CN115883309A - Multi-service upstream and downstream multi-protocol access platform and method based on SAAS mode - Google Patents

Abstract

The invention belongs to the technical field of communication, and relates to a multi-service upstream and downstream multi-protocol access platform and a method based on an SAAS mode, wherein the platform comprises a multi-channel management module, a multi-user access module, a multi-service access module and a service management module; the multi-channel management module is used for accessing an upstream channel, and the multi-user access module is used for accessing a downstream user; the multi-service access module supports the access of different short message services; the service management module is connected with the multi-channel management module and the multi-user access module, and intelligently schedules a user access gateway in the multi-user access module and an upstream channel gateway in the multi-channel management module. The invention not only realizes multi-service and multi-protocol access, but also adopts SAAS mode architecture, can dynamically expand the number of modules, and greatly improves the data throughput and processing capability of the platform.

Description

Multi-service upstream and downstream multi-protocol access platform and method based on SAAS mode

Technical Field

The invention belongs to the technical field of communication, and relates to a multi-service upstream and downstream multi-protocol access platform and a method based on an SAAS mode.

Background

In the process of sending messages, different services may adopt different message protocols, different services may need different short message systems, different services can be realized only by using different platforms, and enterprises need to develop short message platforms suitable for own services, so that the development cost is high. The prior art can not realize the multi-service multi-protocol integration of the short message platform.

CN108712420A discloses a protocol information transmission method, apparatus and system, which can be used to separate multiple transmission protocols from a service system, and integrate the protocols together to form a multi-protocol system, and the multi-protocol system can be placed in a multi-protocol server independent from the service server. When information is sent from the service server to the multi-protocol server, the multi-protocol server can monitor and receive service information sent by the service server, judge a transmission protocol required by the service information, and finally package the service information and send the service information to the processing server for processing. The multi-protocol server can comprise an application layer, a monitoring data packet distribution layer, a protocol layer (which can comprise SGIP, AAA, diameter and the like), a TCP/MYSQL driver layer and a TCP/IP/database layer. A transport protocol is selected by the multi-protocol server based on the traffic information.

The SAAS mode is a mode for providing software through the Internet, a manufacturer uniformly deploys application software on a server of the manufacturer, a user can order required application software services from the manufacturer through the Internet according to actual requirements of the user, the cost is paid to the manufacturer according to the amount and time of the ordered services, and the services provided by the manufacturer are obtained through the Internet. The software service platform of the SAAS mode is managed and maintained by a service provider in a centralized way, and can be customized and modified in a modularization way according to the actual needs of each user. As a supplier, the platform developed and maintained by the supplier can be simultaneously provided for a plurality of users, but the data of the users are respectively managed, so that the integrity and the security of the data of the users are effectively maintained while the safe sharing of public resources is realized.

Disclosure of Invention

The invention aims to provide a multi-service upstream and downstream multi-protocol access platform and a method based on an SAAS mode, which not only realize multi-service and multi-protocol access, but also adopt an SAAS mode architecture, can dynamically expand the number of modules and greatly improve the data throughput and processing capacity of the platform.

The invention is realized by adopting the following technical scheme. A multi-service upstream and downstream multi-protocol access platform based on an SAAS mode comprises: the system comprises a multi-channel management module, a multi-user access module, a multi-service access module and a service management module;

the multi-channel management module is used for accessing an upstream channel, the upstream channel comprises a CMPP protocol channel, an SGIP protocol channel, an SMGP protocol channel and an HTTP channel, a standard protocol issued by an operator is used for directly connecting with an operator gateway, and the HTTP protocol and the MM7 protocol are simultaneously supported for accessing; the operation provided by the multi-channel management module comprises channel grouping, queue configuration, grouping configuration, number portability and HTTP template;

the multi-user access module is used for downstream user access, and a user access gateway of the multi-user access module comprises a WEB client access module, an HTTP access module, an SMGP protocol access module, an SGIP protocol access module, a CMPP protocol access module, a primary account configuration module, an HTTP account opening configuration module, a simulation CMPP configuration module and a user queue configuration module;

the multi-service access module supports service access of international short messages, voice short messages, USSD short messages, binary short messages, graphic and text multimedia messages, video short messages and text short messages, when different short message services are accessed, corresponding standard parameters are filled according to different access rules of an operator, the standard parameters are pushed to an operator gateway by using an upstream channel, and the standard parameters are analyzed into different service short messages by the operator service and sent to a user side;

