CN111124835A - Data flow monitoring method and system - Google Patents

Abstract

The invention discloses a method and a system for monitoring data streams, which construct a system physical connection panoramic image according to acquired node information and connection information of a system to be monitored, respectively determine monitoring indexes corresponding to each link connection mode in each link of the system physical connection panoramic image according to different link connection modes between nodes and different link connection modes between the system to be monitored and an associated system, and display the monitoring indexes of each link in the system physical connection panoramic image to realize the monitoring of the data streams of the links. Therefore, when the data stream is monitored, the log function is not required to be started, and because the system physical connection panoramic image is constructed and the monitoring of the data stream of the link is realized based on the monitoring index corresponding to each link connection mode in the system physical connection panoramic image, the data stream monitoring dead angle is avoided, and the data stream can be monitored from the whole application system.

Description

Data flow monitoring method and system

Technical Field

The present invention relates to the field of data monitoring technologies, and in particular, to a method and a system for monitoring a data stream.

Background

As the service environment becomes more and more complex, the complexity of various information systems increases, and the interaction of data streams in the application system becomes more frequent. The existing scheme is to monitor the data flow in the application system as follows: acquiring data stream information to be monitored in an application system, and writing the data stream information into a monitoring log; and reading the monitoring log, and generating and outputting alarm information when the data stream information in the monitoring log exceeds a preset alarm critical value so as to prompt related personnel to solve the problem.

The existing scheme is mainly used for monitoring the data stream based on the monitoring log, and a data stream monitoring dead angle exists in a module which does not start a log function, so that the data stream cannot be monitored from the whole application system.

Disclosure of Invention

In view of this, the present invention discloses a method and a system for monitoring a data stream, so as to realize that a log function does not need to be started when monitoring the data stream, and the data stream can be monitored from the whole application system.

A method of monitoring a data flow, comprising:

acquiring node information and connection information of a system to be monitored, wherein the connection information comprises: a link connection mode between each node in the system to be monitored and a link connection mode between the system to be monitored and an associated system of the system to be monitored;

constructing a system physical connection panoramic view according to the node information and the connection information;

in each link of the system physical connection panoramic image, respectively determining a monitoring index corresponding to each link connection mode according to different link connection modes between each node and different link connection modes between the system to be monitored and the associated system;

acquiring a monitoring index corresponding to each link connection mode;

and displaying the monitoring indexes of each link in the system physical connection panoramic image to realize the monitoring of the data flow of the link.

Optionally, the monitoring index includes: link connectivity status, data traffic, and link concurrency.

Optionally, before the obtaining of the node information and the connection information of the system to be monitored, the method further includes:

when the system to be monitored is initially on line, determining node information and connection information of the system to be monitored;

and storing the node information and the connection information of the system to be monitored to a preset target system management module.

Optionally, the obtaining of the monitoring index corresponding to each link connection mode specifically includes:

acquiring a link connection state and data traffic of a target link, wherein the target link refers to: the monitoring indexes of the link connection mode are as follows: the link communicates the state and the link of the data traffic.

Optionally, the displaying, in the system physical connection panorama, the monitoring index of each link to realize monitoring of the data stream of the link specifically includes:

and aiming at different link connection states and different data flows, displaying the target link in different modes in the system physical connection panoramic image.

A system for monitoring a data flow, comprising:

the system comprises a first obtaining unit, a second obtaining unit and a monitoring unit, wherein the first obtaining unit is used for obtaining node information and connection information of a system to be monitored, and the connection information comprises: a link connection mode between each node in the system to be monitored and a link connection mode between the system to be monitored and an associated system of the system to be monitored;

the construction unit is used for constructing a system physical connection panoramic image according to the node information and the connection information;

a first determining unit, configured to determine, in each link of the system physical connection panorama, a monitoring index corresponding to each link connection mode for different link connection modes between nodes and different link connection modes between the system to be monitored and the associated system, respectively;

the second acquisition unit is used for acquiring the monitoring index corresponding to each link connection mode;

and the display unit is used for displaying the monitoring indexes of all the links in the system physical connection panoramic image so as to realize the monitoring of the data flow of the links.

