CN105187499B - A kind of distributed scheduling method and system based on zookeeper biplane data frameworks - Google Patents

Abstract

The present invention relates to a kind of distributed scheduling method and system based on zookeeper biplane data frameworks, it is included in zookeeper and builds dynamic tree and Static Tree；It will be in the general configuration information storage to the nodal information of corresponding Static Tree of operation system；Business procedure generates interim dynamic node when starting in dynamic tree, will be in the attribute information setting to interim dynamic node of the business procedure；Distributed scheduler obtains Static Tree nodal information and dynamic tree nodal information respectively, optimal interim dynamic node is chosen according to scheduled selection principle, and then obtain corresponding business procedure, realizes the connection of distributed scheduler and the business procedure.The present invention indicates the logic load structure of load equalizer by Static Tree, real-time management and control is carried out to the operating condition of existing application by dynamic tree, the linkage of dynamic tree and Static Tree realizes the dynamic bind of logic load and actual motion, so that cloud system deployment and switching are efficiently, quickly, system flexibility is high.

Description

A kind of distributed scheduling method based on zookeeper biplane data frameworks and System

Technical field

The present invention relates to field of communication technology more particularly to a kind of distributions based on zookeeper biplane data frameworks Formula dispatching method and system.

Background technology

As telecommunication service data service develops, flow calculates expense, enters an item of expenditure in the accounts and believe that control process increasingly requires real-time.Together When, as the business demands such as orientation flow, intelligent pipeline and pipeline operation are gradually carried out, data traffic subdivision also become it is necessary it Road.The requirement of real-time and data traffic subdivision will generate more service usage records, energy handled to existing BOSS systems Power is challenged.

From another angle, as 4G business is constantly spread out, faster access speed generates more services and uses note Record；Faster access speed will also result in the arrears risk of bigger simultaneously, need more timely flow control process；In addition faster Access speed be also required to carry out careful division to the grade of service.So being needed from business in the subdivision of 4G epoch data traffics More careful, demand is also more urgent.

The surge of business demand amount brings various problems, and the automatic linking and flexible switching between system are not easy to realize, and Framework transition to business build there are larger impact, the synchronization of system, the promptness and operation system of system exception processing expand The realization of the flexibility of appearance brings prodigious difficulty.The deployment of system and switching efficiency be not high, and system flexibility is low.

Therefore, data service is explosive growth to the requirement of the enabling capabilities of BOSS systems, faster, it is more acurrate, more close Suitable building of supporting system is the basic demand of next-generation BOSS systems.

Invention content

It is a kind of bis- based on zookeeper the technical problem to be solved by the present invention is in view of the deficiencies of the prior art, provide The distributed scheduling method and system of panel data framework.

ZooKeeper provides centralized service, including configuring maintenance, service name, distributed synchronization, group management.Son clothes Business is usually used in Distributed Application.Availabilities of the Zookeeper in Distributed Application so that the realization of BOSS system cloud frameworks More efficiently, flexibly.

The present invention uses biplane data framework using the zookeeper services of increasing income in zookeeper, and one quiet The tree-shaped hierarchical structure (S) of state, hereinafter referred to as Static Tree, indicate the logic load structure of load equalizer；One dynamic Tree-shaped hierarchical structure (D), hereinafter referred to as dynamic tree, to carry out real-time management and control to the operating condition of existing business procedure.

The technical solution that the present invention solves above-mentioned technical problem is as follows：One kind being based on zookeeper biplane data frameworks Distributed scheduling method, include the following steps：

Step 1, the biplane data framework being made of dynamic tree and Static Tree is built in zookeeper；

Step 2, the general configuration information of operation system is stored into the nodal information of corresponding Static Tree；

Step 3, it is automatically registered to when the business procedure of operation system starts in zookeeper services, it is raw in dynamic tree It, will be in the attribute information setting to interim dynamic node of the business procedure at unique interim dynamic node；

Step 4, distributed scheduler obtains Static Tree nodal information and dynamic tree nodal information respectively, according to scheduled Selection principle chooses optimal interim dynamic node, obtains the corresponding business procedure of interim dynamic node, realizes distributed scheduling The connection of program and the business procedure.