the service management module is connected with the multi-channel management module and the multi-user access module, intelligently schedules a user access gateway in the multi-user access module and an upstream channel gateway in the multi-channel management module, and simultaneously supports content security management, black and white list management, report function management, customer service function management, visual monitoring management, financial recharging management and advanced function management;

different users access the gateway through a WEB client access module, and the information of the message queue of the user is configured through a user queue configuration module; the method comprises the steps that a primary account configuration module sets WEB client user permission and basic information, the primary account configuration module operates according to the basic information to allocate an access upstream channel for a user, then a multi-user access module selects an HTTP access module, an SMGP protocol access module, an SGIP protocol access module or a CMPP protocol access module according to the upstream channel to achieve protocol access, a multi-channel management module configures the SMGP protocol, the SGIP protocol and the CMPP protocol, after configuration is completed, a multi-channel is generated to be used when the primary account configuration module selects the upstream channel for the user, and different service short message access is achieved through the multi-service access module.

Further preferably, in the multi-channel access module, firstly, a code number is applied to an operator, and the code number is used for authority verification when the operator is accessed; establishing a standard access mode with an operator, wherein the access mode is used for executing a connection establishment request after relevant communication protocol parameters are transmitted, and establishing communication connection with the operator; establishing a communication connection is realized by using Netty; when establishing connection with an operator for the first time, establishing a connection request parameter by using a communication protocol, wherein the connection request parameter comprises a code number and account opening information issued by the operator; after the communication connection is successfully established, the Netty connection mark is a short message channel, and the unique identifier of the short message channel is a channel code; the program side uses a message queue intermediate component, and the message queue uses different subjects to execute different sending tasks; after the short message channel is successfully established, establishing a message queue theme which is the same as the channel code in a message queue, and establishing a message queue theme for processing feedback information according to a format; the consumption end of the message queue queries a database for a channel code consistent with the message queue theme according to the message queue theme, calls a communication connection established by Netty before after acquiring corresponding channel information according to the queried channel code, and submits a task sending request interface by using the realized communication connection, so that a short message channel is used for executing a sending task, and the message queue consumption end for executing the sending task is set when the sending task is executed;

adding corresponding channel codes for users in the multi-user access module, managing short message channels of the multi-channel access module through the channel codes, and executing message queues with the same theme as the channel codes;

when the multi-service access module receives that a user has a sending task and needs to use a short message channel, the sending task is pushed to a message queue according to a short message channel code configured for the user in the multi-service access module, and when the message queue has the sending task, a message queue consumption end executes a consumption end program of the multi-channel access module to call the short message channel; pushing a sending task to a message queue, and setting the sending task as a message queue client for executing the sending task;

after the multi-channel access module executes a sending task, using a Netty receiving request feedback interface to receive operator feedback information of the sending task; calling the theme of the message queue for processing the feedback information after receiving the feedback information of the operator, and setting a client of the message queue for processing the feedback information; and meanwhile, a consumption end for processing the feedback information by the message queue is set, the sending state, the success quantity and the failure quantity of the short messages are recorded at the consumption end for processing the feedback information by the message queue, the feedback information is processed according to a characteristic format and then stored in a database, and an administrator checks the final feedback result of the sending task at the WEB client.

Further preferably, the service management module sets keyword flow guide, signature flow guide, template flow guide and frequency strategy service flow so as to facilitate content security management, black and white list management, report function management, customer service function management, visual monitoring management, financial recharging management and advanced function management.

Further preferably, the content security management is: for the examination and verification of the short message content, the intelligent wind control management module is used for intelligently filtering the short message content, so that the personalized analysis of complex characters, effective websites, telephones and multiple keywords is realized; and for special conditions, when the intelligent wind control management module cannot automatically intercept the short message content, an interception group is provided for manual examination and control, so that flexible management and control are realized.

Further preferably, the visual monitoring management is: and performing visual management on the background by using a WEB end provided by the platform, wherein the visual management comprises channel access and channel grouping management, signature preparation management, user account opening and authority management, multiple content auditing and operation and maintenance monitoring and early warning management.

