CN113067735A - Method, system and device for remotely configuring server network - Google Patents

Abstract

A method, system and device for remote configuration of a server network, the system comprising: the network configuration client comprises a network configuration client and a target end, wherein the target end at least comprises a network configuration module, and the network configuration module is connected with the network configuration client through a network; the network configuration client operates in the browser, accesses the ip address and the pre-agreed port of the target end through the network, and can initiate a network configuration request to the target end; the network configuration module is a distributed system structure and at least comprises a task execution unit for executing a network configuration function, a task message middleware for managing a network configuration message queue and a result storage unit for storing a network configuration task execution result. The scheme ensures that the network configuration is more friendly, the network configuration is not limited by physics, and the configuration and modification aiming at the target server network are realized more conveniently and rapidly.

Description

Method, system and device for remotely configuring server network

Technical Field

The present invention relates to the field of computer networks, and in particular, to a method, system, and apparatus for remotely configuring a server network.

Background

Computer equipment and servers are indispensable infrastructure equipment in modern society, all the equipment are bare computers when leaving factories and cannot be accessed to the internet, so that any computing equipment, including a small pc (personal computer) or a large server, can be accessed to the internet world only by configuring a reasonable and correct ip address through network configuration. Network configuration is an indispensable link for system deployment of all sizes, and meanwhile, due to service requirements, the network is required to be modified and configured again.

The existing server network configuration methods generally include the following two methods: one is that a computer system selects a network card in a command line mode by opening a command line window, configures information such as ip addresses, gateways, subnet masks, DNS, etc. related to a network, and also needs to perform operations such as restart and shutdown of the network in the command line mode. The mode of using the command line to configure the network needs to configure the command and the tool related to the network configuration, so that the threshold is higher and the universality is poor; in addition, the network configuration by using the command line method provides more flexibility for operation, and often has a higher error rate due to some errors and unskilled services, and often needs to be configured for multiple times to achieve the expected result. The other is a way of performing network configuration by using a dialog box, and in order to avoid the rigid problem of configuring a network by using a command line, network configuration is performed by using a dialog box based on a UI interface. The dialog box provides the necessary options for network configuration, and the configurator only needs to configure the corresponding network parameters according to the prompt, if the parameter format has incorrect input, the dialog box can also pop up the prompt for the operator to refer. This dialog box approach is more convenient than the command line configuration network, but this operation approach can only be completed by physically logging on the pc or the server, because the network configured dialog box exists as a system component, and therefore cannot be remotely accessed for configuration or modification.

Based on the above problems in the prior art, providing a solution for remotely configuring a server network that is convenient and not prone to error becomes an urgent problem to be solved.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a scheme for remotely configuring a server network, which is characterized in that a server program is deployed at a target node, a browser is used as a client, network configuration is carried out in a remote mode, and network information can be remotely configured and modified anytime and anywhere besides local login configuration is needed for the first time.

Specifically, the invention provides the following technical scheme:

in one aspect, the present invention provides a system for remotely configuring a server network, the system at least comprising: the system comprises a network configuration client and a target end, wherein the target end at least comprises a network configuration module, and the network configuration module is connected with the network configuration client through a network;

the network configuration client operates in a browser, accesses an ip address and a pre-agreed port of a target end through a network, and can initiate a network configuration request to the target end;

the network configuration module is a distributed system structure and at least comprises a task execution unit for executing a network configuration function, a task message middleware for managing a network configuration message queue and a result storage unit for storing a network configuration task execution result.

Preferably, when the system initiates a network configuration request, the network configuration request is sent as a task to the task message middleware.

And the task execution unit acquires a network configuration task from the task message middleware and executes network configuration.

Preferably, after the task execution unit finishes the network configuration, the execution result is stored in the result storage unit.

Preferably, the target terminal is a network server.

