CN110213364B

CN110213364B - Express cabinet monitoring method, system, storage medium and equipment

Info

Publication number: CN110213364B
Application number: CN201910465648.9A
Authority: CN
Inventors: 张睿
Original assignee: Shenzhen Hive Box Technology Co Ltd
Current assignee: Shenzhen Hive Box Technology Co Ltd
Priority date: 2019-05-30
Filing date: 2019-05-30
Publication date: 2022-05-10
Anticipated expiration: 2039-05-30
Also published as: CN110213364A

Abstract

The embodiment of the invention discloses a method, a system, a storage medium and equipment for monitoring an express delivery cabinet. The method comprises the following steps: determining a target main cabinet and each slave cabinet corresponding to the target main cabinet from each express cabinet in a state to be monitored; each slave cabinet sends slave cabinet monitoring data to the target master cabinet; and the target main cabinet machine sends the target main cabinet machine monitoring data and the slave cabinet machine monitoring data to an express cabinet monitoring server so that the express cabinet monitoring server completes state monitoring of the express cabinet machines. Through above-mentioned technical scheme, realized monitoring a plurality of express delivery cabinet states more high-efficiently, and improved the communication efficiency between the express delivery cabinet.

Description

Express cabinet monitoring method, system, storage medium and equipment

Technical Field

The embodiment of the invention relates to a communication technology, in particular to a method, a system, a storage medium and equipment for monitoring an express cabinet.

Background

Most of the express cabinets in the market are single cabinet machine-side express cabinets (single-side express cabinets for short), and each express cabinet is provided with a central control machine and a screen. An express cabinet monitoring scheme (referred to as a single-point monitoring scheme for short) for the single cabinet machine surface is as follows: the central control machine is in communication connection with the express cabinet monitoring server, and the central control machine periodically packages the service data and the state monitoring data of the express cabinet and sends the service data and the state monitoring data to the express cabinet monitoring server. The single-point monitoring scheme needs the central control machine of each express cabinet to establish communication connection with the express cabinet monitoring server so as to realize one-to-one monitoring data reporting.

Multiaspect express delivery cabinet has appeared at present, and an express delivery cabinet has a plurality of cabinet planes, a plurality of well accuse machine and a plurality of screen promptly, and one of them cabinet plane is used for the express delivery person to put in the express delivery, and other cabinet planes are used for the user to get the express delivery. For the state monitoring of the multi-surface express cabinet, if a traditional single-point monitoring scheme is still adopted, each central control machine needs to establish communication connection with the express cabinet monitoring server, so that the number of network connections of the express cabinet monitoring server is increased in a geometric relation, the monitoring load of the express cabinet monitoring server is increased in a double manner, and server overload is easily caused. In addition, each central control machine does not communicate directly, but communicates through the express delivery cabinet monitoring server, so that one central control machine cannot timely and accurately know the states of other central control machines, and if other central control machines are out of order and the central control machine does not know the information, the state records of each central control machine in the central control machine are disordered, and therefore the problems of resource waste such as invalid communication and excessive flow consumption are caused.

Disclosure of Invention

The embodiment of the invention provides a method, a system, a storage medium and equipment for monitoring express delivery cabinets, so that the states of a plurality of express delivery cabinets can be monitored more efficiently, and the communication efficiency among the express delivery cabinets can be improved.

In a first aspect, an embodiment of the present invention provides an express delivery cabinet monitoring method, including:

determining a target main cabinet and each slave cabinet corresponding to the target main cabinet from each express cabinet in a state to be monitored;

each slave cabinet machine sends slave cabinet machine monitoring data to the target master cabinet machine;

and the target main cabinet machine sends the target main cabinet machine monitoring data and the slave cabinet machine monitoring data to an express cabinet monitoring server so that the express cabinet monitoring server completes state monitoring of the express cabinet machines.

In a second aspect, an embodiment of the present invention further provides an express delivery cabinet monitoring system, where the system includes:

the system comprises a target main cabinet, slave cabinets corresponding to the target main cabinet and an express cabinet monitoring server;

the slave cabinet machine is in communication connection with the target main cabinet machine and used for sending slave cabinet machine monitoring data to the target main cabinet machine;

the target main cabinet machine is in communication connection with the express cabinet monitoring server and is used for receiving the slave cabinet machine monitoring data sent by each slave cabinet machine and sending the main cabinet machine monitoring data and each slave cabinet machine monitoring data to the express cabinet monitoring server;

and the express cabinet monitoring server is used for finishing the state monitoring of each express cabinet according to the main cabinet monitoring data and each slave cabinet monitoring data.

In a third aspect, an embodiment of the present invention further provides a computer-readable storage medium, where a computer program is stored, and when the computer program is executed by a processor, the method for monitoring an express delivery cabinet according to any embodiment of the present invention is implemented.

In a fourth aspect, an embodiment of the present invention further provides an electronic device, where the electronic device includes:

one or more processors;

a storage device for storing one or more programs,

when executed by the one or more processors, cause the one or more processors to implement a courier cabinet monitoring method, the method comprising:

controlling each slave cabinet to send slave cabinet monitoring data to the target master cabinet;

and controlling the target main cabinet machine to send target main cabinet machine monitoring data and the slave cabinet machine monitoring data to an express cabinet monitoring server so that the express cabinet monitoring server completes state monitoring of the express cabinet machines.