Preferably, the early warning management comprises platform internal operation environment warning and platform service quality warning; the internal operating environment alarm of the platform monitors and alarms whether threads and programs in the server are interrupted or not and whether memory and CPU occupation is normal or not, and the abnormal condition is early warned through short messages or mails; the platform service quality alarm detects the success rate of forwarding service and the quality of each channel and link, and notifies the service through short messages or mails after the abnormality is found.

Preferably, the report function management provides a channel report, a user report, a province report, a user per channel statistics report, a user per operator statistics report, a user per signature statistics report and an error analysis report. The report output supports the Excel format.

Further preferably, the SAAS mode-based multi-service upstream and downstream multi-protocol access platform is divided into a network layer, a data layer, an interface layer, a management layer, a user layer and a display layer according to functions; the network layer comprises a public network, a private network, a CMPP gateway, an SGIP gateway, an SMPP gateway and an SMGP gateway; the data layer comprises a message queue, a Redis cache cluster and a database cluster; the interface layer comprises HTTP, SGIP, CMPP, SGMP and SMPP interfaces; the management layer performs message management, short message management, channel management, operation management and platform setting; the user layer is provided with personal information, an outbox, an inbox, an address book and a statistical report; the display layer provides functions of displaying short messages, multimedia messages and video short messages.

Preferably, the hardware device of the multi-service upstream and downstream multi-protocol access platform comprises an input device, a controller, a memory, an output device and an arithmetic unit, wherein the input device is used for inputting instructions or messages, and the output device is used for displaying states or sending messages or instructions; the memory is in data interaction with the input device, the controller, the output device and the arithmetic unit.

The invention also provides a multi-service upstream and downstream multi-protocol access method based on the SAAS mode, which comprises the following steps:

establishing multi-channel access with upstream: the flow of the channels is intelligently distributed among the multiple channels according to rules; when receiving a sending task, firstly distributing the tasks to upstream channels of various provinces according to the provinces; secondly, carrying out flow guide according to template preparation, verification codes, signatures and contents; flexible control can be performed through verification codes, notification and mass-sending priority sending strategies;

and accessing with downstream multiprotocol: the user can use a mode of docking an operator standard protocol, and use standard CMPP, SGIP, SMGP, SMPP protocols and a multi-service upstream and downstream multi-protocol access platform based on an SAAS mode to establish a user channel, or use an HTTP interface to rapidly dock the multi-service upstream and downstream multi-protocol access platform based on the SAAS mode; the docking process uses visual configuration; the multi-service upstream and downstream multi-protocol access platform based on the SAAS mode adopts an independent virtual access number technology to seamlessly interface a CMPP standard protocol to a user;

and (3) multi-service access: the method supports the integrated extension of international short messages, voice short messages, USSD short messages, binary short messages, graphic and text multimedia messages and video short messages; different short message services are accessed to a multi-service upstream and downstream multi-protocol access platform based on an SAAS mode through a multi-user access module, the multi-service upstream and downstream multi-protocol access platform based on the SAAS mode perfects the short message extension content of the multi-service upstream and downstream multi-protocol access platform aiming at different services, and finally different forms of short messages which accord with the standard of an operator are generated;

supporting enterprise users to access a multi-service upstream and downstream multi-protocol access platform based on an SAAS mode through a WEB terminal sending system: a multi-service upstream and downstream multi-protocol access platform based on an SAAS mode simultaneously provides a WEB management platform and a WEB terminal sending system, and service requirements of various service systems are met.

The invention has the beneficial effects that: the invention relates to a multi-service upstream and downstream multi-protocol access platform based on an SAAS mode, which is a comprehensive service platform mainly oriented to operators, short messages of various levels, video short message agents, large enterprises and governments based on an SAAS mode architecture, provides a comprehensive service system oriented to users for short message access, transmission, management, statistics, analysis, data processing and the like, and also provides a WEB management platform and a WEB terminal transmission system. Each module of the platform adopts an SAAS mode architecture, the number of the modules can be dynamically expanded, the data throughput and processing capacity of the platform is greatly improved, and the diversity and reliability of short message and video short message sending services of enterprise users are ensured.

1. The multi-service upstream and downstream multi-protocol access platform can realize multi-service access, so that the selectivity of users is very rich.

2. The method provides a mode of a WEB client side for sending the short message, and some users with insufficient research and development capability can directly use the WEB client side for sending the short message without any development.

3. When the traditional short message system has high concurrency, the short message system can be blocked and even the service is broken down.

