CN117528431B - Data monitoring method and device of communication platform and terminal equipment - Google Patents

Abstract

The invention discloses a data monitoring method, a device and terminal equipment of a communication platform, wherein the method comprises the following steps: acquiring message data issued by a user; when the execution of an execution method for processing the message data is detected, extracting data to be stored corresponding to a plurality of data types in a monitoring data table from the message data according to the monitoring data table corresponding to the execution method; storing the execution data in the execution process of the execution method and the data to be stored, and analyzing to obtain a monitoring result corresponding to the execution method. Compared with the prior art, the method and the device can extract the data in the message data in a targeted manner according to each data type in the configured monitoring data table, so that the targeted storage can be completed, and therefore, the targeted storage and targeted investigation of huge message data can be rapidly carried out, and the data query efficiency in the investigation process and the generation rate of the monitoring result are improved.

Description

Data monitoring method and device of communication platform and terminal equipment

Technical Field

The present invention relates to the field of data link monitoring technologies, and in particular, to a data monitoring method and apparatus for a communication platform, and a terminal device.

Background

In the communication platform system, short messages between users and operators are transmitted, links for message delivery are monitored through a data monitoring function, but message data are often required to be screened manually, problematic message data are checked according to requirements, or messages needing abnormal positioning are checked. However, the daily data volume of the current communication data is increased in hundred million-level units, so that the resource cost of the server is greatly increased due to the need of storing a large amount of monitoring data, and under the condition of huge data magnitude, the prior art cannot rapidly store and check huge message data in a targeted manner, so that query data are slow in the checking process, and the generation rate of the message data monitoring result of the communication platform is low.

Disclosure of Invention

The embodiment of the invention provides a data monitoring method, a data monitoring device and terminal equipment of a communication platform, which can effectively solve the problems that huge message data cannot be stored and checked in a targeted manner rapidly, so that query data are slow in the checking process, and the generation rate of a message data monitoring result of the communication platform is low in the prior art.

An embodiment of the present invention provides a data monitoring method for a communication platform, including:

Acquiring message data issued by a user; the message data corresponds to an execution method for processing the message data, the execution method corresponds to a configured monitoring data table, and the monitoring data table comprises a plurality of data types;

When the execution of the execution method is detected to be finished, extracting data to be stored corresponding to a plurality of data types from the message data according to a monitoring data table corresponding to the execution method;

storing execution data in the execution process of the execution method, and storing each piece of data to be stored;

and analyzing and obtaining a monitoring result corresponding to the execution method according to the stored data corresponding to the data types and the execution data corresponding to the execution method.

Preferably, the executing method includes: a data filtering method;

When the execution of the execution method is detected, extracting data to be stored corresponding to a plurality of data types from the message data according to a monitoring data table corresponding to the execution method, wherein the data to be stored comprises the following steps:

When the execution of the data filtering method is detected, acquiring first message data after the message data is filtered;

acquiring a monitoring data table corresponding to the data filtering method, and extracting data to be stored corresponding to a plurality of data types from the first message data when judging that each data type in the monitoring data table corresponds to the data type in the first message data;

and when the data types in the monitoring data table are not judged to correspond to the data types in the message data, data extraction is not carried out.

Preferably, the data filtering method includes: a data filtering method for filtering blacklist information;

The monitoring data table corresponding to the data filtering method comprises a message type, a user name and a user number for indicating a user identifier;

The extracting the data to be stored corresponding to a plurality of data types from the first message data includes:

and extracting the message type, the user name and the user number for indicating the user identification from the first message data as data to be stored.

Preferably, the executing method includes: a conversion method;

When the conversion method is detected to be executed, obtaining second message data after the message data are converted;

Acquiring a monitoring data table corresponding to the conversion method, and extracting data to be stored corresponding to a plurality of data types from the second message data when judging that each data type in the monitoring data table corresponds to the data type in the second message data;

And when the data types in the monitoring data table are not corresponding to the data types in the message data, data storage is not carried out.

Preferably, the conversion method includes: a port switching method;

the monitoring data table corresponding to the port switching method comprises the following steps: the original port type, the converted port type, the user name and the user number for indicating the user identification;

The extracting the data to be stored corresponding to a plurality of data types from the second message data comprises the following steps:

and extracting the original port type, the converted port type, the user name and the user number for indicating the user identifier from the second message data as data to be stored.