Optionally, the monitoring index includes: link connectivity status, data traffic, and link concurrency.

Optionally, the method further includes:

the second determining unit is used for determining the node information and the connection information of the system to be monitored when the system to be monitored is initially on line before the first acquiring unit acquires the node information and the connection information of the system to be monitored;

and the storage unit is used for storing the node information and the connection information of the system to be monitored to a preset target system management module.

Optionally, the second obtaining unit is specifically configured to:

acquiring a link connection state and data traffic of a target link, wherein the target link refers to: the monitoring indexes of the link connection mode are as follows: the link communicates the state and the link of the data traffic.

Optionally, the display unit is specifically configured to:

and aiming at different link connection states and different data flows, displaying the target link in different modes in the system physical connection panoramic image.

According to the technical scheme, the method and the system for monitoring the data stream, disclosed by the invention, construct a system physical connection panoramic image according to the acquired node information and connection information of the system to be monitored, wherein the connection information comprises: in each link of a system physical connection panoramic image, aiming at different link connection modes between each node and different link connection modes between the system to be monitored and the associated system, respectively determining a monitoring index corresponding to each link connection mode, and displaying the monitoring index of each link in the system physical connection panoramic image to realize the monitoring of the data flow of the link. Therefore, when the data stream is monitored, the log function is not required to be started, and because the system physical connection panoramic image is constructed according to the node information and the connection information of the system to be monitored and the monitoring of the data stream of the link is realized based on the monitoring index corresponding to each link connection mode in the system physical connection panoramic image, the data stream monitoring dead angle is avoided, and the data stream can be monitored from the whole application system.

Drawings

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

Fig. 1 is a flowchart of a method for monitoring data flow according to an embodiment of the present invention;

FIG. 2 is a perspective view of a system physical link according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a data flow monitoring system according to an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment of the invention discloses a method and a system for monitoring data streams, wherein a system physical connection panoramic picture is constructed according to acquired node information and connection information of a system to be monitored, and the connection information comprises the following steps: in each link of a system physical connection panoramic image, aiming at different link connection modes between each node and different link connection modes between the system to be monitored and the associated system, respectively determining a monitoring index corresponding to each link connection mode, and displaying the monitoring index of each link in the system physical connection panoramic image to realize the monitoring of the data flow of the link. Therefore, when the data stream is monitored, the log function is not required to be started, and because the system physical connection panoramic image is constructed according to the node information and the connection information of the system to be monitored and the monitoring of the data stream of the link is realized based on the monitoring index corresponding to each link connection mode in the system physical connection panoramic image, the data stream monitoring dead angle is avoided, and the data stream can be monitored from the whole application system.

Referring to fig. 1, a flowchart of a method for monitoring a data flow according to an embodiment of the present invention is disclosed, where the method includes the steps of:

s101, acquiring node information and connection information of a system to be monitored;

the node information of the system to be monitored refers to each node included in the system to be monitored, for example, the node information of the system a includes: node 1, node 2, …, node N, N being a positive integer.

The connection information of the system to be monitored comprises: the link connection mode between each node in the system to be monitored and the link connection mode between the system to be monitored and the associated system of the system to be monitored.

The common link connection methods include: SOCKET, MQ, CICS, FTP, and the like.

Specifically, SOCKET: socket, a protocol independent network programming interface, is used to accomplish data transfer between two applications.

MQ: message queue, a communication method of application program to application program.

CICS: the term "Customer Information control System" is used for Chinese interpretation: the customer information control system is a series of products for providing on-line transaction processing and transaction management for application.

FTP: the full name of File Transfer Protocol, Chinese explanation: file transfer protocol for bidirectional transfer of control files over the Internet.

The correlation system of the system to be monitored comprises: the system comprises an application system, a front-end system, a file system and the like, wherein the application system has an association relation with a system to be monitored.

In practical application, a link connection mode management module may be configured to store common link connection mode attribute information, including: connectivity attributes, traffic attributes, and concurrency attributes, among others.

