CN104378270A - Data center system and data center method for networks - Google Patents
Data center system and data center method for networks Download PDFInfo
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- CN104378270A CN104378270A CN201410758535.5A CN201410758535A CN104378270A CN 104378270 A CN104378270 A CN 104378270A CN 201410758535 A CN201410758535 A CN 201410758535A CN 104378270 A CN104378270 A CN 104378270A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L12/00—Data switching networks
- H04L12/28—Data switching networks characterised by path configuration, e.g. LAN [Local Area Networks] or WAN [Wide Area Networks]
- H04L12/44—Star or tree networks
Abstract
The invention discloses a data center system and a data center method for networks. High-level data center nodes and low-level data center nodes are arranged in the networks, the low-level data center nodes can access the high-level data center nodes, data interaction can be carried out between the low-level data center nodes and the high-level data center nodes, and the low-level data center nodes can be authorized by the high-level data center nodes via permission validation to access application information. The high-level data center nodes are respectively provided with superior-level data center nodes, the low-level data center nodes are respectively provided with junior-level data center nodes, skip-level access between the various levels of data center nodes is prohibited, and unique identification information, namely, registration codes of users, in the integral networks is utilized for access permission validation. The data center system and the data center method have the advantages that the low-level data center nodes of the integral networks can be operated and managed by the high-level data centers in a unified manner, the data center system and the data center method are simple and convenient, information of the low-level data center nodes can be known by the high-level data center nodes in real time, accordingly, the networks can be internally maintained in real time, and the maintenance efficiency of the various data center nodes in the networks can be improved.
Description
Technical field
The present invention relates to the communication technology, particularly relate to a kind of networking data center systems and method.
Background technology
Along with the development of the Internet, a lot of office automation is all implement in the internet at present.When especially needing classification, top data center node and its subordinate's rank data Centroid build up a communication network, and meet the demand that industry flexible networking provides business function.
In prior art, after fixing networking is determined, the information of each network node also just configures complete, for each network node, other nodes whether online, whether can with knowing.Under fixing networking configuration, the process of Message routing generally: first have request message to arrive network A, then network A is according to request message determination objective network B, and send route messages inquiry request to the DNS equipment of correspondence, by the address information of network designation query aim network, and then obtain the address information of network B, so just achieve communicating of network A and network B.
According to the feature of communication network self, communication needs when networking to follow following group net principle: each data center network should keep the independence of respective relative business, and top data center node is distinguished by different domain names subordinate's rank data Centroid and identifies.
Adopt existing network-building method, after networking, access request is had once there be other nodes, just need the artificial nodal information increasing this new access network in relevant each website main DNS equipment, when there being node to leave network, just need the artificial nodal information deleting this new access network in relevant each website main DNS equipment, when requiring the special applications scene of real-time access network, process is loaded down with trivial details, easily causes unnecessary impact to network.
Summary of the invention
In view of this, the invention provides a kind of networking data center systems and method, make higher level data center node can data center of real-time awareness subordinate nodal information by the present invention, thus achieve the maintenance in networking, improve the maintenance efficiency of each data center's node in networking.
For solving above technical problem, the first technical scheme of the present invention is a kind of networking data center systems, comprising:
Higher level data center node, for receiving data center of subordinate node in the solicited message adding networking transmission, judging to allow request or refusal to ask, and upgrading mesh information table, sending described mesh information to each data center of subordinate node described; Wherein, described mesh information table comprises in networking the identification information and corresponding address information that are under the jurisdiction of higher level data center node.
Data center of subordinate node, for when adding networking or leaving networking, to affiliated higher level data center node transmission request information, and the mesh information table that belonging to receiving, higher level data center node sends.
Preferably, in described system, also comprise:
Data center of subordinate again node under data center of affiliated subordinate node;
Data center of described subordinate node also for, send its subordinate's mesh information table generated to described top data center node, in described subordinate mesh information, table comprises in networking each identification information of data center of subordinate node and corresponding address information again of being under the jurisdiction of data center of described subordinate node.
