CN102611569A - Path display method and device in service deployment and communication system - Google Patents

Abstract

The embodiment of the invention provides a path display method and device in service deployment and a communication system, relating to the field of communication. Through the invention, each path (namely mark exchange path) can be drawn and displayed before a service deployment instruction input by a user is received, so that the user can manage and operate the mark exchange path when in service deployment, thereby bringing great convenience to the user in use. The path display method before service deployment, provided by the embodiment, comprises the following steps of: sending the source node address, the host node address and the path basic parameter input by the user to a source node and a host node respectively according to the source node address and host node address input by the user, wherein the path basic parameter includes a path name, a protocol type and a signal type; receiving the first route information from the source node and the second route information from the host node; and drawing and displaying the path on the topology according to the first route information and the second route information.

Description

The method, device and the communication system that show paths during a kind of service deployment

Technical field

The present invention relates to the communications field, the method, device and the communication system that show paths when relating in particular to a kind of service deployment.

Background technology

In recent years; Increase along with network size; The tunnel Tunnel of increasing network using RSVP-TE (Resource ReSerVation Protocol-Traffic Engineering is based on the RSVP of traffic engineering expansion) type disposes business, in the Tunnel of the type; Label switched path can truly reflect the service deployment mode of Tunnel and be user's finding; Therefore, the user is to the management and the O&M (i.e. checking and adjusting Tunnel) of label switched path, and Traffic Channel is disposed preceding pre-configured more and more attention.

Yet, in existing webmaster, if the user not in the advance setting of row labels switching path obligatory point of service deployment, the user can't be known label switched path; Must wait until after the service deployment that through calculation of equipments, label switched path could be clear and definite; But this moment, business was disposed, if the path computing success, the user must inquire about on webmaster just can see label switched path; If the path computing failure means this service deployment failure, the user need carry out pre-configured again.

Summary of the invention

Method, device and communication system that embodiments of the invention show paths when a kind of service deployment is provided; Can be before the service deployment instruction that receives user's input; Draw and also to show each path, i.e. label switched path, thus make the user can be when service deployment; Label switched path is managed and O&M, be very easy to user's use.

For achieving the above object, embodiments of the invention adopt following technical scheme:

On the one hand, the method that the embodiment of the invention shows paths when a kind of service deployment is provided comprises:

Source node address and destination node address according to user's input; The path basic parameter of source node address, destination node address and user's input is sent to source node and destination node respectively, and said path basic parameter comprises pathname, protocol type and signal type;

Reception is from the secondary route information of first routing iinformation and the said destination node of said source node; Said first routing iinformation is for arriving destination node successively each address of node of process according to what said destination node address and path Parameter Calculation obtained from source node by said source node, said secondary route information for by said destination node according to said source node address and the acquisition of path Parameter Calculation from destination node arrival source node each address of node of process successively;

On topology, draw and show paths according to said first routing iinformation and secondary route information.

On the other hand, the method that the embodiment of the invention shows paths when a kind of service deployment is provided comprises:

Reception is from source node address, destination node address and the path basic parameter of webmaster, and said path basic parameter comprises pathname, protocol type, signal type and trail protection type;

According to said destination node address and path basic parameter, calculate from source node and arrive destination node each address of node of process successively, and generate first routing iinformation;

Said first routing iinformation is sent to said webmaster, so that said webmaster is drawn on topology according to said first routing iinformation and showed paths.

On the one hand, the embodiment of the invention provides a kind of webmaster, comprising:

The network management topological module; Be used for the source node address and the destination node address of user's input are sent to the webmaster administration module; And according to drawing from first routing iinformation of said NM server and secondary route information and showing paths; Said first routing iinformation is for arriving destination node successively each address of node of process according to what said destination node address and path Parameter Calculation obtained from source node by said source node, said secondary route information for by said destination node according to said source node address and the acquisition of path Parameter Calculation from destination node arrival source node each address of node of process successively;

The webmaster administration module is used for the path basic parameter of user's input is reached said source node address and destination node address from said network management topological module, is sent to NM server;

NM server; Be used to receive said source node address, destination node address and path basic parameter from said webmaster administration module; And be sent to said source node and destination node respectively; And receive secondary route information, and be sent to said network management topological module from first routing iinformation and the said destination node of said source node.