4. The invention provides a short message protocol access mode imitating an operator as native as possible, which meets the requirements that a real enterprise not only wants to develop a short message platform of the enterprise itself, but also cannot apply for the quality of sending the short message in operation.

Drawings

Fig. 1 is an architecture diagram of a multi-service upstream and downstream multi-protocol access platform based on SAAS mode.

Fig. 2 is a layered schematic diagram of a multi-service upstream and downstream multi-protocol access platform based on the SAAS mode.

Fig. 3 is a schematic diagram of hardware devices of a multi-service upstream and downstream multi-protocol access platform based on SAAS mode.

In the figure: the system comprises a 10-multichannel management module, a 20-service management module, a 30-multi-user access module, a 40-multi-service access module, a 50-input device, a 60-arithmetic unit, a 70-memory, an 80-output device and a 90-controller.

Detailed Description

The invention is explained in more detail below with reference to the figures and examples.

As shown in fig. 1, the multi-service upstream and downstream multi-protocol access platform based on SAAS mode includes: a multi-channel management module 10, a multi-user access module 30, a multi-service access module 40, and a service management module 20.

The multi-channel management module 10 is used for accessing an upstream channel, the upstream channel comprises a CMPP protocol channel, an SGIP protocol channel, an SMGP protocol channel and an HTTP channel, a standard protocol issued by an operator is used for directly connecting with an operator gateway, and the access of an HTTP protocol and an MM7 protocol is supported; the operation provided by the multi-channel management module comprises channel grouping, queue configuration, grouping configuration, number portability and HTTP template; the channel grouping is to group several channels into a small group, and when the channels are distributed to users, the channels are not directly distributed, but the channel groups are distributed. Message queue services in the platform, different queues performing different tasks, there are sending verification codes, there are sending notifications, etc. Queue configuration may assign queue priority, the number of queues that a queue occupies for message queue service, etc. The grouping configuration is to configure the channel use priority, the flow value of each channel, which province short message can be sent by each channel, and the like after the channels are grouped. The number portability is a sending mode for configuring the number portability number, and the number portability number is forwarded to a short message gateway of an operator after network portability by an original operator or is directly pushed to the short message gateway of the operator after network portability by a multi-service upstream and downstream multi-protocol access platform, and the charging is carried out according to the charging standard of the operator. The HTTP template is a parameter template linked when a short message is transmitted using an HTTP link method.

The multi-user access module 30 is used for accessing a multi-service upstream and downstream multi-protocol access platform by a downstream user, and a user access gateway of the multi-user access module 30 comprises a WEB client access module, an HTTP access module, an SMGP protocol access module, an SGIP protocol access module, a CMPP protocol access module, a primary account configuration module, an H TTP account opening configuration module, a simulation CMPP configuration module, and a user queue configuration module. And downstream users are supported to access the platform by using CMPP, SGIP, SMGP, SMPP and HTTP protocols, the downstream users are supported to simulate the CMPP protocol and the HTTP protocol to open accounts for third-party users, and the same account is supported to use CMPP, HTTP and WEB submission at the same time.

A WEB client access module: and operating access through a visual WEB page. The access mode realizes communication protocols such as SMGP, SGIP, CMPP and the like in advance, and a user fills parameter information according to WEB page prompts without paying attention to a bottom layer realization mode. And binding the short message gateway for the user according to the parameter information filled by the user, thereby realizing the access of the WEB client to the gateway.

An HTTP access module: and the user sends an HTTP request access through the HTTP access module. The request receiving parameter type is RESTFULL style parameter, and the parameter packaging mode is JSON format. The HTTP access module realizes communication protocols such as SMGP, SGIP, CMPP and the like in advance, a user does not need to pay attention to a bottom layer realization mode, transmits necessary request parameters according to requirements of an HTTP request parameter document, and transmits unnecessary request parameters according to actual conditions. And establishing communication connection with the gateway according to the parameters received by the http request and by combining the communication protocol parameters, thereby realizing the access to the gateway by sending the http request.

SMGP protocol access module: and realizing SMGP protocol access. The user needs to establish long connection with the gateway in advance, and when the connection is established for the first time, the connection establishing parameters need to be transmitted. The encapsulation form of the parameters strictly complies with the relevant requirements of the SMGP protocol parameters, and the SMGP protocol parameters transmitted by the user are used for establishing connection with the gateway, so that the access to the gateway by using the SMGP protocol is realized. In this access mode, the user needs to be familiar with the implementation mode of the telecommunication SMGP protocol in advance.

