CN115589577B

CN115589577B - Communication service access management method and device, electronic equipment and storage medium

Info

Publication number: CN115589577B
Application number: CN202211587191.7A
Authority: CN
Inventors: 钱亮; 梁光明; 夏继存
Original assignee: Ronghe Communication Technology Tianjin Co ltd
Current assignee: Ronghe Communication Technology Tianjin Co ltd
Priority date: 2022-12-12
Filing date: 2022-12-12
Publication date: 2023-03-31
Anticipated expiration: 2042-12-12
Also published as: CN115589577A

Abstract

The application relates to a communication service access management method, a communication service access management device, electronic equipment and a storage medium. And receiving a short message sending request and carrying out safety verification on the short message sending request. If the safety check is passed, calling data corresponding to the authentication check in the preset database, and performing the authentication check on the short message sending request. And if the authentication check is passed, determining the service corresponding to the short message sending request according to the short message sending request. And then determining the service type corresponding to the service, and sending the service to the corresponding distribution equipment according to the service type. And the command distribution equipment distributes the service to the corresponding self-built application for processing so as to obtain a short message sending result corresponding to the short message sending request.

Description

Communication service access management method and device, electronic equipment and storage medium

Technical Field

The present application relates to the field of communications technologies, and in particular, to a method and an apparatus for managing access to a communication service, an electronic device, and a storage medium.

Background

With the development of science and technology, enterprises can provide related business services for customers through telephone, short messages and the like. Communication service systems for performing communication information transmission processes have been developed. As a communication service system, it is required to be available anytime and anywhere, and therefore, the communication service system generally needs to ensure that the system is not down all day long.

At present, in the service entrance load of the communication service system, the distribution equipment is often used to complete the distribution of the service, which can ensure that the service is provided with high performance and the load requirement of the communication service system is satisfied. Because the service types required by the clients are various, distribution equipment in most communication service systems needs to be uniformly configured, and normal processing can be guaranteed no matter what service types are faced. However, as time goes on, the data volume of the service to be processed by the communication service system is increasing, and the resources occupied by the back-end configuration of the distribution equipment are gradually increasing. Therefore, the time for processing the service by the communication service system is gradually prolonged, the running speed of the CPU carrying the communication service system is gradually reduced, and the service efficiency is further reduced.

Disclosure of Invention

The application provides a communication service access management method, a communication service access management device, electronic equipment and a storage medium.

In a first aspect, the present application provides a communication service access management method, including:

receiving a short message sending request and carrying out security verification on the short message sending request;

if the safety check is passed, calling data corresponding to the authentication check in a preset database, and performing authentication check on the short message sending request;

if the authentication check is passed, determining a service corresponding to the short message sending request according to the short message sending request;

determining a service type corresponding to the service, and sending the service to corresponding distribution equipment according to the service type;

and commanding the distribution equipment to distribute the service request to a corresponding self-built application for processing so as to obtain a short message sending result corresponding to the short message sending request.

In the embodiment, the received short message sending request is subjected to security check, and after the security check is passed, the authentication check is performed on the short message sending request, so that whether the current short message sending request has the authority to continue the subsequent access is judged, and the resource occupation caused by the request without the authority is avoided. And determining the corresponding service and the service type after the authentication check is passed, and sending the service and the service type to the corresponding distribution equipment according to the service type. Compared with the prior art that authentication check and service distribution are carried out in distribution equipment, the distribution equipment corresponds to respective service types, does not need to carry out configuration of all types to correspond to various service types, and does not need to store related data for authentication check. The resources occupied by the distribution equipment during the configuration at the back end are reduced, and even in the case that a large number of short message sending requests need to be sent in parallel, the service efficiency is not reduced because too much data need to be configured.

Optionally, if the security check passes, invoking data corresponding to the authentication check in a preset database, and performing authentication check on the short message sending request, including:

if the safety check is passed, sending the short message sending request to service detection equipment, and calling data corresponding to the authentication check to carry out the authentication check;

the method further comprises the following steps:

commanding the service detection equipment to detect the state of the distribution equipment and receiving a corresponding detection result;

determining currently available distribution equipment according to the detection result;

determining a service type corresponding to the service, and sending the service to the corresponding current available distribution equipment according to the service type;

and commanding the current available distribution equipment to distribute the service to the corresponding self-built application for processing so as to obtain a short message sending result corresponding to the short message sending request.

An authentication check may be performed in the service detection device while available distribution devices may be detected. And sending the short message sending request to the service detection equipment, wherein the service detection equipment does not need to store the information required for authentication verification in advance, and only needs to call the required information in the database. And resources occupied by background configuration of the service detection equipment are reduced. In addition, after the short message sending request is received, authentication check is carried out firstly, and then follow-up processing is carried out, so that the occupation of the short message sending request without permission on resources can be avoided, the processing time of the service system on the service with permission is reduced, and the service efficiency is ensured. Meanwhile, the current available distribution equipment is detected, and then the short message sending request is sent subsequently and correspondingly, so that the problem that the service efficiency is reduced because the short message is sent to the failed distribution equipment to influence the processing process is avoided.