Step S102, constructing a system physical connection panoramic view according to the node information and the connection information;

in practical application, the system physical connection panoramic image can be a panoramic viewable image.

Specifically, referring to fig. 2, a system physical connection panorama disclosed in an embodiment of the present invention includes: node 1 (gateway server), node 2 (first application server), node 3 (load balancing server) and node 4 (second application server), the connected mode between node 1 and node 2 is: MQ, the connection mode between the node 3 and the nodes 2 and 4 is as follows: SOCKET. The correlation system of the system to be monitored comprises: file system 11, head-end system 12 and head-end system 13, the connection mode between node 1 and head-end system 12 is: the MQ, the connection mode between the node 3 and the front-end system 13 is as follows: the SOCKET, the connection mode between the node 2 and the file system 11 is as follows: FTP.

Step S103, in each link of the system physical connection panoramic image, respectively determining a monitoring index corresponding to each link connection mode according to different link connection modes between each node and different link connection modes between the system to be monitored and the associated system;

it should be noted that the link for physically connecting the panorama by the system includes: links between nodes and links between the system to be monitored and the associated system.

It is understood that the link connection modes between different nodes may be the same or different, and similarly, the link connection modes between the system to be monitored and different associated systems may be the same or different. Wherein, the link connection mode is different, and corresponding control index is different, and control index includes: link connectivity status (link connection or not), data traffic (link congestion or not), link concurrency, etc. Therefore, the monitoring of the data flow of the link is realized through monitoring the monitoring index of the link.

The monitoring indexes corresponding to the same link connection mode are the same, such as: the link connection mode is as follows: MQ connection, the monitoring index can be: monitoring channel status, queue depth, etc. The link connection mode is as follows: the SOCKET connection, the monitoring index can be: monitoring port availability, port status, etc.

Step S104, acquiring a monitoring index corresponding to each link connection mode;

after the monitoring index corresponding to each link connection mode is determined, the monitoring index corresponding to each link connection mode can be obtained in real time, so that the data flow of the link corresponding to each link connection mode can be monitored conveniently.

And S105, displaying the monitoring indexes of each link in the system physical connection panoramic image to realize the monitoring of the data flow of the link.

To sum up, the method for monitoring data streams disclosed by the present invention constructs a system physical connection panorama according to the acquired node information and connection information of the system to be monitored, wherein the connection information includes: in each link of a system physical connection panoramic image, aiming at different link connection modes between each node and different link connection modes between the system to be monitored and the associated system, respectively determining a monitoring index corresponding to each link connection mode, and displaying the monitoring index of each link in the system physical connection panoramic image to realize the monitoring of the data flow of the link. Therefore, when the data stream is monitored, the log function is not required to be started, and because the system physical connection panoramic image is constructed according to the node information and the connection information of the system to be monitored and the monitoring of the data stream of the link is realized based on the monitoring index corresponding to each link connection mode in the system physical connection panoramic image, the data stream monitoring dead angle is avoided, and the data stream can be monitored from the whole application system.

In practical application, a target system management module may be configured to store node information and connection information of a system to be monitored. The node information and the connection information of the system to be monitored can be determined when the system to be monitored is initially established.

Therefore, to further optimize the above embodiment, before step S101, the method may further include the steps of:

when the system to be monitored is initially on line, determining node information and connection information of the system to be monitored;

and storing the node information and the connection information of the system to be monitored to a preset target system management module.

Therefore, step S101 in the above embodiment may specifically include:

and acquiring the node information and the connection information of the system to be monitored from a target system management module.

To further optimize the above embodiment, step S104 may specifically include:

acquiring a link connection state and data traffic of a target link, wherein the target link refers to: the monitoring indexes of the link connection mode are as follows: the link communicates the state and the link of the data traffic.

Correspondingly, step S105 may specifically include:

and aiming at different link connection states and different data flows, displaying the target link in different modes in the system physical connection panoramic image.

