CN111897746A - Machine room equipment encoding method and system - Google Patents

Abstract

The invention relates to the technical field of automatic coding of equipment, in particular to a machine room equipment coding method and a machine room equipment coding system, wherein the machine room equipment coding method comprises the steps of obtaining basic information of equipment; converting the basic information of the equipment by a coding algorithm to generate equipment codes and port codes; and configuring the connection relationship of the equipment by the generated equipment code and the port code. The method, namely the system, realizes automatic coding of the equipment in the machine room, and can display the port connection relation of the network card through the coding.

Description

Machine room equipment encoding method and system

Technical Field

The invention relates to the technical field of automatic coding of equipment, in particular to a machine room equipment coding method and system.

Background

With the development of the IT industry, a machine room is used as a space for storing equipment, and is usually provided with a plurality of pieces of equipment, even a plurality of pieces of equipment with the same model. If there is no corresponding code, the device maintenance will cause corresponding difficulty, even cause unnecessary accidents such as device stopping and plugging wrong ports. In order to strengthen basic management work of equipment in a machine room, on-book equipment in the machine room is uniformly coded, and conditions are created for uniform listing, file recording and dynamic tracking management of the equipment. In the prior art, most of the codes are manually coded and recorded for management.

The above scheme has the defects that: because the encoding process is complicated, certain errors inevitably occur in manual encoding in the prior art, so that encoding is repeated, wrong or a coding sequence is missed.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a machine room equipment coding method and a machine room equipment coding system, which realize automatic coding of machine room equipment and can show the port connection relation of a network card through coding.

The technical purpose of the invention is realized by the following technical scheme:

a machine room equipment encoding method includes the steps of,

acquiring basic information of equipment;

converting the basic information of the equipment by a coding algorithm to generate equipment codes and port codes;

and configuring the connection relationship of the equipment by the generated equipment code and the port code.

In one embodiment, the device code includes 4 blocks for storing the device code, the 4 blocks are respectively: a cabinet coding block, a resource type block, an equipment coding block and an equipment serial number block. The equipment coding is to strengthen the basic management work of the equipment in the machine room, and the equipment in the machine room is uniformly coded, so that conditions are created for uniform listing, archives and dynamic tracking management of the equipment. The storage of the codes through the four blocks expresses some information such as the position, the model and the like of the equipment, thereby simplifying the coding process and coding the equipment in the machine room through a simpler coding mode.

In one embodiment, the port code includes 3 blocks for storing the port code, and the 3 blocks are respectively: port type block, slot block, port bit block. The port of the equipment to the opposite terminal equipment can be determined through port coding, so that the time waste caused by complex searching of opposite terminal cables by means of tools is avoided when plugging errors and faults occur and need to be processed.

In one embodiment, the converting the device basis information through a coding algorithm to generate the device code and the port code specifically includes:

generating a first-level mapping table according to the basic information of the equipment, wherein the first-level mapping table is provided with seven storage blocks, and each storage block is respectively stored with a unique physical address;

the first-level mapping table finds the blocks corresponding to the physical addresses through the physical addresses, and the information in the first-level mapping table is respectively transferred to the blocks. The first-level mapping table is used as a data processing part, and the block is used as a data storage part, so that the processes of rapid processing and storage of data are realized, and the data management is facilitated.

In one embodiment, the generating of the first-level mapping table according to the device basic information is specifically;

carrying out classification marking on the acquired basic information of the equipment;

marking seven storage blocks of a primary mapping table respectively, wherein the marks correspond to the classification marks one by one and a corresponding relation is generated;

and storing the basic information into a storage block of the primary mapping table according to the corresponding relation. Each storage block and the block have a corresponding relationship, and the generated code can be more quickly stored according to the corresponding relationship, so that the storage is realized.

In one embodiment, after storing the basic information in the storage block of the primary mapping table according to the corresponding relationship, the method further includes:

each storage block of the mapping table stores a coding algorithm;

and when the storage block acquires the basic information of the equipment, converting the basic information into codes through a coding algorithm.