Optionally, the method further includes:

instructing the service detection equipment to judge whether the short message sending request is distributed or not and receiving a corresponding judgment result;

and if the judgment result is that the short message is distributed, releasing the interface occupied by the short message sending request.

The service detection device detects the distribution condition of the short message sending request, and if the same short message sending request is distributed, the distribution device occupied by the short message sending request is released. The method avoids the occupation of self-built application resources caused by repeated processing of the same short message sending request.

Optionally, if the security check passes, sending the short message sending request to service detection equipment for authentication check, and invoking data corresponding to the authentication check to perform the authentication check, where the method includes:

if the short message sending request passes the safety check, sending the short message sending request to service detection equipment;

instructing the service detection device to analyze the short message sending request to determine corresponding request information;

and receiving the request information, and judging whether the request information is contained in the preset database or not so as to carry out authentication check.

And extracting information used in authentication verification, namely request information, from the short message sending request. The service detection equipment calls the request information in the preset database to perform authentication verification, so that resources of the service detection equipment occupied by a large amount of called information are reduced, and the efficiency of service is improved.

Optionally, the request information includes user information corresponding to the request information; the preset database comprises a plurality of user information; the receiving the request information and judging whether the request information is contained in a preset database or not to carry out authentication verification comprises the following steps:

receiving the request information, and calling a plurality of user information in the preset database;

comparing the user information corresponding to the request information with a plurality of user information in the preset database to obtain a comparison result;

if the comparison result shows that the user information corresponding to the request information is consistent with the user information in the preset database, the request information is contained in the preset database to determine that the authentication check is passed;

and if the comparison result shows that the user information corresponding to the request information is inconsistent with the user information in the preset database, the authentication check is not passed.

The database provides reliable and detailed data information for the authentication and verification process, so that the authentication and verification result is more reliable. Meanwhile, when authentication verification is carried out, user information in the request information only needs to be extracted from the database, and all the request information does not need to be extracted, so that the efficiency of authentication verification is improved.

Optionally, the method further includes:

judging whether the processing process of the service in the self-built application is terminated or not;

if so, acquiring the termination time and the current time of the processing process;

determining a waiting time according to the termination time and the current time of the processing process;

comparing the waiting time with a preset waiting time;

and if the waiting time length is longer than the preset waiting time length and the self-built application corresponding to the service is in an occupied state, releasing the self-built application occupied by the service.

And if the waiting time reaches the preset waiting time, the self-built application corresponding to the service can be closed in time, the completed service is prevented from occupying the resources of the self-built application, and the service efficiency is ensured.

Optionally, the method further includes:

determining preset processing time corresponding to the service according to the service type;

detecting whether the processing process corresponding to the service is terminated;

judging whether the processing time of the service is less than the preset processing time or not;

and if the processing time of the service is shorter than the preset processing time and the processing process is terminated, acquiring and storing a processing process corresponding to the service when the processing process is terminated.

And determining the preset processing time of the service corresponding to the short message sending request, and if the processing time of the service does not reach the preset processing time, saving the corresponding processing process. After the service corresponding to the short message sending request is abnormally closed, the service can be continuously processed following the process of the abnormal closing pretreatment, so that the time of repeated processing is reduced, and the service efficiency is improved.

In a second aspect, the present application provides a communication service access management device, including:

the safety verification module is used for receiving a short message sending request and carrying out safety verification on the short message sending request;

the authentication checking module is used for calling data corresponding to authentication checking in a preset database and carrying out authentication checking on the short message sending request when the safety checking is passed;

the service determining module is used for determining the service corresponding to the short message sending request according to the short message sending request when the authentication check is passed;

a service type sending module, configured to determine a service type corresponding to the service, and send the service to a corresponding distribution device according to the service type;

and the service distribution module is used for commanding the distribution equipment to send the service request to the corresponding self-built application for processing so as to obtain a short message sending result corresponding to the short message sending request.

Optionally, the authentication checking module is specifically configured to:

if the safety verification is passed, sending the short message sending request to service detection equipment, and calling data corresponding to the authentication verification to carry out the authentication verification;

the communication service access management device further includes a state detection module, which is specifically configured to:

and commanding the currently available distribution equipment to distribute the service to the corresponding self-built application for processing so as to obtain a short message sending result corresponding to the short message sending request.

Optionally, the communication service access management apparatus further includes a distribution determining module, configured to:

and if the judgment result is that the short message is distributed, releasing an interface occupied by the short message sending request.

Optionally, the authentication checking module is specifically configured to:

Optionally, the request information includes user information corresponding to the request information; the preset database comprises a plurality of user information; the authentication check module is specifically configured to:

Optionally, the communication service access management apparatus further includes a waiting duration determining module, configured to:

comparing the waiting time with a preset waiting time;

and if the waiting time is longer than the preset waiting time and the self-built application corresponding to the service is in an occupied state, releasing the self-built application occupied by the service.

