CN112073238A - Network configuration management system - Google Patents

Abstract

The embodiment of the invention provides a network configuration management system, which comprises: an Ethernet configuration subsystem and a CAN network configuration subsystem; the Ethernet configuration subsystem is used for carrying out remote hardware configuration and software configuration on a plurality of Ethernet switches within a preset management range so as to realize remote network setting of the Ethernet switches; the CAN network configuration subsystem is used for carrying out remote hardware configuration and software configuration on the plurality of CAN modules within the preset management range so as to realize remote network setting of the plurality of CAN modules. According to the embodiment of the invention, all Ethernet and CAN networks are uniformly configured and managed in a network form through the network configuration management system, so that the time for building and debugging the network environment is greatly saved, the network management cost is reduced, and powerful guarantee is provided for indoor test work.

Description

Network configuration management system

Technical Field

The present invention relates to the field of network technologies, and in particular, to a network configuration management system.

Background

Currently, most networking environments, such as laboratories, include a variety of networks, such as ethernet and CAN networks.

Configuring an ethernet switch and configuring CAN network equipment become a major task in a laboratory, and the configuration includes hardware configuration and software configuration, which occupies a large amount of manpower and material resources. Especially, after configuration by a plurality of persons, the configuration data is very messy.

Therefore, a set of integrated management system is needed to uniformly manage the ethernet switch and the CAN module in the laboratory, so as to achieve the purpose of uniform setting and uniform management.

Disclosure of Invention

The embodiment of the invention provides a network configuration management system, which is used for solving the defect that the network switch configuration can be only carried out manually in the prior art, and comprises the following steps:

an Ethernet configuration subsystem and a CAN network configuration subsystem;

the Ethernet configuration subsystem is used for carrying out remote hardware configuration and software configuration on a plurality of Ethernet switches within a preset management range so as to realize remote network setting of the Ethernet switches;

the CAN network configuration subsystem is used for performing remote hardware configuration and software configuration on the plurality of CAN modules within the preset management range so as to realize remote network setting of the plurality of CAN networks.

Preferably, the ethernet configuration subsystem includes an ethernet address setting module, an ethernet graphics topology module, an ethernet configuration operation module, and an ethernet status updating module;

the Ethernet address setting module is used for configuring and corresponding the network addresses of the Ethernet switches to the display addresses in the graphical interface;

the Ethernet graphic topology module is used for presenting the network configuration state and the port connection state of the Ethernet switches through the graphic interface;

the Ethernet configuration operation module is used for adjusting the port connection of any Ethernet switch according to the preset networking requirement and configuring a plurality of networking parameters;

and the Ethernet state updating module is used for updating the state presentation of any Ethernet switch on the graphical interface according to any configured Ethernet switch.

Preferably, the ethernet configuration subsystem further includes an ethernet initial state obtaining module, where the ethernet initial state obtaining module is configured to obtain the initial networking states of the ethernet switches and the tested system states of the ethernet switches.

Preferably, the ethernet configuration operation module is specifically configured to adjust a connection relationship between a port of any ethernet switch and ports of the other switches within the preset management range, and configure basic parameters including a transmission rate, a forwarding rate, a backplane bandwidth, and a management function.

Preferably, the CAN network configuration subsystem comprises a CAN network conversion module, a CAN network address setting module, a CAN network graphic topology module, a CAN network configuration operation module and a CAN network state updating module;

the CAN network conversion module is used for realizing the function of converting CAN network into Ethernet;

the CAN network address setting module is used for configuring and corresponding network addresses of the plurality of CAN modules to display addresses in a graphical interface;

the CAN network graphic topology module is used for presenting the network configuration state and the port connection state of the plurality of CAN modules through the graphic interface;

the CAN network configuration operation module is used for adjusting the port connection of any CAN module according to the preset networking requirement and configuring a plurality of networking parameters;

and the CAN network state updating module is used for updating the state presentation of any CAN module on the graphical interface according to the configured any CAN module.

Preferably, the CAN network configuration subsystem further includes a CAN network initial state acquisition module, and the CAN network initial state acquisition module is used for acquiring the initial networking states of the plurality of CAN modules and the measured system state of the CAN modules.

Preferably, the CAN network configuration operation module is specifically configured to adjust a connection relationship between a port of any one of the CAN modules and ports of the remaining switches within the preset management range, and configure basic parameters including a transmission rate, a forwarding rate, a backplane bandwidth, and a management function.

Preferably, the graphical interface is implemented in a web page form or a client side form.

