CN115001960B - Automatic equipment configuration deployment method and device - Google Patents

Abstract

The invention discloses a device automatic configuration deployment method and a device, which are used for storing functional configuration in a configuration library of a server cluster, issuing the functional configuration when configuring access devices, performing functional matching on the access devices, and feeding back new functional configuration to the server cluster. And then issuing a control rule corresponding to the new function configuration for adaptation, and after the adaptation is successful, storing the new function configuration into a configuration library. The invention enhances the expansibility of the network, has stronger compatibility to new equipment and can accommodate more equipment access. The problem of capacity expansion or expansion of the network in the later stage can be effectively solved, so that the service life of the network is prolonged, and the overall construction cost is thinned.

Description

Automatic equipment configuration deployment method and device

Technical Field

The application belongs to the technical field of equipment management, and particularly relates to an equipment automatic configuration deployment method and device.

Background

With rapid progress in communication technology, various networks implemented based on communication technology have been rapidly developed, such as the base internet, a mobile communication network, a video security network, and various private networks, etc. The increasing number of devices deployed in these networks, such as hundreds or even thousands of cameras in a video security network, has been very common. In the face of a huge number of devices, the service configuration of each device often takes a great deal of time during construction. Meanwhile, when the network is expanded, new service equipment is added, so that the expandability of the network is challenged.

At present, when the service configuration is performed on the device, the basic network configuration is firstly performed through the configuration management interface of the device, for example, the device is configured to dynamically acquire the IP address or configure the static IP address, so that the device is connected to the network, and the smoothness of the network is maintained. Then, centralized configuration needs to be performed in combination with a configuration management interface for managing the device and a configuration management interface for the device itself, and may need to be performed under a plurality of different configuration interfaces.

For example, the configuration of the network video recorder NVR to the network camera IPC first requires that an IP address be configured on the network video recorder IPC, then a device search protocol be configured on the network video recorder NVR, the network video camera IPC be added, and after the adding, the services of each network camera IPC be further configured on the network video recorder NVR, and so on.

However, the existing technical solution only enables the management device to simply copy or issue configuration for the known type device, and cannot configure the unknown device type (new product, management device version is not compatible with new device) or the unknown device (device of other manufacturer), which results in reduced network scalability, increased possibility of updating management device version again when adding new product, and thus poorer scalability.

Disclosure of Invention

The purpose of the application is to provide a device automatic configuration deployment method and device so as to improve the expandability of a network.

In order to achieve the above purpose, the technical scheme of the application is as follows:

an automatic equipment configuration deployment method for automatically configuring access equipment by adopting a server cluster, which is applied to the server cluster and comprises the following steps:

receiving a configuration application of the access equipment, and transmitting the function configuration stored in the configuration library to the access equipment so that the access equipment can retain the function configuration matched with the function of the access equipment and feed back the new function configuration of the access equipment;

receiving new function configuration fed back by the access equipment, generating a control rule corresponding to the new function configuration, and sending the control rule to the access equipment so as to feed back a control rule adaptation result by the access equipment;

and receiving a control rule adapting result fed back by the access equipment, and storing the new function configuration into a configuration library when the access equipment adapts to the control rule.

Further, the receiving the control rule adapting result fed back by the access device, after the access device adapts the control rule, further includes:

issuing a control instruction corresponding to the new function to the access equipment so as to enable the access equipment to feed back a control instruction adaptation result;

receiving a control instruction adapting result fed back by the access equipment, and storing the new function configuration into a configuration library when the access equipment supports the control instruction.

Further, the function configuration includes specific content of each configuration corresponding to the function.

Further, the control rule includes a header, a content and a tail of a control instruction for controlling the access device, where the header includes a character string corresponding to a type to which the new function belongs and a current time, and the content includes a specific instruction set for controlling the new function.

The application also provides a device automatic configuration deployment method, which is used for automatically configuring the access device by adopting the server cluster, and is applied to the access device and comprises the following steps:

applying for configuration to the server cluster, receiving the stored function configuration in the configuration library issued by the server cluster, reserving the function configuration matched with the function of the server cluster, and feeding back the new function configuration of the server cluster;

and receiving a control rule corresponding to the new function issued by the server cluster, and feeding back a control rule adaptation result.