Preferably, in described system, also comprise:
The data center of the higher level again node of affiliated higher level data center node;
Described higher level data center node also for, when adding or leave networking, send a request message to the affiliated data center of higher level again node, and the mesh information of the higher level again table that sends of higher level data center node again belonging to receiving, the described mesh information of higher level again table comprises the identification information and the corresponding address information that belong to a Ge Zai higher level data center node in networking with higher level data center node together.
Preferably, when described data center node adds or leaves networking, realized by the mode sending information broadcasting; Wherein, described information broadcasting carries identification information and the corresponding address information of this node.
Preferably, the identification information of described mesh information Biao Zhong data center node, by postcode, telecom coding, node institute CPU coding and national trade classification code (industrial sectors of national economy is classified (GB/T the 4754-2011)) Unified coding in a computer of this node location, has uniqueness in networking.
Second technical scheme of the present invention is a kind of networking data center method, described networking data center relates to higher level data center node and data center of subordinate node, node visit higher level data center of data center of subordinate node, and carry out data interaction, it is characterized in that, said method comprising the steps of:
S1, node superior data center of data center of described subordinate node send interaction request, described higher level data center node judges its request effectively, and needs interactive information is uploaded to higher level data center node or downloads from higher level data center node by data center of described subordinate node needs interactive information;
S2, described higher level data center node receive interactive information from data center of described subordinate node and process or interactive information process is sent to described data center of subordinate node.
Preferably, node visit top data center of described higher level data center node adopts the mode of user totem information, other user profile of local user access, and the data center's node need registering this locality by user institute enters network.
Preferably, data interaction in described networking, every DBMS Centroid passes through network directly by instant data upload to destination data Centroid institute on the server, the data relevant to this data center's node are kept in its application server by destination data Centroid automatically, and are supplied to object user; Wherein, the application server Service Privileges equity of data centers at different levels node, user's usage data Service Privileges equity.
Preferably, described data centers at different levels node all has application server corresponding with it, and in networking, application message can be exchanged visits.Described data center at the corresponding levels node users is by the application message of data center's node serve authentication-access native data Centroid; Described data center at the corresponding levels node users is by the application message of node serve authentication-access data center to be visited of data center to be visited node; Wherein, the registered user of described data centers at different levels node is the whole network registered user.
Preferably, data center's node described in the outer user-accessible of described networking, the outer nonregistered user of described networking is by temporary login server, and the interim ID of generation carries out sign-on access, and casual user's Visitor Logs can be related.
Described higher level data center node and data center of described subordinate node are tree-shaped tandem type, and each higher level data center node can YouNGe Zai higher level data center node, M data center of subordinate node; Data center of each subordinate can data center of YouNGe Zai subordinate node, and wherein M, N are natural number, and data center's node of highest level is top data center node.
Compared with prior art, the present invention is managed by classification (layering) formula of data, data centers at different levels node cannot be bypassed the immediate leadership access, achieve the real-time unified operation management of higher level data center node the whole network to data center of subordinate node, the whole network is managed orderly, real-time, simple and convenient, achieve the real-time servicing in networking, improve the maintenance efficiency of each data center in networking.
Accompanying drawing explanation
Fig. 1 is the embodiment of the present invention one the whole network framework topology diagram;
Fig. 2 is the embodiment of the present invention two the whole network framework topology diagram;
Fig. 3 is the embodiment of the present invention top data center node composition diagram;
Fig. 4 is embodiment of the present invention level one data Centroid composition diagram;
Fig. 5 is embodiment of the present invention information of registered users access block diagram;
Fig. 6 is that embodiment of the present invention new registration user data upload realizes block diagram;
Fig. 7 is that the download of embodiment of the present invention new registration user data realizes block diagram;
Fig. 8 is that in embodiment of the present invention net, application information transmission realizes block diagram;
Fig. 9 is that in embodiment of the present invention net, application message reference realizes block diagram;
Figure 10 is that the outer user's access of embodiment of the present invention net realizes block diagram;
Embodiment
In order to make those skilled in the art understand technical scheme of the present invention better, below in conjunction with the drawings and specific embodiments, the present invention is described in further detail.
