CN108965297B

CN108965297B - Access control equipment management system

Info

Publication number: CN108965297B
Application number: CN201810791843.6A
Authority: CN
Inventors: 杨延琛; 史大明; 吴振谦
Original assignee: Shenzhen Danbay Technology Co ltd
Current assignee: Shenzhen Danbay Technology Co ltd
Priority date: 2018-07-18
Filing date: 2018-07-18
Publication date: 2021-02-05
Anticipated expiration: 2038-07-18
Also published as: CN108965297A

Abstract

The invention discloses an access control equipment management system, belongs to the field of safety management, and solves the problems that the traditional access control equipment management system is too much in access of access control equipment, so that the pressure of an access control equipment server is often too large, network communication is blocked, data transmission is disordered, and the platform unified management of Internet of things equipment is not facilitated, and the technical scheme is as follows: the system comprises a bottom layer communication module, a data forwarding module, a service management module, an instruction issuing module, an access service layer and an access service communication key database, wherein the access service communication key database stores communication keys which correspond to access control equipment one to one; the access control equipment management system disclosed by the invention supports the control and management of more types of equipment on a standard protocol, so that the flexibility of the management system of the access control equipment is strong, and the platform-based unified management strategy of the Internet of things equipment is favorably realized.

Description

Access control equipment management system

Technical Field

The invention belongs to the field of safety management, and particularly relates to an access control equipment management system.

Background

Along with the improvement of the safety protection consciousness of people, the safety requirements of people on the located areas are further improved, so that the access control system is applied to various occasions of daily work and life of people such as communities, office buildings, governments, banks and the like, linkage joint defense is realized between the access control system and intelligent security systems such as monitoring systems, alarm systems and the like, and the work and life safety guarantee of people is improved to a great extent.

The traditional apartment operation manages access control equipment of the traditional apartment, and comprises access authority control, user password information binding, door opening and closing timing of the access control, and recovery of the access authority of users. However, access control equipment in the conventional access control equipment management system is excessively accessed, so that the pressure of an access control equipment server is often too high, the network communication is blocked, and the data is transmitted in a mess, so that the platform-based unified management of the internet of things equipment is not facilitated, and the improved space is provided.

Disclosure of Invention

The invention aims to provide an access control equipment management system, which is based on bottom access control equipment, and the access service layer, the instruction issuing module and the business management module support the control and management of more kinds of equipment on a standard protocol, so that the management system of the access control equipment is high in flexibility, and the unified management strategy of platform of Internet of things equipment is favorably realized.

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

an access control device management system comprising:

a bottom layer communication module: a plurality of bottom-layer entrance guard devices are integrated;

a data forwarding module: acquiring the current state information of the access control equipment in the bottom communication module to filter and push the state information;

a service management module: receiving state information pushed by the data forwarding module to analyze and process the state information, wherein a plurality of example deployments which are in one-to-one correspondence with a plurality of access control devices are arranged in the service management module;

an instruction issuing module: receiving a control instruction executed by a user on the corresponding access control equipment so as to transmit the control instruction to the access control equipment;

and accessing a service layer: the data forwarding module is used for forwarding data to the bottom layer communication module;

accessing a service communication key database: storing communication keys corresponding to the access control equipment one by one;

the access control equipment accesses the access service layer through an IP and a port of a designated connection server, and if the access service layer detects a communication key corresponding to the access control equipment in the access service communication key database, the access service layer allows a connection channel to be established with the access control equipment to send a connection instruction and acquire the state information of the access control equipment;

and if the access service layer does not detect the communication key corresponding to the access control equipment in the access service communication key database, the access control equipment and the access service layer do not establish a connection channel and the state information acquisition fails.

By adopting the scheme, the access service layer is accessed to realize the connection between the lower-layer access control devices and the service management module, so that the service management module monitors the working state (the access control is opened or closed) of the access control devices, and a plurality of example deployments which are in one-to-one correspondence with the access control devices are arranged in the service management module, thereby effectively relieving the pressure of the server; the access control equipment and the access service layer channel establish key-based matching, firstly, the security of state information transmission of the access control equipment is improved, and secondly, the access control equipment with a large number is convenient to manage;

the data forwarding module realizes the split charging of the state information of the access control equipment between the access service layer and the service management module so as to realize secondary forwarding; the connection between the instruction issuing module and the plurality of access control devices is realized through the access service layer, so that a user or a manager of the access control devices can conveniently send control instructions to the access control devices;

the access service layer, the instruction issuing module and the business management module support the control and management of more kinds of equipment on a standard protocol, so that the management system of the access control equipment is high in flexibility, and the platform unified management strategy of the Internet of things equipment is favorably realized.