The beneficial effects of the invention are as follows：Biplane data framework is built in zookeeper of the present invention, is indicated by Static Tree The logic load structure of load equalizer carries out real-time management and control, dynamic by dynamic tree to the operating condition of existing business procedure The linkage of tree and Static Tree realizes the dynamic bind of logic load and actual motion, realizes automatic linking and spirit between system Switching living, eliminates the influence that framework transition build business, the bridge using zookeeper as system communication so that be System business structure becomes more efficiently, flexibly in startup and the monitoring process in switching and later stage；And it is deposited on zookeeper The versatility configuration of system has been stored up, it is modified when the system configuration on a certain host modifications zookeeper Static Tree Configuration is to All hosts node as it can be seen that realizing the synchronization of system configuration；The invention enables cloud system can carry out it is efficient, fast The deployment and switching of speed, system flexibility are high.

Based on the above technical solution, the present invention can also be improved as follows.

Further, being implemented as the data framework of biplane is built in step 1 in zookeeper：According to business The non-leaf nodes of the non-leaf nodes and leaf node and dynamic tree of Static Tree is generated in advance in the planning in system service pond.

Further, it when business procedure starts in step 3, registers in interim dynamic node to zookeeper services, it is interim dynamic State node is named according to zookeeper path fashions.

Using the advantageous effect of above-mentioned further scheme：The Uniform Name service for realizing operation system cloud process, is convenient for Management and monitoring to cloud operation system.

Further, above-mentioned technical proposal further includes creating or deleting the leaf section of Static Tree when carrying out load balancing configuration Point.

Further, distributed scheduler obtains the general configuration information of operation system from Static Tree in step 4, driven The attribute information that all business procedure of next stage subservice system are obtained in state tree, chooses optimal interim dynamic node, will face When dynamic node title setting in the static node of Static Tree, completing being associated with for static node and dynamic node.

Further, when the business procedure being registered on zookeeper stops, the interim dynamic node on dynamic tree is deleted Remove, by monitor interim dynamic node on dynamic tree there are situations, judge the operating condition of corresponding service system.

Further, above-mentioned technical proposal further includes operation system notice and repair process extremely, is implemented as：When next When grade subservice system exception, distributed scheduler receives the notice of zookeeper, obtains each on Static Tree and dynamic tree The status information of node searches Exceptional static burl according to the status information matched static tree node and dynamic tree node of acquisition The corresponding dynamic tree node of point, optimal interim dynamic node is chosen according to scheduled selection principle, itself and static node are closed Connection, carries out being switched fast for node, completes the abnormal of system and repairs.

Using the advantageous effect of above-mentioned further scheme：Realize operation system cloud node exception notice and automatically it is extensive It is multiple.

Further, above-mentioned technical proposal further includes carrying out dynamic capacity-expanding to operation system, is implemented as： Leaf node is added on zookeeper Static Trees, distributed scheduler receives the notice of zookeeper, in former business system Under system program normal operation, optimal interim dynamic node is chosen according to scheduled selection principle, with newly-increased leaf node It is associated, increases the service processing node of operation system, realize the automatic dilatation of operation system.

Using the advantageous effect of above-mentioned further scheme：Realize the convenient dilatation of system cloudization.

Another technical solution that the present invention solves above-mentioned technical problem is as follows：One kind being based on zookeeper double flat face datas The distributed scheduling system of framework, including Static Tree module, dynamic tree module and distributed scheduling module；

The Static Tree module, is implemented in zookeeper, for arriving the general configuration information storage of operation system In the nodal information of corresponding Static Tree；

The dynamic tree module, is implemented in zookeeper, is used for when the business procedure of operation system starts, raw It, will be in the attribute information setting to interim dynamic node of the business procedure at unique interim dynamic node；

The distributed scheduling module, for obtaining Static Tree nodal information and dynamic tree nodal information respectively, according to pre- Fixed selection principle chooses optimal interim dynamic node, obtains the corresponding business procedure of interim dynamic node, realizes distributed The connection of scheduler program and the business procedure.

Based on the above technical solution, the present invention can also be improved as follows.

