CN117478724A - System and method for managing services of mixed-plug array server - Google Patents

Abstract

The invention discloses a service management method of a mixed-plug array server, which comprises a BMC system, a switching board, a service discovery Master module, a service discovery Slave module and a plurality of service devices, wherein the management method comprises the following steps: connecting the exchange board with the BMC system and each service device, connecting the service discovery Master module with the BMC system, connecting the service discovery Slave module with each service device, and realizing network connection service between the BMC system and the service devices through the exchange board; running a service discovery Slave module to acquire service sub-function information of each service device, and sending a service registration request, a service cancellation request and service health detection information of the service device to a service discovery Master module through a switching board; the service discovery Master module is operated, and service registration, service cancellation and service health state monitoring of each service device are realized according to the received information.

Description

System and method for managing services of mixed-plug array server

Technical Field

The invention relates to the technical field of service management of a mixed-plug array server, in particular to a system and a method for managing services of a mixed-plug array server.

Background

As the demand for the array server increases in the market, the demand for the integrated service capability of the array server increases, and the management of the service capability of the array server becomes more difficult. Conventional array servers are usually focused on providing a service, and the existing service is monitored by the server, and the monitored content is mainly whether the service exists or not, but the requirements on the array server on the market are not only that the service exists or not, but also that the service exists in the array server, and the service comprises an AI computing card, a memory card, an android card and the like.

For example, in the video monitoring field, an array server is required to simultaneously satisfy the functions of AI face recognition and video storage, and as the video storage capacity increases, the memory card is newly added by operation and maintenance personnel, accordingly, the memory service of the array server increases, and similarly, in order to improve the efficiency of AI face recognition, the operation and maintenance personnel also increases the AI face recognition service equipment to satisfy the requirements. In such a demand scenario, a conventional array server generally provides the following two schemes to solve the problem:

one server is deployed, one server provides AI face recognition service, and the other server provides storage service. The scheme occupies large space, has large deployment and maintenance workload and wastes electricity.

And secondly, a mixed-plug array type server is deployed, and fixed nodes of the array type server are connected with fixed service equipment, so that the position of the service equipment is not allowed to be changed. For example, an array server has 12 fixed service nodes, 1-6 nodes provide storage service, and 7-12 nodes provide AI face recognition service. If the operation and maintenance personnel just need 3 AI face recognition services and 9 storage services, two mixed-plug array servers have to be deployed to meet the requirements.

In summary, it can be understood that the prior art is realized by deploying a plurality of fixed array servers or accessing a specified service device at a specified location, and the disadvantage is that: firstly, a plurality of servers are deployed simultaneously, so that more machine room space is occupied, the electricity cost is high, and the hardware cost of the servers is high. Secondly, the mode of accessing the specified service equipment through the specified position is not flexible enough, and operation and maintenance personnel can cause abnormal operation of the server due to improper operation, so that the operation and maintenance cost is high.

Disclosure of Invention

The invention aims at solving the technical problems in the background technology and provides a system and a method for managing services of a mixed-plug array server.

The invention provides a service management method of a mixed-plug array server, which comprises a BMC (Baseboard Management controller. Baseboard management controller) system, a switching board, a service discovery Master module, a service discovery Slave module and a plurality of service devices, wherein the management method comprises the following steps:

connecting a switching board with the BMC system and each service device, connecting a service discovery Master module with the BMC system, and connecting a service discovery Slave module with each service device, wherein the switching board is used for providing a Vlan function so as to realize network connection service between the BMC system and the service devices;

the service discovery Slave module is operated, and can acquire service sub-function information of each service device, and sends a service registration request, a service cancellation request and service health detection information of the service device to the service discovery Master module through the exchange board;

and running a service discovery Master module, wherein the service discovery Master module is used for realizing service registration, service cancellation and service health state monitoring of each service device according to the received information.

Further, the method also comprises the following steps:

creating a virtual local area network with Vlan ID N through a switching board;

the BMC system creates a virtual network port Eth1.N for a physical network card connected with the switching board, and distributes a Vlan ID for the virtual network port, wherein the Vlan ID is required to be consistent with the Vlan ID created by the switching board;

the service equipment creates a virtual network port Eth1.N for a physical network card connected with the switching board, and distributes a Vlan ID for the virtual network port, wherein the Vlan ID is required to be consistent with the Vlan ID created by the switching board;

the service discovery Slave module works on the service equipment and is started along with the starting of the service equipment, the service discovery Slave module actively acquires service sub-function information of the service equipment and actively transmits a service registration request, a service cancellation request and service health detection information to the service discovery Master module in a broadcast message mode;

the service discovery Master module works on the BMC system and is started along with the starting of the BMC system, and the service discovery Master module listens to the broadcast message sent by the service discovery Slave module so as to realize service registration, service cancellation and service health state monitoring of each service device.