For example, when the target link is connected normally and the data traffic is normal, the target link may be displayed as green; when the target link is connected normally and the data flow is slightly congested, the target link is displayed to be yellow; when the target link is connected normally and data traffic is heavily congested, the target link is displayed in red; when the target link is disconnected or reconnected, the target link is displayed in gray, and so on.

By adopting different modes to display the target link, technicians can conveniently and quickly locate the link error point.

The method includes the steps of determining whether the data traffic of the target link is congested or not, comparing the acquired data traffic with a preset threshold, and determining whether the data traffic of the target link is congested or not based on a comparison result.

To sum up, the method for monitoring data streams disclosed by the present invention constructs a system physical connection panorama according to the acquired node information and connection information of the system to be monitored, wherein the connection information includes: in each link of a system physical connection panoramic image, aiming at different link connection modes between each node and different link connection modes between the system to be monitored and the associated system, respectively determining a monitoring index corresponding to each link connection mode, and displaying the monitoring index of each link in the system physical connection panoramic image to realize the monitoring of the data flow of the link. Therefore, when the data stream is monitored, the log function is not required to be started, and because the system physical connection panoramic image is constructed according to the node information and the connection information of the system to be monitored and the monitoring of the data stream of the link is realized based on the monitoring index corresponding to each link connection mode in the system physical connection panoramic image, the data stream monitoring dead angle is avoided, and the data stream can be monitored from the whole application system.

In addition, the invention adopts different modes to display the link in the system physical connection panoramic view aiming at different link connection states and different data flows, thereby being convenient for technical personnel to quickly position the link error point and providing the problem solving efficiency.

Corresponding to the embodiment of the method, the invention also discloses a monitoring system of the data stream.

Referring to fig. 3, a schematic structural diagram of a monitoring system for data flow according to an embodiment of the present invention is disclosed, where the system includes:

a first obtaining unit 201, configured to obtain node information and connection information of a system to be monitored;

the node information of the system to be monitored refers to each node included in the system to be monitored, for example, the node information of the system a includes: node 1, node 2, …, node N, N being a positive integer.

The connection information of the system to be monitored comprises: the link connection mode between each node in the system to be monitored and the link connection mode between the system to be monitored and the associated system of the system to be monitored.

The common link connection methods include: SOCKET, MQ, CICS, FTP, and the like.

Specifically, SOCKET: socket, a protocol independent network programming interface, is used to accomplish data transfer between two applications.

MQ: message queue, a communication method of application program to application program.

CICS: the custom Information Control System is named in full, and Chinese is interpreted as: the customer information control system is a series of products for providing on-line transaction processing and transaction management for application.

FTP: the full name of File Transfer Protocol, Chinese explanation: file transfer protocol for bidirectional transfer of control files over the Internet.

The correlation system of the system to be monitored comprises: the system comprises an application system, a front-end system, a file system and the like, wherein the application system has an association relation with a system to be monitored.

In practical application, a link connection mode management module may be configured to store common link connection mode attribute information, including: connectivity attributes, traffic attributes, and concurrency attributes, among others.

A constructing unit 202, configured to construct a system physical connection panorama according to the node information and the connection information;

in practical application, the system physical connection panoramic image can be a panoramic viewable image.

Specifically, referring to fig. 2, a system physical connection panorama disclosed in an embodiment of the present invention includes: node 1 (gateway server), node 2 (first application server), node 3 (load balancing server) and node 4 (second application server), the connected mode between node 1 and node 2 is: MQ, the connection mode between the node 3 and the nodes 2 and 4 is as follows: SOCKET. The correlation system of the system to be monitored comprises: file system 11, head-end system 12 and head-end system 13, the connection mode between node 1 and head-end system 12 is: the MQ, the connection mode between the node 3 and the front-end system 13 is as follows: the SOCKET, the connection mode between the node 2 and the file system 11 is as follows: FTP.

A first determining unit 203, configured to determine, in each link of the system physical connection panorama, a monitoring index corresponding to each link connection mode for different link connection modes between nodes and different link connection modes between the system to be monitored and the associated system;

it should be noted that the link for physically connecting the panorama by the system includes: links between nodes and links between the system to be monitored and the associated system.