SGIP protocol access module: and realizing SGIP protocol access. The user needs to establish long connection with the gateway in advance, and when the connection is established for the first time, the connection establishing parameters need to be transmitted. The encapsulation form of the parameters needs to strictly comply with the related requirements of the SGIP protocol parameters, and the SGIP protocol parameters transmitted by the user are used for establishing connection with the gateway, so that the SGIP protocol is used for accessing the gateway. In this access mode, the user needs to be familiar with the implementation mode of the SGIP protocol in advance.

CMPP protocol access module: and realizing CMPP protocol access. The user needs to establish long connection with the gateway in advance, and when the connection is established for the first time, the connection establishing parameters need to be transmitted. The encapsulation form of the parameters strictly complies with the relevant requirements of the CMPP protocol parameters, and the CMPP protocol parameters transmitted by the user are used for establishing connection with the gateway, so that the CMPP protocol is used for accessing the mobile operator. In this access mode, the user needs to be familiar with the implementation mode of the mobile CMPP protocol in advance.

A primary account configuration module: the method is mainly used for setting the user permission of the WEB client. The method comprises the steps of adding, modifying, deleting and checking the basic information and the authority information of the WEB client user, and distributing an access upstream channel for the user. The primary account configuration module mainly manages users accessed through the WEB client.

HTTP account opening configuration module: the method is mainly used for setting the user authority accessed by using HTTP. The method comprises the steps of adding, modifying, deleting and checking basic information and authority information of http access users, and distributing short message channels for accessing to the upstream for the users. Generating token identity information for authority verification for the user, verifying whether the IP address of the request source exists in an IP white list, and if the verification is passed, verifying the parameter format and the service logic. And if the verification is not passed, rejecting the request sent by the IP. The HTTP account opening configuration module is mainly used for managing users who access by sending HTTP requests.

And (3) simulating a CMPP configuration module: this is mainly used to simulate access by implementing the CMPP protocol. The method is mainly used for checking whether the parameters of the CMPP access strictly comply with the CMPP protocol parameter regulation or not and checking whether the CMPP access module can normally operate or not.

A user queue configuration module: the method is mainly used for configuring the message queue information of the user. In order to ensure the stability and reliability of the system operation, the establishment of a plurality of message queues is realized in advance, the message sending requirements of different users are executed by using the plurality of message queues, and the configuration of each message queue is different. According to the actual use requirements of the users, the users are distributed into the blind message queues, and the use experience of the users is improved.

The multi-service access module 40 supports service access of international short messages, voice short messages, USSD short messages, binary short messages, graphic and text multimedia messages, video short messages and text short messages, when different short message services are accessed, corresponding standard parameters are automatically filled in the short message services according to different access rules of operators, and finally the short message services are pushed to an operator gateway by using an upstream channel and are analyzed into different service short messages by the operators to be sent to a user side.

According to different access rules of operators, automatically filling corresponding standard parameters for the operators refers to: different access services are realized in advance according to different access rules issued by each operator, a user logs in a WEB client through a login account of the applied WEB client, personalized parameters specified by different services are filled before the service is sent, and when different short message services are accessed, corresponding standard parameters are automatically filled for the different services according to the different access rules of the operators.

The service management module 20 is connected with the multi-channel management module 10 and the multi-user access module 30, the service management module 20 intelligently schedules a user access gateway in the multi-user access module 30 and an upstream channel gateway in the multi-channel management module 10, and simultaneously supports content security management, black and white list management, report function management, customer service function management, visual monitoring management, financial recharging management and advanced function management. The logic of intelligent scheduling is that the business management module can execute the function tasks in content safety management, black and white list management, report function management, customer service function management, visual monitoring management, financial recharging management and advanced function management. The business management module is also provided with keyword flow guide, signature flow guide, template flow guide and frequency strategy business flow so as to facilitate content security management, black and white list management, report function management, customer service function management, visual monitoring management, financial recharging management and advanced function management.