Optionally, the communication service access management apparatus further includes a processing procedure saving module, configured to:

In a third aspect, the present application provides an electronic device, comprising: a memory and a processor, the memory having stored thereon a computer program which is loadable by the processor and which is capable of performing the method of the first aspect.

In a fourth aspect, the present application provides a computer readable storage medium storing a computer program capable of being loaded by a processor and performing the method of the first aspect.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present application, and those skilled in the art can obtain other drawings without inventive labor.

Fig. 1 is a schematic view of an application scenario provided in an embodiment of the present application;

fig. 2 is a flowchart of a communication service access management method according to an embodiment of the present application;

fig. 3 is a block diagram of a communication service system according to an embodiment of the present application;

fig. 4 is a flowchart of a communication service access method according to an embodiment of the present application;

fig. 5 is a schematic structural diagram of a communication service access management apparatus according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of an electronic device according to an embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application. It is to be understood that the embodiments described are only a few embodiments of the present application and not all 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 application.

In addition, the term "and/or" herein is only one kind of association relationship describing an associated object, and means that there may be three kinds of relationships, for example, a and/or B, which may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" herein generally indicates that the former and latter related objects are in an "or" relationship, unless otherwise specified.

The embodiments of the present application will be described in further detail with reference to the drawings attached hereto.

At present, keepAlived and Nginx are often adopted to complete service distribution in service entrance load of a communication service system. After receiving a short message sending request of a client, the communication service system firstly carries out security verification, and sends the short message sending request to the KeepAlived after the verification is correct, and the KeepAlived detects the service state of the Nginx in the system. If Nginx fails, the Nginx can be removed in time, the received short message sending request is sent to the normally working Nginx randomly, and the Nginx sends the short message sending request to the self-built application for processing. And before the self-built application processes the short message sending request, authentication verification is carried out to identify whether the short message sending request has the authority to be processed. At this time, no matter whether the short message sending request has the authority, the self-built application is already occupied, if the short message sending request encounters flood attack, a large number of self-built applications in the communication service system can be maliciously occupied, and even the resource of the whole communication service system is exhausted. Meanwhile, after receiving the short message sending request, the communication service system directly transmits the short message sending request to the Nginx without processing, so that each Nginx needs to carry out a large amount of background configuration, and the Nginx can process corresponding services no matter what type of the received short message sending request is. As time goes on, the Nginx needs to perform more and more configurations, so that the time for processing the service by the communication service system is gradually prolonged, the running speed of the CPU that bears the communication service system is gradually slowed down, and further the service efficiency is reduced.

Based on the above, the application provides a communication service access management method, a communication service access management device, an electronic device and a storage medium. The communication service system firstly carries out safety check after receiving the short message sending request of the customer, and sends the short message sending request to the service detection equipment after checking no error. The client may be a business or an individual. The service detection equipment calls the information in the preset database to carry out authentication verification on the short message sending request, directly rejects the short message sending request without authority, and avoids occupation of the irrelevant short message sending request on the self-built application. The service detection equipment analyzes the type of the short message sending request with the authority, and distributes the short message sending request to the corresponding distribution equipment for processing according to the type. Therefore, the distribution equipment only needs to perform one type of configuration, the short message sending request of the type is correspondingly processed, and the background configuration of the distribution equipment does not need to occupy a large amount of resources. When a large number of short message sending requests corresponding to a large number of companies need to be sent in parallel, the time for processing the service by the communication service system is not influenced, and the service efficiency is further ensured.

Fig. 1 is a schematic view of an application scenario provided in the present application. When a large number of users need to receive verification codes or other short message information, the communication service system needs to be used for sending the short message information to corresponding users in parallel, and the method of the application is applied to access and manage relevant communication services. In the scenario of sending short message information in fig. 1, the sending device is a computer, and the computer carries a communication service system for implementing the method of the present application. And the communication service system receives the short message sending request. And carrying out safety verification on the short message sending request, and carrying out authentication verification after the short message sending request passes the safety verification. The short message sending request is prevented from being a useless request or a malicious request for occupying resources. And after the authentication check is passed, sending the short message sending request to corresponding distribution equipment, processing by the corresponding self-built application, and sending the corresponding short message. Resources occupied by the rear-end configuration of the distribution equipment are reduced, and the service efficiency is ensured.

Specific implementations can be found in the following examples.

Fig. 2 is a flowchart of a communication service access management method according to an embodiment of the present application, where the method of the present embodiment can be applied to a computer in the above scenario. As shown in fig. 2, the method includes:

s201, receiving a short message sending request and carrying out safety verification on the short message sending request.

The firewall is a network security system capable of isolating the communication service system from a network outside the system, and can filter some insecure factors carried by the short message sending request, such as viruses carried by the short message sending request. And for some short message sending requests which cannot be filtered and show abnormal conditions, intercepting the short message sending requests and prompting resending.

Specifically, the short message sending request may be composed of information of a sender, a password for access, content of a short message desired to be sent, a recipient of the short message, and the like. When a sender sends a short message sending request to a communication service system, the short message sending request firstly passes through a firewall, and the firewall can perform security verification on the short message sending request.