According to the embodiment of the invention, the target main cabinet and each slave cabinet corresponding to the target main cabinet are determined from each express cabinet in the state to be monitored, and each slave cabinet sends the slave cabinet monitoring data to the target main cabinet, so that the building of a local cabinet cluster is realized, the target main cabinet can directly communicate with each slave cabinet, and the efficiency of state intercommunication between the local cabinets is improved. The target main cabinet machine monitoring data and the target slave cabinet machine monitoring data are sent to the express cabinet monitoring server through the target main cabinet machine, so that the express cabinet monitoring server completes state monitoring of the express cabinets, original one-to-one express cabinet monitoring is improved into one-to-many express cabinet monitoring, monitoring load of the express cabinet monitoring server is reduced, and express cabinet monitoring efficiency is improved. Through the design of a cluster type monitoring mode of the server, the target master cabinet and the plurality of slave cabinets, the number of the monitored slave cabinets can be changed at any time, and the monitoring flexibility and expandability of the express cabinet are improved.

Drawings

Fig. 1 is a flowchart of an express delivery cabinet monitoring method according to a first embodiment of the present invention;

fig. 2 is a flowchart of an express delivery cabinet monitoring method in a second embodiment of the present invention;

fig. 3 is a schematic structural diagram of an express delivery cabinet monitoring system in a third embodiment of the present invention;

fig. 4 is a schematic structural diagram of an electronic device in a fourth embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not limiting of the invention. It should be further noted that, for the convenience of description, only some of the structures related to the present invention are shown in the drawings, not all of the structures.

Example one

The express cabinet monitoring method provided by the embodiment is applicable to state monitoring of a plurality of express cabinets, for example, state monitoring of a plurality of single-side express cabinets in the same area, and is particularly applicable to state monitoring of each cabinet machine face in a multi-face express cabinet. The method can be executed by an express cabinet monitoring device, the device can be realized in a hardware and/or software mode, and the device can be integrated in a central control machine of a cabinet machine or can be integrated in a separate control device. Referring to fig. 1, the method of the present embodiment specifically includes the following steps:

s110, determining a target main cabinet and each slave cabinet corresponding to the target main cabinet from each express cabinet in a state to be monitored.

The target main cabinet is one of the express cabinets, serves as an intermediate hub for the server to remotely monitor states of the express cabinets, and is used for communicating with the express cabinet monitoring server and other cabinets in the express cabinets. The slave cabinet machine corresponds to the main cabinet machine, and is other cabinet machines except the target main cabinet machine in each express delivery cabinet.

Specifically, for a single-sided express delivery cabinet, one single-sided express delivery cabinet is selected as a target main cabinet from all express delivery cabinets requiring state monitoring in an area, for example, one express delivery cabinet with the best performance of a main control computer is selected as a target main cabinet, and the remaining single-sided express delivery cabinets in the area are used as slave cabinets. For the multi-surface express cabinet, the cabinet surface facing the courier in one multi-surface express cabinet is selected as a target main cabinet, and the rest cabinet surfaces in the multi-surface express cabinet are used as the corresponding slave cabinets of the target main cabinet. If a plurality of multi-surface express cabinets need to be subjected to state monitoring, the cabinet surface facing the courier in each multi-surface express cabinet is used as a target main cabinet, and therefore the plurality of target main cabinets and each slave cabinet corresponding to each target main cabinet can be determined. Each target master cabinet and each corresponding slave cabinet thereof can form a local cabinet monitoring cluster.

And S120, each slave cabinet sends the slave cabinet monitoring data to the target master cabinet.

The slave cabinet monitoring data refers to monitoring data corresponding to the slave cabinet, and the monitoring data is data for monitoring the operation state of the slave cabinet.

Specifically, before reporting the monitoring data, a communication connection between the target master cabinet and each slave cabinet needs to be established, where the communication connection may be a wireless connection or a wired connection, and a protocol of the communication connection may be an http protocol or a tcp protocol. In the following description, a multi-surface express delivery cabinet is taken as an example, and then communication connection can be performed through communication lines between the machine surfaces of the express delivery cabinets. And then, each slave cabinet machine packages the slave cabinet machine monitoring data according to the communication protocol, and sends the packaged slave cabinet machine monitoring data to the target master cabinet machine according to the communication mode in the communication protocol, and the target master cabinet machine collects the monitoring data in the local cabinet machine monitoring cluster. By adopting the design of a monitoring cluster, the original one-to-one monitoring loads are reduced, the loads are transferred to the interior of the cluster for state monitoring, and the loads monitored by the express cabinet monitoring server and directly reported by a plurality of cabinet machines are reduced.

In addition, through the communication connection between the target main cabinet and each slave cabinet, the target main cabinet can directly know the running state of each slave cabinet through the slave cabinet monitoring data without passing through an express cabinet monitoring server, so that the communication efficiency between the cabinets is improved, and the probability of cabinet state disorder on the local cabinet is reduced to a certain extent.