Different users access the gateway through a WEB client access module, and the information of the message queue of the user is configured through a user queue configuration module; the method comprises the steps that a primary account configuration module sets WEB client user permission and basic information, the primary account configuration module operates according to the basic information to allocate an access upstream channel for a user, then a multi-user access module 30 selects an HTTP access module, an SMGP protocol access module, an SGIP protocol access module or a CMPP protocol access module according to the upstream channel to achieve protocol access, a multi-channel management module 10 configures the SMGP protocol, the SGIP protocol and the CMPP protocol, after configuration is completed, a multi-channel is generated to be used when the primary account configuration module selects the upstream channel for the user, and a multi-service access module 40 achieves different service short message access.

More specifically, the service management module 20 supports content security management: and for the examination and verification of the short message content, creating filtering content to be identified by an administrator in the intelligent wind control management module in advance. After the short message content is obtained, firstly, the intelligent wind control management module is used for intelligently filtering the short message content, the short message content is matched with information of complex characters, effective websites, telephones, multiple keywords and the like which need to be filtered, if the matching result shows that the short message content has the information which needs to be filtered, the user is reminded to refuse to send the short message content, and if the matching result shows that the short message content does not have the content which needs to be filtered, the user agrees to execute a sending task. Therefore, the personalized analysis of complex characters, effective websites, telephones and multiple keywords is realized. For special conditions, when the intelligent wind control management module cannot automatically intercept the short message content, an interception group is provided for manual audit, a manual auditor can inquire the short message content needing manual audit in the short message content audit module, and the manual auditor can select whether the short message content passes the audit. For the short message contents which are refused to be sent, a manual auditor can also decide whether the contents pass the content audit after the contents are audited manually, so that flexible management and control are realized.

More specifically, the service management module 20 supports visual monitoring management: and performing visual management on the background by using a WEB end provided by the platform, wherein the visual management comprises channel access and channel grouping management, signature preparation management, user account opening and authority management, multiple content auditing and operation and maintenance monitoring and early warning management.

The early warning management mainly comprises platform internal operation environment warning and platform service quality warning. The internal operating environment alarm of the platform mainly monitors and alarms whether threads and programs in the server are interrupted or not, whether memory and CPU occupation is normal or not and the like, and gives an early warning to abnormal conditions through short messages or mails. The platform service quality alarm mainly detects the success rate of the forwarding service and the quality of each channel and link, and informs the service through short messages or mails after the abnormality is found.

The service management module 20 supports report function management: various rich reports, such as a channel report, a user report, a province report, a user per-channel statistical report, a user per-operator statistical report, a user per-signature statistical report and an error analysis report, are provided. The report output supports the Excel format. According to the requirements of service development and management, the report has expandability and can meet the newly added requirements.

The business management module 20 supports financial recharge management: channels and user prices can be set according to the day to ensure the real-time accuracy of the expenditure presentation. The automatic charge-off function is provided for the user, when the sending task is executed for the user, whether the balance is sufficient or not is automatically checked, and the sending charge-off supports different charge-off modes such as charge-off after the sending is finished, pre-charge-off before the sending, monthly settlement and the like. For failed delivery tasks, the user is automatically returned charges to their account.

As shown in fig. 2, the multiple service upstream and downstream multiple protocol access platform based on the SAAS mode is divided into a network layer, a data layer, an interface layer, a management layer, a user layer and a presentation layer according to functions; the network layer comprises a public network, a private network, a CMPP gateway, an SGIP gateway, an SMPP gateway and an SMGP gateway; the data layer comprises a message queue, a Redis cache cluster and a database cluster; the interface layer comprises HTTP, SGIP, CMPP, SGMP and SMPP interfaces; the management layer performs message management, short message management, channel management, operation management and platform setting; the user layer is provided with personal information, an outbox, an inbox, an address book and a statistical report; the display layer provides functions of displaying short messages, multimedia messages and video short messages.