Further, when next stage subservice system exception, distributed scheduling module receives the notice of zookeeper, The status information for obtaining each node on Static Tree and dynamic tree, according to the status information matched static tree node and dynamic tree of acquisition Node searches the corresponding dynamic tree node of Exceptional static tree node, optimal interim dynamic is chosen according to scheduled selection principle It is associated with static node, carries out being switched fast for node by node, completes the abnormal of system and repairs.

Further, when operation system dynamic capacity-expanding, leaf node is added on Static Tree, distributed scheduler receives It is chosen to the notice of zookeeper according to scheduled selection principle optimal in former operation system normal program operation Interim dynamic node is associated with newly-increased leaf node, is increased the service processing node of operation system, is realized operation system Automatic dilatation.

Description of the drawings

Fig. 1 is a kind of distributed scheduling system block diagram based on zookeeper biplane data frameworks of the present invention；

Fig. 2 is a kind of distributed scheduling method flow diagram based on zookeeper biplane data frameworks of the present invention；

Fig. 3 is zookeeper biplanes data shelf composition of the present invention.

In attached drawing, parts list represented by the reference numerals are as follows：

1, Static Tree module, 2, dynamic tree module, 3, distributed scheduling module.

Specific implementation mode

The principle and features of the present invention will be described below with reference to the accompanying drawings, and the given examples are served only to explain the present invention, and It is non-to be used to limit the scope of the present invention.

As shown in Figure 1, a kind of distributed scheduling system based on zookeeper biplane data frameworks, including Static Tree Module 1, dynamic tree module 2 and distributed scheduling module 3；The Static Tree module 1, is implemented in zookeeper, and being used for will In the general configuration information storage to the nodal information of corresponding Static Tree of operation system；The dynamic tree module 2, is implemented in In zookeeper, for when the business procedure of operation system starts, unique interim dynamic node being generated, by the business In the attribute information setting to interim dynamic node of program；The distributed scheduling module 3, for obtaining static tree node respectively Information and dynamic tree nodal information choose optimal interim dynamic node according to scheduled selection principle, obtain interim dynamic and save The corresponding business procedure of point, realizes the connection of distributed scheduler and the business procedure.

As shown in Fig. 2, a kind of distributed scheduling method based on zookeeper biplane data frameworks, including walk as follows Suddenly：

Step 1, the biplane data framework being made of dynamic tree and Static Tree is built in zookeeper, such as Fig. 3 institutes Show.

Specifically, according to the planning of operation system service pool be generated in advance non-leaf nodes and the leaf node of Static Tree with And the non-leaf nodes of dynamic tree.The Static Tree and dynamic tree include clustered node, domain node and tank node.Node level and Naming rule such as table 1.

Table 1

The non-leaf nodes of Static Tree and dynamic tree is generated according to the planning in system service pond in advance, the leaf of Static Tree Node is created and is deleted when management platform does load balancing configuration, and other times can only operate leaf node data. Leaf node attribute in static structure is PERSISTENT, and serial number logical process number thereon is configured specified by foreground.

The leaf node of dynamic tree is created when business procedure starts, and business procedure is automatically deleted when stopping by server-side, The data of leaf node can only be operated in operation.Leaf node attribute is EPHEMERAL in dynamic structure, thereon serial number It is designated in being locally configured when installation kit is installed, it will not change after installation.

{ penult name } is the unique mark of corresponding business procedure on dynamic tree；Without particular/special requirement on Static Tree. The penult name of dynamic tree is the unique mark of corresponding business procedure.

Step 2, the general configuration information of operation system is stored into the nodal information of corresponding Static Tree.

Step 3, it is automatically registered to when the business procedure of operation system starts in zookeeper services, it is raw in dynamic tree It, will be in the attribute information setting to interim dynamic node of the business procedure at unique interim dynamic node.

Business procedure start when, register interim dynamic node to zookeeper service in, interim dynamic node according to Zookeeper path fashions are named.

The attribute information of the wherein described business procedure include the CPU of host where the business procedure, memory, host ip, The attribute informations such as present procedure port numbers.

When business procedure starts, the generic configuration obtained on static tree node is configured as startup, and load starts configuration, opens The access that distributed scheduler is waited for after dynamic, carries out business processing.

