CN1808995A - Method of protection of agent nodes in multi-layered automatic switching optical network - Google Patents

Method of protection of agent nodes in multi-layered automatic switching optical network Download PDF

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Publication number
CN1808995A
CN1808995A CN 200510032907 CN200510032907A CN1808995A CN 1808995 A CN1808995 A CN 1808995A CN 200510032907 CN200510032907 CN 200510032907 CN 200510032907 A CN200510032907 A CN 200510032907A CN 1808995 A CN1808995 A CN 1808995A
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agent node
home agent
node
optical network
home
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CN100461689C (en
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徐慧颍
李旺
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Huawei Technologies Co Ltd
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Huawei Technologies Co Ltd
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Abstract

This invention relates to multi-layer automatic exchange optical network agent point protection method, which comprises the following steps: a, each area is abstracted into main agent point and prepare agent point on upper area; b, establishing neighbor relationship between main point and local other agent points; c, when the main point runs normally, the main point and prepare points real-time test; d, when the main point is abnormal, the prepare points receive the other point work into main point; e, when the main point recovers to normal status to automatically set prepare point.

Description

The guard method of agent node in the multi-layered automatic switching optical network
Technical field
The present invention relates to a kind of method that improves the reliability of multi-layered automatic switching optical network, the guard method of agent node in particularly a kind of multi-layered automatic switching optical network.
Background technology
Optical-fiber network comprises SDH (Synchronous Digital Hierarchy)/Synchronous Optical Network (SDH/Sonet), wavelength network etc.Traditional optical-fiber network is a kind of system based on centralized management, adopt permanent connected mode to realize communication between the node of network, access path is calculated according to connection request and network resource usage situation in advance by management plane, send interconnection order by network management interface (NMI-T) to node along access path then, unify assignment, finally finish the process of setting up of path.Permanent connected mode has obtained better effects at the development of optical network initial stage because of its simplicity of design, cost are lower etc.But establishment, maintenance and the dismounting that permanent connected mode light connects all needs artificial or network management system is intervened, along with the continuous growth of data business volume, this connected mode can not satisfy to optical network system dynamically, requirement flexibly.
The key that addresses this problem is to realize dynamic light exchange, and therefore, International Telecommunication Association (ITU-T) has proposed ASON (ASON) framework, and this framework has increased a control plane at optical-fiber network traditionally, and has proposed the notion that exchange connects.According to this thought, the node of optical-fiber network at first obtains the annexation of this node and other optical nodes by the discovery technique of link part, issue its node and Link State by control plane again, and the state publications of other nodes in the reception network, final each optical node all has a accurately " network map " of topology of network of describing, and comprises multiple information such as node, link, resource in " network map ".When node was connected by customer equipment or system administration request, the information of node utilization " network map " obtained a feasible path in conjunction with certain routing algorithm, and the node that drives on the path by signaling protocol is set up interconnection again.Connect dynamically at network and to set up, to remove or fault causes that respective nodes will in time be issued node, the link-state information of renewal when link circuit resource changes, realize the synchronous again of " network map ".
ASON adopts link-state protocol to collect " network map " information, and this algorithm requires not use when network size is not very big.Along with the expansion of ASON scale, network will be divided into a plurality of control domains, and in the process that scale further enlarges, divided control domain will be cut apart once more, finally forms a multi-level ASON.
After network is cut apart, be the same before setting up method professional in the control domain and not cutting apart.But when setting up a teleservice of striding a plurality of control domains, because each control domain is separate, each control domain is all only known " network map " in the own territory, can't go out cross-domain path according to this map calculation.Therefore, in multi-level ASON, adopt the level route to solve cross-domain link-state information diffusion.In the level route, for each high-level control domain, a control domain of following one deck is abstracted into a node, and the domain-to-domain link between the control domain of following one deck is counted as the link between the abstract node, and the link of following one deck control domain inside is invisible for high-level control domain.In high-level control domain, adopt newly-generated abstract node and the domain-to-domain link information of similar link-state protocol diffusion, with the topology information (network map) that forms this level.
Be conceptualized as under the situation of an agent node in a territory; the problem that how to realize the agent node protection just becomes a urgent problem; otherwise after agent node went wrong, the diffusion of the topology of whole network will go wrong and can't be recovered automatically.
Summary of the invention
The objective of the invention is to, the guard method of agent node in a kind of multi-layered automatic switching optical network is provided, to solve the problem of the reliability reduction that in multi-layered automatic switching optical network, causes owing to the protection of shortage agent node.
Technical scheme of the present invention is, the guard method of agent node in a kind of multi-layered automatic switching optical network is provided, and may further comprise the steps:
(a) each territory is abstract in the territory, upper strata is home agent node and is equipped with agent node;
(b) respectively home agent node and other agent nodes that are equipped with agent node and this layer are set up syntople;