Further, the method for automatically configuring and deploying the equipment further comprises the following steps:

and receiving a control instruction corresponding to the new function issued by the server cluster, and feeding back a control instruction adaptation result.

Further, the function configuration includes specific content of each configuration corresponding to the function.

Further, the control rule includes a header, a content and a tail of a control instruction for controlling the access device, where the header includes a character string corresponding to a type to which the new function belongs and a current time, and the content includes a specific instruction set for controlling the new function.

The application also provides a device automatic configuration deployment device, which is used for automatically configuring access devices by adopting the server cluster, and is applied to the server cluster and comprises the following components:

the function configuration issuing module is used for receiving a configuration application of the access equipment, issuing the stored function configuration in the configuration library to the access equipment so that the access equipment can retain the function configuration matched with the function of the access equipment and feed back the new function configuration of the access equipment;

the control rule negotiation module is used for receiving new function configuration fed back by the access equipment, generating a control rule corresponding to the new function configuration and sending the control rule to the access equipment so as to feed back a control rule adaptation result by the access equipment;

and the new function configuration storage module is used for receiving a control rule adapting result fed back by the access equipment, and storing the new function configuration into the configuration library when the access equipment adapts to the control rule.

The application also provides a device automatic configuration deployment device, which is used for automatically configuring the access device by adopting the server cluster, and is applied to the access device and comprises the following steps:

the function comparison module is used for applying for configuration to the server cluster, receiving the stored function configuration in the configuration library issued by the server cluster, reserving the function configuration matched with the function of the server cluster, and feeding back the new function configuration of the server cluster;

and the rule adapting module is used for receiving the control rule corresponding to the new function issued by the server cluster and feeding back a control rule adapting result.

The method and the device for automatic configuration and deployment of the equipment save the function configuration in a configuration library of the server cluster, and issue the function configuration when the access equipment is configured, the access equipment performs function matching and feeds back the new function configuration to the server cluster. And then issuing a control rule corresponding to the new function configuration for adaptation, and after the adaptation is successful, storing the new function configuration into a configuration library. The invention enhances the expansibility of the network, has stronger compatibility to new equipment and can accommodate more equipment access. The problem of capacity expansion or expansion of the network in the later stage can be effectively solved, so that the service life of the network is prolonged, and the overall construction cost is thinned.

Drawings

Fig. 1 is a flowchart of an automatic configuration deployment method for a device according to an embodiment of the present application;

FIG. 2 is a flowchart of an automatic configuration deployment method for a device according to another embodiment of the present application;

FIG. 3 is a schematic structural diagram of an automatic configuration deployment device of an apparatus according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of an automatic configuration deployment device according to another embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application will be further described in detail with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the present application.

According to the method and the device for automatic configuration and deployment of the equipment, the equipment is abstracted into a function set, and the function configuration is stored in the server cluster. The function configuration only stores the specific content of each configuration corresponding to the configuration function, and does not contain protocols and formats. The server cluster communicates with the access device according to the control rule agreed with the access device, so as to realize the control of the access device.

In one embodiment, as shown in fig. 1, there is provided a device auto-configuration deployment method, applied to a server cluster, including:

step S110, receiving a configuration application of the access equipment, and transmitting the stored function configuration in the configuration library to the access equipment so that the access equipment can retain the function configuration matched with the function of the access equipment and feed back the new function configuration of the access equipment.

The network of the embodiment is provided with a server cluster, and after the access device is accessed into the network, the configuration application is sent to the server cluster by a method of automatically finding or registering in the server cluster, or the configuration application can be automatically sent after the access device is powered on. Or the server cluster can be regarded as the access device sending the configuration application after finding a new access device in the network.

The access device in this embodiment is not limited to one type, and may be, for example, a network camera IPC, a sensor, an alarm, or the like in a video security network. All the access devices are abstracted into a function set, and after the access device with the new function is accessed to the network, the default function configuration corresponding to the new function is fed back to the server cluster for storage. The configuration library of the server cluster has thus stored therein the various functional configurations that the existing access devices in the network have.