Preferably, the access service layer further includes:

device heartbeat connecting device: giving three-time heartbeat handshake connection to the access control equipment which establishes a connection channel with the access service layer;

and the three-time heartbeat handshake connection is used for acquiring a sending connection instruction and receiving state information, and if the acquisition of the sending connection instruction fails, the access control equipment is identified to be offline.

By adopting the scheme, the three-time heartbeat handshake is performed when the access service layer receives the connection instruction, and the connection is disconnected when the connection instruction is not received, so that the waste of network flow is reduced compared with a long connection mode.

Preferably, the access service layer gives distribution control to the state information acquired by the access control device and the control instruction transmitted by the instruction issuing module.

By adopting the scheme, the access service layer receives the information, one type is the control instruction of the upper layer to the access control equipment, the other type is from the report of the response instruction of the access control equipment to the upper layer and the data information generated by the access control equipment, and the access service layer carries out distribution processing, thereby avoiding the problems of information leakage and messy transmission and improving the efficiency of information transmission.

Preferably, the data forwarding module further includes:

the data checking device: data verification is given to the state information acquired by the access service layer;

if the state information is verified to be qualified, the data forwarding module gives a state information record for storage and gives a forwarding request of the state information to the service management module; otherwise, the data forwarding module fails to respond.

By adopting the scheme, the data forwarding module preliminarily eliminates the state information from the access service layer through the data verification device, and gives the forwarding request of the state information after eliminating the error information.

Preferably, the data forwarding module further includes:

the data filtering device comprises: and giving an information record to the state information which is recorded and stored in the data forwarding module and is requested to the service management module by only taking the first bar state information content which is sent instantly, and giving a forwarding request of the first bar state information to the service management module.

By adopting the scheme, in the data transmission process, the situation of repeated operation on the same state information or the same instruction at the access control equipment can be met, the first piece of information of the repeated information received at the same time is selected by the data filtering device, the efficiency is improved on the one hand, and the processing pressure of the service management module is relieved on the other hand.

Preferably, the service management module applies an Nginx proxy and a offload policy to the request sent by the data forwarding module.

By adopting the scheme, the Nginx agent and the shunting strategy carry out agent and shunting aiming at the request, and the pressure of the server is effectively relieved.

Preferably, the method further comprises the following steps:

controlling a layer key database: user access information of an access instruction issuing module is stored;

if the command issuing module detects the user access information in the control layer key database, the control command input by the user is accessed to the command issuing module; otherwise, the access fails.

By adopting the scheme, when a user or a manager of the access control equipment controls the access control equipment through the instruction issuing module, the user or the manager of the access control equipment can operate if the user or the manager of the access control equipment has a secret key and the matching is successful, so that the safety of the management of the access control equipment is improved; the two layers effectively isolate the development of the service layer and the access layer.

Preferably, the instruction issuing module includes:

decoupling and separating device: and the decoupling separation device calls split and multi-platform examples for the control instruction accessed to the instruction issuing module, and adopts a key management mode for the platform examples called by the control instruction.

By adopting the scheme, the user accessing the instruction issuing module or the manager of the access control equipment performs corresponding instance execution operation on the corresponding access control equipment through the decoupling separation device, and adopts a key management mode for identification and matching, so that the transmission efficiency of the control instruction is improved, and the server pressure is relieved.

Preferably, the instruction issuing module further includes:

entrance guard's equipment state detection device: the control instruction calls the state information of the access control equipment in the service management module and gives the access control equipment whether to detect and judge online:

and if the control instruction is in an online state that the access control equipment is called by the service management module, the instruction issuing module establishes a connection channel with the access service layer and transmits the control instruction to the access control equipment.

By adopting the scheme, when the control instruction of the corresponding access control equipment is matched with the corresponding instance platform, the access control equipment state detection device calls the state information of the corresponding access control equipment from the service management module, and if the access control equipment is online at the moment, the control instruction of the access control equipment is transmitted to the access control equipment through the access service layer; otherwise, the transmission of the control instruction of the access control equipment fails; whether the access control equipment is on-line is detected and judged to ensure that a control instruction sent by a client or a manager of the access control equipment responds to the control instruction.