(c) home agent node and agent node real-time verification fully;
(d) unusual when the home agent node checking, be equipped with agent node and transfer home agent node to, carry out the function of home agent node, carry out the operation of up/down diffusion.
In the guard method of agent node, step (c) may further comprise the steps in the above-mentioned multi-layered automatic switching optical network:
(c1) home agent node sends first test post to secondary node;
(c2) return the first test response message after agent node is received first test post fully, send second test post to home agent node simultaneously;
(c3) home agent node is returned the second test response message after receiving second test post;
(c4) home agent node and standby agent node periodically send the message that keeps activation mutually.
In the guard method of agent node, wherein the home agent node checking is meant unusually and is equipped with agent node does not receive the maintenance activation of home agent node transmission in predetermined a plurality of cycles message in the above-mentioned multi-layered automatic switching optical network.
In the guard method of agent node, step (d) may further comprise the steps in the above-mentioned multi-layered automatic switching optical network:
(d1) be equipped with agent node and initiate inundation, the LSA of deletion home agent node up/down diffusion deletes the LSA that home agent node generates in this territory simultaneously;
(d2) be equipped with agent node and carry out the diffusion of up/down LSA and the operation of inundation again at this node.
In the guard method of agent node, also comprise in the above-mentioned multi-layered automatic switching optical network: home agent node is changed to oneself the step of agent node fully after receiving that agent node sends the LSA inundation message of deletion oneself generation fully automatically.
In the above-mentioned multi-layered automatic switching optical network in the guard method of agent node; also comprise: send test post to being equipped with agent node after the home agent node fault recovery; find to be equipped with agent node and to be operated in holotype following time, will directly be set to the step of agent node fully.
In the guard method of agent node, step (a) may further comprise the steps in the above-mentioned multi-layered automatic switching optical network:
(a1) dispose home agent node and the sign that is equipped with agent node respectively;
(a2) in home agent node configuration path control deivce sign and IP address and the path control deivce that is equipped with agent node identify and the IP address;
(a3) in the path control deivce sign and the IP address that are equipped with agent node configuration path control deivce sign and IP address and home agent node.
In the guard method of agent node, comprise that also the home agent node on all upper stratas is carried out the step of hot-swap when lower floor's home agent node fault in the above-mentioned multi-layered automatic switching optical network.
In the guard method of agent node, also comprise in the above-mentioned multi-layered automatic switching optical network: (e) manually carry out home agent node and the hot-swap of agent node fully.
In the guard method of agent node, described step (e) comprising in the above-mentioned multi-layered automatic switching optical network:
(e1) after home agent node receives switching command, stop to send test post, after keeping activation cycle, be equipped with agent node and automatically switch to home agent node, the work of catcher home agent node;
(e2) after being equipped with agent node reception switching command, switch to the mode of operation of home agent node.
The guard method of agent node in the multi-layered automatic switching optical network of the present invention; by home agent node being set and being equipped with agent node; and home agent node and the hot-swap of agent node fully, thereby strengthened reliability of data transmission in the multi-layered automatic switching optical network.
Description of drawings
Fig. 1 be in the guard method of agent node in the multi-layered automatic switching optical network of the present invention agent node structural representation is set;
Fig. 2 is a home agent node and be equipped with checking schematic diagram between agent node in the guard method of agent node in the multi-layered automatic switching optical network of the present invention;
Fig. 3 is the flow chart of the guard method of agent node in the multi-layered automatic switching optical network of the present invention;
Fig. 4 is a home agent node and the flow chart that is equipped with the agent node hot-swap among Fig. 3.
Embodiment
As shown in Figure 1, be the structural representation that is provided with of agent node in the guard method of agent node in the multi-layered automatic switching optical network of the present invention.Three layers network application has been shown among Fig. 1, wherein 0 layer routed domain CD1 1 layer abstract be 2 agent nodes, one main one is equipped with, home agent node is RC11 (M), being equipped with agent node is RC11 (S); 0 layer routed domain CD2 is conceptualized as home agent node RC12 (M), is equipped with agent node RC12 (S); 0 layer routed domain CD3 is conceptualized as home agent node RC13 (M), is equipped with agent node RC13 (S); 0 layer routed domain CD4 is conceptualized as home agent node RC14 (M), is equipped with agent node RC14 (S).1 layer routed domain CD5 2 layers abstract be home agent node RC21 (M), be equipped with agent node RC21 (S); 1 layer routed domain CD6 2 layers abstract be home agent node RC22 (M), be equipped with agent node RC22 (S).
Dotted line among the figure between levels represents to carry out the diffusion up or down of topological data, and for example RC11 (M) is to the line of N03; Solid line between levels represents to be equipped with last layer the line of agent node, and for example RC11 (S) is to the line of N02.The line of the levels among the figure all is schematically, the logical path of expression levels diffusion of information.In fact, home agent node or to be equipped with agent node can be a route example on certain node in the lower floor territory also can be an independent path control deivce.
In the present invention, the configuration parameter that relates to comprises home agent node and is equipped with the path control deivce sign of agent node sign, agent node, the IP address of agent node etc. that above-mentioned information is configured to control plane by the user by ASON management plane or MML.