On the other hand, the embodiment of the invention provides a kind of network node, comprising:

Receiver module is used to receive source node address, destination node address and path basic parameter from webmaster;

Computing module is used for according to said destination node address and path basic parameter, calculates from source node and arrives destination node each address of node of process successively, and generate first routing iinformation;

Sending module is used for said first routing iinformation is sent to said webmaster, so that said webmaster is drawn on topology according to said first routing iinformation and showed paths.

The embodiment of the invention provides a kind of communication system, comprising:

Webmaster; Be used in source node address and destination node address according to user's input; After the path basic parameter of source node address, destination node address and user's input is sent to source node and destination node respectively; Reception is from the secondary route information of first routing iinformation and the said destination node of said source node; Said first routing iinformation for by said source node according to said destination node address and path Parameter Calculation obtain from source node arrival destination node each address of node of process successively; Said secondary route information for by said destination node according to said source node address and path Parameter Calculation obtain from destination node arrival source node each address of node of process successively, and on topology, draw and show paths according to said first routing iinformation and secondary route information;

Source node; Be used for behind the said source node address, destination node address and the path basic parameter that receive from said webmaster; According to said destination node address and path basic parameter; Calculate from source node and arrive destination node each address of node of process successively, and generate first routing iinformation, and said first routing iinformation is sent to said webmaster;

Destination node; Be used for behind the said source node address, destination node address and the path basic parameter that receive from said webmaster; According to said source node address and path basic parameter; Calculate from destination node and arrive source node each address of node of process successively, and generate secondary route information, and said secondary route information is sent to said webmaster.

The method, device and the communication system that show paths before a kind of service deployment that the embodiment of the invention provides; After being sent to source node and destination node respectively through source node address, destination node address and path basic parameter with user input; Reception is from the secondary route information of first routing iinformation and the destination node of source node; This first routing iinformation to be source node go out according to destination node address and path Parameter Calculation, arrive destination node each address of node of process successively from source node; This secondary route information to be said destination node go out according to source node address and path Parameter Calculation, arrive source node each address of node of process successively from destination node; Thereby, on topology, draw and show paths according to this first routing iinformation and secondary route information.Through this scheme, the user just can see on webmaster how label switched path is disposed before service deployment, label switched path is managed and O&M (promptly Tunnel is checked and adjust), is very easy to user's use.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art; To do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below; Obviously, the accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills; Under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

The method flow sketch map that Fig. 1 shows paths when disposing for the webmaster side business of the embodiment of the invention one;

The method flow sketch map that Fig. 2 shows paths when disposing for the source node side business of the embodiment of the invention one;

The method flow sketch map that Fig. 3 shows paths during for the service deployment of the embodiment of the invention two;

The network management framework sketch map one that Fig. 4 shows paths during for the service deployment of the embodiment of the invention three;

The network management framework sketch map two that Fig. 5 shows paths during for the service deployment of the embodiment of the invention three;

The network management framework sketch map three that Fig. 6 shows paths during for the service deployment of the embodiment of the invention three;

The network node structure sketch map that Fig. 7 shows paths during for the service deployment of the embodiment of the invention three;

Fig. 8 is the communication system architecture sketch map of the embodiment of the invention four.

Embodiment

To combine the accompanying drawing in the embodiment of the invention below, the technical scheme in the embodiment of the invention is carried out clear, intactly description, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills are not making the every other embodiment that is obtained under the creative work prerequisite, all belong to the scope of the present invention's protection.

