WO2016115757A1 - Networking data center system and method - Google Patents

Abstract

Disclosed are a networking data center system and method. The networking comprises upper-level data center nodes and lower-level data center nodes. The lower-level data center nodes access the upper-level data center nodes, and carry out data interaction with the upper-level data center nodes. The upper-level data center nodes can authorize the lower-level data center nodes to access application information through authority verification. The upper-level data center nodes are provided with more upper-level data center nodes. The lower-level data center nodes are provided with more lower-level data center nodes. Level bypassing access is not allowed among the data center nodes of all levels. The access authority verification uses unique identification information, namely, a user registration code, of the whole network. According to the present invention, the whole network real-time unified operation on the lower-level data center nodes is achieved by the upper-level data center nodes, so that the management of the whole network is well-ordered, real-time, simple and convenient. By means of the present invention, information of the lower-level data center nodes can be known in real time by the upper-level data center nodes, so that the real-time interaction of information and the real-time update and maintenance of the information in the networking are achieved, and the information interaction efficiency and the information update and maintenance efficiency of all the data center nodes in the networking are greatly improved.

Description

Network data center system and method Technical field

The present invention relates to communication technologies, and in particular, to a networked data center system and method.

Background technique

With the development of the Internet, many application services such as office automation and network activities are currently implemented on the Internet. In particular, when grading is required, the top data center node and its subordinate data center nodes are built into a communication network, and meet the needs of flexible networking to provide business functions in various industries.

In the prior art, after the fixed networking is determined, the information of each network node is also configured. For each network node, whether other nodes are online or available is unsure. The processing of the message routing in the fixed network configuration is generally: first, the request message is sent to the network A, and then the network A determines the target network B according to the request message, and sends a routing message query request to the corresponding DNS device, and queries the target network through the network. The address information, and thus the address information of the network B, thus realizes the communication between the network A and the network B.

According to the characteristics of the communication network itself, the following networking principles should be followed when the communication is in the network: each data center network should maintain the independence of its respective services, and the top data center nodes distinguish the subordinate data center nodes through different domain names. Identification.

The existing networking method is adopted. After the network is built, once other nodes have access requests, the node information of the new access network needs to be manually added to the relevant primary DNS devices of each website. When a node leaves the network. Therefore, it is necessary to manually delete the node information of the new access network in the relevant major DNS devices of each website. When a special application scenario of real-time access to the network is required, the process is cumbersome and easily affects the network.

Summary of the invention

In view of this, the present invention provides a networked data center system and method. The present invention enables a higher-level data center node to know the information of a lower-level data center node in real time, thereby realizing real-time interaction of information in the network and real-time update and maintenance of information. , greatly improving the information interaction efficiency and information update maintenance efficiency of each data center node in the network.

To solve the above technical problem, the first technical solution of the present invention is a networking data center system, including:

The upper-level data center node is configured to receive the request information sent by the lower-level data center node to join the network, determine the permission request or reject the request, and update the networking information table in real time, and send the networking information to each of the lower-level data center nodes. The network information table includes identifier information and corresponding address information of the node belonging to the upper-level data center in the networking.

The lower-level data center node is configured to send request information to the upper-level data center node when joining the network or leaving the network, and receive the networking information table sent by the upper-level data center node.

Preferably, in the system, the method further includes:

a subordinate data center node under the subordinate data center node;

The lower-level data center node is further configured to send the generated lower-level networking information table to the upper-level data center node, where the lower-level networking information table includes each of the lower-level data center nodes in the networking. Identification information and corresponding address information of the lower-level data center node.

Preferably, in the system, the method further includes:

a higher-level data center node belonging to the upper-level data center node;

The upper-level data center node is further configured to: when joining or leaving the networking, send a request message to the re-upper data center node, and receive the re-subordinate group network message sent by the re-upper data center node. In the information table, the re-upper networking information table includes identification information and corresponding address information of the re-upper data center node in the networking and the upper-level data center node.

Preferably, when the data center node joins or leaves the networking, it is implemented by sending an information broadcast; wherein the information broadcast carries the identification information of the node, the corresponding address information, and the like.

Preferably, the identification information of the data center node in the networking information table is a zip code, a telecommunication code, a CPU code of a computer where the node is located, and a national industry classification code (national economic industry classification (GB/T 4754-) 2011) Uniform coding, unique within the network.