According to the network configuration management system provided by the embodiment of the invention, all Ethernet networks and CAN networks are uniformly configured and managed in a network form through the network configuration management system, so that the time for building and debugging the network environment is greatly saved, the network management cost is reduced, and a powerful guarantee is provided for indoor test work.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a network configuration management system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an ethernet configuration subsystem according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a CAN network configuration subsystem according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, 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 some, but not all, embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In view of the defect that a large number of network devices need to be configured manually in the prior art, an embodiment of the present invention provides a network configuration management system, which performs unified configuration management remotely through a graphical configuration interface, as shown in fig. 1, and includes:

an Ethernet configuration subsystem and a CAN network configuration subsystem;

the Ethernet configuration subsystem is used for carrying out remote hardware configuration and software configuration on a plurality of Ethernet switches within a preset management range so as to realize remote network setting of the Ethernet switches;

the CAN network configuration subsystem is used for carrying out remote hardware configuration and software configuration on the plurality of CAN modules within the preset management range so as to realize remote network setting of the plurality of CAN network switches.

Specifically, the network configuration management system provided in the embodiment of the present invention is integrally divided into two subsystems: the Ethernet configuration subsystem and the CAN network configuration subsystem respectively manage all Ethernet switches and CAN modules in a certain range, such as a laboratory, enter from a uniform login interface, then select a corresponding subsystem configuration interface to enter into a corresponding switch type for configuration, the configuration range comprises software and hardware configuration of the switch, and after corresponding operation setting is carried out on a graphical interface by a manager, the system automatically issues configuration data to the corresponding switch, so that automatic updating of the configuration data is realized.

Here, for the two subsystems, the following settings are made on the hardware implementation:

for a plurality of Ethernet switches, each switch is reserved with a port to be connected to a convergence switch, the convergence switch is connected to a management terminal, such as a PC, management system software is installed on the PC, the management system software enters a module of an Ethernet subsystem through a graphical interface, and managers complete various settings through clicking or inputting;

for a plurality of CAN modules, each module is also reserved with a port to be connected to another aggregation switch and then connected to the management terminal, so that each setting of the corresponding CAN module is completed.

According to the invention, through the network configuration management system, all Ethernet and CAN networks are uniformly configured and managed in a network form, so that the time for building and debugging the network environment is greatly saved, the network management cost is reduced, and a powerful guarantee is provided for indoor test work.

Based on the above embodiment, the ethernet configuration subsystem includes an ethernet address setting module, an ethernet graphics topology module, an ethernet configuration operation module, and an ethernet status update module;

the Ethernet address setting module is used for configuring and corresponding the network addresses of the Ethernet switches to the display addresses in the graphical interface;

the Ethernet graphic topology module is used for presenting the network configuration state and the port connection state of the Ethernet switches through the graphic interface;

the Ethernet configuration operation module is used for adjusting the port connection of any Ethernet switch according to the preset networking requirement and configuring a plurality of networking parameters;

and the Ethernet state updating module is used for updating the state presentation of any Ethernet switch on the graphical interface according to any configured Ethernet switch.

Specifically, as shown in fig. 2, for the ethernet configuration subsystem, the following functional modules are included: the system comprises an Ethernet address setting module, an Ethernet graphic topology module, an Ethernet configuration operation module and an Ethernet state updating module;

the Ethernet address setting module is used for configuring the addresses of all Ethernet switches in the network, is convenient to display on a graphical interface, is convenient for managers to identify, and can quickly find out a target switch through a simple address corresponding relation;

the Ethernet graphic topology module is used for presenting an easy-to-operate graphic interface which visually displays the network configuration state of each switch and the connection state of ports in a management network, such as the transmission rate, the packet forwarding rate and the like of the current switch, and the corresponding port connection conditions are clear at a glance when a plurality of switches are in a small local area network;

the Ethernet configuration operation module is used for adjusting the port of the corresponding Ethernet switch by a manager according to a network adjustment target and resetting related network parameters;

the Ethernet state updating module is used for updating the updated network state and then re-presenting the updated network state on the graphical interface after the configuration is completed, so that the latest network state is ensured to be displayed in real time.

Based on any of the above embodiments, the ethernet configuration subsystem further includes an ethernet initial state acquisition module, where the ethernet initial state acquisition module is configured to acquire the initial networking states of the ethernet switches and the tested system states of the ethernet switches.

Specifically, in addition to the above sub-modules, the ethernet configuration subsystem further includes an ethernet initial state acquisition module, which is used for automatically acquiring the current states of the switches in real time and performing state presentation before each configuration once the system recognizes that the switches are within its own management range. In addition, the module can also display and acquire the state of the tested system currently managed by the switches, namely the state of subordinate management equipment of the networking of the switches.