S202, if the safety check is passed, calling data corresponding to the authentication check in the preset database, and performing the authentication check on the short message sending request.

The pre-configured database may be used to store related data for authentication verification, and the configured database may be a preset database. The authentication check may be to check whether the sms message transmission request has a right to be processed by the communication service system.

Specifically, if the security check is passed, the authentication check is performed on the short message sending request, and data used in the authentication check process can be retrieved from a preset database for use. If the authentication check is passed, the short message sending request is safe, and then whether the short message sending request has the authority or not can be detected. For the communication service system, it can be accessed by different senders, but only the sender with authority can use the communication service system to complete the information transmission.

S203, if the authentication check is passed, determining the service corresponding to the short message sending request according to the short message sending request.

The preset database may store information corresponding to various services, such as: and correspondingly sending short messages according to the user requirements, and actively sending services such as reminding and the like. The service corresponding to the short message sending request can be a single service, for example, the short message sending request is sent to a certain receiver; or a service chain, that is, after a certain service is completed, the next service is processed at a certain time interval.

Specifically, corresponding keywords may be set for different services, and the short message sending request may include information such as text content to be sent, preselected service keywords, and corresponding recipients. Extracting the character content to be sent and the preselected service key words in the short message sending request, and matching the character content and the preselected service key words with the key words corresponding to different services in the database. Since the preselected service keywords in the short message sending request are selected by the enterprise independently during sending and may not be accurate, the text content to be sent in the short message sending request can be analyzed to extract the keywords. And comprehensively matching the preselected service keywords and the keywords extracted from the text content with the keywords corresponding to different services in the database to determine which service corresponds to the short message sending request.

S204, determining the service type corresponding to the service, and sending the service to the corresponding distribution equipment according to the service type.

The distribution device is a device for distributing a large amount of received traffic.

Specifically, the database may further include each category of the service, that is, the service type. For example, the service of sending a short message according to the user requirement may include service types such as sending a verification code and sending traffic usage details; the service of actively sending service may include more detailed service types such as sending promotion reminders and sending expiration reminders.

In some specific implementations, the distribution device may be a Nginx. The communication service system comprises a plurality of Nginx, and the back end of each Nginx is configured independently. For example, one Nginx is only responsible for distributing services that send authentication code classes, and another Nginx is only responsible for distributing services that promote reminder classes. And comparing the service type corresponding to the short message sending request with the configuration type of the Nginx, and determining to which distribution equipment the service corresponding to the short message sending request should be sent.

It should be noted that, the Nginx may be configured according to the occurrence frequency of the service type in real life. For example, the sending frequency of the verification code is very high, and the number of users who need to send the verification code at a certain moment is very large, then the number of the Nginx for sending the verification code, which is the service type, can be correspondingly increased.

And S205, instructing the distribution equipment to distribute the service to the corresponding self-established application for processing so as to obtain a short message sending result corresponding to the short message sending request.

The self-built application can be an application which is pre-built and can process the service corresponding to the short message sending request free of charge, and the corresponding configuration can be changed. The result obtained by the self-built application processing may be a result of running a corresponding program to send the short message to a corresponding recipient according to the specific content of the short message sending request.

Specifically, one distribution device may correspond to a plurality of self-built applications, and the service types that can be processed by the self-built applications are consistent with the background configuration of the distribution device. After determining the service type corresponding to the short message sending request, the distribution device can randomly and respectively send the services corresponding to the short message sending request to the self-built application corresponding to the distribution device for processing.

In some specific implementations, one nginn responsible for distributing services such as sending the verification code may correspond to a plurality of self-built applications for processing the sending of the verification code. The self-built application has been previously configured to run a program that sends the authentication code. It should be noted that, the Nginx may detect a currently unoccupied self-established application, and then randomly send a service corresponding to the short message sending request to one of the unoccupied self-established applications, so as to perform subsequent processing.

In the embodiment, the received short message sending request is subjected to security check, and after the security check is passed, the authentication check is performed on the short message sending request to judge whether the current short message sending request has the authority to continue the subsequent access, so that the resource occupation caused by the request without the authority is avoided. And after passing the authentication check, determining the corresponding service and the service type, and sending the service and the service type to the corresponding distribution equipment. Compared with the prior art that authentication verification and service distribution are carried out in distribution equipment, the distribution equipment corresponds to respective service types, does not need to carry out configuration of all types to correspond to various service types, and does not need to store related data for authentication verification. The resources occupied by the distribution equipment during the configuration at the back end are reduced, and even in the case of the condition that a large number of short message sending requests need to be sent in parallel, the service efficiency is not reduced because of too much data needing to be configured.

In some embodiments, if the security check passes, invoking data corresponding to the authentication check in the preset database, and performing the authentication check on the short message sending request may specifically include: and if the safety check is passed, sending the short message sending request to the service detection equipment, and calling data corresponding to the authentication check to carry out the authentication check.