S130, the target main cabinet sends the target main cabinet monitoring data and the slave cabinet monitoring data to the express cabinet monitoring server, so that the express cabinet monitoring server can complete state monitoring of the express cabinets.

The target main cabinet monitoring data refers to monitoring data corresponding to the target main cabinet.

Specifically, after the target main cabinet collects the monitoring data of the local cabinet monitoring cluster, the collected data needs to be reported to the express cabinet monitoring server, so that the target main cabinet needs to be connected with the express cabinet monitoring server for supervision and remote communication. And then, the target main cabinet machine packages and sends the received slave cabinet machine monitoring data of each slave cabinet machine and the target main cabinet machine monitoring data to the express cabinet monitoring server. The express cabinet monitoring server dynamically displays the states of the current multi-surface express cabinet and a plurality of central control machines in a UI page datamation mode in real time. The operation and maintenance personnel can monitor the local cabinet monitoring cluster in real time and in multiple dimensions through the monitoring system. When the cabinet air conditioner is in failure and the signal is lost, the operation and maintenance personnel can quickly know and timely process the failure and the signal.

According to the technical scheme, the target main cabinet and the slave cabinets corresponding to the target main cabinet are determined from the express cabinets in the state to be monitored, and each slave cabinet sends the slave cabinet monitoring data to the target main cabinet, so that the local cabinet cluster is established, the target main cabinet can directly communicate with each slave cabinet, and the efficiency of state intercommunication between the local cabinets is improved. The target main cabinet machine monitoring data and the target slave cabinet machine monitoring data are sent to the express cabinet monitoring server through the target main cabinet machine, so that the express cabinet monitoring server completes state monitoring of the express cabinets, original one-to-one express cabinet monitoring is improved into one-to-many express cabinet monitoring, monitoring load of the express cabinet monitoring server is reduced, and express cabinet monitoring efficiency is improved. Through the design of a cluster type monitoring mode of the server, the target master cabinet and the plurality of slave cabinets, the monitored slave cabinets can be changed at any time, and the flexibility and the expandability of express cabinet monitoring are improved.

On the basis of the above technical solution, before each slave cabinet sends the slave cabinet monitoring data to the target master cabinet, the method further includes: judging whether the target main cabinet and each slave cabinet are in an idle state; and if so, triggering and executing the step that each slave cabinet sends the slave cabinet monitoring data to the target master cabinet. In specific implementation, if one of the target master cabinet and each slave cabinet is performing a business operation, such as delivering, fetching, upgrading or maintaining an express, the monitoring data reporting operation is suspended, that is, S120 is not performed. Only when all the cabinets have no service operation and no read-write data request operation, that is, the target master cabinet and each slave cabinet are in an idle state, the monitoring data reporting operation is performed, that is, S120 is triggered to be executed. The advantage that sets up like this lies in, through the setting of idle monitoring mechanism, can rationally utilize cabinet-type air conditioner resource, avoids appearing state control and business operation and goes on simultaneously and cause the condition of business jam to a great extent has reduced because of the influence of cabinet-type air conditioner control to user's normal use cabinet-type air conditioner.

On the basis of the above technical scheme, after determining the target master cabinet and each slave cabinet corresponding to the target master cabinet from each express cabinet in the state to be monitored, the method further includes: and if any slave cabinet generates the service data, the slave cabinet sends the service data to the target main cabinet in real time. Specifically, according to the above description, the data reported by the target master cabinet and each slave cabinet is monitoring data, which does not include the service data generated by the service operation. In a conventional monitoring scheme, service data and monitoring data are usually packed together for reporting, which causes two problems, on one hand, no matter the service data or the monitoring data is obtained, the whole data packet needs to be analyzed to obtain corresponding data, and resource waste of both server state monitoring and service analysis is caused. On the other hand, if the total data amount of one packet is limited and the data amount of the service data is larger than that of the monitoring data, there is a case where the monitoring data is reduced in order to ensure the integrity of the service data. Based on the above problem, in the embodiment of the present invention, the monitoring data and the service data are unpacked and sent, that is, the monitoring data and the service data are split into different data packets and sent. And because the service data are not generated periodically, the service data are designed to be reported in real time when the data are generated. The method has the advantages that on one hand, the analysis of the service data and the monitoring data is not affected, and the data analysis efficiency is improved; on the other hand, more cabinet information and running state information can be carried in the monitoring data packet, and operation and maintenance monitoring can be performed remotely by the express cabinet monitoring server more conveniently.

Example two

In this embodiment, on the basis of the first embodiment, a monitoring step of the slave cabinet to the target master cabinet is added. On the basis, a monitoring step when the target main cabinet machine fails can be further added. On the basis, a monitoring step after the fault of the target main cabinet is repaired can be further added. Wherein explanations of the same or corresponding terms as those of the above embodiments are omitted. Referring to fig. 2, the express delivery cabinet monitoring method provided in this embodiment includes:

s201, determining a target main cabinet and each slave cabinet corresponding to the target main cabinet from each express cabinet in a state to be monitored.

