veneer and the second veneer, the perhaps load sharing strategy between the port, wherein, some ports are as main port, other ports are as the standby port corresponding with this main port, in embodiments of the present invention, this main port is on the first veneer, and this standby port can be on the first veneer, also can be on the second veneer, in addition, the corresponding relation of main port and standby port can be 1+1, i.e. the corresponding standby port of main port, also can be N+1, i.e. N corresponding 1 standby port of main port.

Below in conjunction with object lesson, each above-mentioned process is elaborated.For ease of explanation, suppose that the first veneer has 8 service ports, the second veneer is promising 8 service ports also, so the port number that the first veneer is managed is total up to 16, suppose to be numbered 0～15, wherein being numbered 0～7 is the first veneer 0～7 port physically, is numbered the port on 8～15 corresponding the second veneers, is mapped to respectively the second veneer 0～7 port physically.

As shown in Figure 8, be the flow chart that the first veneer side is carried out port arrangement in the invention process.

S80, the receiving port configuration information, this port configuration information can generate in the application layer of the first veneer, and this port configuration information can be the IP address of putting to port assignment etc., and carry the corresponding port numbering (as in 0～15 any or a plurality of);

S82 determines the physical location of the port that this port configuration information is corresponding according to the port numbering in the port configuration information.For example, if this port numbering is 0 in port configuration information, it is within 0～7 port range of the first veneer, then is expressed as the port of the first veneer; If this port numbering is 9, it is within 8～15 port ranges of the second veneer, then is expressed as the port on the second veneer.

S84 if port corresponding to this port configuration information is the port of the first veneer, then stores this port configuration information, and the bottom of this port configuration information to the first veneer is issued, and the port corresponding to this port configuration information is managed for configuration.

S86 if port corresponding to this port configuration information is the port of the second veneer, stores this port configuration information, and this port configuration information is sent to the second veneer in the first veneer.

S88 no matter port corresponding to this port configuration information is the port of the first veneer or the port of the second veneer, needs that all the information exchange of port configuration management is crossed backup path and carry out backup operation in the first veneer and the second veneer.

As shown in Figure 9, be the flow chart that the second veneer side is carried out port arrangement in the invention process.

S90, the second veneer receives the port configuration information from the first veneer;

S92, port numbering to port configuration information carries out offset operation, determine the physical location of port corresponding to port configuration information on the second veneer according to the port numbering after the skew, and this port configuration information is issued to the bottom of the second veneer, the corresponding port is managed for configuration.For example: suppose that the corresponding port numbering of port configuration information is 9, because be numbered the port on 8～15 corresponding the second veneers, so the corresponding port of this this port configuration information is the port of the second veneer, carry out offset operation, namely it is mapped to 1 port of the second veneer 0～7 port physically.

By the flow process of Fig. 8 and Fig. 9, all store the port configuration information of all of the port on the first veneer and the second veneer, even the masterslave switchover of the first veneer and the second veneer occurs, can not lose these port configuration informations yet.

As shown in figure 10, be the chain of command message process chart of the first veneer side in the embodiment of the invention;

S100 receives the chain of command message, and the application layer that this chain of command message is the first veneer produces, for example the ping message;

S102 according to the information in the described chain of command message, determines port numbers, for example can determine corresponding outbound port number according to the purpose IP address in the ping message, and judge whether this outbound port is the port of the first veneer;

S104 if judged result is the port of the first veneer for this outbound port, then sends described chain of command message through this outbound port;

S106 if judged result is the port of the second veneer for this port, sends to the second veneer with described chain of command message by data channel.

As shown in figure 11, be the chain of command message process chart of the second veneer side in the embodiment of the invention;

S110 receives the chain of command message from the first veneer, such as the ping message;

S112 number carries out migration processing to the outbound port in the described chain of command message, determines the outbound port at the second veneer;

S114 sends the outbound port of described chain of command message through described definite the second veneer.

As shown in figure 12, be the process chart of the reception message of the first veneer side in the embodiment of the invention;

S120 receives from the port of the first veneer or from the message of the second veneer, in concrete example, can adopt marker bit to distinguish this message is from the first veneer or from the second veneer;

Then need to judge the needed processing mode of this message that receives, be specially:

S121 judges whether the message of this reception is to need the local message of processing.

If judged result is yes, respective handling is carried out on the upper strata that then this message is sent to the first veneer in S122, otherwise enters S123;

S123 judges whether the message of this reception needs to transmit;

If judged result is yes, then flow process changes S125 over to, otherwise abandons this message in S124;

S125 judges whether this message need to be transmitted at the first veneer;

If judged result is yes, then in S126, according to transmitting of the first veneer, this message is sent to the corresponding port of the first veneer, transmit;

Otherwise, in 127, give the second veneer by data channel with this message repeating; In this step, if this message is from the second veneer, then directly abandon, to avoid repeating forwarding.