Under normal circumstances, by the transfer of data between the home agent node on node in the territory of home agent node realization and lower floor and upper strata.Home agent node and be equipped with between agent node checking as shown in Figure 2.Home agent node 21 at first sends one first test (TEST) message to being equipped with agent node 22, be equipped with and return one first test response (TEST RSP) message after agent node 22 is received, send second test post to home agent node 21 simultaneously, home agent node 21 is returned the second test response message to being equipped with agent node 22 after receiving second test post, sets up the checking path.Then home agent node 21 with act on behalf of the contact 22 periodic message that keep activating (KEEP ALIVE) that send mutually fully.Do not receive the maintenance that home agent node 21 sends activate message in predetermined a plurality of time cycles if be equipped with agent node 22, represent that then home agent node 21 breaks down, this fault comprises the fault of communication failure and home agent node 21 itself.Wherein predetermined a plurality of time cycles can be three time cycles according to the reliability requirement adjustment of system in the present embodiment.Above-mentioned home agent node 21 and be equipped with 22 test posts that transmit mutually of agent node and include the mode of operation that sends the message end (be the master agent pattern or be equipped with proxy mode).It can certainly be the mode of operation that test response message comprises transmitting terminal.
Fig. 3 is the flow chart of the guard method of agent node in the multi-layered automatic switching optical network of the present invention.As shown in Figure 3, in conjunction with Fig. 1, be the protection that example is introduced agent node with the CD5 of 0 layer territory CD1 and 1 layer.
Each territory is abstract in the control domain on upper strata to be home agent node and to be equipped with agent node, therefore at first needs to specify this control domain in the home agent node on upper strata be equipped with agent node, simultaneously the relevant node parameter (step S31) of configuration.This layoutprocedure comprises: dispose the home agent node of territory CD1 and be equipped with agent node in 1 layer, comprise that specifically configuration RC11 (M) is home agent node, RC11 (S) is equipped with agent node; In home agent node RC11 (M), dispose path control deivce sign and the IP address of home agent node RC11 (M) and path control deivce sign and the IP address that is equipped with agent node RC11 (S); And configuration is equipped with the path control deivce sign of agent node RC11 (S) and path control deivce sign and the IP address of IP address and home agent node RC11 (M) in being equipped with agent node RC11 (S).
Then, in 1 layer territory CD5, dispose syntople (step S32).As shown in Figure 1, need the syntople of configuration to have: home agent node RC11 (M) and home agent node RC12 (M), home agent node RC11 (M) and be equipped with agent node RC12 (S), be equipped with agent node RC11 (S) and reach agent node RC11 (S) and the syntople between the agent node RC12 (S) fully fully with home agent node RC12 (M), this configuration is manually carried out by the user, can these configuration informations be issued to control plane by webmaster or relevant maintenance terminal operation.
After setting up home agent node and being equipped with agent node, home agent node work realizes diffusion up and down, and secondary node does not then need to carry out the dispersion operation up and down of LSA (Link-State Advertisement, Link State declaration).Simultaneously home agent node is carried out real-time checking (step S33) in mode shown in Figure 2 with being equipped with between agent node, thereby whether the detection home agent node breaks down (step S34).
If the home agent node fault-free is then returned step S33.If the home agent node fault, and be equipped with agent node is not received the maintenance activation of home agent node in three time cycles message, then carry out home agent node and the hot-swap (step S35) that is equipped with agent node.
If home agent node is at N, N+1, N+2 layer are DDRP (inter-domain routing protocol) nodes, and then when the N layer broke down, automatically at the N+1 layer, N+2 was until the top hot-swap of carrying out home agent node and being equipped with agent node.For example after home agent node RC12 (M) is unusual, need notice home agent node RC21 (M) out of service, thereby carry out 2 layers home agent node and the hot-swap between agent node fully.
As shown in Figure 4, be equipped with agent node RC11 (S) does not receive the maintenance activation of home agent node RC11 (M) in three message cycles that keep activating message, then at first with node N03 upwards the LSA inundation of diffusion all delete (step S41), simultaneously by the node N02 dispersion operation that makes progress again; With also all deletions of LSA inundation of home agent node RC11 (M) diffusion downwards, carry out downward dispersion operation (step S42) again simultaneously by being equipped with agent node RC11 (S).
If fault is home agent node RC11 (M) communication abnormality, then when home agent node RC11 (M) receives the LSA that deletion home agent node RC11 (M) that agent node RC11 (S) fully sends produces, with oneself being changed to agent node (step S45) fully, no longer carry out the operation of up/down diffusion.
(M) is out of service if fault is home agent node RC11, then after home agent node RC11 (M) fault recovery, will send test post (step S44) to being equipped with agent node RC11 (S), be operated under the holotype if find to be equipped with agent node RC11 (S), then automatically operate in the pattern (step S45) of agent node fully.
Top handling process is finished automatically by control plane, need not artificial intervention.Certainly also can manually carry out home agent node and the hot-swap of agent node fully by the user, be that the user is after home agent node issues switching command, home agent node stops to send test post, through after keepalive period, be equipped with agent node and automatically switch to home agent node, the work of catcher home agent node; The user is equipped with the mode of operation that agent node switches to home agent node after agent node issues switching command fully.
The above; only for the preferable embodiment of the present invention, but protection scope of the present invention is not limited thereto, and anyly is familiar with those skilled in the art in the technical scope that the present invention discloses; the variation that can expect easily 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 claim.