S202, http long connection is established between the target main cabinet and the express cabinet monitoring server, and socket long connection is established between the target main cabinet and each slave cabinet.

Specifically, in the single-point monitoring scheme, the cabinets can only communicate with each other through the express cabinet monitoring server, so that the state information between the cabinets is not synchronized timely, and therefore, in the embodiment of the invention, communication connection is established between the target main cabinet and each common cabinet, so that the cabinets can be communicated directly. The communication protocol of the communication connection further adopts the long TCP connection based on the socket, because the long TCP connection allows two-way communication, and the communication connection is more stable, thereby ensuring that the monitoring communication between the cabinet machines can be more stable and timely. And the communication between the target main cabinet machine and the express cabinet monitoring server only needs periodic one-way communication, so that http long connection is still adopted. In this embodiment, the express cabinet monitoring scheme of the embodiment of the present invention is started as soon as each cabinet is operated by default.

And S203, sending the monitoring data of the slave cabinet to the target main cabinet at each interval of the first time interval of each slave cabinet.

Wherein the first time interval is a heartbeat cycle of the monitoring communication between the slave cabinet and the target master cabinet, and may be 30s, for example.

Specifically, each slave cabinet is connected through a socket, and the slave cabinet monitoring data is sent to the target master cabinet according to a heartbeat cycle specified by a communication protocol, namely a first time interval.

And S204, sending the monitoring data of the target main cabinet machine to each slave cabinet machine respectively every first time interval of the target main cabinet machine.

The monitoring data comprises system version number of the cabinet, network information, CPU performance information, disk use information, memory use information and grid state information. The system version number refers to the version number of the system carried by the central controller in the cabinet, and can be used for other business services such as upgrading and the like. The network information refers to whether the network connection of the cabinet is normal or not, whether the bandwidth and the network flow are sufficient or not, and the like. The grid state information refers to whether the overall faults of all grids of the whole cabinet machine, such as incapability of opening, exist. According to the content of the monitoring data, the heartbeat packet in the traditional scheme is split, and the data packet sent by each periodic heartbeat only contains the monitoring data and does not contain service data for accessing service operations such as express delivery, upgrading and the like. Therefore, the analysis efficiency of the monitoring data can be improved, and the data volume of the monitoring data can also be improved.

Specifically, in the embodiment, in the scheme for monitoring the express delivery cabinet, a "bidirectional heartbeat" mechanism is designed in which each slave cabinet sends monitoring data to the target master cabinet, and the target master cabinet also sends the monitoring data of the target master cabinet to each slave cabinet, that is, the target master cabinet also sends the monitoring data of the target master cabinet to each slave cabinet according to the heartbeat cycle (first time interval) of the socket long connection, so as to implement the monitoring logic of bidirectional intercommunication between the target master cabinet and each slave cabinet. This is because: firstly, the local cabinet monitoring cluster is designed to collect monitoring data of all the cabinets for the target main cabinet and upload the monitoring data to the express cabinet monitoring server in a unified manner, but the target main cabinet may have a fault condition, so that in order to improve the fault tolerance and stability of the whole system and ensure that the monitoring data of all the cabinets can be reported normally, the condition that the monitoring state is influenced by the fault of the host is avoided, a temporary monitoring scheme when the target main cabinet fails needs to be designed, the basis of the temporary monitoring scheme is that the target main cabinet needs to be monitored simultaneously by the slave cabinets, and the specific content of the temporary monitoring scheme is explained in subsequent steps. Secondly, in order to ensure that the slave cabinet can directly know the state of the target master cabinet. Here, it needs to be described that the target master cabinet and each slave cabinet need to know the state of the other side from each other, taking a double-sided cabinet as an example, usually, the master cabinet on the front side (the end facing the courier) controls all lock boards and an upgrading process of the double-sided cabinet, so when the slave cabinet on the back side (the end facing the user to take the parts) performs the parts taking operation, it also needs to know the state of the master cabinet in real time, if the courier or the administrator is performing the operation, the slave cabinet on the back side may need to perform an interface prompt or close a specified function; when the front main cabinet needs to be upgraded, the front and back screens need to be locked, and at the moment, the state of the back auxiliary cabinet needs to be monitored so as to ensure that the front and back sides are upgraded in an idle state without manual operation.

Here, the execution order of S203 and S204 is not limited.

And S205, sending the target main cabinet monitoring data and the target slave cabinet monitoring data to the express cabinet monitoring server every second time interval so that the express cabinet monitoring server can complete state monitoring of the express cabinets.

The second time interval is a heartbeat cycle of monitoring communication between the target main cabinet and the express delivery cabinet monitoring server, and may be 1min, for example. Illustratively, the second time interval is greater than or equal to twice the first time interval. This is because the local cabinet monitoring cluster is more interactive and needs to be monitored more timely, so the frequency of the heartbeat between cabinets (i.e. the first time interval) is twice the frequency of the heartbeat monitored remotely between cabinet and server (i.e. the second time interval).