Preferably, if the access service layer does not detect the communication key corresponding to the access control device in the access service communication key database, an error status code is fed back to the access control device and the access control device is required to reacquire the communication key and detect again.

By adopting the scheme, when the access service layer does not detect the communication key corresponding to the access control equipment in the access service communication key database for the first time, the access service layer feeds back an error state code to the access control equipment and requires the access control equipment to obtain the communication key again and detect the communication key again, so that the problem that the access control equipment cannot be accessed because the accidental key is not successfully matched for the first time is avoided.

In conclusion, the invention has the following beneficial effects:

1. a plurality of example deployments which correspond to the access control devices one by one are arranged in the service management module, so that the pressure of the server is effectively relieved; the access control equipment and the access service layer channel establish key-based matching, firstly, the security of state information transmission of the access control equipment is improved, and secondly, the access control equipment with a large number is convenient to manage;

2. the access service layer, the instruction issuing module and the business management module support the control and management of more kinds of equipment on a standard protocol, so that the management system of the access control equipment is high in flexibility, and the platform unified management strategy of the Internet of things equipment is favorably realized.

Drawings

Fig. 1 is an overall structural view of an access control device management system;

fig. 2 is a flow chart of processing from the access control device to the access service layer;

FIG. 3 is a flow chart of the process from the access service layer to the data forwarding module;

FIG. 4 is a flow chart illustrating a process from a data forwarding module to a service management module;

fig. 5 is a processing flow chart of the user sending the instruction to the access control device through the instruction issuing module.

Detailed Description

The present invention is described in further detail below with reference to figures 1-5.

As shown in fig. 1, the access control device management system disclosed in this embodiment includes a bottom layer communication module, a data forwarding module, a service management module, an instruction issuing module, and an access service layer.

As shown in fig. 1, the bottom communication module is integrated with a plurality of bottom access control devices; the data forwarding module acquires the current state information of the access control equipment in the bottom layer communication module so as to filter and push the state information, and the state information of the access control equipment is in a door opening state or a door closing state. The business management module receives the state information pushed by the data forwarding module to analyze and process the state information, and a plurality of example deployments which are in one-to-one correspondence with a plurality of access control devices are arranged in the business management module; the instruction issuing module receives a control instruction executed by a user on the corresponding access control equipment so as to transmit the control instruction to the access control equipment; the access service layer is used for connecting the bottom layer communication module with the data forwarding module and connecting the instruction issuing module with the bottom layer communication module. The access service layer, the instruction issuing module and the service management module support control and management of more kinds of equipment on a standard protocol, so that the management system of the access control equipment is high in flexibility, and a unified management strategy for realizing platform of the Internet of things equipment is facilitated, wherein the access control equipment supports a LoRaWAN protocol, a LoRa private network protocol and a CLAA protocol based on an http protocol standard.

As shown in fig. 2, the access control device management system further includes an access service communication key database storing communication keys corresponding to the access control devices one to one, and the communication password generation rule is globally unique and is randomly generated according to the MAC address of the access control device. The access control equipment is accessed into an access service layer through an IP and a port of a designated connection server, and if the access service layer detects a communication key corresponding to the access control equipment in an access service communication key database, the access service layer allows a connection channel to be established with the access control equipment to send a connection instruction and acquire the state information of the access control equipment; and if the access service layer does not detect the communication key corresponding to the access control equipment in the access service communication key database, the access service layer feeds back an error state code to the access control equipment and requires the access control equipment to obtain the communication key again and detect the communication key again.

As shown in fig. 2, the heartbeat connection device in the access service layer provides a three-heartbeat handshake connection for the access control device that has established a connection channel with the access service layer, where the three-heartbeat handshake connection is used to obtain an issuing connection instruction and receive status information, and if the obtaining of the issuing connection instruction fails, the access control device is identified as being offline.

Because the access service layer receives information, one type is a control instruction of the upper layer to the access control equipment, and the other type is from the report of a response instruction of the access control equipment to the upper layer and data information generated by the access control equipment, the access service layer needs to distribute and process, and the problems of information leakage and messy transmission are avoided. The access service layer sends a response to the data forwarding module when receiving a response instruction of the access control equipment to an upper layer and state information reported by data information generated by the access control equipment, if the response fails, the access service layer retries for three times, and if the retry fails, the access service layer discards the state information transmitted from the access control equipment.