The function configuration of the application only stores the specific content of each configuration corresponding to the configuration function, as shown in the following table:

sequence number	Configuration 1	Configuration 2
			Function 1	0	1
Function 2	Str1	Str2
			Function 3	30001222111	30025551223
…	…	…

TABLE 1

The configuration of functions in table 1 is merely an exemplary representation, and there may be more configuration items per function, and the present application is not limited to the number of specific configuration items, and is determined by the number of specific configuration items corresponding to the function.

Taking function 3 as a temperature measurement function as an example, specific content 3001222111 of configuration 1 represents a specific temperature measurement range, specific content 30025551223 of configuration 2 represents a frequency of temperature measurement, and the specific content corresponds to a specific configuration item corresponding to the temperature measurement function. Since the functions of various devices in the network are numerous, they are not exemplified here.

Taking the device a as an example, after receiving the configuration application of the device a, the server cluster issues the function configuration existing in the configuration library to the device a. Assuming that the function configurations corresponding to the function 1, the function 2, and the function 3 already exist in the configuration library, the device a receives 3 function configurations. If function 1 indicates that the wireless communication function has the national standard access function, function 2 indicates that the wireless communication function has the national standard access function, and function 3 indicates that the wireless communication function has the temperature measurement function.

The equipment A compares the received function configuration with the function of the equipment A, and discovers that the function 1 and the function 3 are the function configurations matched with the function of the equipment A, and the function configurations corresponding to the function 1 and the function 3 are reserved and the function configuration corresponding to the function 2 is abandoned. The mobile function is provided by the device a, but the function configuration does not exist in the server cluster configuration library, so that the device a regards the mobile function as a new function after comparison, and sends the default configuration corresponding to the mobile function to the server cluster as the function configuration corresponding to the mobile function, and the server cluster temporarily stores, for example, temporarily stores as the function 6 after receiving the function configuration corresponding to the mobile function.

Step S120, receiving new function configuration fed back by the access equipment, generating a control rule corresponding to the new function configuration, and sending the control rule to the access equipment so as to feed back a control rule adaptation result by the access equipment.

After the server cluster receives the new function configuration fed back by the access equipment, the server cluster negotiates with the access equipment to agree on a control rule for sending a control instruction.

In a specific embodiment, the control rule includes a header, a message content and a message tail of a control instruction for controlling the access device, where the header includes a character string and a current time corresponding to a type to which the new function belongs, and the message content includes a specific instruction set for controlling the new function.

The functions are classified according to the category to which they belong, for example, a motion control category, a switch control category, and the like. Taking the mobile function of the equipment A as an example, the equipment A belongs to a motion control class, the character string corresponding to the motion control class is 0xFFF888, the current time is 2020.12.22, and the message header of the control rule is: 0xFFF88820201222. And generating a message tail in a CRC (cyclic redundancy check) mode, wherein the message content is not specific control instructions, for example, the message content is not 1, 2, 3 and 4, which respectively correspond to 4 control instructions, and respectively represent movement control in the upper, lower, left and right directions.

After the control rule is generated, the control rule is sent to the access equipment, and the access equipment adapts the control rule after receiving the control rule. Analyzing a message head, a message content and a message tail, analyzing whether the message content has a plurality of control instructions, and if yes, feeding back the successful adaptation.

It should be noted that, the control rule may be set based on a predefined function classification string+the current time, or may be generated in other predefined manners, for example, may also be set by a function name+the current time, which is not limited to a specific generation manner. The server cluster can also define a plurality of modes in advance, and when finding that one control rule cannot be matched with the access device, the server cluster issues the control rule generated by the other mode, and the access device is matched again until the access device determines one matched control rule.

In the process of negotiating the control rule between the server cluster and the access equipment, if the control rule issued for the first time is not adapted by the access equipment, the unadapted part can be fed back when the adapting result is fed back. And the server cluster adjusts the control rule according to the feedback and then issues the control rule again until the control rule is adapted.

For example, the mobile function of the device a requires 6-directional control, and when the control rule is issued for the first time, the message content part only gives 4-directional control instructions, so that the device a cannot adapt, and the feedback result indicates that 6-directional control instructions are required. The server cluster issues the control rule again, and increases the message content part to 6 instructions for controlling in directions, so that the adaptation is completed.