Embodiment one

The method that the embodiment of the invention shows paths when a kind of service deployment is provided, this method is the method for webmaster side, and is as shown in Figure 1, this method comprises:

S101, webmaster are according to user's input source node address and destination node address, and the path basic parameter that source node address, destination node address and user are imported is sent to source node and destination node respectively.

Webmaster in the present embodiment; The network equipment that can be made up of webmastering software platform, webmaster support programs, webmaster workbench and the bearing reticular tube agreement of supporting network management protocol can provide the basic management of configuration, fault, performance and network user's distribution aspect of network system.Source node is the path initial point and end that is provided with by the user, and destination node is the terminal node by the path of user's setting.

In practical operation, the user realizes management and O&M (i.e. checking and adjusting Tunnel) to label switched path through webmaster is operated; Therefore, the user needs source node address, destination node address and the path basic parameter of input marking switching path before service deployment; Wherein, the path basic parameter can comprise the node of pathname, Tunnel process, the protocol type of Tunnel; Whether signal type creates reverse Tunnel, backup mode; And BFD (Bidirectional Forwarding Detection, two-way forwarding detects) configuration.

S102, webmaster receive the secondary route information from first routing iinformation and the destination node of source node.

Wherein, First routing iinformation to be source node go out according to destination node address and path Parameter Calculation, arrive destination node each address of node of process successively from source node, secondary route information be that destination node goes out according to source node address and path Parameter Calculation, from destination node arrival source node each address of node of process successively.That is to say; First routing iinformation is the routing iinformation that arrives destination node from source node; This information has comprised from source node, arrive destination node each address of node of process, after having comprised the path simultaneously and arriving certain node; Need the address of the next node of arrival; Be to have carried the address that needs the next node of process in a certain address of node, like this, webmaster can need the address of the next node of process to draw out label switched path according to having carried in each address of node and the corresponding a certain address of node.

S103, webmaster draw on topology according to first routing iinformation and secondary route information and show paths.

Webmaster is according to arriving destination node each address of node of process successively from source node in first routing iinformation; And in the secondary route information, arrive source node each address of node of process successively from destination node; Can find out corresponding nodes and connect the interface between each node, thereby on topology, draw and the show tags switching path according to these information.

Here, need describe topology, the topology in the computer network be through the computer in the network and communication equipment abstract be a point, transmission medium abstract be a line, the geometric figure of being made up of Points And lines is exactly the topology of computer network.The topology of network is meant form and the method that connects each node, can reflect the structural relation of each entity in the network.

The embodiment of the invention also provides the method that shows paths before a kind of service deployment, and this method is the method for source node side, and is as shown in Figure 2, and this method comprises:

S201, source node receive source node address, destination node address and path basic parameter from webmaster.

Wherein, the path basic parameter can comprise the node of pathname, Tunnel process, the protocol type of Tunnel; Whether signal type creates reverse Tunnel, backup mode; And BFD (Bidirectional Forwarding Detection, two-way forwarding detects) configuration.。

S202, source node calculate from source node and arrive destination node each address of node of process successively, and generate first routing iinformation according to destination node address and path basic parameter.

Here; Arrive destination node each address of node of process successively from source node; Expression is from source node, arrive destination node each address of node of process, after having comprised the path simultaneously and arriving certain node; Need the address of the next node of arrival; Be to have carried the address that needs the next node of process in a certain address of node, like this, webmaster can need the address of the next node of process to draw out label switched path according to having carried in each address of node and the corresponding a certain address of node.

S203, source node are sent to webmaster with first routing iinformation, so that webmaster is drawn on topology according to said first routing iinformation and showed paths.

According to this first routing iinformation, label switched path can drawn and demonstrate to webmaster.

Need to prove; What the foregoing description was described is the method for source node side, same, if the destination node side; After then method comprises that destination node receives source node address, destination node address and the path basic parameter from webmaster; According to destination node address and path basic parameter, calculate from source node and arrive destination node each address of node of process successively, and after generating secondary route information; And then secondary route information is sent to webmaster, so that webmaster is drawn according to this secondary route information and is showed paths.