In addition, the invention also provides a method for remotely configuring a server network, which is applied to the system and comprises the following steps:

s1, when the system initiates the network configuration request, judging whether the target terminal is the first configuration network, if yes, turning to S2, otherwise, turning to S3;

s2, accessing the network configuration port at the target end by using the loopback address, and selecting a pre-agreed port; selecting a network configuration mode, and if automatic configuration is selected, turning to S5; if the player performs the action configuration, go to S4;

s3, selecting a network configuration mode through a browser page, selecting manual configuration or automatic configuration, and turning to S5 if the automatic configuration is selected; if the player performs the action configuration, go to S4;

s4, obtaining parameters needed by network configuration, packaging the parameters, sending the parameters to a target end, executing network configuration by a network configuration module of the target end, writing an execution result into a result storage unit, and turning to S7;

s5, performing confirmation operation;

s6, the browser sends the network configuration request to the network configuration module in the target end, when the network configuration request is automatic configuration, the browser sends a network configuration task to the message middleware, the task is added with an identifier to indicate that the task is the automatic configuration network task, the network configuration module of the target end executes the network configuration, and writes the execution result into a result storage unit, and the operation goes to S7;

s7, returning the execution result in the result storage unit to the browser of the network configuration client;

and S8, displaying by the browser based on the execution result.

Preferably, in S6, when the target performs network configuration, the target uses a DHCP method, and when the configuration is successful, the target writes parameters of the execution result into the result storage unit.

Preferably, the parameters in S4 include ip address, subnet mask, default gateway, and DNS.

Preferably, the target is a network server, but of course, the target in this embodiment may also be a computer terminal, or a computer terminal that can be used as a server, for example.

Preferably, in S8, when the configuration is successful as a result of the execution, if the configuration is manual configuration, the parameters required for configuring the network, which are acquired in S4, are displayed on the browser; and if the configuration is automatic configuration, displaying the execution result and the parameters of the execution result in the browser.

Preferably, in S8, when the execution result is that the configuration fails, the browser prompts the configuration failure.

In addition, the invention also provides a device for remotely configuring the server network, which comprises:

a processor; and the number of the first and second groups,

a memory having stored therein computer program instructions which, when executed by the processor, perform the above-described method of remotely configuring a server network.

Compared with the prior art, the invention has at least the following advantages: (1) the network configuration is carried out in a browser mode, so that the network configuration is more friendly; (2) the network configuration is carried out by using the browser access, the network configuration is not limited by physics, and except for the first factory configuration, any terminal which can be accessed into the network where the target server is located can be accessed through the browser to further configure the network information, so that the configuration and the modification of the target server network are realized more conveniently and rapidly.

Drawings

FIG. 1 is a system block diagram of an embodiment of the present invention;

fig. 2 is a diagram of a network configuration module server structure according to an embodiment of the present invention;

fig. 3 is a flowchart of the operation of the embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

For the convenience of describing the embodiments of the present invention in detail, some of the terms used in the specification should be construed as follows:

(1) network configuration: a series of necessary configurations aiming at the network when the computing equipment accesses the internet, including configuration of ip addresses, subnet masks, gateways and the like;

(2) ip address: based on a uniform address format of an ip protocol, a logic address is distributed to each network and each host on the Internet;

(3) subnet mask: a bit mask for indicating which bits of an IP address identify the subnet in which the host resides and which bits identify the host;

(4) a gateway: the gateway realizes network interconnection above a network layer, is complex network interconnection equipment and is only used for interconnection of two networks with different high-level protocols;

(5) celery: the celery is an open-source distributed task distribution framework realized based on Python language;

(6) rabbitmq is message-oriented middleware implementing the Advanced Message Queuing Protocol (AMQP);

(7) redis (remote dictionary server), i.e., remote dictionary service.