A second technical solution of the present invention is a networking data center method, where the networking data center involves a superior data center node and a lower data center node, and the lower data center node accesses the upper data center node and performs data interaction, and the characteristics thereof The method comprises the steps of:

S1, the lower-level data center node sends an interaction request to the upper-level data center node, and the upper-level data center node determines that the request is valid, and the lower-level data center node uploads the information that needs to be exchanged to the upper-level data center node or from the upper-level data center. The node downloads information that needs to be exchanged;

S2. The upper data center node receives the interaction information from the subordinate data center node and processes or sends the interaction information to the subordinate data center node.

Preferably, the upper-level data center node accesses the upper-level data center node to adopt the user identification information, and the local user accesses other user information, and needs to enter the network through the local data center node registered by the user.

Preferably, the data interaction in the networking, each level data center node directly uploads the real-time data to the server where the destination data center node is located through the network, and the destination data center node automatically saves the data related to the data center node in the application thereof. The server is provided to the destination user; wherein the application server application service authority of each data center node is equal, and the registered user uses the data service authority pair Wait.

Preferably, the data center nodes of the respective levels have corresponding application servers, and the application information in the networking can be mutually accessed. The user of the data center node of the current level can verify the application information of the data center node through the data center node service; the registered user of the data center node of the current level can access the data center node to be accessed through the service of the data center node to be accessed. The application information of the data center node at each level is a registered user of the entire network.

Preferably, the non-registered user outside the network can access the data center node, and the non-registered user outside the network can log in and access the temporary ID generated by the temporary login server, and the temporary user access record can be traced.

The upper data center node and the lower data center node are in a tree-type cascade manner, and each upper data center node may have N re-upper data center nodes and M subordinate data center nodes; each subordinate data center may have N subordinate subordinate data center nodes, where M and N are natural numbers, and the highest level data center node is the top data center node.

Compared with the prior art, the present invention realizes the real-time unified operation of the entire data center node of the lower-level data center node through the hierarchical (layered) management of the data, and realizes the real-time unified operation of the upper-level data center node to the lower-level data center node. The network management is orderly, real-time, simple and convenient. It realizes real-time interaction of information in the network and real-time update and maintenance of information, which greatly improves the information interaction efficiency and information update and maintenance efficiency of each data center node in the network.

DRAWINGS

1 is a topological structural diagram of a full network architecture according to an embodiment of the present invention;

2 is a topological structural diagram of a full network architecture according to Embodiment 2 of the present invention;

3 is a composition diagram of a top-level data center node according to an embodiment of the present invention;

4 is a composition diagram of a primary data center node according to an embodiment of the present invention;

FIG. 5 is a block diagram of accessing registered user information according to an embodiment of the present invention; FIG.

6 is a block diagram of an implementation of uploading a newly registered user data according to an embodiment of the present invention;

7 is a block diagram of a new registered user data download implementation according to an embodiment of the present invention;

8 is a block diagram of an implementation of application information transmission in a network according to an embodiment of the present invention;

FIG. 9 is a block diagram of an implementation of application information access in a network according to an embodiment of the present invention;

FIG. 10 is a block diagram showing an implementation of user access outside the network according to an embodiment of the present invention.

detailed description

In order to make those skilled in the art better understand the technical solutions of the present invention, the present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments.

The embodiment of the present invention provides a networking data center system, which includes a higher-level data center node and a lower-level data center node, and further includes a subordinate data center node to which the upper-level data center node belongs and a sub-data center node under the lower-level data center node. . Referring to FIG. 1, in this embodiment, the whole network component is four levels, that is, one, two, and three data center nodes and top data center nodes.

It can be understood that the data center nodes in the networking are associated with the domestic administrative divisions, as shown in FIG. 2, the first-level data center node is the provincial center, and the secondary data center node is the city (local city, State level center, three-level data center node is the district (county) level center.

The entire network also includes an instant data exchange server, a data retrieval server, an encoding server, and the like. Among them, the top data center node: the only one in the whole network, mainly responsible for data exchange with the first-level data center; the main information involved are: the registered information of the whole network, the national standard industry classification code (national economic industry classification (GB/ T 4754-2011)), telecommunication classification code, postal code, administrative division code, providing full network data standard, standardizing the data type of the whole network, as shown in Figure 3.

Primary data center node: mainly responsible for data of this level, data exchange of secondary data center nodes and data exchange with top data center nodes; mainly related to information: coding service (zip code, telecommunication code, national industry classification code (national) Economic industry classification (GB/T 4754-2011), administrative divisions, registered user data, real-time data exchange services, and data retrieval. The instant data exchange service is responsible for downloading data from the top data center and simultaneously uploading new data from the data center node to the top data service center. The data retrieval service mainly provides a search for related data, as shown in FIG.