Claims (10)

1, the guard method of agent node in a kind of multi-layered automatic switching optical network is characterized in that, may further comprise the steps:
(a) each territory is abstract in the territory, upper strata is home agent node and is equipped with agent node;
(b) respectively home agent node and other agent nodes that are equipped with agent node and this layer are set up syntople;
(c) home agent node and agent node real-time verification fully;
(d) unusual when the home agent node checking, be equipped with agent node and transfer home agent node to, carry out the function of home agent node, carry out the operation of up/down diffusion.
2, the guard method of agent node in the multi-layered automatic switching optical network according to claim 1 is characterized in that, step (c) may further comprise the steps:
(c1) home agent node sends first test post to secondary node;
(c2) return the first test response message after agent node is received first test post fully, send second test post to home agent node simultaneously;
(c3) home agent node is returned the second test response message after receiving second test post;
(c4) home agent node and standby agent node periodically send the message that keeps activation mutually.
3, the guard method of agent node in the multi-layered automatic switching optical network according to claim 2; it is characterized in that wherein the home agent node checking is meant unusually and is equipped with agent node does not receive the maintenance activation of home agent node transmission in predetermined a plurality of cycles message.
4, the guard method of agent node in the multi-layered automatic switching optical network according to claim 1 is characterized in that, step (d) may further comprise the steps:
(d1) be equipped with agent node and initiate inundation, the Link State declaration LSA of deletion home agent node up/down diffusion deletes the Link State declaration LSA that home agent node generates in this territory simultaneously;
(d2) be equipped with agent node and carry out the diffusion of up/down Link State declaration LSA and the operation of inundation again at this node.
5, the guard method of agent node in the multi-layered automatic switching optical network according to claim 4; it is characterized in that; also comprise: home agent node is changed to oneself the step of agent node fully after receiving that agent node sends the Link State declaration LSA inundation message of deletion oneself generation fully automatically.
6, the guard method of agent node in the multi-layered automatic switching optical network according to claim 4; it is characterized in that; also comprise: send test post to being equipped with agent node after the home agent node fault recovery; find to be equipped with agent node and to be operated in holotype following time, will self be set to the step of agent node fully automatically.
7, the guard method of agent node in the multi-layered automatic switching optical network according to claim 1 is characterized in that, step (a) may further comprise the steps:
(a1) dispose home agent node and the sign that is equipped with agent node respectively;
(a2) in home agent node configuration path control deivce sign and IP address and the path control deivce that is equipped with agent node identify and the IP address;
(a3) in the path control deivce sign and the IP address that are equipped with agent node configuration path control deivce sign and IP address and home agent node.
8, the guard method of agent node in the multi-layered automatic switching optical network according to claim 1 is characterized in that, comprises that also the home agent node on all upper stratas is carried out the step of hot-swap when lower floor's home agent node fault.
9, the guard method of agent node in the multi-layered automatic switching optical network according to claim 1 is characterized in that, also comprises:
(e) manually carry out home agent node and the hot-swap of agent node fully.
10, the guard method of agent node in the multi-layered automatic switching optical network according to claim 9 is characterized in that, described step (e) comprising:
(e1) after home agent node receives switching command, stop to send test post, after keeping activation cycle, be equipped with agent node and automatically switch to home agent node, the work of catcher home agent node;
(e2) after being equipped with agent node reception switching command, switch to the mode of operation of home agent node.
CNB2005100329077A 2005-01-19 2005-01-19 Method of protection of agent nodes in multi-layered automatic switching optical network Expired - Fee Related CN100461689C (en)