It is understood that the link connection modes between different nodes may be the same or different, and similarly, the link connection modes between the system to be monitored and different associated systems may be the same or different. Wherein, the link connection mode is different, and corresponding control index is different, and control index includes: link connectivity status (link connection or not), data traffic (link congestion or not), link concurrency, etc. Therefore, the monitoring of the data flow of the link is realized through monitoring the monitoring index of the link.

The monitoring indexes corresponding to the same link connection mode are the same, such as: the link connection mode is as follows: MQ connection, the monitoring index can be: monitoring channel status, queue depth, etc. The link connection mode is as follows: the SOCKET connection, the monitoring index can be: monitoring port availability, port status, etc.

A second obtaining unit 204, configured to obtain a monitoring index corresponding to each link connection mode;

after the monitoring index corresponding to each link connection mode is determined, the monitoring index corresponding to each link connection mode can be obtained in real time, so that the data flow of the link corresponding to each link connection mode can be monitored conveniently.

And the display unit 205 is configured to display the monitoring index of each link in the system physical connection panorama, so as to monitor the data stream of the link.

To sum up, the monitoring system for data stream disclosed by the present invention constructs a system physical connection panorama according to the acquired node information and connection information of the system to be monitored, wherein the connection information includes: in each link of a system physical connection panoramic image, aiming at different link connection modes between each node and different link connection modes between the system to be monitored and the associated system, respectively determining a monitoring index corresponding to each link connection mode, and displaying the monitoring index of each link in the system physical connection panoramic image to realize the monitoring of the data flow of the link. Therefore, when the data stream is monitored, the log function is not required to be started, and because the system physical connection panoramic image is constructed according to the node information and the connection information of the system to be monitored and the monitoring of the data stream of the link is realized based on the monitoring index corresponding to each link connection mode in the system physical connection panoramic image, the data stream monitoring dead angle is avoided, and the data stream can be monitored from the whole application system.

In practical application, a target system management module may be configured to store node information and connection information of a system to be monitored. The node information and the connection information of the system to be monitored can be determined when the system to be monitored is initially established.

Therefore, to further optimize the above embodiment, the monitoring system may further include:

a second determining unit, configured to determine node information and connection information of the system to be monitored when the system to be monitored is initially online before the first obtaining unit 201 obtains the node information and connection information of the system to be monitored;

and the storage unit is used for storing the node information and the connection information of the system to be monitored to a preset target system management module.

Therefore, the first obtaining unit 201 in the above embodiment may specifically be configured to:

and acquiring the node information and the connection information of the system to be monitored from a target system management module.

To further optimize the above embodiment, the second obtaining unit 204 may specifically be configured to:

acquiring a link connection state and data traffic of a target link, wherein the target link refers to: the monitoring indexes of the link connection mode are as follows: the link communicates the state and the link of the data traffic.

Correspondingly, the display unit 205 may be specifically configured to:

and aiming at different link connection states and different data flows, displaying the target link in different modes in the system physical connection panoramic image.

For example, when the target link is connected normally and the data traffic is normal, the target link may be displayed as green; when the target link is connected normally and the data flow is slightly congested, the target link is displayed to be yellow; when the target link is connected normally and data traffic is heavily congested, the target link is displayed in red; when the target link is disconnected or reconnected, the target link is displayed in gray, and so on.

By adopting different modes to display the target link, technicians can conveniently and quickly locate the link error point.

The method includes the steps of determining whether the data traffic of the target link is congested or not, comparing the acquired data traffic with a preset threshold, and determining whether the data traffic of the target link is congested or not based on a comparison result.