Further, the service registration of the service device includes the steps of:

when the service equipment is accessed, the service discovery Slave module broadcasts registration request information in a network;

after receiving the service registration request information, the service discovery Master module replies a service equipment request and distributes IP to the service equipment;

the service discovery Slave module sets an IP address of the service equipment and acquires a service sub-function of the service equipment to form a service sub-function list;

the service discovery Slave module sends a service sub-function list of the service equipment to the service discovery Master module;

the service discovery Master module creates or updates a service sub-function list of the service equipment;

the service discovery Master module returns a registration completion message to the service discovery Slave module.

Further, the service logout of the service device further comprises the following steps:

the service discovery Slave module sends service equipment logout information to the service discovery Master module;

the service discovery Master module destroys the registration information of the service equipment;

the service discovery Master module returns a service cancellation success message to the service discovery Slave module.

Further, the service health status monitoring of the service device further comprises the following steps:

the service discovery Master module periodically sends health detection information to the service equipment;

the service discovery Slave module records a time stamp when the health detection information is received;

if the service equipment Slave module does not receive the health detection information sent by the service discovery Master module within a specified time, the service equipment is considered to be separated from the management of the service discovery Master module, and a service registration request needs to be sent to the service discovery Master module again.

Further, the service device includes an AI computing card, a memory card, and an android card.

The invention also provides a service management system of the mixed-plug array server, which is applied to the management method of the invention, and comprises a BMC system, a switch board, a service discovery Master module, a service discovery Slave module and a plurality of service devices, wherein the service discovery Master module is connected with the BMC system, the service discovery Slave module is connected with each service device, and the BMC system and each service device are respectively connected with the switch board;

the BMC system is used for creating a virtual network port for a physical network card connected with the exchange board and automatically running a service discovery Master module so as to realize overall planning and management of each service device;

the service equipment is used for providing service examples, creating a virtual network port for a physical network card connected with the exchange board, and automatically running a service discovery Slave module;

the service discovery Slave module is used for acquiring service sub-function information of each service device, and sending a service registration request, a service cancellation request and service health detection information of the service device to the service discovery Master module through the exchange board;

the Master module is used for realizing service registration, service cancellation and service health state monitoring of each service device according to the received information.

Further, the service device includes an AI computing card, a memory card, and an android card.

Compared with the prior art, the invention has the following beneficial technical effects:

by applying the service management system and the method of the mixed-plug array server, the service equipment of the mixed-plug array server does not need to be connected to a fixed position, and any type of service equipment can be connected only if the server has an idle position, so that the server resources are fully utilized.

Specifically, the service equipment accessed in the server is dynamically and in real time discovered through the cooperation of the service discovery Master module and the service discovery Slave module, and the position and the basic information of the service equipment are recorded, so that the intervention of operation and maintenance personnel is not needed, and the operation and maintenance cost is greatly reduced.

In summary, compared with the traditional server service management method, the method disclosed by the invention can obviously improve the service management efficiency of the hybrid-plug array server, fully utilize the service nodes of the array server, and has lower cost and lower operation and maintenance cost.

Drawings

FIG. 1 is a flow chart of the steps of the method of the present invention;

FIG. 2 is a diagram of a management network topology of the system of the present invention;

FIG. 3 is a flow chart of service registration according to the present invention;

fig. 4 is a flowchart of the service cancellation according to the present invention.

Detailed Description

It should be noted that, without conflict, the embodiments of the present invention and features of the embodiments may be combined with each other.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the devices or components referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, features defining "first," "second," etc. may explicitly or implicitly include one or more features. In the description of the present invention, unless otherwise indicated, the meaning of "a plurality" is two or more.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or a specific connection, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between the two components. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art in a specific case.

Specific embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1 to fig. 4, the present invention provides a service management method of a hybrid-plug array server, including a BMC (Baseboard Management controller. Baseboard management controller) system, a switch board, a service discovery Master module, a service discovery Slave module, and a plurality of service devices, where the management method includes:

s1: the exchange board is connected with the BMC system and each service device, the service discovery Master module is connected with the BMC system, the service discovery Slave module is connected with each service device, and the exchange board is used for providing Vlan functions so as to realize network connection service between the BMC system and the service devices;

s2: the service discovery Slave module is operated, and can acquire service sub-function information of each service device, and send a service registration request, a service cancellation request and service health detection information of the service device to the service discovery Master module through the exchange board;

s3: and running the service discovery Master module, wherein the service discovery Master module is used for realizing service registration, service cancellation and service health state monitoring of each service device according to the received information.