When the business procedure being registered on zookeeper stops, the interim dynamic node on dynamic tree is deleted, and passes through prison Control interim dynamic node on dynamic tree there are situations, judge the operating condition of corresponding service system.

Wherein the attribute of Static Tree leaf node and dynamic tree leaf node includes at least content as shown in Table 2.

Table 2

Step 4, distributed scheduler obtains Static Tree nodal information and dynamic tree nodal information respectively, according to scheduled Selection principle chooses optimal interim dynamic node, obtains the corresponding business procedure of interim dynamic node, realizes distributed scheduling The connection of program and the business procedure.

Specifically, distributed scheduler obtains the general configuration information of operation system from Static Tree, from dynamic tree The attribute information for obtaining all business procedure of next stage subservice system is (including host CPU in interim dynamic node, interior Deposit, the information such as host node number), optimal interim dynamic node is chosen, by the title setting of interim dynamic node to Static Tree Static node in, being associated with for static node and dynamic node is completed, to the unicom and logical process of memory system.

Above-mentioned technical proposal further include by monitor interim dynamic node there are situations, judge the fortune of corresponding service system Market condition.Distributed scheduler creates watcher in Fig. 2 tank nodes, to adjust routing in time in business procedure exception Strategy carries out the related works such as abnormal restoring.(watcher can be all arranged in distributed scheduler on dynamic tree and Static Tree, When business procedure exception, triggering is watcher on dynamic tree tank node, and when carrying out system dynamic capacity-expanding, triggering is quiet Watcher on the tank node of state tree).

The business procedure of online flow independently builds pond according to service type, and corresponding distributed scheduler is also single It is established on functional pool, (distributed scheduler function is identical, has individual distributed scheduler per one kind business procedure Process) therefore what distributed scheduler setting wathcher monitored is interim dynamic node on Static Tree and dynamic tree, when After business procedure is normal in business pond, corresponding interim dynamic node is automatically deleted in dynamic tree, is triggered on dynamic node watcher.Zookeeper server-sides notify corresponding distributed scheduler, belonging to distributed scheduler reacquires All child nodes of znode, and analyze most suitable interim dynamic node and update corresponding static node data, connection is established, is opened Dynamic distribution routing.

Above-mentioned technical proposal further includes operation system notice and repair process extremely, is implemented as：When the sub- industry of next stage When business system exception, distributed scheduler receives the notice of zookeeper, obtains each node on Static Tree and dynamic tree Status information is searched Exceptional static tree node and is corresponded to according to the status information matched static tree node and dynamic tree node of acquisition Dynamic tree node, optimal interim dynamic node is chosen according to scheduled selection principle, it is associated with static node, carry out Node is switched fast, and is completed the abnormal of system and is repaired.

Above-mentioned technical proposal further includes carrying out dynamic capacity-expanding to operation system, is implemented as：Leaf is added on Static Tree Child node, distributed scheduler receive the notice of zookeeper, in former operation system normal program operation, root Optimal interim dynamic node is chosen according to scheduled selection principle, is associated with newly-increased leaf node, is increased operation system Service processing node realizes the automatic dilatation of operation system.

The foregoing is merely presently preferred embodiments of the present invention, is not intended to limit the invention, it is all the present invention spirit and Within principle, any modification, equivalent replacement, improvement and so on should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of distributed scheduling method based on zookeeper biplane data frameworks, which is characterized in that including walking as follows Suddenly：

Step 1, the biplane data framework being made of dynamic tree and Static Tree is built in zookeeper；

Step 2, the general configuration information of operation system is stored into the nodal information of corresponding Static Tree；

Step 3, it is automatically registered to when the business procedure of operation system starts in zookeeper services, is generated only in dynamic tree One interim dynamic node, will be in the attribute information setting to interim dynamic node of the business procedure；

Step 4, distributed scheduler obtains Static Tree nodal information and dynamic tree nodal information respectively, is obtained from dynamic tree The attribute information of all business procedure of next stage subservice system is chosen most according to the attribute information of all business procedure Excellent interim dynamic node obtains the corresponding business procedure of interim dynamic node, realizes distributed scheduler and the business journey The connection of sequence.