Based on any of the above embodiments, the ethernet configuration operation module is specifically configured to adjust a connection relationship between a port of any ethernet switch and ports of other switches within the preset management range, and configure basic parameters including a transmission rate, a forwarding rate, a backplane bandwidth, and a management function.

Specifically, the ethernet configuration operation module is a core module in the ethernet configuration subsystem, and the adjusted parameters include, but are not limited to, the connection relationship of each port, and basic parameters such as transmission rate, forwarding rate, backplane bandwidth, and management function.

Here, the ethernet configuration subsystem may implement the following functions in a practical application scenario, such as a common laboratory:

(1) the read-write function is used for reading data in the external storage file and writing the data into the external storage file;

(2) the data management function is used for loading the read external storage data into three two-dimensional arrays of a test environment, a cabinet and a switch according to a standard, storing the three two-dimensional arrays according to the standard and managing various monitoring quantities in operation;

(3) the test environment management function comprises a test environment legend interface, a newly added test environment, an edited test environment and a deleted test environment;

(4) the equipment cabinet management function is used for presenting a laboratory aerial view interface and an equipment cabinet internal interface;

(5) the switch management function comprises a switch interface and enters a network configuration interface of a corresponding switch according to the switch number;

(6) the switch fast search function enters a network configuration interface of a corresponding switch according to the address number of the switch;

(7) the color management function can be used for uniformly performing color matching based on the test environment, and can also be used for uniformly performing color matching based on the network to which the switch belongs, so that the administrator can conveniently identify;

(8) and the log function is used for recording the operation time and the operation content.

Based on any one of the above embodiments, the CAN network configuration subsystem comprises a CAN network conversion module, a CAN network address setting module, a CAN network graphic topology module, a CAN network configuration operation module and a CAN network state updating module;

the CAN network conversion module is used for realizing the function of converting CAN network into Ethernet;

the CAN network address setting module is used for configuring and corresponding network addresses of the plurality of CAN modules to display addresses in a graphical interface;

the CAN network graphic topology module is used for presenting the network configuration state and the port connection state of the plurality of CAN modules through the graphic interface;

the CAN network configuration operation module is used for adjusting the port connection of any CAN module according to the preset networking requirement and configuring a plurality of networking parameters;

and the CAN network state updating module is used for updating the state presentation of any CAN module on the graphical interface according to the configured any CAN module.

Specifically, as shown in fig. 3, for the CAN network configuration subsystem, the following functional modules are included: the CAN network conversion module, the CAN network address setting module, the CAN network graphic topology module, the CAN network configuration operation module and the CAN network state updating module;

the CAN network conversion module is used as a specific module of the CAN network configuration subsystem and is used for converting a port communication mode of each CAN module into Ethernet communication through the module before each CAN module is accessed into the management network, because of the limitation of the transmission distance of the CAN network, in the actual networking process, because the transmission distance is too far, the transmission signal of the CAN has great loss and attenuation, the limitation of the transmission distance CAN be conveniently overcome after conversion, and the influence of the transmission environment on the CAN signal CAN be greatly reduced;

the CAN network address setting module is used for configuring the address of each CAN module in the network, is convenient to display on a graphical interface, is convenient for a manager to identify, and CAN quickly find out a target switch through a simple address corresponding relation;

the CAN network graphic topology module is used for presenting an easy-to-operate graphic interface, and the interface visually displays the network configuration state and the port connection state of each switch in a management network, such as the transmission rate, the packet forwarding rate and the like of the current switch, and the corresponding port connection condition is shown above, and currently, several switches are in a small local area network and are clear at a glance;

the CAN network configuration operation module is used for adjusting the port of the corresponding CAN module and resetting related network parameters by a manager according to a network adjustment target;

the CAN network state updating module is used for updating the updated network state and then re-presenting the updated network state on the graphical interface after the configuration is completed, so that the latest network state is ensured to be displayed in real time.

Based on any one of the above embodiments, the CAN network configuration subsystem further includes a CAN network initial state acquisition module, and the CAN network initial state acquisition module is used for acquiring the initial networking states of the plurality of CAN modules and the tested system states of the plurality of CAN modules.

Specifically, in addition to the above sub-modules, the CAN network configuration subsystem further includes a CAN network initial state acquisition module, which is used for automatically acquiring the current states of the switches in real time and presenting the states before each configuration once the system recognizes that the CAN module is within its own management range. In addition, the module CAN also display and acquire the state of the tested systems currently managed by the CAN, namely the state of subordinate management equipment networked by the CAN modules.