In one embodiment, the device code conversion method comprises the following steps:

respectively generating by a coding algorithm, and respectively storing three-bit cabinet codes, one-bit resource type codes, five-bit equipment codes and one-bit equipment serial number codes in four storage blocks;

the four storage blocks respectively dump the codes to a cabinet coding block, a resource type block, an equipment coding block and an equipment serial number block. In the coding algorithm, the algorithm of determining the serial number of the next device according to the preset relationship between some device basic information and coding and the serial number of the previous device is used for coding conversion.

In one embodiment, the port code conversion method includes:

respectively generating a one-bit port type code, a one-bit slot position code and a two-bit port code through a coding algorithm, and storing the two-bit port type codes, the one-bit slot position codes and the two-bit port codes in three storage blocks;

the three memory blocks respectively transfer the codes to the port type block, the slot position block and the port position block.

In one embodiment, the device connection relationship is:

acquiring equipment to be matched which has a connection relation with current equipment;

and forming a linkage relation between the equipment code and the port code of the current equipment and the equipment code and the port code of the equipment to be matched.

A machine room device encoding system comprising:

an information acquisition module: the information acquisition module is used for acquiring basic information of the equipment;

the coding module: the coding module is used for converting the basic information of the equipment through a coding algorithm to generate equipment codes and port codes;

a configuration module: the configuration module is used for configuring the connection relationship of the equipment with the generated equipment codes and the port codes.

The information acquisition module is connected with the coding module, and the coding module is connected with the configuration module.

In conclusion, the invention has the following beneficial effects: in order to strengthen basic management work of equipment in a machine room, the application provides a method capable of automatically coding, and equipment basic information is obtained; converting the basic information of the equipment by a coding algorithm to generate equipment codes and port codes; and configuring the connection relationship of the equipment by the generated equipment code and the port code. The automatic coding of the equipment in the machine room is realized, and the port connection relation of the network card can be displayed through the coding. The automatic coding can definitely mark the coding of the equipment and the port of the equipment from the equipment to the opposite terminal, and avoids time waste caused by complex searching of the opposite terminal cable by using a tool again when plugging errors and faults occur and need to be processed.

Drawings

FIG. 1 is a flow chart of a machine room equipment encoding method of the present invention;

fig. 2 is a structural diagram of the equipment room coding system of the present invention.

Detailed Description

The invention is described in detail below with reference to the figures and examples.

It should be noted that all the directional terms such as "upper" and "lower" referred to herein are used with respect to the view of the drawings, and are only for convenience of description, and should not be construed as limiting the technical solution.

As shown in fig. 1, a machine room device encoding method includes,

s1, acquiring basic information of equipment;

s2, converting the basic information of the equipment through a coding algorithm to generate equipment codes and port codes;

and S3, configuring the connection relation of the generated equipment codes and the port codes.

Step S1: acquiring device basic information, wherein the device basic information comprises the following steps: the name of the cabinet where the equipment is located, the type of the equipment, and the manufacturer of the equipment.

Step S2: and converting the basic information of the equipment through an encoding algorithm to generate equipment codes and port codes.

The device code comprises 4 blocks for storing the device code, the 4 blocks are respectively: a cabinet coding block, a resource type block, an equipment coding block and an equipment serial number block. The port code includes 3 blocks for storing the port code, the 3 blocks are respectively: port type block, slot block, port bit block.

The converting the device basic information through a coding algorithm to generate the device code and the port code specifically comprises:

generating a first-level mapping table according to the basic information of the equipment, wherein the first-level mapping table is provided with seven storage blocks, and each storage block is respectively stored with a unique physical address;

the first-level mapping table finds the blocks corresponding to the physical addresses through the physical addresses, and the information in the first-level mapping table is respectively transferred to the blocks.

The step of generating a primary mapping table according to the basic information of the equipment is specifically as follows;

carrying out classification marking on the acquired basic information of the equipment;

marking seven storage blocks of a primary mapping table respectively, wherein the marks correspond to the classification marks one by one and a corresponding relation is generated;

and storing the basic information into a storage block of the primary mapping table according to the corresponding relation.