Preferably, the executing method includes: a data interception method;

The monitoring data table corresponding to the data interception method comprises the following steps: a number of different keywords;

When the execution of the execution method is detected, extracting data to be stored corresponding to a plurality of data types from the message data according to a monitoring data table corresponding to the execution method, wherein the data to be stored comprises the following steps:

When the execution of the data interception method is detected, acquiring third message data after the message data is intercepted by data;

acquiring a monitoring data table corresponding to the data interception method, and extracting data to be stored corresponding to the keywords from the third message data;

And when judging that all the keywords in the monitoring data table do not correspond to the message data, not storing the data.

Preferably, the configuration process of the monitoring data table includes:

Acquiring a source code of an execution method, and extracting all sample data types in the source code;

generating a visual interface comprising a data type selection area and a data type editing area; wherein the data type selection area comprises a plurality of sample data types corresponding to the source code;

generating each selected data type in a data type editing area in response to a sample data type selection operation of a user in the data type selection area;

And generating a monitoring data table containing a plurality of data types according to the selected data types, and mapping and binding the monitoring data table with the execution method.

Preferably, the monitoring result corresponding to the execution method includes: the time-consuming analysis result is used for representing the corresponding time-consuming analysis result in the link execution process of the message data;

Or, include: analysis results for representing corresponding abnormal transmission or abnormal reception in the link execution process of the message data;

Or, include: and the node anomaly analysis result is used for representing the corresponding node anomaly analysis result in the link execution process of the message data.

On the basis of the method embodiment, the invention correspondingly provides the device item embodiment.

An embodiment of the present invention provides a data monitoring device of a communication platform, including: the system comprises a data acquisition module, a data extraction module, a data storage module and a monitoring result generation module;

The data acquisition module is used for acquiring message data issued by a user; the message data corresponds to an execution method for processing the message data, the execution method corresponds to a configured monitoring data table, and the monitoring data table comprises a plurality of data types;

The data extraction module is used for extracting data to be stored corresponding to a plurality of data types from the message data according to a monitoring data table corresponding to the execution method when the execution of the execution method is detected;

The data storage module is used for storing the execution data in the execution process of the execution method and storing each piece of data to be stored;

The monitoring result generation module is used for analyzing and obtaining a monitoring result corresponding to the execution method according to stored data corresponding to a plurality of data types and the execution data corresponding to the execution method.

Based on the method embodiment, the invention correspondingly provides the terminal equipment item embodiment.

Another embodiment of the present invention provides a terminal device, including a processor, a memory, and a computer program stored in the memory and configured to be executed by the processor, where the processor executes the computer program to implement a data monitoring method of a communication platform according to the embodiment of the present invention.

The invention has the following beneficial effects:

The embodiment of the invention provides a data monitoring method, a device and terminal equipment of a communication platform, wherein the method comprises the following steps: acquiring message data issued by a user; the message data corresponds to an execution method for processing the message data, the execution method corresponds to a configured monitoring data table, and the monitoring data table comprises a plurality of data types; when the execution of the execution method is detected to be finished, extracting data to be stored corresponding to a plurality of data types from the message data according to a monitoring data table corresponding to the execution method; storing execution data in the execution process of the execution method, and storing each piece of data to be stored; and analyzing and obtaining a monitoring result corresponding to the execution method according to the stored data corresponding to the data types and the execution data corresponding to the execution method. Compared with the prior art, the method and the device can monitor message data issued by a user and the execution processing process of the message data, and can pertinently extract the data in the message data according to each data type in the configured monitoring data table after the execution of the execution method is detected, so that the pertinence storage can be finished, and the huge message data can be directly examined and examined according to the configured requirements without storing all monitoring data in a large amount and examining one by one.

Drawings

Fig. 1 is a flow chart of a data monitoring method of a communication platform according to an embodiment of the present invention.

Fig. 2 is a schematic diagram of data interception and monitoring related to a message platform according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of data interception by a custom interceptor according to an embodiment of the present invention.

Fig. 4 is a schematic diagram of a configuration item of a monitoring data table according to an embodiment of the present invention.

Fig. 5 is a schematic structural diagram of a data monitoring device of a communication platform according to an embodiment of the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Fig. 1 is a schematic flow chart of a data monitoring method of a communication platform according to an embodiment of the present invention, where the data monitoring method includes:

Step S1: acquiring message data issued by a user; the message data corresponds to an execution method for processing the message data, the execution method corresponds to a configured monitoring data table, and the monitoring data table comprises a plurality of data types;

Step S2: when the execution of the execution method is detected to be finished, extracting data to be stored corresponding to a plurality of data types from the message data according to a monitoring data table corresponding to the execution method;

step S3: storing execution data in the execution process of the execution method, and storing each piece of data to be stored;

step S4: and analyzing and obtaining a monitoring result corresponding to the execution method according to the stored data corresponding to the data types and the execution data corresponding to the execution method.