In this embodiment, in the multi-channel access module, a code number is first applied to an operator, and the code number is used for performing authority verification when the operator is accessed. Establishing a standard access mode with an operator, wherein the access mode is realized by using a program in advance, so that the access mode is fixed, namely, after relevant communication protocol parameters are transmitted, a connection establishment request is executed, and then communication connection can be established with the operator; the establishment of the communication connection is realized by using Netty, wherein the Netty is a java open source framework provided by JBOSS, the Netty has various interfaces for requesting long connection of the Internet, including communication handshake, data transmission, request response and the like, a program side needs to realize the various interfaces of the Netty according to actual conditions, and the three interfaces mainly comprise three interfaces of establishing a request, acquiring a response message and submitting a task sending request. When establishing connection with an operator for the first time, establishing a connection request parameter by using a communication protocol, wherein the connection request parameter comprises a code number and account opening information issued by the operator. And after the communication connection is successfully established, the Netty connection mark is a short message channel, and the unique identifier of the short message channel is a channel code. The program side uses a message queue (in this embodiment, a rockmq message queue) middleware that uses different topics to perform different send tasks. When the short message channel is successfully established, establishing a message queue theme which is the same as the channel code in the message queue, and simultaneously establishing a message queue theme for processing feedback information according to a format (such as adding 'bak' after the message queue theme). The consumption end of the message queue queries a database for a channel code consistent with the topic of the message queue according to the topic of the message queue, calls a communication connection established by Netty before after acquiring corresponding channel information according to the queried channel code, and submits a task sending request interface by using the realized communication connection, so that a short message channel is used for executing a sending task, and the message queue consumption end for executing the sending task is set when the sending task is executed.

In the multi-user access module, a short message channel is configured for a user, namely, a corresponding channel code is added for the user, the short message channel of the multi-channel access module can be managed through the channel code, and a message queue with the same theme as the channel code is executed.

When the multi-service access module receives that a user has a sending task and needs to use a short message channel, the sending task is pushed to a message queue according to a short message channel code configured for the user at the multi-service access module, and when the message queue has the sending task, a message queue consuming end executes a consuming end program of the multi-channel access module to call the short message channel. And pushing the sending task to the message queue, and setting the sending task as a message queue client for executing the sending task.

And after the multi-channel access module executes the sending task, receiving operator feedback information of the sending task by using a Netty receiving request feedback interface. And after receiving the feedback information of the operator, calling the theme of the message queue for processing the feedback information, and setting a client of the message queue for processing the feedback information. And meanwhile, a consumption end for processing the feedback information by the message queue is set, the sending state, the success quantity and the failure quantity of the short messages are recorded at the consumption end for processing the feedback information by the message queue, the feedback information is processed according to a characteristic format and then stored in a database, and an administrator can check the final feedback result of the sending task at the WEB client. For clients with special requirements, the feedback information is processed according to the characteristic format to generate an EXCEL format file and put into a directory of a specified server, and users can take own sending task feedback reports by using an ftp tool.

In order to meet the high-concurrency and high-availability transmission requirements, the multi-service upstream and downstream multi-protocol access platform based on the SAAS mode applies the technologies of load balancing, message queues, redis cache, JStom big data calculation and the like, and meanwhile, the distributed security platform architecture of multithreading asynchronous coupling is realized by adopting the server distributed cluster technology.

As shown in fig. 3, the hardware device of the multiple service upstream and downstream multiple protocol access platform based on SAAS mode includes an input device 50, a controller 90, a memory 70, an output device 80, and an arithmetic unit 60. The input device 50 is used for inputting instructions or messages, and the output device 80 is used for displaying states or sending messages or instructions; the memory 70 is in data communication with the input device 50, the controller 90, the output device 80, and the operator 60, respectively.

The multi-service upstream and downstream multi-protocol access platform based on the SAAS mode adopts a clustering and load balancing technology, and can support larger-scale clustering and load balancing capability by adding corresponding equipment, thereby finally realizing the multi-service upstream and downstream multi-protocol access platform expansion based on the SAAS mode. The technology and architecture adopted by the multi-service upstream and downstream multi-protocol access platform based on the SAAS mode meet the requirement of expandability, and the application is developed into a multi-service access reserved interface.

A multi-service upstream and downstream multi-protocol access method based on an SAAS mode comprises the following steps:

establishing multi-channel access with upstream: the flow of the channels is intelligently distributed among the multiple channels according to rules; when receiving a sending task, firstly distributing the tasks to upstream channels of various provinces according to the provinces; secondly, carrying out flow guide according to template preparation, verification codes, signatures and contents; the flexible control can be carried out through strategies such as verification codes, notification, mass-sending priority sending and the like;

and downstream multi-protocol access: the user can use a mode of docking an operator standard protocol, establish a user channel with a multi-service upstream and downstream multi-protocol access platform based on an SAAS mode by using standard CMPP, SGIP, SMGP and SMPP protocols, and can also use an HTTP interface to rapidly dock the multi-service upstream and downstream multi-protocol access platform based on the SAAS mode; visual configuration is used in the docking process, so that the user access flow is simplified; the multi-service upstream and downstream multi-protocol access platform based on the SAAS mode adopts an independent virtual access number technology to seamlessly dock a CMPP standard protocol to a user;