After storing the basic information into the storage block of the first-level mapping table according to the corresponding relationship, the method further comprises the following steps:

each storage block of the mapping table stores a coding algorithm;

and when the storage block acquires the basic information of the equipment, converting the basic information into codes through a coding algorithm.

The conversion method of the device code comprises the following steps:

respectively generating by a coding algorithm, and respectively storing three-bit cabinet codes, one-bit resource type codes, five-bit equipment codes and one-bit equipment serial number codes in four storage blocks;

the four storage blocks respectively dump the codes to a cabinet coding block, a resource type block, an equipment coding block and an equipment serial number block.

The conversion method of the port code comprises the following steps:

respectively generating a one-bit port type code, a one-bit slot position code and a two-bit port code through a coding algorithm, and storing the two-bit port type codes, the one-bit slot position codes and the two-bit port codes in three storage blocks;

the three memory blocks respectively transfer the codes to the port type block, the slot position block and the port position block.

The coding algorithm can perform coding conversion according to the pre-stored corresponding relation and the automatically generated serial number.

Step S3: and configuring the connection relationship of the equipment by the generated equipment code and the port code.

The equipment connection relation is as follows:

acquiring equipment to be matched which has a connection relation with current equipment;

and forming a linkage relation between the equipment code and the port code of the current equipment and the equipment code and the port code of the equipment to be matched.

For example, the following steps are carried out: in the implementation, the user firstly inputs: the information such as the name of the equipment cabinet, the type of the equipment, the manufacturer of the equipment and the like is classified and marked; seven storage blocks of the first-level mapping table are marked at the same time, and a certain relation is formed between the seven storage blocks and the classification marks. Information such as the name of the cabinet where the equipment is located, the type of the equipment, the manufacturer of the equipment and the like can be distributed to the seven storage blocks for storage. The seven storage blocks are also linked with the seven blocks through physical addresses, and in the seven storage blocks, information such as the name of a cabinet where the equipment is located, the type of the equipment, the manufacturer of the equipment and the like is converted into codes through an algorithm and then stored in the blocks, so that the codes are finished.

The encoding is described here: the device code consists of 10 bits, such as dddxyyyyyyz;

the DDD represents the code of the cabinet, and is finally stored in the cabinet code block;

x represents a resource type, takes values A-Z and is finally stored in a resource type block;

yyyy denotes a device code, and is composed of letters and numbers. The equipment code is the equipment model, and the equipment model is 3, and the first gets the manufacturer first letter, and the floor position is got to the last position, and the example: an I BMSVC storage device, coded "I SVC2," 2 for floor; the device model is 4-bit, for example: DELLR920PC server, coded "R9202", where 2 also represents a floor; if the device model exceeds 5 bits, the characteristics are compressed to 5 bits and finally stored in the device coding block.

Z represents the equipment serial number and takes values A-Z. The codes are ordered from bottom to top and from left to right. And finally stored in the device serial number block.

Port codes have a 5-bit composition, such as XYYZZ;

x represents the port type, namely G-optical port and E-electric port; finally storing in the port type block;

YY denotes slot position, 00 denotes that the switch is without slot; 01, the exchanger represents the first slot with slot; finally storing the data in the slot position block;

ZZ represents a port bit, which ZZ consists of a two-bit number that is ultimately stored in a block of port bits.

For better understanding of the above coding methods, for example: b11XSR860EG0901 → B17YH1251A 20133; it shows the second port from slot 9 down of the fourth R860 server of the B11 cabinet X86 resource, the 33 th port of the first slot of the H3C1251 service network switch connected to the B17 cabinet on floor 2. During the course of the experiment, it was found that no underlining could be used in the code, as some monitoring entry tools could not recognize underlining.