Correspondingly, the above embodiment may specifically include: the command service detection equipment detects the state of the distribution equipment and receives a corresponding detection result; determining currently available distribution equipment according to the detection result; determining a service type corresponding to the service, and sending the service to corresponding current available distribution equipment according to the service type; and commanding the currently available distribution equipment to distribute the service to the corresponding self-built application for processing so as to obtain a short message sending result corresponding to the short message sending request.

The service detection device can be used for calling the information in the preset database to carry out authentication check on the short message sending request, and can also be used for detecting whether the subsequent distribution device needing to be used is in a normal working state. The currently available distribution devices may be distribution devices that are not currently malfunctioning and may be used normally. The status of the dispensing device may include a normal status and a fault status.

Specifically, if the security check of the short message sending request passes, the short message sending request may be sent to the service detection device, and the service detection device may call the relevant data required for the authentication check in the preset database, and then match the relevant data with the corresponding relevant data in the short message sending request. If the matching is successful, the sender sending the short message sending request is proved to have the right of login access, and correspondingly, the short message sending request has the right of being processed continuously; if the matching is unsuccessful, the short message sending request is rejected and the processing is not carried out. Meanwhile, when the service detection device detects that a certain distribution device is in a fault state, the fault distribution device can be removed in time, another distribution device in a normal state is selected to take over the work of the fault distribution device, and the service is normally carried out. Therefore, when authentication check is carried out, which distribution equipment is available can be determined, and then the service is sent to the corresponding current available distribution equipment according to the type of the service and then distributed to the corresponding self-built application for subsequent processing.

The embodiment can perform authentication check in the service detection device, and can detect the available distribution device at the same time. And sending the short message sending request to the service detection equipment, wherein the service detection equipment does not need to store the information required for authentication verification in advance, and only needs to call the required information in the database. And resources occupied by background configuration of the service detection equipment are reduced. In addition, after the short message sending request is received, authentication verification is carried out firstly, and then subsequent processing is carried out, so that the occupation of the short message sending request without permission on resources can be avoided, the processing time of a business service system on the business with permission is reduced, and the business service efficiency is ensured. Meanwhile, the number of the current available distribution equipment is detected, and then the short message sending request is sent subsequently, so that the problem that the service efficiency is reduced due to the fact that the short message sending request is sent to the failed distribution equipment to influence the processing process is avoided.

In some embodiments, the determining whether the short message sending request has been distributed may specifically include: the command service detection equipment judges whether the short message sending request is distributed or not and receives a corresponding judgment result; if the judgment result is that the short message is distributed, releasing the interface occupied by the short message sending request.

When the short message sending request is distributed and processed, the related information can be sent to a preset database for storage. The related information may include information on the time of processing, the recipient, the specific transmission content, and the like. An interface is an "entry" where a sender sends a short message transmission request to a communication service system.

Specifically, the service detection device may match the relevant information of the short message sending request with the relevant information of each short message sending request that has been distributed and processed in the database, and determine whether the short message sending request has been processed. If the message is processed, it may indicate that the message sending request is mistakenly clicked by the sender and is sent again. At this time, the interface corresponding to the short message sending request can be released.

It should be noted that different short message sending requests may correspond to the same service, but the data included in the different short message sending requests are different.

In this embodiment, the service detection device detects the distribution condition of the short message sending request, and releases the distribution device occupied by the short message sending request if the same short message sending request is distributed. The method avoids the occupation of self-built application resources caused by repeated processing of the same short message sending request.

In some embodiments, if the security check passes, the sending of the short message request to the service detection device for authentication check and invoking of data corresponding to the authentication check for authentication check may specifically include: if the short message sending request passes the safety check, sending the short message sending request to the service detection equipment; the command service detection equipment analyzes the short message sending request to determine corresponding request information; and receiving the request information, and judging whether the request information is contained in a preset database or not so as to carry out authentication verification.

The short message sending request sent by the sender to the communication service system may include request information, where the request information is information used for verification during authentication verification. The preset database may include different request information corresponding to different senders.

Specifically, if the security check of the short message sending request is passed, the short message sending request may be sent to the service detection device, and the service detection device may compare request information corresponding to the short message sending request with various request information in a preset database. If the request information corresponding to the short message sending request is contained in a preset database, the authentication check is passed; if the request information corresponding to the short message sending request is not contained in the preset database, the authentication check is not passed, and the short message sending request can be intercepted. And after the comparison is finished, deleting the called request information.

The embodiment extracts information used in authentication verification, namely request information, from the short message sending request. The service detection equipment calls the request information in the preset database to perform authentication verification, so that resources of the service detection equipment occupied by a large amount of called information are reduced, and the efficiency of service is improved.

In some embodiments, the receiving the request information and determining whether the request information is contained in the preset database for authentication check may specifically include: receiving request information, and calling a plurality of user information in a preset database; comparing the user information corresponding to the request information with a plurality of user information in a preset database to obtain a comparison result; if the comparison result shows that the user information corresponding to the request information is consistent with a plurality of user information in the preset database, the request information is contained in the preset database to determine that the authentication check is passed; and if the comparison result shows that the user information corresponding to the request information is inconsistent with the user information in the preset database, the authentication check is not passed.