For step S1, in a preferred embodiment, when obtaining a message data sent by a user in a short message platform, the execution process of monitoring the message data starts, as shown in fig. 2, and before the user sends the message to an operator, the message is filtered or converted by different service methods and then sent to the operator;

The invention can realize the self-defined monitoring based on skywalking self-defined link monitoring method, as shown in figure 3, the self-defined plug-in can be written to monitor the short message of the short message platform; the implementation mode is realized in a custom plug-in without modifying project codes, and only the plug-in is integrated into skywalking. The custom plug-in relies on a module to be monitored of the short message platform, and based on a byte code technology ByteBuddy and an AOP custom method section, short message data transmission is tracked; when the self-defined configuration of the short message platform is obtained in the interceptor, a specific monitoring method can be configured in the optional plugin SKYWALKINGAGENT, and a monitoring interception point is set in the interceptor according to the self-defined configuration.

The invention only needs to configure the monitoring data table corresponding to each execution method in advance, and configures the data types which are required to be monitored in the monitoring data table, so that the follow-up plug-in based on skywalking can monitor message data and execution methods issued by users and store the required data.

Specifically, the configuration process of the monitoring data table includes:

Acquiring a source code of an execution method, and extracting all sample data types in the source code;

generating a visual interface comprising a data type selection area and a data type editing area; wherein the data type selection area comprises a plurality of sample data types corresponding to the source code;

generating each selected data type in the data type editing area in response to a sample data type selection operation of a user in the data type selection area, wherein the configuration items of the monitoring data table are shown in fig. 4; it should be noted that, after the communication data flows into the sms platform system, the program may monitor specific data of the communication, such as the area, the blacklist data, the keyword data, the port switching data, etc., according to the configuration of the user, and may select the specific data according to the actual service scenario requirement, where the required monitoring data may be configured in the monitoring configuration of skywalking.

And generating a monitoring data table containing a plurality of data types according to the selected data types, and mapping and binding the monitoring data table with the execution method.

The invention can monitor the execution methods of various services and extract the data to be monitored, and the data types or keywords can be configured by the user to meet the demands of the user, so that the accurate data can be stored and analyzed to meet the requirements of more rapid and accurate generation of the data monitoring result.

Each message data corresponds to a plurality of executing methods for processing the message data, such as a service A executing method, a service B executing method and a service C executing method;

Specifically, the service a executing method may be a data filtering method: filtering the short message with the blacklist number configured in the short message platform system, skywalking monitoring the number data;

The service B execution method may be a data interception method: intercepting a short message with illegal keywords configured in a short message platform system, skywalking monitoring content data;

the service C execution method may be a port switching method: the short message platform system configures the conversion relation between the regional channel and the port, carries out channel port conversion on the short message meeting the requirements, and skywalking monitors the change of the channel port.

For step S2, in a preferred embodiment, the user issues a short message to the communication system, the short message is issued to the operator after passing through a service chain, different services in the service chain may perform filtering or data conversion operations on the short message according to the configuration of the short message platform system, and skywalking is mainly responsible for monitoring the scenarios such as data filtering interception and data conversion occurring in the whole short message issuing process, and finally sending data to the operator.

Skywalking is mainly responsible for monitoring the whole issuing process of the short message, and when the execution of the execution method is detected to be finished, extracting data to be stored corresponding to a plurality of data types from message data according to a configured monitoring data table;

When the execution of the data filtering method is detected, acquiring first message data after the message data is filtered;

Acquiring a monitoring data table corresponding to the data filtering method, and extracting data to be stored corresponding to a plurality of data types from the first message data when judging that each data type in the monitoring data table corresponds to the data type in the first message data; the data filtering method may be a data filtering method for filtering blacklist information; the monitoring data table corresponding to the data filtering method comprises a message type, a user name and a user number for indicating user identification;

Extracting a message type, a user name and a user number for indicating a user identifier from the first message data as data to be stored; and when the data types in the monitoring data table are not judged to correspond to the data types in the message data, data extraction is not carried out.

Specifically, a self-defined plug-in interceptor can be realized based on ByteBuddy technology, and can perform method enhancement before and after the invoking of the short message filtering method of the blacklist number in the service A, and monitoring operations such as short message number storage, link time consumption analysis and the like are added in the enhancement method.