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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100463415C (en) * 2007-06-07 2009-02-18 烽火通信科技股份有限公司 Method for realizing dual node loop DCC route protection and dual node loop device
CN101247345B (en) * 2008-03-24 2010-12-08 中兴通讯股份有限公司 Routing domain segmentation and combination method
CN102064961A (en) * 2010-12-02 2011-05-18 中兴通讯股份有限公司 Multilayer protection method and device
WO2019232933A1 (en) * 2018-06-05 2019-12-12 平安科技(深圳)有限公司 Data storage method and system employing distributed database

Family Cites Families (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US6278689B1 (en) * 1998-04-22 2001-08-21 At&T Corp. Optical cross-connect restoration technique
CN1499747A (en) * 2002-11-07 2004-05-26 华为技术有限公司 Method for implementing protection and restoration for intelligent optical network
CN1272924C (en) * 2003-09-30 2006-08-30 烽火通信科技股份有限公司 Method for determining abstract topological link attribute for optical network hierarchical route

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN100463415C (en) * 2007-06-07 2009-02-18 烽火通信科技股份有限公司 Method for realizing dual node loop DCC route protection and dual node loop device
CN101247345B (en) * 2008-03-24 2010-12-08 中兴通讯股份有限公司 Routing domain segmentation and combination method
CN102064961A (en) * 2010-12-02 2011-05-18 中兴通讯股份有限公司 Multilayer protection method and device
WO2012071936A1 (en) * 2010-12-02 2012-06-07 中兴通讯股份有限公司 Method and device for multilayer protection
CN102064961B (en) * 2010-12-02 2014-04-30 中兴通讯股份有限公司 Multilayer protection method and device
WO2019232933A1 (en) * 2018-06-05 2019-12-12 平安科技(深圳)有限公司 Data storage method and system employing distributed database

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