Specifically, the request message may include user information corresponding to the short message sending request, and the user information may include various service authority information of the user. The preset database of the communication service system may include information of a plurality of senders who make a request for sending a short message, that is, information corresponding to a user who uses the communication service system. And calling the service authority information of a plurality of users in a preset database, and comparing the service authority information with the service authority information of the user of the short message sending request. If the comparison result shows that the user information corresponding to the request information is consistent with the user information in the preset database, the authentication check is passed, and the short message sending request has the processed authority; and if the comparison result shows that the user information corresponding to the request information is inconsistent with the user information in the preset database, the authentication check is not passed. The extracted user information can be released after the authentication check is finished.

The database in the embodiment provides reliable and detailed data information for the authentication and verification process, so that the authentication and verification result is more reliable. Meanwhile, when authentication verification is carried out, user information in the request information only needs to be extracted from the database, and all the request information does not need to be extracted, so that the efficiency of authentication verification is improved.

In some embodiments, when a service corresponding to a short message sending request is terminated but a self-established application is not closed, determining whether to release the self-established application occupied by the service according to a waiting duration of a service processing process may specifically include: judging whether the processing process of the service in the self-built application is terminated or not; if the processing is ended, acquiring the ending time and the current time of the processing process; determining the waiting time according to the termination time and the current time of the processing process; comparing the waiting time with a preset waiting time; and if the waiting time is longer than the preset waiting time and the self-established application corresponding to the service is in the occupied state, releasing the self-established application occupied by the service.

It can be known from the above embodiments that the short message sending request may include a single service or may include a service chain. The short message sending request from the sender is sent to the communication service system through the interface. When the processing process of the service corresponding to the short message sending request is stopped but the occupied self-built application is not released, the method may be caused by that the corresponding sender forgets to close the interface corresponding to the short message sending request; or it may be that a service chain corresponding to the sms message sending request is not completely processed.

The service corresponding to each short message sending request can be monitored in real time in the processing process. The monitored related data can be sent to a preset database for storage. The termination time of the processing process corresponding to the service is extracted, and the elapsed time from the termination time to the current time can be used as the waiting time. If the short message sending request corresponds to one service chain, the processing of two adjacent services in the service chain waits for a period of time. The time for waiting between processing two services can be taken as the preset waiting time.

Specifically, a preset waiting time length is compared with a waiting time length of a service corresponding to the short message sending request, and if the waiting time length is greater than the preset waiting time length, the result may be that a sender corresponding to the service forgets to close an interface when the short message sending request is sent. At this time, the self-built application occupied by the service can be directly released. And if the waiting time is less than or equal to the preset waiting time, not operating.

The embodiment determines the waiting time of the service corresponding to the short message sending request, and if the waiting time reaches the preset waiting time, the self-established application corresponding to the service can be closed in time, so that the completed service is prevented from occupying the self-established application and the used interface resource, and the service efficiency is ensured.

In some embodiments, determining whether to save the processing progress of the service according to a relationship between the processing time of the service type corresponding to the short message sending request and a preset processing time may specifically include: determining preset processing time corresponding to the service according to the service type; detecting whether a processing process corresponding to the service is terminated; judging whether the processing time of the service is less than the preset processing time or not; and if the processing time of the service is shorter than the preset processing time and the processing process is terminated, acquiring and storing a processing process corresponding to the service when the processing process is terminated.

The processing time of different service types may be different, and the actual processing time may be different due to different information contained in different short message sending requests. The normal processing time corresponding to different short message sending requests composed of different information can be stored in a preset database as the preset processing time corresponding to different services. The processing time corresponding to the service may be time actually consumed in the processing.

Specifically, the corresponding preset processing time may be extracted from the preset database according to the service type corresponding to the service and the specific information included in the short message sending request. And comparing the processing time corresponding to the service with the preset processing time. The related information of the processing process of the service corresponding to the short message sending request can be stored in a preset database, and the termination time of the processing process can be extracted. If the termination time is before the termination time corresponding to the preset processing time, it may indicate that the processing process of the service is terminated abnormally, that is, the processing time of the service is less than the preset processing time. If the processing time corresponding to the service is shorter than the preset processing time and the termination of the processing process of the service is detected, it may be that a special condition occurs in the processing process of the service, which may cause an abnormal termination of the processing process, for example, a network fluctuation condition caused by too many services being processed simultaneously. At this time, the processing progress of the service at the time of termination can be acquired and stored in the database, and a prompt message can be sent to the sender corresponding to the service, so that the sender can re-submit the request for sending the short message. And then, calling a processing process of the service corresponding to the short message sending request in the database, and performing subsequent processing according to the processing process.