In a preferred embodiment, when it is detected that the conversion method is performed, obtaining second message data after the message data is converted;

Acquiring a monitoring data table corresponding to the conversion method, and extracting data to be stored corresponding to a plurality of data types from the second message data when judging that each data type in the monitoring data table corresponds to the data type in the second message data;

And when the data types in the monitoring data table are not corresponding to the data types in the message data, data storage is not carried out.

In a preferred embodiment, the conversion method is: a port switching method; the monitoring data table corresponding to the port switching method comprises the following steps: the original port type, the converted port type, the user name and the user number for indicating the user identification;

Extracting data to be stored corresponding to a plurality of data types from the second message data, specifically:

Data extracted from the second message data, including but not limited to: the original port type, the converted port type, the user name and the user number for indicating the user identification are used as data to be stored.

In a preferred embodiment, the execution method comprises: a data interception method; the monitoring data table corresponding to the data interception method comprises the following steps: a number of different keywords;

When the execution of the execution method is detected, extracting data to be stored corresponding to a plurality of data types from the message data according to a monitoring data table corresponding to the execution method, wherein the data to be stored comprises the following steps:

When the execution of the data interception method is detected, acquiring third message data after the message data is intercepted by data;

acquiring a monitoring data table corresponding to the data interception method, and extracting data to be stored corresponding to the keywords from the third message data;

And when judging that all the keywords in the monitoring data table do not correspond to the message data, not storing the data.

The interception data of the invention is optional, if the user message is filtered by the blacklist number of the service A, the blacklist data of the number can be monitored, if the user message is intercepted by the illegal keyword of the service B, the content data of the short message and the keyword data triggering the illegal keyword can be monitored, if the user message is switched by the area priority port of the service C, the original port data, the area data, the port data after the port switching and the like can be monitored, and the data can be stored or analyzed by skywalking to obtain the actual monitoring result.

The embodiment of the invention can realize the message data issued by the monitoring user and the execution processing process of the message data, and after the execution of the execution method is detected, the data in the message data can be extracted pertinently according to each data type in the configured monitoring data table, so that the pertinence storage can be finished, and the huge message data can be examined pertinently directly according to the configured requirement without storing a large amount of all monitoring data for one-to-one examination.

For step S3 and step S4, in a preferred embodiment, the present invention stores the execution data in the execution process of the execution method and stores each data to be stored after extracting the required data;

the monitoring result corresponding to the execution method can be obtained through analysis according to the stored data corresponding to the data types and the execution data corresponding to the execution method;

specifically, the execution data corresponding to the execution method may be time-consuming data of each node corresponding to the link execution process in the process of sending and receiving the data packet of each node in the process of processing the message data, or a data result of whether the node is abnormal or not.

Specifically, the monitoring result corresponding to the execution method includes: the time-consuming analysis result is used for representing the corresponding time-consuming analysis result in the link execution process of the message data;

Or, include: analysis results for representing corresponding abnormal transmission or abnormal reception in the link execution process of the message data;

Or, include: and the node anomaly analysis result is used for representing the corresponding node anomaly analysis result in the link execution process of the message data.

The monitoring method can self-define configuration data, and a developer can log in skywalking page systems to check the monitoring data by himself, so that the situation that understanding errors are generated by interaction of different departments is reduced.

The invention can also reduce the resource cost of the server, can greatly reduce the monitoring data to be stored according to the custom configuration monitoring, taking users as an example, thousands of users on line, if only the users with problems send short messages to carry out link monitoring, the storage data is less than one thousandth of the total data storage, and the storage resource cost is reduced by more than 1000%.

The invention can also improve the slow problem of the query data, reduce the complicated data interference problem for investigation, can extract the data in the message data according to each data type in the configured monitoring data table, improve the data query efficiency in the investigation process, and can also realize the rapid analysis of the data by rapidly extracting the data so as to obtain the monitoring result, and improve the generation rate of the message data monitoring result of the communication platform.