The method that shows paths before a kind of service deployment that the embodiment of the invention provides; After being sent to source node and destination node respectively through source node address, destination node address and path basic parameter with user input; Reception is from the secondary route information of first routing iinformation and the destination node of source node; This first routing iinformation to be source node go out according to destination node address and path Parameter Calculation, arrive destination node each address of node of process successively from source node; This secondary route information to be said destination node go out according to source node address and path Parameter Calculation, arrive source node each address of node of process successively from destination node; Thereby, on topology, draw and show paths according to this first routing iinformation and secondary route information.Through this scheme, the user just can see on webmaster how label switched path is disposed before service deployment, label switched path is managed and O&M (promptly Tunnel is checked and adjust), is very easy to user's use.

Embodiment two

The method that shows paths before a kind of service deployment that present embodiment provides, as shown in Figure 3, said method comprising the steps of:

S301, webmaster receive path basic parameter, source node address and the destination node address of user's input.

The user is configured the attribute of Tunnel through the webmaster needs in advance, for example, selects source node, the destination node of Tunnel, the basic parameter that input Tunnel need possess.Webmaster has received information such as path basic parameter, source node address and destination node address according to user's operation, and wherein the path basic parameter can comprise the node of pathname, Tunnel process; The protocol type of Tunnel; Whether signal type creates reverse Tunnel, backup mode; And BFD (Bidirectional Forwarding Detection, two-way forwarding detects) configuration.

S302, webmaster use visual topological marked source node and the destination node of being identified at according to user source node address and destination node address.

Use visual topological marked source node and the destination node of being identified at; The visual sign here can be literal or symbol; Can let the user see that from network management interface which node is a source node intuitively; Which node is a destination node, can judge intuitively also whether this source node and destination node and user are provided with consistent.

S303, webmaster are sent to source node and destination node respectively with source node address, destination node address and path basic parameter.

Webmaster carries out respectively source node address, destination node address and path basic parameter being sent to source node and destination node alternately with source node, destination node respectively behind the source node address, destination node address and the path basic parameter that receive user's input.

S304, source node calculate from source node and arrive destination node each address of node of process successively, and generate first routing iinformation according to destination node address and path basic parameter.

After source node receives source node address, destination node address and the path basic parameter from webmaster; Carry out path computing according to destination node address and path basic parameter; Calculate from source node and arrive destination node each address of node of process successively; The form of expression is from the source node to the destination node, needs the node address of how many jumpings and each jumping altogether, and generates first routing iinformation.

Need to prove; What source node calculated arrives destination node each address of node of process successively from source node; Can comprise each address of node of primary path and each address of node of backup path; So after service deployment, if after the primary path goes wrong, then switch to backup path.

S305, source node are sent to webmaster with first routing iinformation.

Source node will calculate from source node arrival destination node first routing iinformation of each address of node of process successively and send to webmaster.

S306, destination node calculate from destination node and arrive source node each address of node of process successively according to source node address and path basic parameter, and generate secondary route information.

After destination node receives source node address, destination node address and the path basic parameter from webmaster; Carry out path computing according to source node address and path basic parameter; Calculate from destination node and arrive destination node each address of node of process successively; The form of expression is from the destination node to the source node, needs the node address of how many jumpings and each jumping altogether, and generates secondary route information.

Need to prove; What destination node calculated arrives source node each address of node of process successively from destination node; Also can comprise each address of node of primary path and each address of node of backup path; So after service deployment, if after the primary path goes wrong, then switch to backup path.

S307, destination node are sent to webmaster with secondary route information.

Destination node will calculate from the destination node arrival source node secondary route information of each address of node of process successively and send to webmaster.

S308, webmaster show first routing iinformation and secondary route information.