As shown in fig. 3, if the response is successful, the data verification device in the data forwarding module performs data verification on the status information, and the data verification device mainly performs verification on the format of the status information, and if the format verification of the status information is not qualified, the status information stops transmission; and if the format of the state information is verified to be qualified, the data forwarding module gives the state information record for storage.

As shown in fig. 4, the data forwarding module further includes a data filtering device, and the data filtering device only takes the content of the first bar-state information sent immediately for the state information recorded and stored in the data forwarding module and concurrently requested in the service management module, and gives an information record and a forwarding request for the first bar-state information to the service management module.

As shown in fig. 4, the service management module adopts a nginnx proxy and offload policy for the status information sent by the data forwarding module, a plurality of access control devices correspond to a plurality of instances, and a corresponding instance is also selected according to a difference in IP addresses corresponding to each access control device, thereby effectively relieving server pressure.

As shown in fig. 5, when a user or a manager of the access control device needs to modify a password for access control or change other information of the access control device, the user or the access control device needs to send a control command to a corresponding access control device through the access service layer by the command sending module through a login command sending module to implement control.

As shown in fig. 5, the access control device management system further includes a control layer key database, where a password of the login instruction issuing module of the user or the access control device manager is stored in the control layer key database, and the password in the control layer key database may be an identity card number or a telephone number or other authentication identity login information stored by the user or the access control device manager at the beginning. When the verification is successful, the control instruction input by the user is accessed to the instruction issuing module; otherwise, the access fails.

As shown in fig. 5, a decoupling and separating device and a state detection device of the access control device are arranged in the control instruction issuing module; the decoupling and separating device is used for splitting the control instruction accessed to the instruction issuing module and calling the multi-platform instance, the decoupling and separating device is used for calling the platform instance called by the control instruction in a key management mode, and the control instruction of the corresponding access control equipment is matched with the corresponding instance platform through an IP address.

As shown in fig. 5, the device for detecting the state of the access control device refers to that a control command calls the state information of the access control device from the service management module and determines whether the access control device is online. If the control instruction calls the access control equipment to be in an online state in the service management module, the instruction issuing module establishes a connection channel with the access service layer and transmits the control instruction to the corresponding access control equipment; and if the access control equipment is not on line, the response from the instruction issuing module to the access service layer fails.

The working process is as follows:

1. when the state of the access control equipment is changed, the communication key generated by the corresponding access control equipment is successfully matched with the access service communication key database and a connection instruction is issued, and the access service layer is connected through heartbeat for three times to obtain the connection instruction and receive state information; the access service layer sends a response to the data forwarding module, and the data forwarding module carries out format verification and filtering on the state information after the response is successful; the service management module adopts multi-instance deployment to the received state information;

2. when a user or an entrance guard equipment manager successfully logs in the instruction issuing module, the instruction issuing module distributes the control instruction of the corresponding entrance guard equipment to the corresponding instance platform, acquires the state information of the corresponding entrance guard from the service management module, and realizes the access of the instruction control module to the access service layer of the online entrance guard equipment so as to realize the transmission of the control instruction to the corresponding entrance guard equipment.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims

1. An access control device management system is characterized in that: the method comprises the following steps:

the access service layer allows the access service layer to establish a connection channel with the access control equipment to send a connection instruction and acquire the state information of the access control equipment if the access service layer detects a communication key corresponding to the access control equipment in the access service communication key database;

and if the access service layer does not detect the communication key corresponding to the access control equipment in the access service communication key database, the access control equipment and the access service layer do not establish a connecting channel and the state information acquisition fails.

2. The access control device management system according to claim 1, wherein: the access service layer further comprises:

3. The access control device management system according to claim 1 or 2, wherein: the access service layer gives distribution control on the state information acquired by the access control equipment and the control instruction transmitted by the instruction issuing module.

4. The access control device management system according to claim 3, wherein: the data forwarding module further comprises:

5. The access control device management system according to claim 4, wherein: the data forwarding module further comprises:

6. The access control device management system according to claim 5, wherein: and the service management module adopts an Nginx agent and a shunting strategy for the request sent by the data forwarding module.

7. The access control device management system according to claim 6, wherein: further comprising:

8. The access control device management system according to claim 7, wherein: the control instruction issuing module comprises:

9. The access control device management system according to claim 8, wherein: the instruction issuing module further comprises:

10. The access control device management system according to claim 1, wherein: and if the access service layer does not detect the communication key corresponding to the access control equipment in the access service communication key database, feeding back an error state code to the access control equipment, and requiring the access control equipment to obtain the communication key again and detect the communication key again.