In a specific embodiment, as shown in fig. 1 and fig. 2, in the scheme of the present invention, the device for remotely configuring a network is composed of a network configuration client and a network configuration module server, the network configuration client is connected to the network configuration module server through a network (internet), and the network configuration module server is disposed at a target server (or called target computer):

firstly, a network configuration client: the network configuration client can operate in any browser, the browser is connected with the network configuration module server through the internet, the client accesses the ip address and the appointed port of a target computer or a server in the browser and initiates a network configuration request;

secondly, the network configuration module server: the network configuration module server is realized based on python and is a distributed system based on the business, the system uses rabbitmq as a task message middleware, uses redis to store a task execution result, and uses a network configuration function as a task execution unit; the browser web server receives a network configuration request of a browser end, the request is sent to a rabbitmq message middleware as a task of the server, the task execution unit obtains the network configuration task from the task message middleware, network configuration is executed, and an execution result is stored in the redis.

In another specific embodiment, when the above remote network configuration is specifically executed, and as shown in fig. 3, the network configuration server module of the target server is accessed through the browser, and finally the remote network configuration is implemented, which may be implemented through the following process:

step 1, firstly, judging whether the network is firstly configured, if so, turning to step 2, and if not, turning to step 3;

step 2, accessing a network configuration port or interface by using a loopback address, selecting a pre-agreed port or interface, selecting a network configuration mode, if an automatic ip configuration is selected, turning to step 5, and if a manual ip configuration is selected, turning to step 4;

step 3, selecting a network configuration mode through a web page, selecting manual configuration or automatic configuration of ip, turning to step 5 if automatic configuration of ip is selected, and turning to step 4 if manual configuration of ip is selected;

step 4, filling parameters needed by a manual configuration network, wherein the parameters at least comprise information of an ip address, a subnet mask, a default gateway and a DNS, packaging the parameters to a Web server by a Web browser in a json mode and the like, and sending the parameters to the Web server, and sending a task of network configuration to a rabbitmq message queue after the Web server receives the message; the message middleware cell allocates tasks of network configuration to task execution units of the cell, the task execution units use the parameters to call system configuration network information, and write whether the execution is successful into redis, and then go to step 7;

step 5, clicking to confirm;

step 6, the browser sends a network configuration request to a network configuration server module in a target server, a web server in the server receives the request of the browser, if the request is automatic configuration, a network configuration task is sent to a message middleware, an identifier is added in the task to indicate that the task is the automatic configuration network task, an execution unit in the server receives the configuration task, a system is called, the server network is configured in a DHCP mode, and when the configuration is successful, ip address, subnet mask, DNS and gateway information generated through the DHCP automatic configuration are written into redis;

step 7, the webserver receives the execution result in the redis and returns the execution result to the web browser;

and 8, the web browser page correspondingly displays the information returned by the web server: if the remote network fails, prompting that the remote network configuration fails; if the configuration is successful, the network information which is manually filled in is directly displayed on a browser page during manual configuration and comprises an IP address, a subnet mask, a DNS, a gateway and the like, and if the configuration is automatic, the information such as the IP address, the subnet mask, the DNS, the gateway and the like in an execution result returned by the web server in the redis is displayed on the browser page.

In addition, in yet another specific embodiment, at the time of remote network configuration:

the target server can also be logged in through remote access software, such as xshell and the like, and then network configuration is realized through a command line mode, although remote network configuration can also be realized in such a mode, a user needs to install additional remote access software, and the remote access software requires an account number and a password to log in, so that the operation convenience is greatly reduced, and the configuration of the network by using the mode still needs to use the command line mode to configure the network, and the inconvenience of the command line configuration of the network still exists.

In addition, in another executable embodiment, the solution of the present invention can also be implemented by a system for remotely configuring a server network, in which case, the system can perform the following configuration:

the system comprises: the system comprises a network configuration client and a target end, wherein the target end at least comprises a network configuration module, and the network configuration module is connected with the network configuration client through a network;

the network configuration client operates in a browser, accesses an ip address and a pre-agreed port of a target end through a network, and can initiate a network configuration request to the target end;

the network configuration module is a distributed system structure and at least comprises a task execution unit for executing a network configuration function, a task message middleware for managing a network configuration message queue and a result storage unit for storing a network configuration task execution result.

Preferably, when the system initiates a network configuration request, the network configuration request is sent as a task to the task message middleware.