Based on any of the above embodiments, the CAN network configuration operation module is specifically configured to adjust a connection relationship between a port of any of the CAN modules and ports of the other switches within the preset management range, and configure basic parameters including a transmission rate, a forwarding rate, a backplane bandwidth, and a management function.

Specifically, the CAN network configuration operation module is also a core module in the CAN network configuration subsystem, and the adjusted parameters include, but are not limited to, the connection relationship of each port, and basic parameters such as transmission rate, forwarding rate, backplane bandwidth, and management function.

Based on any of the above embodiments, the graphical interface is implemented in a web page form or a client form.

Specifically, in order to perform operation display more intuitively, the operation interface adopted in the embodiment of the present invention is usually presented on the PC in the form of a web page or a client.

The above-described embodiments of the apparatus are merely illustrative, and the units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of network units. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of the present embodiment. One of ordinary skill in the art can understand and implement it without inventive effort.

Through the above description of the embodiments, those skilled in the art will clearly understand that each embodiment can be implemented by software plus a necessary general hardware platform, and certainly can also be implemented by hardware. With this understanding in mind, the above-described technical solutions may be embodied in the form of a software product, which can be stored in a computer-readable storage medium such as ROM/RAM, magnetic disk, optical disk, etc., and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the methods described in the embodiments or some parts of the embodiments.

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 (8)

1. A network configuration management system, comprising: an Ethernet configuration subsystem and a CAN network configuration subsystem;

the Ethernet configuration subsystem is used for carrying out remote hardware configuration and software configuration on a plurality of Ethernet switches within a preset management range so as to realize remote network setting of the Ethernet switches;

the CAN network configuration subsystem is used for performing remote hardware configuration and software configuration on the plurality of CAN modules within the preset management range so as to realize remote network setting of the plurality of CAN networks.

2. The network configuration management system of claim 1, wherein the ethernet configuration subsystem comprises an ethernet address setting module, an ethernet graphics topology module, an ethernet configuration operation module, and an ethernet status update module;

the Ethernet address setting module is used for configuring and corresponding the network addresses of the Ethernet switches to the display addresses in the graphical interface;

the Ethernet graphic topology module is used for presenting the network configuration state and the port connection state of the Ethernet switches through the graphic interface;

the Ethernet configuration operation module is used for adjusting the port connection of any Ethernet switch according to the preset networking requirement and configuring a plurality of networking parameters;

and the Ethernet state updating module is used for updating the state presentation of any Ethernet switch on the graphical interface according to any configured Ethernet switch.

3. The system according to claim 2, wherein the ethernet configuration subsystem further comprises an ethernet initial state obtaining module, and the ethernet initial state obtaining module is configured to obtain the initial networking states of the ethernet switches and the tested system states of the ethernet switches.

4. The network configuration management system according to claim 2, wherein the ethernet configuration operation module is specifically configured to adjust a connection relationship between the port of any ethernet switch and the ports of the other switches within the preset management range, and configure basic parameters including a transmission rate, a forwarding rate, a backplane bandwidth, and a management function.

5. The network configuration management system of claim 1 wherein the CAN network configuration subsystem comprises a CAN network conversion module, a CAN network address setting module, a CAN network graphics topology module, a CAN network configuration operation module, and a CAN network status update module;

the CAN network conversion module is used for realizing the function of converting CAN network into Ethernet;

the CAN network address setting module is used for configuring and corresponding network addresses of the plurality of CAN modules to display addresses in a graphical interface;

the CAN network graphic topology module is used for presenting the network configuration state and the port connection state of the plurality of CAN modules through the graphic interface;

the CAN network configuration operation module is used for adjusting the port connection of any CAN module according to the preset networking requirement and configuring a plurality of networking parameters;

and the CAN network state updating module is used for updating the state presentation of any CAN module on the graphical interface according to the configured any CAN module.

6. The network configuration management system according to claim 5, wherein the CAN network configuration subsystem further comprises a CAN network initial state acquisition module, and the CAN network initial state acquisition module is configured to acquire an initial networking state of the plurality of CAN modules and a tested system state of the plurality of CAN modules.

7. The network configuration management system according to claim 5, wherein the CAN network configuration operation module is specifically configured to adjust a connection relationship between the port of any one of the CAN modules and the ports of the remaining switches within the preset management range, and configure basic parameters including a transmission rate, a forwarding rate, a backplane bandwidth, and a management function.

8. The network configuration management system according to claim 2 or 5, wherein the graphical interface is implemented in a web page form or a client form.

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