Specifically, the target main cabinet periodically sends the collected cabinet monitoring data to the express cabinet monitoring server according to a heartbeat period (second time interval) of the http long connection.

S206, the target main cabinet carries out weighted summation according to the network information, the CPU performance information, the magnetic disk use information, the memory use information and the preset weight of each parameter in the current slave cabinet monitoring data corresponding to each slave cabinet, and determines the current electing weight of each slave cabinet.

The parameter preset weight refers to a proportion of preset parameters when each parameter (at least including network information, CPU performance information, disk usage information, and memory usage information) is weighted. The referral weight refers to the weight of the slave cabinet machine which can be referred to as a new master cabinet machine, and the larger the referral weight is, the better the overall performance of the slave cabinet machine is. The current referral weight refers to the referral weight of the slave cabinet at the current moment, and can be a preset numerical value or calculated according to real-time data. Because of the changing situation of the monitoring data of the slave cabinets, the referral weights of the slave cabinets need to be updated periodically to ensure that the referral weights of each slave cabinet are up-to-date.

Specifically, in the embodiment, when the temporary monitoring scheme is that the target master cabinet fails, one slave cabinet is temporarily elected from the slave cabinets as a new master cabinet (i.e., an alternative master cabinet), and the function of the target master cabinet is temporarily substituted, and the elected basis of each slave cabinet is the current elected weight of the slave cabinet. The current referral weight of each slave cabinet is calculated by weighting and summing the network information, the CPU performance information, the disk use information, the memory use information and the preset weights of all parameters in the slave cabinet monitoring data after the target master cabinet receives the slave cabinet monitoring data, because the target master cabinet can obtain the monitoring data of all slave cabinets, can obtain the sequencing results of all slave cabinets according to the current referral weight, and determines that the slave cabinet with the largest current referral weight is the alternative master cabinet when the target master cabinet fails. In this way, the target master cabinet can notify the slave cabinets so that the slave cabinets still operate in order when the target master cabinet fails.

And S207, when the target main cabinet machine monitoring data are respectively sent to the slave cabinet machines at intervals of the first time interval, respectively sending the current electing weight of each slave cabinet machine to each slave cabinet machine.

Specifically, the target master cabinet sends the target master cabinet monitoring data to each slave cabinet, and simultaneously sends the determined current referral weights of all slave cabinets and the processing strategy (for example, the slave cabinet with the largest referral weight is the alternative master cabinet) when the target master cabinet fails to each slave cabinet. Thus, each slave cabinet has all the current referral weights of the slave cabinets.

And S208, if the slave cabinet machines monitor that the target master cabinet machine fails, determining the alternative master cabinet machine by each slave cabinet machine according to the current referral weight of each slave cabinet machine.

Specifically, when at least one slave cabinet monitors that the target master cabinet fails, for example, the target master cabinet does not send target master cabinet monitoring data with a first time interval as a period, the temporary monitoring scheme can be triggered and started. At this time, each slave cabinet determines the slave cabinet with the largest current referral weight as the alternative master cabinet according to the current referral weights of all the slave cabinets which are received most recently.

S209, all the other slave cabinets except the standby main cabinet in the slave cabinets are in socket long connection with the standby main cabinet, and the standby main cabinet is in http long connection with the express cabinet monitoring server.

Specifically, each slave cabinet has its corresponding IP address, so after the alternative master cabinet is determined, each of the other slave cabinets except the alternative master cabinet in all the slave cabinets establishes a socket long connection with the alternative master cabinet according to the IP address of the alternative master cabinet, so that the alternative master cabinet collects monitoring data of the other slave cabinets. And the subsequent alternative main cabinet machine also initiates an http long connection request to the express cabinet monitoring server so as to report the summarized monitoring data.

And S210, sending the slave cabinet monitoring data to the alternative master cabinet every other slave cabinet every first time interval.

Specifically, each remaining slave cabinet sends its own slave cabinet monitoring data to the alternative master cabinet according to the cycle of the first time interval.

S211, the alternative main cabinet sends the alternative main cabinet monitoring data and the auxiliary cabinet monitoring data of all the other auxiliary cabinets to the express cabinet monitoring server, so that the express cabinet monitoring server can complete state monitoring of all the express cabinets.

Specifically, the alternative main cabinet initiates an http connection request to the express cabinet monitoring server according to a second time interval, and sends alternative main cabinet monitoring data and slave cabinet monitoring data of each of the other slave cabinets to the express cabinet monitoring server. Meanwhile, when the alternative main cabinet sends data for the first time, fault information of the target main cabinet needs to be sent to the express cabinet monitoring server, so that operation and maintenance personnel can timely process the fault of the target main cabinet.

And S212, after the fault of the target main cabinet is repaired, the target main cabinet establishes socket long connection with each slave cabinet including the alternative main cabinet again, and the target main cabinet establishes http long connection with the express cabinet monitoring server again, so that the target main cabinet monitors slave cabinet monitoring data of each slave cabinet again.