The embodiment of the present invention provides a kind of networking data center systems, it comprises higher level data center node, data center of subordinate node, also comprises the data center's node of higher level again belonging to higher level data center node and data center of the subordinate again node under data center of subordinate node.See Fig. 1, in the present embodiment, the whole network component is level Four, i.e. one, two, three data center's node and top data center node.
Be understandable that, data centers at different levels node in described networking is mapped with domestic administrative division, as shown in Figure 2, level one data Centroid and provincial center, secondary data Centroid and provincial, and municipal level center, three DBMS Centroids and level center, district.
Described the whole network also includes, instant data exchange server, data retrieval server, encoder server etc.Wherein,
Top data center node: unique one of the whole network, the exchanges data at primary responsibility and level one data center; The information of relating generally to has: the whole network information of registered users, country mark Huaihe River trade classification code (industrial sectors of national economy classification (GB/T4754-2011)), telecom taxonomy code, postcode, administrative division code, provide whole network data standard, specification whole network data type, as shown in Figure 3.
Level one data Centroid: the exchanges data of this DBMS of primary responsibility, secondary data Centroid and the exchanges data with top data center node; The information of relating generally to has: encoding service (postcode, telecom coding, national trade classification code (industrial sectors of national economy classification (GB/T 4754-2011)), administrative division), the whole network registered user data, instant data exchange service, data retrieval composition.Instant data exchange service is responsible for from top data center downloading data and is uploaded the newly-increased data of data center at the corresponding levels node to top data service center simultaneously.Data retrieval service mainly provides searching of related data, as shown in Figure 4.
Secondary data Centroid: this DBMS of primary responsibility, the exchanges data of subordinate three DBMS Centroid and the exchanges data with level one data Centroid; The information that relates generally to is with level one data Centroid.
Three DBMS Centroids: primary responsibility exchanges data at the corresponding levels and the exchanges data with secondary data Centroid; The same progression Centroid of the information that relates generally to.
Instant data exchange server: the data be responsible for top data switching center node, level one data Centroid, secondary data Centroid, three DBMS Centroids increase newly carry out uploading or downloading in real time.
Data retrieval server: the data of level one data Centroid, secondary data Centroid, three DBMS Centroids carry out keyword search, precise search, trade classification search etc.
Encoder server: store telecom coding, postcode, trade classification coding, possession, IP address code etc.
Make the following instructions with regard to networking model below: the present embodiment networking is by four stage layered authorities:
The most top data center node has super-ordinate right, and standard and the level one data Centroid of being responsible for the whole network information carry out exchanges data.Secondary data Centroid and three DBMS Centroids can not be bypassed the immediate leadership and be carried out exchanges data with top data center node, top data center node is highest level switching center, only carries out exchanges data with there being the level one data Centroid of level one data center authority.
Level one data Centroid subordinate has secondary data Centroid, is responsible for by data upload belonging to notebook data center to top data center node, and downloads the data at non-notebook data center from top data center node.Data center at the corresponding levels node can only carry out exchanges data with top data center node and subordinate's secondary data Centroid, can not carry out exchanges data with other level one data Centroids and three DBMS Centroids.
Secondary data Centroid subordinate has three DBMS Centroids, is responsible for by data upload belonging to notebook data center to level one data Centroid, and downloads the data at non-notebook data center from level one data Centroid.Data center at the corresponding levels node can only carry out exchanges data with level one data Centroid belonging to oneself and subordinate three DBMS Centroid, can not carry out exchanges data with other level one data Centroids, other secondary data Centroids and other three DBMSs Centroids.
Three DBMS center subordinaties have registered user, are responsible for by data upload belonging to notebook data center to from belonging to secondary data Centroid, and from from the data belonging to secondary data node and download non-notebook data Centroid.Data center at the corresponding levels node can only carry out exchanges data with secondary data Centroid belonging to oneself, can not carry out exchanges data with other level one data Centroids, other secondary data Centroids and other three DBMSs Centroids.