In this embodiment, the preset processing time of the service corresponding to the short message sending request is determined, and if the processing time of the service does not reach the preset processing time, the corresponding processing process is saved. After the service corresponding to the short message sending request is abnormally closed, the service can be continuously processed following the process of the abnormal closing pretreatment, so that the time of repeated processing is reduced, and the service efficiency is improved.

In other embodiments, self-study software is added to an original service entrance logic layer of a communication service system (communication service system), keepalive data is processed, account information is verified, error account information is directly rejected, and data is distributed to a specific nginx load rear end according to account attribution information to achieve service data distribution. A structure of a communication service system is shown in fig. 3. Wherein Wall 1, wall 2 and Wall 3 are firewalls, phthon and Phthon uwsgi are self-built applications. A flow chart of the communication service access method is shown in fig. 4.

By the scheme, the service interface users can be conveniently classified according to specific standards, and the interfaces occupied by different types of users are different. The method has the advantages that the user services are classified, the services are directed to the specific service cluster through checking and classifying, and the interfaces corresponding to the user types are used, so that the repeatability of back-end service deployment is reduced, the controllability of equipment load is improved, a foundation is provided for multi-cloud distributed deployment of the services, and the reliability of the services is improved.

According to the scheme, authentication processing can be performed before the data enters the service cluster, risks that the back-end service bears junk data and abnormal attacks are reduced, and service stability is improved.

Fig. 5 is a schematic structural diagram of a communication service access management device according to an embodiment of the present application, and as shown in fig. 5, a communication service access management device 500 according to this embodiment includes: a security check module 501, an authentication check module 502, a service determination module 503, a service type sending module 504 and a service distribution module 505.

A security verification module 501, configured to receive a short message sending request and perform security verification on the short message sending request;

an authentication verification module 502, configured to perform authentication verification on the short message sending request when the security verification passes;

the service determining module 503 is configured to determine, according to the short message sending request, a service corresponding to the short message sending request when the authentication check is passed;

a service type sending module 504, configured to determine a service type corresponding to the service, and send the service to a corresponding distribution device according to the service type;

and the service distribution module 505 is configured to instruct the distribution device to send the service request to a corresponding self-built application for processing, so as to obtain a short message sending result corresponding to the short message sending request.

Optionally, the authentication checking module 502 is specifically configured to:

the communication service access management apparatus further includes a state detection module 506, which is specifically configured to:

Optionally, the communication service access management apparatus 500 further includes a distribution determining module 507, configured to:

Optionally, the request information includes user information corresponding to the request information; the preset database comprises a plurality of user information; the authentication check module 502 is specifically configured to:

Optionally, the communication service access management apparatus 500 further includes a waiting duration determining module 508, configured to:

comparing the waiting time with a preset waiting time;

Optionally, the communication service access management apparatus 500 further includes a process saving module 509, configured to:

and if the processing time of the service is less than the preset processing time and the processing process is terminated, acquiring and storing a processing process corresponding to the service when the processing process is terminated.

The apparatus of this embodiment may be configured to perform the method of any of the above embodiments, and the implementation principle and the technical effect are similar, which are not described herein again.

Fig. 6 is a schematic structural diagram of an electronic device according to an embodiment of the present application, and as shown in fig. 6, an electronic device 600 according to the embodiment may include: a memory 601 and a processor 602.

The memory 601 has stored thereon a computer program that can be loaded by the processor 602 and executed to perform the method in the above-described embodiments.

Wherein the processor 602 is coupled to the memory 601, such as via a bus.

Optionally, the electronic device 600 may also include a transceiver. It should be noted that the transceiver in practical application is not limited to one, and the structure of the electronic device 600 is not limited to the embodiment of the present application.

The Processor 602 may be a CPU (Central Processing Unit), a general-purpose Processor, a DSP (Digital Signal Processor), an ASIC (Application Specific Integrated Circuit), an FPGA (Field Programmable Gate Array), or other Programmable logic device, transistor logic device, hardware component, or any combination thereof. Which may implement or perform the various illustrative logical blocks, modules, and circuits described in connection with the disclosure. The processor 602 may also be a combination of computing functions, e.g., comprising one or more microprocessors in combination, a DSP and a microprocessor in combination, or the like.

A bus may include a path that carries information between the components. The bus may be a PCI (Peripheral Component Interconnect) bus, an EISA (Extended Industry Standard Architecture) bus, or the like. The bus may be divided into an address bus, a data bus, a control bus, etc. For ease of illustration, only one thick line is shown, but this does not mean that there is only one bus or one type of bus.

The Memory 601 may be a ROM (Read Only Memory) or other type of static storage device that can store static information and instructions, a RAM (Random Access Memory) or other type of dynamic storage device that can store information and instructions, an EEPROM (Electrically Erasable Programmable Read Only Memory), a CD-ROM (Compact Disc Read Only Memory) or other optical disk storage, optical disk storage (including Compact Disc, laser Disc, optical Disc, digital versatile Disc, blu-ray Disc, etc.), a magnetic disk storage medium or other magnetic storage device, or any other medium that can be used to carry or store desired program code in the form of instructions or data structures and that can be accessed by a computer, but is not limited to these.