Specifically, after the target master cabinet fails, the original master-slave monitoring needs to be recovered, that is, the data summarization and reporting functions of the target master cabinet are recovered, and all slave cabinets recover to send the slave cabinet monitoring data to the target master cabinet. At this time, the target master cabinet can reestablish socket long connection with all slave cabinets and restore http long connection with the express cabinet monitoring server. When the standby main cabinet machine is in socket long connection with the target main cabinet machine, the standby main cabinet machine automatically restores the functions of the slave cabinet machines, and all the other slave cabinet machines also resend the slave cabinet machine monitoring data to the target main cabinet machine and do not send the data to the standby main cabinet machine.

It should be noted that, after the function of the monitoring data that is not reported by the target main cabinet before the failure is recovered, the monitoring data needs to be continuously reported to the monitoring server of the express delivery cabinet, so as to reduce the loss of the monitoring data as much as possible.

According to the technical scheme, socket long connection is established between the target main cabinet and each slave cabinet, and the monitoring efficiency and the monitoring stability of the local cabinet monitoring cluster can be improved. The target main cabinet machine monitoring data are respectively sent to all the slave cabinet machines at intervals of the first time interval, so that the bidirectional intercommunication monitoring between the target main cabinet machine and all the slave cabinet machines is realized, the target main cabinet machine and all the slave cabinet machines can be directly communicated, and the state synchronization efficiency is further improved. On the basis of bidirectional intercommunication monitoring, if the slave cabinets monitor that the target main cabinet fails, the alternative main cabinet is determined according to the current referral weight of each slave cabinet, the alternative main cabinet which is most suitable for replacing the target main cabinet can be referred in the shortest time, and the influence caused by long-time loss of the monitoring signal of the target main cabinet is reduced. Further, the data collecting and reporting functions of the alternative main cabinet machine temporarily replacing the target main cabinet machine realize that the alternative main cabinet machine continuously executes the monitoring function of each express cabinet when the target main cabinet machine fails, reduce the risk of loss of connection of the whole cabinet machine cluster, and improve the stability and fault tolerance of express cabinet monitoring.

EXAMPLE III

This embodiment provides an express delivery cabinet monitored control system, refer to fig. 3, and this system specifically includes:

the slave cabinet machine 310 establishes communication connection with the target master cabinet machine and is used for sending the slave cabinet machine monitoring data to the target master cabinet machine;

the target main cabinet 320 is in communication connection with the express cabinet monitoring server 330, and is used for receiving the slave cabinet monitoring data sent by each slave cabinet 310 and sending the main cabinet monitoring data and each slave cabinet monitoring data to the express cabinet monitoring server 310;

and the express cabinet monitoring server 330 is configured to complete state monitoring of each express cabinet according to the master cabinet monitoring data and each slave cabinet monitoring data.

Optionally, http long connection is established between the target master cabinet 320 and the express cabinet monitoring server 330, and socket long connection is established between the target master cabinet 320 and each slave cabinet 310;

accordingly, the target main cabinet 320 is specifically configured to:

at each interval of the first time interval, respectively sending target main cabinet monitoring data to each slave cabinet 310, wherein the monitoring data comprises a system version number, network information, CPU performance information, disk use information, memory use information and grid state information of the cabinet;

sending the target master cabinet monitoring data and each slave cabinet monitoring data to the express cabinet monitoring server 330 every second time interval, wherein the second time interval is greater than or equal to twice the first time interval;

accordingly, the slave cabinet 310 is specifically configured to:

the slave cabinet monitoring data is sent to the target master cabinet 320 every first time interval.

Further, the slave cabinet 310 is also specifically configured to:

if the target main cabinet 320 is monitored to be in fault, determining an alternative main cabinet according to the current referral weight of each slave cabinet 310;

the slave cabinet 310 comprises an alternative master cabinet and the rest slave cabinets;

wherein, the rest slave cabinet machines are used for:

establishing socket long connection with an alternative main cabinet machine;

sending the slave cabinet monitoring data to the alternative main cabinet at each first time interval;

the alternative main cabinet machine is used for:

establishing http long connection with the express cabinet monitoring server 330;

and sending the standby main cabinet monitoring data and the slave cabinet monitoring data of all the other slave cabinets to the express cabinet monitoring server 330 at every second time interval so that the express cabinet monitoring server 330 completes the state monitoring of all the express cabinets.

Further, the target main cabinet 320 is further specifically configured to:

if the slave cabinet machines 310 monitor that the target master cabinet machine 320 has a fault, before each slave cabinet machine 310 determines an alternative master cabinet machine according to the current referral weight of each slave cabinet machine 310, performing weighted summation according to network information, CPU performance information, disk use information, memory use information and preset weights of each parameter in the current slave cabinet machine monitoring data corresponding to each slave cabinet machine 310, and determining the current referral weight of each slave cabinet machine 310;

when the target master cabinet monitoring data is respectively sent to the slave cabinets 310 at each first time interval, the current referral weight of each slave cabinet 310 is respectively sent to each slave cabinet 310.

Optionally, the target main cabinet 320 is further specifically configured to:

after the fault is repaired, a socket long connection is established again with each slave cabinet 310 including the alternative master cabinet, and an http long connection is established again with the express cabinet monitoring server 330, so as to re-monitor the slave cabinet monitoring data of each slave cabinet 310.