In the present embodiment, the unique identification of visit data Centroid and user's sign-on ID in the whole network, user totem information is accessed, local by other user profile of access, to need by user register local data center and enter network, and by system verification, just can check other user profile, and communication can be carried out, check user's public information etc., as shown in Figure 5.The sequence number sequential encoding of the user of three grades of registration centers in CPU coding wherein in the computer hardware that uses according to the postcode of user location, telecom coding, user of user ID and Home Network.This mark is user's inquiry of all in Home Network, the unique identifying number of propagation, and has uniqueness in this network-building method.As follows, replace numeral to explain user ID with letter:
User ID correspondence illustrates:
Coding | Numeral | Explanation |
Postcode | A | In combination illustrates, 1 represents postcode |
Telecom coding | B | In combination illustrates, 2 represent telecom coding |
CPU identifier | C | In combination illustrates, 3 represent CPU identifier |
Trade classification code | D | In combination illustrates, 4 represent trade classification code |
User's registration sequence number not spacing number | E | 5 representative of consumer registration sequence number not spacing number in combination illustrates |
User ID permutation and combination pattern is as follows:
Compositional model | Coded digital | Coded digital | Coded digital | Coded digital | Coded digital |
1 | A | B | C | D | E |
2 | A | B | C | E | D |
3 | A | B | D | C | E |
4 | A | B | D | E | C |
5 | A | B | E | C | D |
6 | A | B | E | D | C |
7 | A | C | B | D | E |
8 | A | C | B | E | D |
9 | A | C | D | B | E |
10 | A | C | D | E | B |
11 | A | C | E | B | D |
12 | A | C | E | D | B |
13 | A | D | B | C | E |
14 | A | D | B | E | C |
15 | A | D | C | B | E |
16 | A | D | C | E | B |
17 | A | D | E | B | C |
18 | A | D | E | C | B |
19 | A | E | B | C | D |
20 | A | E | B | D | C |
21 | A | E | C | B | D |
22 | A | E | C | D | B |
23 | A | E | D | B | C |
24 | A | E | D | C | B |
25 | B | A | C | D | E |
26 | B | A | C | E | D |
27 | B | A | D | C | E |
28 | B | A | D | E | C |
29 | B | A | E | C | D |
30 | B | A | E | D | C |
31 | B | C | A | D | E |
32 | B | C | A | E | D |
33 | B | C | D | A | E |
34 | B | C | D | E | A |
35 | B | C | E | A | D |
36 | B | C | E | D | A |
37 | B | D | A | C | E |
38 | B | D | A | E | C |
39 | B | D | C | A | E |
40 | B | D | C | E | A |
41 | B | D | E | A | C |
42 | B | D | E | C | A |
43 | B | E | A | C | D |
44 | B | E | A | D | C |
45 | B | E | C | A | D |
46 | B | E | C | D | A |
47 | B | E | D | A | C |
48 | B | E | D | C | A |
49 | C | A | B | D | E |
50 | C | A | B | E | D |
51 | C | A | D | B | E |
52 | C | A | D | E | B |
53 | C | A | E | B | D |
54 | C | A | E | D | B |
55 | C | B | A | D | E |
56 | C | B | A | E | D |
57 | C | B | D | A | E |
58 | C | B | D | E | A |
59 | C | B | E | A | D |
60 | C | B | E | D | A |
61 | C | D | A | B | E |
62 | C | D | A | E | B |
63 | C | D | B | A | E |
64 | C | D | B | E | A |
65 | C | D | E | A | B |
66 | C | D | E | B | A |
67 | C | E | A | B | D |
68 | C | E | A | D | B |
69 | C | E | B | A | D |
70 | C | E | B | D | A |
71 | C | E | D | A | B |
72 | C | E | D | B | A |
73 | D | A | B | C | E |
74 | D | A | B | E | C |
75 | D | A | C | B | E |
76 | D | A | C | E | B |
77 | D | A | E | B | C |
78 | D | A | E | C | B |
79 | D | B | A | C | E |
80 | D | B | A | E | C |
81 | D | B | C | A | E |
82 | D | B | C | E | A |
83 | D | B | E | A | C |
84 | D | B | E | C | A |
85 | D | C | A | B | E |
86 | D | C | A | E | B |
87 | D | C | B | A | E |
88 | D | C | B | E | A |
89 | D | C | E | A | B |
90 | D | C | E | B | A |
91 | D | E | A | B | C |
92 | D | E | A | C | B |
93 | D | E | B | A | C |
94 | D | E | B | C | A |
95 | D | E | C | A | B |
96 | D | E | C | B | A |
97 | E | A | B | C | D |
98 | E | A | B | D | C |
99 | E | A | C | B | D |
100 | E | A | C | D | B |
101 | E | A | D | B | C |
102 | E | A | D | C | B |
103 | E | B | A | C | D |
104 | E | B | A | D | C |
105 | E | B | C | A | D |
106 | E | B | C | D | A |
107 | E | B | D | A | C |
108 | E | B | D | C | A |
109 | E | C | A | B | D |