And step S130, receiving a control rule adapting result fed back by the access equipment, and storing the new function configuration into a configuration library when the access equipment adapts to the control rule.

After receiving the adapting result of the access device, the server cluster considers that the access device accepts the control rule if the adapting result is successful adapting, so that a control instruction can be sent to the access device according to the control rule, and the access device can be controlled.

After receiving the successful adaptation result, the server cluster stores the new function configuration into a configuration library. Taking the mobile function of the device a as an example, after the adaptation is successful, the server cluster stores the mobile function in the configuration library to become the function 6.

So that the function configuration can be sent directly to another device B with the new function after it has been accessed into the network.

For example, the device B has functions 1, 3, and 6, where functions 1, 2, and 3 are stored in the server cluster, and functions 6 are stored in the server cluster, and the function configurations of functions 1, 2, 3, and 6 are directly sent to the device B, and the device B is matched to retain the function configurations of functions 1, 3, and 6.

The server cluster also generates each control instruction for controlling the function according to the control rule preset by the access equipment, and generates virtual buttons corresponding to each control instruction on the configuration management interface, so that the virtual buttons can be clicked, and the corresponding control instructions are issued to control the access equipment.

In this embodiment, the configuration items are not stored in units of devices, but are stored in units of functions, and a single function has independent configuration, and the devices are regarded as a set of functions. Any newly accessed network equipment can be conveniently expanded, and control operation can be carried out on the newly accessed network equipment.

In a preferred example, the above-described method for automatic configuration deployment of devices is extended. The receiving the control rule adapting result fed back by the access device, after the access device adapts the control rule, further comprises:

issuing a control instruction corresponding to the new function to the access equipment so as to enable the access equipment to feed back a control instruction adaptation result;

receiving a control instruction adapting result fed back by the access equipment, and storing the new function configuration into a configuration library when the access equipment supports the control instruction.

On the basis of the embodiment, the method further generates control instructions according to control rules, sends the control instructions to the access equipment for execution, feeds back the result of executing the control instructions by the access equipment, and if the execution is successful, indicates that the access equipment supports the control instructions, so that virtual buttons corresponding to the control instructions are generated on a configuration management interface, the virtual buttons can be clicked, and the corresponding control instructions are sent to control the access equipment. For the saved function configuration, the corresponding virtual buttons are generated on the configuration management interface, so that the access device can be controlled.

Taking the mobile function as an example, assume that the function is configured as follows:

sequence number	Configuration 1	Configuration 2
			Function 6	10	FFF

TABLE 2

Wherein, configuration 1 represents the moving speed, configuration 2 represents the moving direction, and according to a predetermined control rule, the following control instruction is generated:

control instructions	Message header	Message content	Message tail
				Move upwards	0xFFF88820201222	1	0
Move downwards	0xFFF88820201222	2	1
				Move to the left	0xFFF88820201222	3	0
Move rightwards	0xFFF88820201222	4	1

TABLE 3 Table 3

Thus, when issuing the upward movement control instruction, the access device moves upward at the speed of configuration 1, and when issuing the downward movement control instruction, the access device moves downward at the speed of configuration 1.

By further executing the control instruction and verifying the validity of the control instruction, the accuracy of the control operation on the equipment is improved, and the server cluster is ensured to be capable of controlling the equipment.

In another embodiment of the present application, as shown in fig. 2, there is further provided a device auto-configuration deployment method, applied to an access device, including:

step S210, applying for configuration to the server cluster, receiving the stored function configuration in the configuration library issued by the server cluster, reserving the function configuration matched with the function of the server cluster, and feeding back the new function configuration of the server cluster;

step S220, receiving a control rule corresponding to the new function issued by the server cluster, and feeding back a control rule adaptation result.

The embodiment is an automatic equipment configuration deployment method applied to a server cluster, and is applied to a specific embodiment of access equipment. The access device applies for configuration to the server cluster, receives the function configuration issued by the server cluster, and issues the function configuration stored in the configuration library to the access device. The access device reserves the function configuration matched with the function of the access device and feeds back the new function configuration of the access device. And then feeding back an adaptation result after receiving the control rule issued by the server cluster.