Optionally, on the basis of the above system, the system further includes an idle state determining device, configured to:

before each slave cabinet 310 sends the slave cabinet monitoring data to the target master cabinet 320, whether the target master cabinet 320 and each slave cabinet 310 are in an idle state is judged;

and if so, triggering and executing the step that each slave cabinet sends the slave cabinet monitoring data to the target master cabinet.

Optionally, the slave cabinet 310 is further specifically configured to:

after the target main cabinet 320 and each slave cabinet 310 corresponding to the target main cabinet are determined from each express cabinet in a state to be monitored, if service data are generated, the service data are sent to the target main cabinet 320 in real time.

By the express cabinet monitoring system provided by the third embodiment of the invention, the states of a plurality of express cabinets can be monitored more efficiently, and the communication efficiency among the express cabinets is improved.

The express cabinet monitoring system provided by the embodiment of the invention can execute the express cabinet monitoring method provided by any embodiment of the invention, and has the corresponding functional modules and beneficial effects of the execution method.

Example four

Referring to fig. 4, the present embodiment provides an electronic device 400, which includes: one or more processors 420; the storage device 410 is configured to store one or more programs, and when the one or more programs are executed by the one or more processors 420, the one or more processors 420 implement a method for monitoring a courier cabinet according to an embodiment of the present invention, including:

determining a target main cabinet machine and each slave cabinet machine corresponding to the target main cabinet machine from each express cabinet machine in a state to be monitored;

controlling each slave cabinet to send the slave cabinet monitoring data to the target master cabinet;

and the control target main cabinet sends the target main cabinet monitoring data and the target slave cabinet monitoring data to the express cabinet monitoring server so that the express cabinet monitoring server completes the state monitoring of the express cabinets.

Of course, those skilled in the art can understand that the processor 420 may also implement the technical solution of the express cabinet monitoring method provided in any embodiment of the present invention.

The electronic device 400 shown in fig. 4 is only an example and should not bring any limitation to the function and the scope of use of the embodiments of the present invention.

As shown in fig. 4, the electronic device 400 includes a processor 420 and a storage 410; the number of the processors 420 in the electronic device may be one or more, and one processor 420 is taken as an example in fig. 4; the processor 420 and the storage 410 in the electronic device may be connected by a bus or other means, such as the bus 450 in fig. 4.

The storage device 410 is a computer-readable storage medium, and can be used to store software programs, computer-executable programs, and modules, such as program instructions/modules corresponding to the express cabinet monitoring method in the embodiment of the present invention.

The storage device 410 may mainly include a storage program area and a storage data area, wherein the storage program area may store an operating system, an application program required for at least one function; the storage data area may store data created according to the use of the terminal, and the like. Further, the storage 410 may include high speed random access memory, and may also include non-volatile memory, such as at least one magnetic disk storage device, flash memory device, or other non-volatile solid state storage device. In some examples, the storage 410 may further include memory located remotely from the processor 420, which may be connected to the electronic device over a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

EXAMPLE five

The present embodiments provide a storage medium containing computer-executable instructions that, when executed by a computer processor, perform a courier cabinet monitoring method, the method comprising:

each slave cabinet machine sends the slave cabinet machine monitoring data to the target master cabinet machine;

and the target main cabinet machine sends the target main cabinet machine monitoring data and the slave cabinet machine monitoring data to the express cabinet monitoring server so that the express cabinet monitoring server completes state monitoring of the express cabinet machines.

Of course, the storage medium provided in the embodiment of the present invention includes computer-executable instructions, and the computer-executable instructions are not limited to the above method operations, and may also perform related operations in the express cabinet monitoring method provided in any embodiment of the present invention.

From the above description of the embodiments, it is obvious for those skilled in the art that the present invention can be implemented by software and necessary general hardware, and certainly, can also be implemented by hardware, but the former is a better embodiment in many cases. Based on such understanding, the technical solutions of the present invention may be embodied in the form of a software product, where the computer software product may be stored in a computer-readable storage medium, such as a floppy disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a FLASH Memory (FLASH), a hard disk, or an optical disk of a computer, and includes several instructions to enable an electronic device (which may be a personal computer, a server, or a network device) to execute the express cabinet monitoring method provided in the embodiments of the present invention.

It is to be noted that the foregoing is only illustrative of the preferred embodiments of the present invention and the technical principles employed. It will be understood by those skilled in the art that the present invention is not limited to the particular embodiments described herein, but is capable of various obvious changes, rearrangements and substitutions as will now become apparent to those skilled in the art without departing from the scope of the invention. Therefore, although the present invention has been described in greater detail by the above embodiments, the present invention is not limited to the above embodiments, and may include other equivalent embodiments without departing from the spirit of the present invention, and the scope of the present invention is determined by the scope of the appended claims.