As shown in fig. 5, on the basis of the embodiments of the data monitoring methods of the various communication platforms, the invention correspondingly provides an embodiment of a device item;

An embodiment of the present invention provides a data monitoring device of a communication platform, including: the system comprises a data acquisition module, a data extraction module, a data storage module and a monitoring result generation module;

The data acquisition module is used for acquiring message data issued by a user; the message data corresponds to an execution method for processing the message data, the execution method corresponds to a configured monitoring data table, and the monitoring data table comprises a plurality of data types;

The data extraction module is used for extracting data to be stored corresponding to a plurality of data types from the message data according to a monitoring data table corresponding to the execution method when the execution of the execution method is detected;

The data storage module is used for storing the execution data in the execution process of the execution method and storing each piece of data to be stored;

The monitoring result generation module is used for analyzing and obtaining a monitoring result corresponding to the execution method according to stored data corresponding to a plurality of data types and the execution data corresponding to the execution method.

It should be noted that the apparatus embodiments described above are merely illustrative, and the modules described as separate components may or may not be physically separate, and components shown as modules may or may not be physical modules, may be located in one place, or may be distributed over multiple network modules. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. In addition, in the drawings of the embodiment of the device provided by the invention, the connection relation between the modules represents that the modules have communication connection, and can be specifically implemented as one or more communication buses or signal lines. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

It will be clearly understood by those skilled in the art that, for convenience and brevity, the specific working process of the apparatus described above may refer to the corresponding process in the foregoing method embodiment, which is not described herein again.

Based on the embodiments of the data monitoring methods of the various communication platforms, the invention correspondingly provides the embodiments of the terminal equipment item.

An embodiment of the present invention provides a terminal device, including a processor, a memory, and a computer program stored in the memory and configured to be executed by the processor, where the processor implements a data monitoring method of a communication platform according to any one of the embodiments of the present invention when the processor executes the computer program.

The terminal equipment can be computing terminal equipment such as a desktop computer, a notebook computer, a palm computer, a cloud server and the like. The terminal device may include, but is not limited to, a processor, a memory.

The Processor may be a central processing unit (Central Processing Unit, CPU), other general purpose Processor, digital signal Processor (DIGITAL SIGNAL Processor, DSP), application SPECIFIC INTEGRATED Circuit (ASIC), off-the-shelf Programmable gate array (Field-Programmable GATE ARRAY, FPGA) or other Programmable logic device, discrete gate or transistor logic device, discrete hardware components, or the like. The general purpose processor may be a microprocessor or the processor may be any conventional processor or the like, which is a control center of the terminal device, and which connects various parts of the entire terminal device using various interfaces and lines.

The memory may be used to store the computer program, and the processor may implement various functions of the terminal device by running or executing the computer program stored in the memory and invoking data stored in the memory. The memory 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, and the like; the storage data area may store data created according to the use of the cellular phone, etc. In addition, the memory may include high-speed random access memory, and may also include non-volatile memory, such as a hard disk, memory, plug-in hard disk, smart memory card (SMART MEDIA CARD, SMC), secure Digital (SD) card, flash memory card (FLASH CARD), at least one disk storage device, flash memory device, or other volatile solid-state storage device.

While the foregoing is directed to the preferred embodiments of the present invention, it will be appreciated by those skilled in the art that changes and modifications may be made without departing from the principles of the invention, such changes and modifications are also intended to be within the scope of the invention.

Claims (8)

1. A method for monitoring data of a communication platform, comprising:

Acquiring message data issued by a user; the message data corresponds to an execution method for processing the message data, the execution method corresponds to a configured monitoring data table, and the monitoring data table comprises a plurality of data types;

When the execution of the execution method is detected to be finished, extracting data to be stored corresponding to a plurality of data types from the message data according to a monitoring data table corresponding to the execution method;

storing execution data in the execution process of the execution method, and storing each piece of data to be stored;

Analyzing and obtaining a monitoring result corresponding to the execution method according to stored data corresponding to a plurality of data types and the execution data corresponding to the execution method; the monitoring result corresponding to the execution method comprises the following steps: the time-consuming analysis result is used for representing the corresponding time-consuming analysis result in the link execution process of the message data; or, include: analysis results for representing corresponding abnormal transmission or abnormal reception in the link execution process of the message data; or, include: the node anomaly analysis result is used for representing the corresponding node anomaly analysis result in the link execution process of the message data;

the configuration process of the monitoring data table comprises the following steps:

Acquiring a source code of an execution method, and extracting all sample data types in the source code;

generating a visual interface comprising a data type selection area and a data type editing area; wherein the data type selection area comprises a plurality of sample data types corresponding to the source code;

generating each selected data type in a data type editing area in response to a sample data type selection operation of a user in the data type selection area;

And generating a monitoring data table containing a plurality of data types according to the selected data types, and mapping and binding the monitoring data table with the execution method.