Can webmaster can the form with tabulation show first routing iinformation and secondary route information on network management interface, be set to restraint joint so that the user learns this node or interface intuitively, and restraint joint is meant the node that the path must be passed through.

S309, webmaster draw according to first routing iinformation and show the path that arrives destination node from source node, draw and show the path that arrives source node from destination node according to secondary route information.

According to the node address in first routing iinformation; Webmaster can be found out corresponding nodes and internodal interface, and then draws and show the path that arrives destination node from source node, and this path can be primary path and backup path; According to the node address in the secondary route information; Webmaster can be found out corresponding nodes and internodal interface, and then draws and show the path that arrives source node from destination node, and this path also can be primary path and backup path.

S310, webmaster receive and preserve the restraint joint address of user's input.

If the user wants certain node to be set to restraint joint, then can be provided with node through network management interface, like this, webmaster is in the restraint joint address that just can receive and preserve user's input.If certain node of user is set to restraint joint, on network management interface, can identify so this node, show that this node is a restraint joint.

S311, webmaster are sent to source node and destination node respectively with the restraint joint address.

Webmaster is sent to source node and destination node respectively with this restraint joint address after receiving and preserving the restraint joint address of user's input.

S312, source node recalculate from source node and arrive destination node each address of node of process successively, and generate Third Road by information according to destination node address, path basic parameter and constraint node address.

After source node receives the restraint joint address from webmaster; Again carry out path computing according to destination node address, path basic parameter and constraint node address; Calculate from source node and arrive destination node each address of node of process successively; The form of expression is from the source node to the destination node, needs the node address of how many jumpings and each jumping altogether, and generates Third Road by information.

Need to prove; What source node calculated arrives destination node each address of node of process successively from source node; Can comprise each address of node of primary path and each address of node of backup path; So after service deployment, if after the primary path goes wrong, then switch to backup path.

S313, source node are sent to webmaster with Third Road by information.

Source node will recalculate from the source node arrival destination node Third Road of each address of node of process successively and send to webmaster by information.

S314, destination node recalculate from destination node and arrive source node each address of node of process successively, and generate the 4th routing iinformation according to source node address, path basic parameter and constraint node address.

After destination node receives the restraint joint address from webmaster; Again carry out path computing according to source node address, path basic parameter and constraint node address; Calculate from destination node and arrive destination node each address of node of process successively; The form of expression is from the destination node to the source node, needs the node address of how many jumpings and each jumping altogether, and generates secondary route information.

Need to prove; What destination node calculated arrives source node each address of node of process successively from destination node; Also can comprise each address of node of primary path and each address of node of backup path; So after service deployment, if after the primary path goes wrong, then switch to backup path.

S315, destination node are sent to webmaster with the 4th routing iinformation.

Destination node will calculate from destination node arrival source node the 4th routing iinformation of each address of node of process successively and send to webmaster.

S316, webmaster are repainted by information according to Third Road and show the path that arrives destination node from source node, repaint and show the path that arrives source node from destination node according to the 4th routing iinformation.

Webmaster is repainted by information according to Third Road and shows from the path of source node arrival destination node; This path can be primary path and backup path; Webmaster repaints according to the 4th routing iinformation and shows the path that arrives source node from destination node, and this path also can be primary path and backup path.

It is to be noted; Step S310 to S316 is that exemplary ground is illustrated the process that the user carries out a restraint joint setting, and the user can repeatedly carry out the setting of restraint joint, but because all step is identical therewith; Repeat no more here, but must be within protection scope of the present invention.

S317, webmaster instruct according to the service deployment of user's input, carry out service deployment.

After the user confirms that path computing is errorless, webmaster is operated to carry out service deployment, webmaster then can receive the service deployment instruction of user's input so, carries out service deployment.