In a preferred example, the device auto-configuration deployment method further comprises:

and receiving a control instruction corresponding to the new function issued by the server cluster, and feeding back a control instruction adaptation result.

On the basis of the embodiment, the server cluster further generates control instructions according to the control rules, sends the control instructions to the access equipment for execution, feeds back the result of executing the control instructions by the access equipment, and if the execution is successful, indicates that the access equipment supports the control instructions, so that virtual buttons corresponding to the control instructions are generated on the configuration management interface, the virtual buttons can be clicked, the corresponding control instructions are sent, and the access equipment is controlled.

In another embodiment of the present application, as shown in fig. 3, there is further provided an apparatus auto-configuration deployment device, configured to automatically configure an access apparatus with a server cluster, where the apparatus auto-configuration deployment device is applied to the server cluster, and includes:

the function configuration issuing module is used for receiving a configuration application of the access equipment, issuing the stored function configuration in the configuration library to the access equipment so that the access equipment can retain the function configuration matched with the function of the access equipment and feed back the new function configuration of the access equipment;

the control rule negotiation module is used for receiving new function configuration fed back by the access equipment, generating a control rule corresponding to the new function configuration and sending the control rule to the access equipment so as to feed back a control rule adaptation result by the access equipment;

and the new function configuration storage module is used for receiving a control rule adapting result fed back by the access equipment, and storing the new function configuration into the configuration library when the access equipment adapts to the control rule.

For a specific limitation of the device automatic configuration deployment apparatus in this embodiment, reference may be made to the above limitation of a device automatic configuration deployment method, which is not described herein.

In a preferred example, the device auto-configuration deployment apparatus further includes an instruction sending module, configured to send a control instruction corresponding to the new function to the access device, so that the access device feeds back a control instruction adaptation result.

The new function configuration storage module also receives a control instruction adapting result fed back by the access equipment, and stores the new function configuration into the configuration library when the access equipment supports the control instruction.

In another embodiment of the present application, as shown in fig. 4, there is further provided an apparatus auto-configuration deployment device, configured to automatically configure an access apparatus with a server cluster, where the apparatus auto-configuration deployment device is applied to the access apparatus, and includes:

the function comparison module is used for applying for configuration to the server cluster, receiving the stored function configuration in the configuration library issued by the server cluster, reserving the function configuration matched with the function of the server cluster, and feeding back the new function configuration of the server cluster;

and the rule adapting module is used for receiving the control rule corresponding to the new function issued by the server cluster and feeding back a control rule adapting result.

In a preferred example, the device automatically configures the deployment apparatus, further comprising:

the instruction adapting module is used for receiving the control instruction corresponding to the new function issued by the server cluster and feeding back a control instruction adapting result.

For a specific limitation of the device automatic configuration deployment apparatus in this embodiment, reference may be made to the above limitation of a device automatic configuration deployment method, which is not described herein.

The modules in the automatic configuration deployment device of the above-mentioned equipment can be implemented in whole or in part by software, hardware and a combination thereof. The above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

The memory and the processor are electrically connected directly or indirectly to each other for data transmission or interaction. For example, the components may be electrically connected to each other by one or more communication buses or signal lines. The memory stores a computer program that can be executed on a processor that implements the network topology layout method in the embodiment of the present invention by executing the computer program stored in the memory.

The Memory may be, but is not limited to, random access Memory (Random Access Memory, RAM), read Only Memory (ROM), programmable Read Only Memory (Programmable Read-Only Memory, PROM), erasable Read Only Memory (Erasable Programmable Read-Only Memory, EPROM), electrically erasable Read Only Memory (Electric Erasable Programmable Read-Only Memory, EEPROM), etc. The memory is used for storing a program, and the processor executes the program after receiving an execution instruction.

The processor may be an integrated circuit chip having data processing capabilities. The processor may be a general-purpose processor including a central processing unit (Central Processing Unit, CPU), a network processor (Network Processor, NP), and the like. The methods, steps and logic blocks disclosed in the embodiments of the present invention may be implemented or performed. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

The above examples merely represent a few embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that it would be apparent to those skilled in the art that various modifications and improvements could be made without departing from the spirit of the present application, which would be within the scope of the present application. Accordingly, the scope of protection of the present application is to be determined by the claims appended hereto.