As shown in fig. 2, a machine room device coding system includes:

the information acquisition module 1: the information acquisition module is used for acquiring basic information of the equipment;

and the coding module 2: the coding module is used for converting the basic information of the equipment through a coding algorithm to generate equipment codes and port codes;

the configuration module 3: the configuration module is used for configuring the connection relationship between the generated equipment code and the port code;

the information obtaining module 1 obtains basic information of the equipment in the machine room, such as: and the information such as the name of the cabinet where the equipment is located, the type of the equipment, the manufacturer of the equipment and the like is transmitted to the encoding module. The coding module comprises a first-level mapping table, a matching relation between the first-level mapping table and the obtained basic information, and a searching relation between a storage block and a block in the first-level mapping table. Each storage block in the first-level mapping table further stores a coding algorithm, the coding algorithm converts the device basic information into codes, the codes are stored in the blocks, the codes are completed at this time, and after the codes are completed, the configuration module 3 configures the connection relationship between the generated device codes and the port codes. Therefore, the device code and the device port to the opposite terminal can be calibrated clearly, and the time waste caused by complex searching of the opposite terminal cable by using a tool again when plugging errors and faults occur and need to be processed is avoided.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and are considered to be within the scope of the invention.

Claims (10)

1. A machine room device encoding method is characterized by comprising,

acquiring basic information of equipment;

converting the basic information of the equipment by a coding algorithm to generate equipment codes and port codes;

and configuring the connection relationship of the equipment by the generated equipment code and the port code.

2. The room equipment encoding method of claim 1, wherein the equipment code comprises 4 blocks for storing the equipment code, and the 4 blocks are respectively: a cabinet coding block, a resource type block, an equipment coding block and an equipment serial number block.

3. The room equipment encoding method of claim 1, wherein the port code comprises 3 blocks for storing the port code, and the 3 blocks are respectively: port type block, slot block, port bit block.

4. The machine room equipment encoding method of claim 2 or 3, wherein the converting the equipment basic information by the encoding algorithm to generate the equipment code and the port code specifically comprises:

generating a first-level mapping table according to the basic information of the equipment, wherein the first-level mapping table is provided with seven storage blocks, and each storage block is respectively stored with a unique physical address;

the first-level mapping table finds the blocks corresponding to the physical addresses through the physical addresses, and the information in the first-level mapping table is respectively transferred to the blocks.

5. The machine room equipment encoding method of claim 4, wherein the generating of the primary mapping table according to the equipment basic information is specifically;

carrying out classification marking on the acquired basic information of the equipment;

marking seven storage blocks of a primary mapping table respectively, wherein the marks correspond to the classification marks one by one and a corresponding relation is generated;

and storing the basic information into a storage block of the primary mapping table according to the corresponding relation.

6. The machine room equipment encoding method of claim 5, wherein the storing the basic information into the storage block of the primary mapping table according to the corresponding relationship further comprises:

each storage block of the mapping table stores a coding algorithm;

and when the storage block acquires the basic information of the equipment, converting the basic information into codes through a coding algorithm.

7. The equipment room encoding method of claim 6, wherein the equipment encoding conversion method is as follows:

respectively generating by a coding algorithm, and respectively storing three-bit cabinet codes, one-bit resource type codes, five-bit equipment codes and one-bit equipment serial number codes in four storage blocks;

the four storage blocks respectively dump the codes to a cabinet coding block, a resource type block, an equipment coding block and an equipment serial number block.

8. The machine room equipment encoding method of claim 6, wherein the port encoding conversion method is as follows:

respectively generating a one-bit port type code, a one-bit slot position code and a two-bit port code through a coding algorithm, and storing the two-bit port type codes, the one-bit slot position codes and the two-bit port codes in three storage blocks;

the three memory blocks respectively transfer the codes to the port type block, the slot position block and the port position block.

9. The machine room equipment encoding method of claim 1, wherein the equipment connection relationship is:

acquiring equipment to be matched which has a connection relation with current equipment;

and forming a linkage relation between the equipment code and the port code of the current equipment and the equipment code and the port code of the equipment to be matched.

10. A machine room device encoding system, comprising:

an information acquisition module: the information acquisition module is used for acquiring basic information of the equipment;

the coding module: the coding module is used for converting the basic information of the equipment through a coding algorithm to generate equipment codes and port codes;

a configuration module: the configuration module is used for configuring the connection relationship between the generated equipment code and the port code;

the information acquisition module is connected with the coding module, and the coding module is connected with the configuration module.

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