2. a kind of distributed scheduling method based on zookeeper biplane data frameworks according to claim 1, feature It is, builds being implemented as the data framework of biplane in step 1 in zookeeper：According to operation system service pool Planning be generated in advance Static Tree non-leaf nodes and leaf node and dynamic tree non-leaf nodes.

3. a kind of distributed scheduling method based on zookeeper biplane data frameworks according to claim 1, feature Be, in step 3 business procedure start when, register interim dynamic node to zookeeper service in, interim dynamic node according to Zookeeper path fashions are named.

4. a kind of distributed scheduling method based on zookeeper biplane data frameworks according to claim 1, feature It is, distributed scheduler obtains the general configuration information of operation system from Static Tree in step 4, is obtained from dynamic tree The attribute information of all business procedure of next stage subservice system is chosen most according to the attribute information of all business procedure Excellent interim dynamic node, will interim dynamic node title setting in the static node of Static Tree, complete static node with it is dynamic The association of state node.

5. a kind of distributed scheduling method based on zookeeper biplane data frameworks according to claim 1, feature It is, when the business procedure being registered on zookeeper stops, the interim dynamic node on dynamic tree is deleted, and passes through monitoring On dynamic tree interim dynamic node there are situations, judge the operating condition of corresponding service system.

6. a kind of distributed scheduling method based on zookeeper biplane data frameworks according to claim 1, feature It is, further includes operation system notice and repair process extremely, be implemented as：When next stage subservice system exception, point Cloth scheduler program receives the notice of zookeeper, obtains the status information of each node on Static Tree and dynamic tree, according to obtaining The status information matched static tree node and dynamic tree node taken searches the corresponding dynamic tree node of Exceptional static tree node, root Optimal interim dynamic node is chosen according to scheduled selection principle, it is associated with static node, carries out being switched fast for node, The abnormal of completion system is repaired.

7. a kind of distributed scheduling method based on zookeeper biplane data frameworks according to claim 1, feature It is, further includes that dynamic capacity-expanding is carried out to operation system, be implemented as：Leaf node is added on Static Tree, distribution is adjusted Degree program receives the notice of zookeeper, in former operation system normal program operation, according to scheduled selection principle Optimal interim dynamic node is chosen, is associated with newly-increased leaf node, the service processing node of operation system is increased, is realized The automatic dilatation of operation system.

8. a kind of distributed scheduling system based on zookeeper biplane data frameworks, which is characterized in that including Static Tree mould Block, dynamic tree module and distributed scheduling module；

The Static Tree module, is implemented in zookeeper, for storing the general configuration information of operation system to correspondence Static Tree nodal information in；

The dynamic tree module, is implemented in zookeeper, for when the business procedure of operation system starts, generating only One interim dynamic node, will be in the attribute information setting to interim dynamic node of the business procedure；

The distributed scheduling module, for obtaining Static Tree nodal information and dynamic tree nodal information respectively, from dynamic tree The attribute information for obtaining all business procedure of next stage subservice system is selected according to the attribute information of all business procedure Optimal interim dynamic node is taken, the corresponding business procedure of interim dynamic node is obtained, realizes distributed scheduler and the industry The connection for program of being engaged in.

9. a kind of distributed scheduling system based on zookeeper biplane data frameworks according to claim 8, feature It is, when next stage subservice system exception, distributed scheduling module receives the notice of zookeeper, obtains Static Tree It is searched according to the status information matched static tree node and dynamic tree node of acquisition with the status information of each node on dynamic tree The corresponding dynamic tree node of Exceptional static tree node, optimal interim dynamic node is chosen according to scheduled selection principle, by it It is associated with static node, carries out being switched fast for node, completed the abnormal of system and repair.

10. a kind of distributed scheduling system based on zookeeper biplane data frameworks according to claim 8, special Sign is, when operation system dynamic capacity-expanding, leaf node is added on Static Tree, distributed scheduler receives The notice of zookeeper chooses optimal face in former operation system normal program operation according to scheduled selection principle When dynamic node, be associated with newly-increased leaf node, increase the service processing node of operation system, realize operation system from Dynamic dilatation.