And the task execution unit acquires a network configuration task from the task message middleware and executes network configuration.

Preferably, after the task execution unit finishes the network configuration, the execution result is stored in the result storage unit.

Preferably, the target terminal is a network server.

In yet another embodiment, the system described above can fully execute the method for remotely configuring a server network as set forth in the present specification to implement the solution of the present invention.

In another specific embodiment, the solution of the present invention can also be implemented by a specific apparatus for remotely configuring a server network, where the apparatus includes:

a processor; and the number of the first and second groups,

a memory having stored therein computer program instructions which, when executed by the processor, perform the above-described method of remotely configuring a server network.

It will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program, which can be stored in a computer-readable storage medium, and when executed, can include the processes of the embodiments of the methods described above. The storage medium may be a magnetic disk, an optical disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), or the like.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A system for remotely configuring a server network, the system comprising at least: the system comprises a network configuration client and a target end, wherein the target end at least comprises a network configuration module, and the network configuration module is connected with the network configuration client through a network;

the network configuration client operates in a browser, accesses an ip address and a pre-agreed port of a target end through a network, and can initiate a network configuration request to the target end;

the network configuration module is a distributed system structure and at least comprises a task execution unit for executing a network configuration function, a task message middleware for managing a network configuration message queue and a result storage unit for storing a network configuration task execution result.

2. The system of claim 1, wherein when a system initiates a network configuration request, the network configuration request is sent as a task to the task message middleware.

And the task execution unit acquires a network configuration task from the task message middleware and executes network configuration.

3. The system of claim 2, wherein the task execution unit stores the execution result in the result storage unit after the network configuration is completed.

4. A method for remotely configuring a server network, applied to the system according to any one of claims 1 to 3, wherein the method comprises:

s1, when the system initiates the network configuration request, judging whether the target terminal is the first configuration network, if yes, turning to S2, otherwise, turning to S3;

s2, accessing the network configuration port at the target end by using the loopback address, and selecting a pre-agreed port; selecting a network configuration mode, and if automatic configuration is selected, turning to S5; if the player performs the action configuration, go to S4;

s3, selecting a network configuration mode through a browser page, selecting manual configuration or automatic configuration, and turning to S5 if the automatic configuration is selected; if the player performs the action configuration, go to S4;

s4, obtaining parameters needed by network configuration, packaging the parameters, sending the parameters to a target end, executing network configuration by a network configuration module of the target end, writing an execution result into a result storage unit, and turning to S7;

s5, performing confirmation operation;

s6, the browser sends the network configuration request to the network configuration module in the target end, when the network configuration request is automatic configuration, the browser sends a network configuration task to the message middleware, the task is added with an identifier to indicate that the task is the automatic configuration network task, the network configuration module of the target end executes the network configuration, and writes the execution result into a result storage unit, and the operation goes to S7;

s7, returning the execution result in the result storage unit to the browser of the network configuration client;

and S8, displaying by the browser based on the execution result.

5. The method according to claim 4, wherein in S6, when the target performs network configuration, a DHCP method is used, and when the configuration is successful, the target writes parameters of the execution result into the result storage unit.

6. The method according to claim 4, wherein the parameters in S4 include ip address, subnet mask, default gateway, DNS.

7. The method of claim 4, wherein the target is a web server.

8. The method according to claim 5, wherein in the step S8, when the configuration is successful as a result of the execution, if the configuration is manual configuration, the parameters required for configuring the network, which are acquired in the step S4, are displayed on the browser; and if the configuration is automatic configuration, displaying the execution result and the parameters of the execution result in the browser.

9. The method according to claim 4, wherein in the step S8, when the configuration fails as a result of the execution, the browser is prompted to indicate the failure of the configuration.

10. An apparatus for remotely configuring a server network, the apparatus comprising:

a processor; and the number of the first and second groups,

memory having stored therein computer program instructions which, when executed by the processor, perform a method of remotely configuring a server network as claimed in any of claims 4 to 9.

Images