The method that shows paths before a kind of service deployment that the embodiment of the invention provides; After being sent to source node and destination node respectively through source node address, destination node address and path basic parameter with user input; Reception is from the secondary route information of first routing iinformation and the destination node of source node; This first routing iinformation to be source node go out according to destination node address and path Parameter Calculation, arrive destination node each address of node of process successively from source node; This secondary route information to be said destination node go out according to source node address and path Parameter Calculation, arrive source node each address of node of process successively from destination node; Thereby, on topology, draw and show paths according to this first routing iinformation and secondary route information, and; Can also the restraint joint address of user input be sent to source node and destination node respectively, and then according to the path being repainted by the 4th routing iinformation of information and destination node from the Third Road of source node and showing.Through this scheme, the user just can see on webmaster how label switched path is disposed before service deployment, label switched path is managed and O&M (promptly Tunnel is checked and adjust), is very easy to user's use.

Embodiment three

The device that the embodiment of the invention shows paths when a kind of service deployment is provided, as shown in Figure 4 in webmaster 40 on the one hand, said device comprises network management topological module 401, webmaster administration module 402, NM server 403.

Network management topological module 401; Be used for the source node address and the destination node address of user's input are sent to webmaster administration module 402; And according to drawing from first routing iinformation of NM server 403 and secondary route information and showing paths; First routing iinformation is for arriving destination node successively each address of node of process according to what destination node address and path Parameter Calculation obtained from source node by source node, secondary route information for by said destination node according to source node address and the acquisition of path Parameter Calculation from destination node arrival source node each address of node of process successively.

Webmaster administration module 402 is used for the path basic parameter of user's input is reached source node address and destination node address from network management topological module 401, is sent to NM server 403.

NM server 403; Be used to receive source node address, destination node address and path basic parameter from webmaster administration module 402; And be sent to source node and destination node respectively; And receive secondary route information, and be sent to network management topological module 403 from first routing iinformation and the destination node of source node.

Further; As shown in Figure 5, network management topological module 401 also comprises indexing unit 4011, is used for source node address and destination node address according to user's input; Use visual topological marked source node and the destination node of being identified at; The visual sign here can be literal or symbol, and then makes the user see that intuitively which node is a source node, and which node is a destination node.And; If the user wants certain node to be set to restraint joint, then can be provided with node, like this through network management interface; Webmaster 40 just can receive and preserve the restraint joint address of user's input; Indexing unit 4011 carries out mark to this node according to this restraint joint address on network management interface, make the user see that intuitively which node is set to restraint joint.

Further, as shown in Figure 6, webmaster administration module 402 also comprises display unit 4021, is used to show said first routing iinformation and secondary route information.

On the other hand, in node, be example with source node 70, as shown in Figure 7, comprise receiver module 701, computing module 702, sending module 703.

Receiver module 701 is used to receive source node address, destination node address and path basic parameter from webmaster.

Computing module 702 is used for according to said destination node address and path basic parameter, calculates from source node and arrives destination node each address of node of process successively, and generate first routing iinformation.

Sending module 703 is used for said first routing iinformation is sent to said webmaster, so that webmaster is drawn on topology according to said first routing iinformation and showed paths.

The device that shows paths before the service deployment that the embodiment of the invention provides; Webmaster can send to source node and destination node respectively through source node address, destination node address and the path basic parameter with user's input; Make source node calculate and arrive destination node each address of node of process successively from source node; And destination node calculates from destination node arrival source node each address of node of process successively; And generate first routing iinformation and secondary route information sends it back webmaster, thereby webmaster is drawn according to first routing iinformation and secondary route information and is showed paths.Simultaneously; Webmaster can use literal or symbol logo at topological marked source node and destination node; And show first routing iinformation, secondary route information, and make the user before service deployment, just can see on webmaster how label switched path is disposed; Label switched path is managed and O&M (promptly Tunnel is checked and adjust), be very easy to user's use.

Embodiment four

The communication system that present embodiment provides, as shown in Figure 8, comprise webmaster 801, source node 802, destination node 803.