As shown in figure 13, be the process chart of the reception message of the second veneer side in the embodiment of the invention;

S130 receives from each port of the second veneer or from the message of the first veneer, in concrete example, can adopt marker bit to distinguish this message is from the second veneer or from the second veneer;

Then judge the needed processing mode of this message that receives, be specially:

S131 judges whether the message of this reception is to need the local message of processing.

If judged result is yes, respective handling is carried out on the upper strata that then this message is sent to the second veneer in S132, otherwise enters S133;

S133 judges whether the message of this reception needs to transmit;

If judged result is yes, then flow process changes S135 over to, otherwise abandons this message in S134;

S135 judges whether this message need to be transmitted at the second veneer;

If judged result is yes, then in S136, according to transmitting of the second veneer, this message is sent to the corresponding port of this veneer, transmit;

Otherwise, in 137, give the first veneer by data channel with this message repeating; In this step, if this message is from the first veneer, then directly abandon, to avoid repeating forwarding.

In addition, embodiments of the invention also comprise following step:

Check the state of main port;

Break down when being checked through the link that main port breaks down or main port connects, then on the standby port that business switches to main port is associated with main port, can guarantee like this switching of in the situation of not carrying out single-board host-slave switching active and standby business, and the assurance business is not interrupted.

In an embodiment of the present invention, port backup and single board backup adopt separate mechanism, can not carry out because port of mainboard is unavailable the masterslave switchover of veneer, only need to adopt the masterslave switchover of port can realize professional continuity;

In addition, can carry out the port backup between mainboard and slave board, improve reliability; Can also carry out the port load sharing between mainboard and slave board, alleviate the port load.

Through the above description of the embodiments, those of ordinary skill in the art can be well understood to the embodiment of the invention and can realize by the mode that software adds essential general hardware platform, can certainly realize by hardware.Based on such understanding, the technical scheme of the embodiment of the invention can embody with the form of software product, this computer software product can be stored in the storage medium, such as ROM/RAM, magnetic disc, CD etc., comprise that some instructions are with so that computer equipment or server or other network equipments are carried out the described method of some part of each embodiment of the present invention or embodiment.

The above only is preferred embodiment of the present invention, and is in order to limit the present invention, within the spirit and principles in the present invention not all, any modification of doing, is equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (11)

1. a port configuration management method is applied in the equipment that comprises two veneers at least, it is characterized in that, comprising:

The receiving port configuration information;

Determine the physical location of the port that described port configuration information is corresponding;

If the physical location of the port that described port configuration information is corresponding is on the first veneer, then according to described port configuration information port corresponding to described the first veneer is managed for configuration, if the physical location of the port that described port configuration information is corresponding is on the second veneer, then described port configuration information is sent to described the second veneer, and according to described port configuration information port corresponding to described the second veneer is managed for configuration;

By backup path, described the first veneer and described the second veneer are stored described port configuration information, and carry out the configuration management of described port configuration information;

By data channel, the port of the port of described the first veneer or described the second veneer receives or sends data;

The port of the port of described the first veneer or described the second veneer receives or sends data, is specially:

Described data are the chain of command message that described the first veneer is initiated, if the outbound port of described chain of command message is the port of described the first veneer, then described chain of command message are sent by the outbound port on described the first veneer; If the outbound port of described chain of command message is the port of described the second veneer, described chain of command message is sent to described the second veneer by described data channel, and described chain of command message is sent by the outbound port on described the second veneer.

2. port configuration management method as claimed in claim 1 is characterized in that, the described physical location of determining the corresponding port of described port configuration information is specially:

If the port numbering in the described port configuration information belongs to the port numbering of described the first veneer, then determine the physical location of port corresponding to described port configuration information on described the first veneer according to described port numbering;

If described port numbering belongs to the port numbering of described the second veneer, then described port numbering is carried out offset operation, determine the physical location of port corresponding to described port configuration information on described the second veneer according to the port numbering after the skew.

3. port configuration management method as claimed in claim 1 is characterized in that, the port of the port of described the first veneer or described the second veneer receives or sends data, is specially:

Described data are the message that the port of the port of described the first veneer or described the second veneer receives, described the first veneer or described the second veneer carry out this locality to described message and process, transmit or be sent to another veneer at this veneer and transmit according to processing policy.

4. port configuration management method as claimed in claim 1 is characterized in that, also comprise,

Port backup relation and/or load sharing strategy between the port of the port of described the first veneer and described the second veneer is set;

Check the state of the main port in described the first veneer or described the second veneer;

If described main port or the link that is connected with described main port break down, then with the data exchange of described main port to standby port that described main port is associated on.