110 | E | C | A | D | B |
111 | E | C | B | A | D |
112 | E | C | B | D | A |
113 | E | C | D | A | B |
114 | E | C | D | B | A |
115 | E | D | A | B | C |
116 | E | D | A | C | B |
117 | E | D | B | A | C |
118 | E | D | B | C | A |
119 | E | D | C | A | B |
120 | E | D | C | B | A |
According to the known user ID of above table, such as:
User ID:
Virtual illustration corresponding with it
6100000281154261570200000001
610000 | 028 | 11542615 | 7020 | 1 |
(Chenghua district) | (Chengdu) | (Cpu identification number) | (development of real estate) | (registering the first sequence number user) |
In addition user's registration information can also be expanded, as follows:
User's extend information mark composition
IP address | Login time | Last login time | Log in broadband | Entry address |
User's login banner example:
If there is new user to add networking, the mode of user's sign-on ID information broadcasting can be adopted, as shown in Figure 5, new registration user data upload: new user ID be exchanged for real-time broadcast, when the subscriber registration center of current level newly increases a registered user, then this user profile is " increasing newly ", " increases " during information, then automatic send this to upper level service " when the information interaction service discovery corresponding levels have newly and increases " information newly.Upload flow process: three DBMS Centroid-> secondary data Centroid-> level one data Centroid-> top data center nodes, as shown in Figure 6.
As shown in Figure 7, new registration user data is downloaded: new user ID be exchanged for real-time Transmission, when level one data Centroid and top data center's node switching data, if when having " increasing newly " information of registered users at other level one data centers, local user registration center is passed under by this user profile being then, local instant data exchange server can will pass to next stage data center node automatically under this user profile, under spread journey.Top data center node-> level one data Centroid-> secondary data Centroid-> three DBMS Centroid.
The present embodiment, described data center node realizes for the transmission of application message in net: instant messages directly arrives destination data Centroid institute that user will transmit in the server by data center's node, does not pass through higher level data center node-node transmission.Every DBMS Centroid is all directly transferred to destination data Centroid by network, and data center's node can the data relevant to this be kept in object application service automatically, and is supplied in object user, as shown in Figure 8.
In the application service authority equity of this data center at different levels, user's usage data Service Privileges equity.
The present embodiment, described data center node realizes for the access of application message in net: data center at the corresponding levels node users accesses the application message of data center at the corresponding levels, is directly verified by data center's node serve.If data center at the corresponding levels node users access other data center's nodes application service, then data center at the corresponding levels node users need be verified by access level data Centroid, could access this DBMS Centroid application service.Because registered user's service of every DBMS Centroid is the whole network registered user, so this DBMS Centroid application service can be accessed by being verified, as shown in Figure 9.
The present embodiment, described data center node realizes for the access of the outer user of net: net outer nonregistered user and served by temporary login, generates interim No. ID and carries out logging in (not needing password) access, as shown in Figure 10.
Below be only the preferred embodiment of the present invention, it should be pointed out that above-mentioned preferred implementation should not be considered as limitation of the present invention, protection scope of the present invention should be as the criterion with claim limited range.For those skilled in the art, without departing from the spirit and scope of the present invention, can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.