Secondary data center node: Mainly responsible for data of this level, data exchange of subordinate three-level data center nodes and data exchange with primary data center nodes; mainly involving data center nodes of the same level of information.

The three-level data center node: mainly responsible for the data exchange of the current level and the data exchange with the nodes of the secondary data center; mainly involving the central node of the same level of information.

Instant data exchange server: It is responsible for uploading or downloading data newly added by the top data exchange center node, the primary data center node, the secondary data center node, and the third-level data center node in real time.

Data retrieval server: data of primary data center node, secondary data center node, and tertiary data center node for keyword search, precise search, industry classification search, and the like.

Encoding server: store telecommunication code, postal code, industry classification code, IP address, and other codes.

The following describes the networking mode: In this embodiment, the networking is based on four levels of privilege:

The top-level data center nodes have advanced privileges, and are responsible for data exchange between the standards of the entire network information and the primary data center nodes. The secondary data center node and the third-level data center node cannot perform data exchange with the top-level data center node. The top-level data center node is the highest-level switching center, and only data exchange is performed with the first-level data center node having the first-level data center authority.

The primary data center node has a secondary data center node, which is responsible for the data of the data center. Upload to the top-level data center node and download data from the top-level data center node that is not in the data center. The data center node of this level can only exchange data with the top-level data center node and the subordinate secondary data center node, and cannot exchange data with other first-level data center nodes and third-level data center nodes.

The secondary data center node has a three-level data center node, which is responsible for uploading the data of the data center to the primary data center node, and downloading data of the non-data center from the primary data center node. The data center node of this level can only exchange data with its own primary data center node and its subordinate three-level data center node, and cannot perform data with other primary data center nodes, other secondary data center nodes, and other three-level data center nodes. exchange.

The third-level data center has registered users, which are responsible for uploading the data of the data center to the secondary data center node to which it belongs, and downloading the data of the non-data center node from the own secondary data node. The data center node of this level can only exchange data with its own secondary data center node, and cannot exchange data with other first-level data center nodes, other secondary data center nodes, and other three-level data center nodes.

In this embodiment, the unique identifier of the data center node in the entire network is the user registration identifier, the user identifier information is accessed, and the local user accesses other user information, and the local data center registered by the user needs to enter the network and pass the system verification. View other registered user information, and can communicate, view other registered users' public information, etc., as shown in Figure 5. The registered user identifier is encoded according to the zip code of the user's region, the telecommunication code, the CPU code in the computer hardware used by the user, and the serial number of the user of the three-level registration center in the network. The identifier is a unique identification number of all the queries and propagations of the registered users in the network, and is unique in the networking method. The following describes the user identification by using letters instead of numbers:

User ID corresponding description:

The user ID arrangement pattern is as follows:

Composition mode	Coded number	Coded number	Coded number	Coded number	Coded number
						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
twenty one	A	E	C	B	D
						twenty two	A	E	C	D	B
twenty three	A	E	D	B	C
						twenty four	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 above table, the user ID can be known, for example:

User ID:

Virtual instance map corresponding thereto

610052 028 11542615 7020 0000001

In addition, user registration information can be expanded as follows:

User extension information identifier composition

IP address

Log in time

Last Login Time

Login broadband

Login address

User login ID example:

If a new user joins the network, the user registration information broadcast can be used. As shown in Figure 5, the new user data is uploaded: the new user ID is exchanged for real-time broadcast. When the current level user registration center adds a new registration. When the user is in the user, the user information is “new”. When the information interaction service finds that “the new information” is added to the level, the information is automatically sent to the upper-level service. Upload process: three-level data center node -> secondary data center node -> primary data center node -> top-level data center node, as shown in Figure 6.

As shown in Figure 7, the newly registered user data download: the exchange of the new user ID is real-time transmission. When the primary data center node exchanges data with the top data center node, if there are other "new" registered users of the first-level data center. When the information is transmitted, the user information is transmitted to the local user registration center, and the local real-time data exchange server automatically transmits the user information to the next-level data center node, and the downstream process: top data center node->level data Central Node -> Secondary Data Center Node -> Level 3 Data Center Node.