Webmaster 801; Be used for according to user's input source node address and destination node address; After the path basic parameter of source node address, destination node address and user's input is sent to source node 802 and destination node 803 respectively; Reception is from the secondary route information of first routing iinformation and the destination node 803 of source node 802; To be source node 802 arrive destination node 803 each address of node of process successively according to what destination node address and path Parameter Calculation obtained to first routing iinformation from the source node 802s; To be destination node 803 arrive source node 802 each address of node of process successively according to what source node address and path Parameter Calculation obtained to secondary route information from the destination node 803s, and on topology, draw and show paths according to first routing iinformation and secondary route information.

Source node 802; Be used for behind the source node address, destination node address and the path basic parameter that receive from webmaster 801; According to destination node address and path basic parameter, calculate and arrive destination node 803 each address of node of process successively from the source node 802s, and generate first routing iinformation; And first routing iinformation is sent to webmaster 801, so that webmaster is drawn on topology according to first routing iinformation and is showed paths.

Destination node 803; Be used for behind the source node address, destination node address and the path basic parameter that receive from webmaster 801; According to source node address and path basic parameter, calculate and arrive source node 802 each address of node of process successively from the destination node 803s, and generate secondary route information; And secondary route information is sent to webmaster 801, so that webmaster is drawn on topology according to said secondary route information and is showed paths.

The communication system that the embodiment of the invention provides; After source node address, destination node address and the path basic parameter that webmaster is imported the user sends to source node and destination node respectively; Source node calculates from source node and arrives destination node each address of node of process successively; And destination node calculates from destination node arrival source node each address of node of process successively; And generate first routing iinformation and secondary route information sends it back webmaster, thereby webmaster is drawn according to first routing iinformation and secondary route information and is showed paths.Therefore, the user just can see on webmaster how label switched path is disposed before service deployment, label switched path is managed and O&M (promptly Tunnel is checked and adjust), is very easy to user's use.

One of ordinary skill in the art will appreciate that: all or part of step that realizes said method embodiment can be accomplished through the relevant hardware of program command; Aforesaid program can be stored in the computer read/write memory medium; This program the step that comprises said method embodiment when carrying out; And aforesaid storage medium comprises: various media that can be program code stored such as ROM, RAM, magnetic disc or CD.

The above; Be merely embodiment of the present invention, but protection scope of the present invention is not limited thereto, any technical staff who is familiar with the present technique field is in the technical scope that the present invention discloses; Can expect easily changing or replacement, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of said claim.

Claims (13)

1. the method that shows paths during a service deployment is characterized in that, comprising:

Source node address and destination node address according to user's input; The path basic parameter of source node address, destination node address and user's input is sent to source node and destination node respectively, and said path basic parameter comprises pathname, protocol type and signal type;

Reception is from the secondary route information of first routing iinformation and the said destination node of said source node; Said first routing iinformation is for arriving destination node successively each address of node of process according to what said destination node address and path Parameter Calculation obtained from source node by said source node, said secondary route information for by said destination node according to said source node address and the acquisition of path Parameter Calculation from destination node arrival source node each address of node of process successively;

On topology, draw and show paths according to said first routing iinformation and secondary route information.

2. method according to claim 1 is characterized in that, said method also comprises:

According to the said source node address and the destination node address of user's input, use visual said source node of topological marked and the destination node of being identified at.

3. method according to claim 2 is characterized in that, said visual literal or the symbol of being designated.

4. method according to claim 1 is characterized in that, said draw on topology according to said first routing iinformation and secondary route information and show paths before, also comprise:

Show said first routing iinformation and secondary route information.

5. the method that shows paths during a service deployment is characterized in that, comprising:

Reception is from source node address, destination node address and the path basic parameter of webmaster, and said path basic parameter comprises pathname, protocol type, signal type and trail protection type;

According to said destination node address and path basic parameter, calculate from source node and arrive destination node each address of node of process successively, and generate first routing iinformation;

Said first routing iinformation is sent to said webmaster, so that said webmaster is drawn on topology according to said first routing iinformation and showed paths.