Claims

1. An express delivery cabinet monitoring method is characterized by comprising the following steps:

determining a target main cabinet and each slave cabinet corresponding to the target main cabinet from each express cabinet in a state to be monitored comprises the following steps:

for single-sided express cabinets, selecting one express cabinet with the best performance of a master control machine from all express cabinets needing state monitoring in one area as the target master cabinet, and taking the rest single-sided express cabinets in the area as the slave cabinets;

for a multi-surface express cabinet, selecting a cabinet surface facing a courier in the multi-surface express cabinet as a target main cabinet, and taking the rest cabinet surfaces in the multi-surface express cabinet as the slave cabinets corresponding to the target main cabinet;

the target main cabinet sends target main cabinet monitoring data and the slave cabinet monitoring data to an express cabinet monitoring server so that the express cabinet monitoring server can complete state monitoring of the express cabinets;

after determining a target main cabinet and each slave cabinet corresponding to the target main cabinet from each express cabinet in a state to be monitored, the method further comprises the following steps:

if any slave cabinet generates service data, the slave cabinet sends the service data to the target main cabinet in real time;

before each slave cabinet sends slave cabinet monitoring data to the target master cabinet, the method further comprises the following steps:

judging whether the target main cabinet and each slave cabinet are in an idle state or not;

2. The method according to claim 1, wherein an http long connection is established between the target master cabinet and the express cabinet monitoring server, and a socket long connection is established between the target master cabinet and each slave cabinet;

correspondingly, after determining the target main cabinet and each slave cabinet corresponding to the target main cabinet from each express cabinet in a state to be monitored, the method further includes:

the target main cabinet machine sends the target main cabinet machine monitoring data to each slave cabinet machine at intervals of a first time interval, wherein the monitoring data comprise the system version number, network information, CPU performance information, disk use information, memory use information and grid state information of the cabinet machines;

accordingly, each slave cabinet sending slave cabinet monitoring data to the target master cabinet comprises:

each slave cabinet sends the slave cabinet monitoring data to the target master cabinet every interval of the first time interval;

correspondingly, the target main cabinet sends the target main cabinet monitoring data and the slave cabinet monitoring data to the express delivery cabinet monitoring server, and the target main cabinet monitoring data and the slave cabinet monitoring data comprise the following steps:

and sending the target main cabinet monitoring data and the slave cabinet monitoring data to an express cabinet monitoring server every second time interval of the target main cabinet, wherein the second time interval is more than or equal to twice of the first time interval.

3. The method of claim 2, further comprising:

if the slave cabinet machines monitor that the target master cabinet machine fails, determining alternative master cabinet machines by the slave cabinet machines according to the current referral weights of the slave cabinet machines;

all the other slave cabinets except the alternative master cabinet in each slave cabinet establish socket long connection with the alternative master cabinet, and the alternative master cabinet establishes http long connection with the express cabinet monitoring server;

each of the rest slave cabinet machines sends the slave cabinet machine monitoring data to the alternative master cabinet machine at intervals of the first time interval;

and sending the standby main cabinet machine monitoring data and the slave cabinet machine monitoring data of the rest slave cabinet machines to the express cabinet monitoring server every time the standby main cabinet machine is spaced by the second time interval, so that the express cabinet monitoring server completes state monitoring of the express cabinet machines.

4. The method of claim 3, wherein before each of the slave cabinets determining an alternative master cabinet according to the current referral weight of each of the slave cabinets if the slave cabinet monitors that the target master cabinet is malfunctioning, further comprising:

the target main cabinet carries out weighted summation according to network information, CPU performance information, disk use information, memory use information and preset weights of all parameters in current slave cabinet monitoring data corresponding to each slave cabinet, and determines the current referral weight of each slave cabinet;

and when the target main cabinet machine monitoring data are respectively sent to the slave cabinet machines at every interval of a first time interval, the current referral weight of each slave cabinet machine is respectively sent to each slave cabinet machine.

5. The method of claim 3, further comprising:

after the fault of the target main cabinet is repaired, the target main cabinet establishes socket long connection with each slave cabinet including the alternative main cabinet again, and the target main cabinet establishes http long connection with the express cabinet monitoring server again, so that the target main cabinet monitors slave cabinet monitoring data of each slave cabinet again.

6. An express delivery cabinet monitoring system, comprising: the system comprises a target main cabinet, slave cabinets corresponding to the target main cabinet and an express cabinet monitoring server;

the express cabinet monitoring server is used for finishing the state monitoring of each express cabinet according to the main cabinet monitoring data and each slave cabinet monitoring data;

the slave cabinet is further specifically configured to:

after a target main cabinet machine and each slave cabinet machine corresponding to the target main cabinet machine are determined from each express cabinet machine in a state to be monitored, if business data are generated, the business data are sent to the target main cabinet machine in real time;

before each slave cabinet sends the slave cabinet monitoring data to a target master cabinet, judging whether the target master cabinet and each slave cabinet are in an idle state;

7. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out a courier cabinet monitoring method according to any one of claims 1-5.

8. An electronic device, characterized in that the electronic device comprises:

one or more processors;

a storage device for storing one or more programs,

controlling the target main cabinet machine to send target main cabinet machine monitoring data and all the slave cabinet machine monitoring data to an express cabinet monitoring server so that the express cabinet monitoring server completes state monitoring of all the express cabinet machines;