The memory 601 is used for storing application program codes for executing the scheme of the application, and the processor 602 controls the execution. Processor 602 is configured to execute application program code stored in memory 601 to implement the teachings of the foregoing method embodiments.

Wherein, the electronic device includes but is not limited to: mobile terminals such as mobile phones, notebook computers, digital broadcast receivers, PDAs (personal digital assistants), PADs (tablet computers), PMPs (portable multimedia players), in-vehicle terminals (e.g., in-vehicle navigation terminals), and the like, and fixed terminals such as digital TVs, desktop computers, and the like. But also a server, etc. The electronic device shown in fig. 6 is only an example, and should not bring any limitation to the functions and the scope of use of the embodiments of the present application.

The electronic device of this embodiment may be configured to perform the method of any of the above embodiments, and the implementation principle and the technical effect are similar, which are not described herein again.

The present application also provides a computer readable storage medium storing a computer program that can be loaded by a processor and executed to perform the method as in the above embodiments.

Those of ordinary skill in the art will understand that: all or a portion of the steps of implementing the above-described method embodiments may be performed by hardware associated with program instructions. The foregoing program may be stored in a computer-readable storage medium. When executed, the program performs steps comprising the method embodiments described above; and the aforementioned storage medium includes: various media that can store program codes, such as ROM, RAM, magnetic or optical disks.

Claims

1. A method for communication service access management, comprising:

receiving a short message sending request and carrying out security verification on the short message sending request; the short message sending request is used for sending short messages of different types to a plurality of corresponding users in batches;

receiving the request information, and judging whether the request information is contained in a preset database or not so as to carry out authentication verification; the short message sending request comprises the corresponding text content and preselected service keywords;

if the authentication check is passed, extracting the character content and the preselected service key words, and matching the key words with the key words corresponding to different short message services in the database;

determining a short message service corresponding to the short message sending request according to the matching result;

determining a service type corresponding to the short message service, and sending the short message service to corresponding distribution equipment according to the service type; the service type comprises a verification code sending type, a flow use detail sending type and a promotion reminding sending type;

and commanding the distribution equipment to distribute the short message service to a corresponding self-established application, and commanding the self-established application to send the short message corresponding to the short message service to a corresponding user so as to obtain a short message sending result corresponding to the short message sending request.

2. The method of claim 1, further comprising:

determining a service type corresponding to the short message service, and sending the short message service to the corresponding current available distribution equipment according to the service type;

and commanding the currently available distribution equipment to distribute the short message service to the corresponding self-built application for processing so as to obtain a short message sending result corresponding to the short message sending request.

3. The method of claim 2, further comprising:

4. The method of claim 1, wherein the request message includes user information corresponding to the request message; the preset database comprises a plurality of user information; the receiving the request information and judging whether the request information is contained in the preset database or not to carry out authentication check comprises the following steps:

5. The method of any of claims 1-4, further comprising:

judging whether the processing process of the short message service in the self-built application is terminated or not;

if the processing procedure is ended, acquiring the ending time and the current time of the processing procedure;

comparing the waiting time with a preset waiting time;

and if the waiting time is longer than the preset waiting time and the self-established application corresponding to the short message service is in an occupied state, releasing the self-established application occupied by the short message service.

6. The method of any of claims 1-4, further comprising:

determining preset processing time corresponding to the short message service according to the service type;

detecting whether the processing process corresponding to the short message service is terminated;

judging whether the processing time of the short message service is less than the preset processing time or not;

and if the processing time of the short message service is less than the preset processing time and the processing process is terminated, acquiring and storing a processing process corresponding to the short message service when the processing process is terminated.

7. A communication service access management device, comprising:

the authentication checking module is used for sending the short message sending request to service detection equipment when the short message sending request passes the safety check; instructing the service detection device to analyze the short message sending request to determine corresponding request information; receiving the request information, and judging whether the request information is contained in a preset database or not so as to carry out authentication verification; the short message sending request comprises the corresponding text content and preselected service keywords;

the service determining module is used for extracting the text content and the preselected service key words when the authentication check is passed, and matching the text content and the preselected service key words with key words corresponding to different short message services in the database; determining a short message service corresponding to the short message sending request according to the matching result;

the service type sending module is used for determining the service type corresponding to the short message service and sending the short message service to corresponding distribution equipment according to the service type; the service type comprises a verification code sending type, a flow use detail sending type and a promotion reminding sending type;

and the service distribution module is used for commanding the distribution equipment to send the short message service to the corresponding self-built application and commanding the self-built application to send the short message corresponding to the short message service to the corresponding user so as to obtain a short message sending result corresponding to the short message sending request.

8. An electronic device, comprising: a memory and a processor;

the memory to store program instructions;

the processor, which is used to call and execute the program instructions in the memory, executes the method of any one of claims 1-6.

9. A computer-readable storage medium, characterized in that a computer program is stored in the computer-readable storage medium; the computer program, when executed by a processor, implements the method of any one of claims 1-6.