Specifically, in the present embodiment:

the BMC system is used for: and (3) overall planning and managing various service devices, creating a virtual network port based on a physical network port connected with the exchange board when the BMC system operates, and automatically operating a service discovery Master module.

The service discovery Master module is used for:

a) The system works on the BMC system and is started along with the starting of the BMC system;

b) Monitoring a virtual network port on a BMC system, and providing a service equipment registration, cancellation and health state monitoring interface;

c) A list of hybrid-plug array server service devices is maintained.

The exchange plate is used for: and each functional module is connected to provide Vlan function and network connection service for the BMC system and the service equipment.

The service device is used for: examples of providing services, service devices include, but are not limited to, AI computing cards, memory cards, android cards.

The service discovery Slave module is used for:

a) The system works on the service equipment and is started along with the starting of the service equipment;

b) Automatically acquiring the position and service sub-function information of the service equipment;

c) And automatically registering the information of the service equipment with a service discovery Master module.

Further, in this embodiment, the method of the present invention further includes the following steps:

the switching board creates a virtual local area network with Vlan ID N, and provides network service for the service equipment and the BMC service discovery module;

the BMC system creates a virtual network port Eth1.N for a physical network card connected with the switch board, and distributes Vlan ID for the virtual network port, wherein the Vlan ID is required to be consistent with the Vlan ID created by the switch board;

the service equipment creates a virtual network port Eth1.N for a physical network card connected with the switching board, and distributes Vlan ID for the virtual network port, wherein the Vlan ID is required to be consistent with the Vlan ID created by the switching board;

the service discovery Slave module works on the service equipment, actively acquires the position and service sub-function information of the service equipment, and actively discovers the information of service registration, cancellation and health detection to the service discovery Master module;

the service discovery Master module works on the BMC system, listens to broadcast messages of service discovery, and realizes functions of service registration, service destruction, service sub-function recording and the like according to message content.

The management network topology described above is shown in fig. 2

Further, in this embodiment, as shown in fig. 3 and 4, the method of the present invention further includes the following steps:

service registration:

when the service equipment is accessed, the service discovery Slave module broadcasts service registration request information in a network;

after receiving the service registration request information, the service discovery Master module replies a service equipment request and distributes IP to the service equipment;

the service discovery Slave module sets an IP address of the service equipment, acquires a service sub-function of the service equipment, and sends a service sub-function list of the service equipment to the service discovery Master module;

the service discovery Master module creates or updates a service sub-function list of the service equipment;

the service discovery Master module returns a registration completion message to the service discovery Slave module.

Service cancellation:

the service discovery Slave module sends a service device logout to the service discovery Master module;

the service discovery Master module destroys the registration information of the service equipment;

the service discovery Master module returns a service cancellation success message to the service discovery Slave module.

Service health status monitoring:

the service discovery Master module periodically sends health detection information to the service equipment;

the service discovery Slave module records a time stamp when the health detection information is received;

if the service equipment Slave module does not receive the health detection information sent by the service discovery Master module within a specified time, the service equipment is considered to be separated from the management of the service discovery Master module, and a service registration request needs to be sent to the service discovery Master module again.

Further, the embodiment also provides a service management system of the hybrid-plug array server, where the management system includes a BMC system, a switch board, a service discovery Master module, a service discovery Slave module, and a plurality of service devices, the service discovery Master module is connected to the BMC system, the service discovery Slave module is connected to each service device, and the BMC system and each service device are respectively connected to the switch board;

the BMC system is used for creating a virtual network port for a physical network card connected with the exchange board and automatically running a service discovery Master module so as to realize overall planning and management of each service device;

the service equipment is used for providing service examples, creating a virtual network port for a physical network card connected with the exchange board, and automatically running a service discovery Slave module;

the service discovery Slave module is used for acquiring service sub-function information of each service device, and sending a service registration request, a service cancellation request and service health detection information of the service device to the service discovery Master module through the exchange board;

the Master module is used for realizing service registration, service cancellation and service health state monitoring of each service device according to the received information.

Further, the service device comprises an AI computing card, a memory card and an android card.

It can be understood that by applying the system and the method for managing the services of the hybrid-plug array server, the service equipment of the hybrid-plug array server does not need to be connected to a fixed position, and any type of service equipment can be connected only if the server has an idle position, so that the server resources are fully utilized.

Specifically, the service equipment accessed in the server is dynamically and in real time discovered through the cooperation of the service discovery Master module and the service discovery Slave module, and the position and the basic information of the service equipment are recorded, so that the intervention of operation and maintenance personnel is not needed, and the operation and maintenance cost is greatly reduced.

In summary, compared with the traditional server service management method, the method disclosed by the invention can obviously improve the service management efficiency of the hybrid-plug array server, fully utilize the service nodes of the array server, and has lower cost and lower operation and maintenance cost.