6. method according to claim 5 is characterized in that, comprising:

Reception is from source node address, destination node address and the path basic parameter of webmaster, and said path basic parameter comprises pathname, protocol type, signal type and trail protection type;

According to said source node address and path basic parameter, calculate from destination node and arrive source node each address of node of process successively, and generate secondary route information;

Said secondary route information is sent to said webmaster, so that said webmaster is drawn on topology according to said secondary route information and showed paths.

7. a webmaster is characterized in that, comprising:

The network management topological module; Be used for the source node address and the destination node address of user's input are sent to the webmaster administration module; And according to drawing from first routing iinformation of said NM server and secondary route information and showing paths; Said first routing iinformation is for arriving destination node successively each address of node of process according to what said destination node address and path Parameter Calculation obtained from source node by said source node, said secondary route information for by said destination node according to said source node address and the acquisition of path Parameter Calculation from destination node arrival source node each address of node of process successively;

The webmaster administration module is used for the path basic parameter of user's input is reached said source node address and destination node address from said network management topological module, is sent to NM server;

NM server; Be used to receive said source node address, destination node address and path basic parameter from said webmaster administration module; And be sent to said source node and destination node respectively; And receive secondary route information, and be sent to said network management topological module from first routing iinformation and the said destination node of said source node.

8. webmaster according to claim 7 is characterized in that, said network management topological module comprises:

Indexing unit is used for said source node address and destination node address according to user's input, uses visual said source node of topological marked and the destination node of being identified at.

9. method according to claim 8 is characterized in that, said visual literal or the symbol of being designated.

10. webmaster according to claim 7 is characterized in that, said webmaster administration module comprises:

Display unit is used to show said first routing iinformation and secondary route information.

11. a network node is characterized in that, comprising:

Receiver module is used to receive source node address, destination node address and path basic parameter from webmaster;

Computing module is used for according to said destination node address and path basic parameter, calculates from source node and arrives destination node each address of node of process successively, and generate first routing iinformation;

Sending module is used for said first routing iinformation is sent to said webmaster, so that said webmaster is drawn on topology according to said first routing iinformation and showed paths.

12. network node according to claim 11 is characterized in that,

Said computing module also is used for according to said source node address and path basic parameter, calculates from destination node and arrives source node each address of node of process successively, and generate secondary route information;

Said sending module also is used for said secondary route information is sent to said webmaster, so that said webmaster is drawn on topology according to said secondary route information and showed paths.

13. a communication system is characterized in that, comprising:

Webmaster; Be used in source node address and destination node address according to user's input; After the path basic parameter of source node address, destination node address and user's input is sent to source node and destination node respectively; Reception is from the secondary route information of first routing iinformation and the said destination node of said source node; Said first routing iinformation for by said source node according to said destination node address and path Parameter Calculation obtain from source node arrival destination node each address of node of process successively; Said secondary route information for by said destination node according to said source node address and path Parameter Calculation obtain from destination node arrival source node each address of node of process successively, and on topology, draw and show paths according to said first routing iinformation and secondary route information;

Source node; Be used for behind the said source node address, destination node address and the path basic parameter that receive from said webmaster; According to said destination node address and path basic parameter, calculate from source node and arrive destination node each address of node of process successively, and generate first routing iinformation; And said first routing iinformation is sent to said webmaster, so that webmaster is drawn on topology according to said first routing iinformation and is showed paths;

Destination node; Be used for behind the said source node address, destination node address and the path basic parameter that receive from said webmaster; According to said source node address and path basic parameter, calculate from destination node and arrive source node each address of node of process successively, and generate secondary route information; And said secondary route information is sent to said webmaster, so that webmaster is drawn on topology according to said secondary route information and is showed paths.

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