2. The method for monitoring data of a communication platform according to claim 1, wherein the performing method comprises: a data filtering method;

When the execution of the execution method is detected, extracting data to be stored corresponding to a plurality of data types from the message data according to a monitoring data table corresponding to the execution method, wherein the data to be stored comprises the following steps:

When the execution of the data filtering method is detected, acquiring first message data after the message data is filtered;

acquiring a monitoring data table corresponding to the data filtering method, and extracting data to be stored corresponding to a plurality of data types from the first message data when judging that each data type in the monitoring data table corresponds to the data type in the first message data;

and when the data types in the monitoring data table are not judged to correspond to the data types in the message data, data extraction is not carried out.

3. The method for monitoring data of a communication platform according to claim 2, wherein the data filtering method comprises: a data filtering method for filtering blacklist information;

The monitoring data table corresponding to the data filtering method comprises the following steps: message type, user name and user number for indicating user identification;

The extracting the data to be stored corresponding to a plurality of data types from the first message data includes:

and extracting the message type, the user name and the user number for indicating the user identification from the first message data as data to be stored.

4. The method for monitoring data of a communication platform according to claim 1, wherein the performing method comprises: a conversion method;

When the conversion method is detected to be executed, obtaining second message data after the message data are converted;

Acquiring a monitoring data table corresponding to the conversion method, and extracting data to be stored corresponding to a plurality of data types from the second message data when judging that each data type in the monitoring data table corresponds to the data type in the second message data;

And when the data types in the monitoring data table are not corresponding to the data types in the message data, data storage is not carried out.

5. The method for monitoring data of a communication platform according to claim 4, wherein the converting method comprises: a port switching method;

the monitoring data table corresponding to the port switching method comprises the following steps: the original port type, the converted port type, the user name and the user number for indicating the user identification;

The extracting the data to be stored corresponding to a plurality of data types from the second message data comprises the following steps:

and extracting the original port type, the converted port type, the user name and the user number for indicating the user identifier from the second message data as data to be stored.

6. The method for monitoring data of a communication platform according to claim 1, wherein the performing method comprises: a data interception method;

The monitoring data table corresponding to the data interception method comprises the following steps: a number of different keywords;

When the execution of the execution method is detected, extracting data to be stored corresponding to a plurality of data types from the message data according to a monitoring data table corresponding to the execution method, wherein the data to be stored comprises the following steps:

When the execution of the data interception method is detected, acquiring third message data after the message data is intercepted by data;

acquiring a monitoring data table corresponding to the data interception method, and extracting data to be stored corresponding to the keywords from the third message data;

And when judging that all the keywords in the monitoring data table do not correspond to the message data, not storing the data.

7. A data monitoring device for a communication platform, comprising: the system comprises a data acquisition module, a data extraction module, a data storage module and a monitoring result generation module;

The data acquisition module is used for acquiring message data issued by a user; the message data corresponds to an execution method for processing the message data, the execution method corresponds to a configured monitoring data table, and the monitoring data table comprises a plurality of data types;

The data extraction module is used for extracting data to be stored corresponding to a plurality of data types from the message data according to a monitoring data table corresponding to the execution method when the execution of the execution method is detected;

The data storage module is used for storing the execution data in the execution process of the execution method and storing each piece of data to be stored;

The monitoring result generation module is used for analyzing and obtaining a monitoring result corresponding to the execution method according to stored data corresponding to a plurality of data types and the execution data corresponding to the execution method; the monitoring result corresponding to the execution method comprises the following steps: the time-consuming analysis result is used for representing the corresponding time-consuming analysis result in the link execution process of the message data; or, include: analysis results for representing corresponding abnormal transmission or abnormal reception in the link execution process of the message data; or, include: the node anomaly analysis result is used for representing the corresponding node anomaly analysis result in the link execution process of the message data;

the configuration process of the monitoring data table comprises the following steps:

Acquiring a source code of an execution method, and extracting all sample data types in the source code;

generating a visual interface comprising a data type selection area and a data type editing area; wherein the data type selection area comprises a plurality of sample data types corresponding to the source code;

generating each selected data type in a data type editing area in response to a sample data type selection operation of a user in the data type selection area;

And generating a monitoring data table containing a plurality of data types according to the selected data types, and mapping and binding the monitoring data table with the execution method.

8. A terminal device comprising a processor, a memory and a computer program stored in the memory and configured to be executed by the processor, the processor implementing a data monitoring method of a communication platform according to any one of claims 1 to 6 when the computer program is executed.