5. a veneer that is used for port configuration management is characterized in that, comprising:

The configuration information receiver module is used for the receiving port configuration information;

The port position determination module, the described port configuration information that is used for receiving according to the configuration information receiver module is determined the physical location of corresponding port;

Processing module, the physical location that is used for determining the port that described port configuration information is corresponding in described port position determining unit are managed for configuration port corresponding to described the first veneer according to described port configuration information during at the first veneer; And be used for physical location at port corresponding to described port configuration information on described the second veneer the time, described port configuration information is sent to described the second veneer, and according to described port configuration information port corresponding to described the second veneer is managed for configuration;

Setting unit is for port backup relation and/or load sharing strategy between the port of the port that described the first veneer is set and described the second veneer;

The Port detecting unit is for detection of the state of the main port in described the first veneer or described the second veneer;

The port switching unit, be used for according to described backup relation, the link that is checked through described main port in described Port detecting unit or is connected with described main port breaks down, with the data exchange of described main port to standby port that described main port is associated on;

Port load sharing processing unit is used for according to described load sharing strategy, and the data on the port of the port of described the first veneer or described the second veneer are transmitted.

6. the veneer for port configuration management as claimed in claim 5 is characterized in that, also comprises:

The chain of command message process unit is used for the chain of command message that described the first veneer generates is processed;

Data processing unit is used for according to processing policy, and the message that the port of the port of described the first veneer or described the second veneer receives is processed.

7. a port configuration management system is characterized in that, comprising:

Interconnective the first veneer and the second veneer,

Described the first veneer receiving port configuration information, and determine the physical location of the port that described port configuration information is corresponding, if the physical location of the port that described port configuration information is corresponding is on the first veneer, then according to described port configuration information port corresponding to described the first veneer is managed for configuration, if the physical location of the port that described port configuration information is corresponding on the second veneer, then sends to described port configuration information described the second veneer;

Described the second veneer receives the port configuration information from described the first veneer, and according to described port configuration information port corresponding to described the second veneer is managed for configuration

Described the first veneer comprises,

Primary configuration management element is used for according to port configuration information, and the port of described the first veneer and the port of the second list are managed for configuration;

Primary chain of command message process unit is used for the chain of command message that described the first veneer generates is processed;

The mainboard data processing unit is used for according to processing policy, and the message that the port of the port of described the first veneer or described the second veneer receives is processed;

Described the second veneer comprises,

The standby configuration processing unit is used for receiving the described port configuration information from described the first veneer, and the port of described the second veneer is managed for configuration;

Chain of command message process unit for subsequent use is used for the chain of command message from described the first veneer is processed;

The slave board data processing unit is used for according to processing policy, and the message that the port from the port of described the second veneer or described the first veneer receives is processed.

8. port configuration management as claimed in claim 7 system is characterized in that, also comprises:

Be provided with backup path and data channel between described the first veneer and described the second veneer,

By described backup path, described the first veneer and described the second veneer storage port configuration information carry out the configuration management of described port configuration information;

By described data channel, the port of the port of described the first veneer or described the second veneer receives or sends data.

9. port configuration management as claimed in claim 7 system is characterized in that:

Described the first veneer also comprises,

Setting unit is for port backup relation and/or load sharing strategy between the port of the port that described the first veneer is set and described the second veneer;

The Port detecting unit is for detection of the state of the main port in described the first veneer or described the second veneer;

The port switching unit, be used for according to described backup relation, be checked through described main port or the link that is connected with described main port breaks down in described port detecting module, with the data exchange of described main port to standby port that described main port is associated on;

Port load sharing processing unit is used for according to described load sharing strategy, and the data on the port of the port of described the first veneer or described the second veneer are transmitted.

10. port configuration management as claimed in claim 7 system is characterized in that,

Described primary chain of command message process unit comprises:

Primary chain of command message receiver module is used for receiving the chain of command message;

The outbound port judge module is used for judging whether the outbound port of described chain of command message is the port of described the first veneer;

Primary chain of command message processing module (MPM) is used for the result that judges at described outbound port judge module when being, with described chain of command message in described the first veneer accordingly outbound port send; Otherwise, described chain of command message is sent to described the second veneer by described data channel;

Described chain of command message process unit for subsequent use comprises:

Chain of command message receiver module for subsequent use is used for receiving the described chain of command message from described the first veneer;

Chain of command message processing module (MPM) for subsequent use, outbound port for the chain of command message that described chain of command message receiver module for subsequent use is received carries out migration processing, determine outbound port in described the second veneer by the information in the described chain of command message, and corresponding outbound port in described second veneer of described chain of command message through determining is sent.

11. port configuration management as claimed in claim 7 system is characterized in that,

Described mainboard data processing unit comprises:

Mainboard message receiver module is used for receiving from the port of described the first veneer or the message of described the second veneer;

The mainboard judging unit is for the processing policy of judging the message that described mainboard message receiver module is received;

The mainboard processing module is used for the processing policy according to described mainboard judging unit, described message is carried out this locality process, transmit or be sent to another veneer at this veneer and transmit;

Described slave board message process unit comprises:

Slave board message receiving element is used for receiving from the port of described the second veneer or the message of described the first veneer;

The slave board judging unit is for the processing policy of judging the message that described slave board message receiver module is received;

The slave board processing module is used for the processing policy according to described slave board judging unit, described message is carried out this locality process, transmit or be sent to another veneer at this veneer and transmit.

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