Claims (10)

1. An automatic equipment configuration deployment method for automatically configuring access equipment by adopting a server cluster is characterized by being applied to the server cluster and comprising the following steps:

receiving a configuration application of the access equipment, and transmitting the stored function configuration in the configuration library to the access equipment so that the access equipment can retain the function configuration matched with the function of the access equipment, and feeding back the new function configuration which is not in the stored function configuration in the configuration library but is possessed by the access equipment;

receiving new function configuration fed back by the access equipment, generating a control rule corresponding to the new function configuration, and sending the control rule to the access equipment so as to feed back a control rule adaptation result by the access equipment;

and receiving a control rule adapting result fed back by the access equipment, and storing the new function configuration into a configuration library when the access equipment adapts to the control rule.

2. The method for deploying device auto-configuration according to claim 1, wherein receiving the control rule adapting result fed back by the access device, after the access device adapts the control rule, further comprises:

issuing a control instruction corresponding to the new function to the access equipment so as to enable the access equipment to feed back a control instruction adaptation result;

receiving a control instruction adapting result fed back by the access equipment, and storing the new function configuration into a configuration library when the access equipment supports the control instruction.

3. The device auto-configuration deployment method of claim 1, wherein the function configuration includes details of each configuration corresponding to the function.

4. The method for automatically configuring and deploying equipment according to claim 1, wherein the control rule comprises a header, a content and a tail of a control instruction for controlling the access equipment, the header comprises a character string and a current time corresponding to a category to which the new function belongs, and the content comprises a specific instruction set for controlling the new function.

5. An automatic equipment configuration deployment method for automatically configuring access equipment by adopting a server cluster is characterized by being applied to the access equipment and comprising the following steps:

applying for configuration to the server cluster, receiving the stored function configuration in the configuration library issued by the server cluster, reserving the function configuration matched with the function of the server cluster, and feeding back the new function configuration which is not in the stored function configuration in the configuration library but is possessed by the access equipment;

and receiving a control rule corresponding to the new function issued by the server cluster, and feeding back a control rule adaptation result.

6. The device auto-configuration deployment method of claim 5, further comprising:

and receiving a control instruction corresponding to the new function issued by the server cluster, and feeding back a control instruction adaptation result.

7. The device auto-configuration deployment method of claim 5, wherein the function configuration includes details of each configuration corresponding to the function.

8. The method for automatically configuring and deploying equipment according to claim 5, wherein the control rule comprises a header, a content and a tail of a control instruction for controlling the access equipment, the header comprises a character string and a current time corresponding to a category to which the new function belongs, and the content comprises a specific instruction set for controlling the new function.

9. An apparatus auto-configuration deployment device for automatically configuring an access apparatus using a server cluster, wherein the apparatus auto-configuration deployment device is applied to the server cluster and comprises:

the function configuration issuing module is used for receiving a configuration application of the access equipment, issuing the stored function configuration in the configuration library to the access equipment so that the access equipment can retain the function configuration matched with the function of the access equipment, and feeding back the new function configuration which is not in the stored function configuration in the configuration library but is possessed by the access equipment;

the control rule negotiation module is used for receiving new function configuration fed back by the access equipment, generating a control rule corresponding to the new function configuration and sending the control rule to the access equipment so as to feed back a control rule adaptation result by the access equipment;

and the new function configuration storage module is used for receiving a control rule adapting result fed back by the access equipment, and storing the new function configuration into the configuration library when the access equipment adapts to the control rule.

10. An apparatus auto-configuration deployment device for automatically configuring an access apparatus using a server cluster, wherein the apparatus auto-configuration deployment device is applied to the access apparatus, and comprises:

the function comparison module is used for applying for configuration to the server cluster, receiving the stored function configuration in the configuration library issued by the server cluster, reserving the function configuration matched with the function of the server cluster, and feeding back the new function configuration which is not in the stored function configuration in the configuration library but is possessed by the access equipment;

and the rule adapting module is used for receiving the control rule corresponding to the new function issued by the server cluster and feeding back a control rule adapting result.