To sum up, the monitoring system for data stream disclosed by the present invention constructs a system physical connection panorama according to the acquired node information and connection information of the system to be monitored, wherein the connection information includes: in each link of a system physical connection panoramic image, aiming at different link connection modes between each node and different link connection modes between the system to be monitored and the associated system, respectively determining a monitoring index corresponding to each link connection mode, and displaying the monitoring index of each link in the system physical connection panoramic image to realize the monitoring of the data flow of the link. Therefore, when the data stream is monitored, the log function is not required to be started, and because the system physical connection panoramic image is constructed according to the node information and the connection information of the system to be monitored and the monitoring of the data stream of the link is realized based on the monitoring index corresponding to each link connection mode in the system physical connection panoramic image, the data stream monitoring dead angle is avoided, and the data stream can be monitored from the whole application system.

In addition, the invention adopts different modes to display the link in the system physical connection panoramic view aiming at different link connection states and different data flows, thereby being convenient for technical personnel to quickly position the link error point and providing the problem solving efficiency.

Finally, it should also be noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (10)

1. A method for monitoring a data stream, comprising:

acquiring node information and connection information of a system to be monitored, wherein the connection information comprises: a link connection mode between each node in the system to be monitored and a link connection mode between the system to be monitored and an associated system of the system to be monitored;

constructing a system physical connection panoramic view according to the node information and the connection information;

in each link of the system physical connection panoramic image, respectively determining a monitoring index corresponding to each link connection mode according to different link connection modes between each node and different link connection modes between the system to be monitored and the associated system;

acquiring a monitoring index corresponding to each link connection mode;

and displaying the monitoring indexes of each link in the system physical connection panoramic image to realize the monitoring of the data flow of the link.

2. The monitoring method of claim 1, wherein the monitoring metrics comprise: link connectivity status, data traffic, and link concurrency.

3. The monitoring method according to claim 1, further comprising, before the obtaining node information and connection information of the system to be monitored:

when the system to be monitored is initially on line, determining node information and connection information of the system to be monitored;

and storing the node information and the connection information of the system to be monitored to a preset target system management module.

4. The monitoring method according to claim 1, wherein the obtaining of the monitoring index corresponding to each link connection mode specifically includes:

acquiring a link connection state and data traffic of a target link, wherein the target link refers to: the monitoring indexes of the link connection mode are as follows: the link communicates the state and the link of the data traffic.

5. The monitoring method according to claim 4, wherein the monitoring indexes of the links are displayed in the system physical connection panorama to realize monitoring of data streams of the links, and specifically includes:

and aiming at different link connection states and different data flows, displaying the target link in different modes in the system physical connection panoramic image.

6. A system for monitoring data flow, comprising:

the system comprises a first obtaining unit, a second obtaining unit and a monitoring unit, wherein the first obtaining unit is used for obtaining node information and connection information of a system to be monitored, and the connection information comprises: a link connection mode between each node in the system to be monitored and a link connection mode between the system to be monitored and an associated system of the system to be monitored;

the construction unit is used for constructing a system physical connection panoramic image according to the node information and the connection information;

a first determining unit, configured to determine, in each link of the system physical connection panorama, a monitoring index corresponding to each link connection mode for different link connection modes between nodes and different link connection modes between the system to be monitored and the associated system, respectively;

the second acquisition unit is used for acquiring the monitoring index corresponding to each link connection mode;

and the display unit is used for displaying the monitoring indexes of all the links in the system physical connection panoramic image so as to realize the monitoring of the data flow of the links.

7. The monitoring system of claim 6, wherein the monitoring metrics comprise: link connectivity status, data traffic, and link concurrency.

8. The monitoring system of claim 6, further comprising:

the second determining unit is used for determining the node information and the connection information of the system to be monitored when the system to be monitored is initially on line before the first acquiring unit acquires the node information and the connection information of the system to be monitored;

and the storage unit is used for storing the node information and the connection information of the system to be monitored to a preset target system management module.

9. The monitoring system of claim 6, wherein the second obtaining unit is specifically configured to:

acquiring a link connection state and data traffic of a target link, wherein the target link refers to: the monitoring indexes of the link connection mode are as follows: the link communicates the state and the link of the data traffic.

10. The monitoring system of claim 9, wherein the display unit is specifically configured to:

and aiming at different link connection states and different data flows, displaying the target link in different modes in the system physical connection panoramic image.

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