In this embodiment, the data center node realizes the transmission of the application information in the network: the instant information directly reaches the server where the destination data center node to be transmitted by the user is located through the data center node, and is not transmitted through the upper data center node. Each level of the data center node is directly transmitted to the destination data center node through the network, and the data center node automatically stores the related data in the destination application service and provides it to the destination user, as shown in FIG. 8.

The application service rights of the data centers at all levels are equal, and the users use the data service rights to be equal.

In this embodiment, the access of the data center node to the application information in the network is implemented: the application information of the data center node registered user accessing the data center of the current level is directly verified by the data center node service. If the user of the data center node of the current level accesses the application service of the other data center node, the user of the data center node of the current level needs to access the verification of the data center node of the current level to access the data center of the data center. Node application service. Since the registered user service of each data center node is a registered user of the entire network, it can be authenticated by accessing the data center node application service, as shown in FIG.

In this embodiment, the access of the data center node to the external network user (non-registered user) is implemented: the non-registered user outside the network generates a temporary ID number to log in (no password is required), as shown in FIG. 10 .

The above is only a preferred embodiment of the present invention, and it should be noted that the above-described preferred embodiments are not to be construed as limiting the scope of the invention, and the scope of the invention should be determined by the scope defined by the claims. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and scope of the invention.

Claims (10)

1. A networking data center system, comprising:

   The upper-level data center node is configured to receive the request information sent by the lower-level data center node to join the networking, determine the permission request or the rejection request, and update the networking information table, and send the networking information to each of the lower-level data center nodes; The networking information table includes identification information and corresponding address information of the data center node belonging to the upper layer in the networking;

   The lower-level data center node is configured to send request information to the upper-level data center node when joining the network or leaving the network, and receive the networking information table sent by the upper-level data center node.
2. The network data center system according to claim 1, wherein the system further comprises: a subordinate data center node under the data center node belonging to the lower level;

   The lower-level data center node is further configured to send the generated lower-level networking information table to the upper-level data center node, where the lower-level networking information table includes each of the sub-network node nodes belonging to the lower-level data center node in the networking. Identification information and corresponding address information of the lower-level data center node.
3. The network data center system according to claim 1, wherein the system further comprises: a higher-level data center node belonging to the upper-level data center node;

   The upper-level data center node is further configured to: when joining or leaving the networking, send a request message to the re-upper data center node, and receive a re-upper networking information table sent by the re-upper data center node, where the upper-level network information is The networking information table includes identification information and corresponding address information of a re-upper data center node in the networking and the upper-level data center node.
4. The network data center system according to claim 1, wherein the data center node is implemented by sending an information broadcast when joining or leaving the network; wherein the information broadcast includes the node Identification information and corresponding address information, etc.
5. The networking data center system according to claim 1, wherein the identification information of the data center node in the networking information table is encoded by a zip code, a telecommunication code, and a CPU code of a computer where the node is located. And national industry classification code for unified coding, unique within the network.
6. A networking data center method, the networking data center is related to a higher-level data center node and a lower-level data center node, and the lower-level data center node accesses the upper-level data center node and performs data interaction, wherein the method includes the following steps :

   S1: The lower-level data center node sends an interaction request to the upper-level data center node, and the upper-level data center node determines that the request is valid, and the lower-level data center node needs to upload the interaction information to the upper-level data center node or from the upper-level data center node. Download requires interactive information;

   S2. The upper data center node receives the interaction information from the subordinate data center node and processes or sends the interaction information to the subordinate data center node.
7. The networking data center method according to claim 6, wherein the lower-level data center node accesses the upper-level data center node by using user identification information, and the local user accesses other user information, which needs to be registered by the user. The owning local data center node enters the network.
8. The networking data center method according to claim 6, wherein the data interaction in the networking, each level data center node directly uploads data to the server where the destination data center node is located through the network, and the purpose is The data center node automatically saves the data related to the data center node in its application server and provides it to the destination user; wherein the application server application service authority of each data center node is equal, and the user uses the data service authority to peer.
9. A networking data center method according to claim 6, said data centers at various levels The node has an application server corresponding thereto, and the application information in the network can be mutually accessed, and the registered user of the data center node of the current level can verify the access to the data center node of the level by the data center node service of the current level. Application information; the user of the data center node of the current level can verify the application information of the data center node to be accessed through the data center node service to be accessed; wherein the registered users of the data center nodes at the respective levels are registered users of the entire network.
10. The networking data center method according to claim 6, wherein the out-of-network user (non-registered user) can access the data center node, wherein the non-registered user outside the networking network temporarily logs in to the server. The generated temporary ID is used for login access.

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