The above description of one or more embodiments provided in connection with the detailed description is not intended to limit the invention to the particular form or form disclosed. The method, structure, etc. similar to or identical to those of the present invention, or some technical deductions or substitutions are made on the premise of the inventive concept, should be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides a mixed array server service management method, which is characterized in that the method comprises a BMC system, a switching board, a service discovery Master module, a service discovery Slave module and a plurality of service devices, and the management method comprises the following steps:

the exchange board is connected with the BMC system and each service device, the service discovery Master module is connected with the BMC system, the service discovery Slave module is connected with each service device, and the exchange board is used for providing Vlan functions so as to realize network connection service between the BMC system and the service devices;

the service discovery Slave module is operated, and can acquire service sub-function information of each service device, and send a service registration request, a service cancellation request and service health detection information of the service device to the service discovery Master module through the exchange board;

and running the service discovery Master module, wherein the service discovery Master module is used for realizing service registration, service cancellation and service health state monitoring of each service device according to the received information.

2. The method for managing services of a hybrid-plug array server according to claim 1, further comprising the steps of:

creating a virtual local area network with Vlan ID N through the switching board;

the BMC system creates a virtual network port Eth1.N for a physical network card connected with the exchange board, and distributes a Vlan ID for the virtual network port, wherein the Vlan ID is required to be consistent with the Vlan ID created by the exchange board;

the service equipment creates a virtual network port Eth1.N for a physical network card connected with the switching board, and distributes a Vlan ID for the virtual network port, wherein the Vlan ID is required to be consistent with the Vlan ID created by the switching board;

the service discovery Slave module works on the service equipment and is started along with the starting of the service equipment, and the service discovery Slave module actively acquires service sub-function information of the service equipment and actively transmits service registration requests, service cancellation requests and service health detection information to the service discovery Master module in a broadcast message mode;

the service discovery Master module works on the BMC system and is started along with the starting of the BMC system, and the service discovery Master module monitors the broadcast message sent by the service discovery Slave module so as to realize service registration, service cancellation and service health state monitoring of each service device.

3. The method for managing services of a hybrid-plug array server according to claim 1, wherein the service registration of the service device comprises the steps of:

when the service equipment is accessed, the service discovery Slave module broadcasts registration request information in a network;

after receiving the service registration request information, the service discovery Master module replies the service equipment request and distributes IP to the service equipment;

the service discovery Slave module sets an IP address of the service equipment and acquires a service sub-function of the service equipment to form a service sub-function list;

the service discovery Slave module sends a service sub-function list of the service equipment to the service discovery Master module;

the service discovery Master module creates or updates a service sub-function list of the service equipment;

and the service discovery Master module returns a registration completion message to the service discovery Slave module.

4. The method for managing service of a column server according to claim 1, wherein the service cancellation of the service device further comprises the steps of:

the service discovery Slave module sends service equipment logout information to the service discovery Master module;

the service discovery Master module destroys the registration information of the service equipment;

and the service discovery Master module returns a service cancellation success message to the service discovery Slave module.

5. The method for managing service of a column server according to claim 1, wherein the monitoring of the service health status of the service device further comprises the steps of:

the service discovery Master module periodically sends health detection information to the service equipment;

the service discovery Slave module records a time stamp when the health detection information is received;

and if the service equipment Slave module does not receive the health detection information sent by the service discovery Master module within a specified time, the service equipment is considered to be separated from the management of the service discovery Master module, and a service registration request is required to be sent to the service discovery Master module again.

6. The method of claim 1, wherein the service device comprises an AI algorithm card, a memory card, and an android card.

7. The service management system of the hybrid-plug array server is characterized by being applied to any one of the management methods of claims 1-5, wherein the management system comprises a BMC system, a switch board, a service discovery Master module, a service discovery Slave module and a plurality of service devices, the service discovery Master module is connected with the BMC system, the service discovery Slave module is connected with each service device, and the BMC system and each service device are respectively connected with the switch board;

the BMC system is used for creating a virtual network port for a physical network card connected with the exchange board and automatically running a service discovery Master module so as to realize overall planning and management of each service device;

the service equipment is used for providing service examples, creating a virtual network port for a physical network card connected with the exchange board, and automatically running a service discovery Slave module;

the service discovery Slave module is used for acquiring service sub-function information of each service device, and sending a service registration request, a service cancellation request and service health detection information of the service device to the service discovery Master module through the exchange board;

the Master module is used for realizing service registration, service cancellation and service health state monitoring of each service device according to the received information.

8. The array server service management system of claim 7, wherein the service devices include AI computing cards, memory cards, and android cards.