Claims (10)
1. a networking data center systems, is characterized in that, comprising:
Higher level data center node, for receiving data center of subordinate node in the solicited message adding networking transmission, judging to allow request or refusal to ask, and upgrading mesh information table, sending described mesh information to each data center of subordinate node described; Wherein, described mesh information table comprises in networking the identification information and corresponding address information that are under the jurisdiction of higher level data center node;
Data center of subordinate node, for when adding networking or leaving networking, to affiliated higher level data center node transmission request information, and the mesh information table that belonging to receiving, higher level data center node sends.
2. a kind of networking data center systems according to claim 1, is characterized in that, also comprise in described system: data center of the subordinate again node under data center of affiliated subordinate node;
Data center of described subordinate node also for, send its subordinate's mesh information table generated to described higher level data center node, in described subordinate mesh information, table comprises in networking each identification information of data center of subordinate node and corresponding address information again of being under the jurisdiction of data center of described subordinate node.
3. a kind of networking data center systems according to claim 1, is characterized in that, also comprise in described system: the data center of the higher level again node of affiliated higher level data center node;
Described higher level data center node also for, when adding or leave networking, send a request message to the affiliated data center of higher level again node, and the mesh information of the higher level again table that sends of higher level data center node again belonging to receiving, the described mesh information of higher level again table comprises the identification information and the corresponding address information that belong to a Ge Zai higher level data center node in networking with top data center node together.
4. a kind of networking data center systems according to claim 1, is characterized in that, when described data center node adds or leaves networking, is realized by the mode sending information broadcasting; Wherein, described information broadcasting carries identification information and the corresponding address information of this node.
5. a kind of networking data center systems according to claim 1, it is characterized in that, the identification information of described mesh information Biao Zhong data center node, by postcode, telecom coding, node institute CPU coding and the national trade classification code Unified coding in a computer of this node location, has uniqueness in networking.
6. a networking data center method, described networking data center relates to higher level data center node and data center of subordinate node, node visit higher level data center of data center of subordinate node, and carries out data interaction, it is characterized in that, said method comprising the steps of:
S1, node superior data center of data center of described subordinate node send interaction request, described higher level data center node judges its request effectively, and needs interactive information is uploaded to higher level data center node or downloads from higher level data center node by data center of described subordinate node needs interactive information;
S2, described higher level data center node receive interactive information from data center of described subordinate node and process or interactive information process is sent to described data center of subordinate node.
7. a kind of networking data center according to claim 6 method, it is characterized in that, node visit higher level data center of data center of described subordinate node adopts the mode of user totem information, other user profile of local user access, need by this user register affiliated this locality data center's node enter network.
8. a kind of networking data center according to claim 6 method, it is characterized in that, data interaction in described networking, every DBMS Centroid passes through network directly by instant data upload to destination data Centroid institute on the server, the data relevant to this data center's node are kept in its application server by destination data Centroid automatically, and are supplied to object user; Wherein, the application server Service Privileges equity of data centers at different levels node, user's usage data Service Privileges equity.
9. a kind of networking data center according to claim 6 method, described data centers at different levels node all has application server corresponding with it, in networking, application message can be exchanged visits, it is characterized in that, described data center Node registry user at the corresponding levels is by the application message of data center's node belonging to it of data center's node serve authentication-access the machine belonging to it; Described data center at the corresponding levels node users is by the application message of node serve authentication-access data center to be visited of data center to be visited node; Wherein, the registered user of described data centers at different levels node is the whole network registered user.
10. a kind of networking data center according to claim 6 method, the outer user's (nonregistered user) of described networking may have access to described data center node, it is characterized in that, the outer nonregistered user of described networking is by temporary login server, and the interim ID of generation carries out sign-on access.
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2014
- 2014-12-10 CN CN201410758535.5A patent/CN104378270A/en active Pending
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CN112422647B (en) * | 2020-11-05 | 2022-08-12 | 嘉兴天培智能检测科技有限公司 | Multilayer network based on block chain and construction method of multilayer chain structure |
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WO2016115757A1 (en) | 2016-07-28 |
CN104580551B (en) | 2018-09-07 |
CN104580551A (en) | 2015-04-29 |
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