and (3) multi-service access: the method supports the integrated extension of international short messages, voice short messages, USSD short messages, binary short messages, graphic and text multimedia messages and video short messages; different short message services are accessed to a multi-service upstream and downstream multi-protocol access platform based on an SAAS mode through a multi-user access module, the multi-service upstream and downstream multi-protocol access platform based on the SAAS mode perfects the short message extension content of the multi-service upstream and downstream multi-protocol access platform aiming at different services, and finally different forms of short messages meeting the standard of operators are generated.

Supporting enterprise users to access a multi-service upstream and downstream multi-protocol access platform based on an SAAS mode through a WEB terminal sending system: a multi-service upstream and downstream multi-protocol access platform based on an SAAS mode simultaneously provides a WEB management platform and a WEB terminal sending system, and service requirements of various service systems are met. For users who have simpler service sending or do not have a service development platform, the service sending can be realized by using a WEB terminal sending system provided by a multi-service upstream and downstream multi-protocol access platform based on an SAAS mode. The operator can perform visual operation management of the multi-service upstream and downstream multi-protocol access platform based on the SAAS mode through the WEB management platform.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A multi-service upstream and downstream multi-protocol access platform based on SAAS mode is characterized by comprising: the system comprises a multi-channel management module, a multi-user access module, a multi-service access module and a service management module;

the multi-channel management module is used for accessing an upstream channel, the upstream channel comprises a CMPP protocol channel, an SGIP protocol channel, an SMGP protocol channel and an HTTP channel, a standard protocol issued by an operator is used for directly connecting with an operator gateway, and the HTTP protocol and the MM7 protocol are simultaneously supported for accessing; the operation provided by the multi-channel management module comprises channel grouping, queue configuration, grouping configuration, number portability and HTTP template;

the multi-user access module is used for downstream user access, and a user access gateway of the multi-user access module comprises a WEB client access module, an HTTP access module, an SMGP protocol access module, an SGIP protocol access module, a CMPP protocol access module, a primary account configuration module, an HTTP account opening configuration module, a simulation CMPP configuration module and a user queue configuration module;

the multi-service access module supports service access of international short messages, voice short messages, USSD short messages, binary short messages, graphic and text multimedia messages, video short messages and text short messages, when different short message services are accessed, corresponding standard parameters are filled according to different access rules of an operator, the standard parameters are pushed to an operator gateway by using an upstream channel, and the standard parameters are analyzed into different service short messages by the operator service and sent to a user side;

the service management module is connected with the multi-channel management module and the multi-user access module, intelligently schedules a user access gateway in the multi-user access module and an upstream channel gateway in the multi-channel management module, and simultaneously supports content security management, black and white list management, report function management, customer service function management, visual monitoring management, financial recharging management and advanced function management;

different users access the gateway through a WEB client access module, and the information of the message queue of the user is configured through a user queue configuration module; the method comprises the steps that a primary account configuration module sets WEB client user permission and basic information, the primary account configuration module operates according to the basic information to allocate an access upstream channel for a user, then a multi-user access module selects an HTTP access module, an SMGP protocol access module, an SGIP protocol access module or a CMPP protocol access module according to the upstream channel to achieve protocol access, a multi-channel management module configures the SMGP protocol, the SGIP protocol and the CMPP protocol, after configuration is completed, a multi-channel is generated to be used when the primary account configuration module selects the upstream channel for the user, and different service short message access is achieved through the multi-service access module.

2. The SAAS-mode-based multi-service upstream and downstream multi-protocol access platform as claimed in claim 1, wherein in the multi-channel access module, a code number is first applied to the operator, and the code number is used for authority verification when accessing the operator; establishing a standard access mode with an operator, wherein the access mode is used for executing a connection establishment request after relevant communication protocol parameters are transmitted, and establishing communication connection with the operator; establishing a communication connection is realized by using Netty; when establishing connection with an operator for the first time, establishing a connection request parameter by using a communication protocol, wherein the connection request parameter comprises a code number and account opening information issued by the operator; after the communication connection is successfully established, the Netty connection mark is a short message channel, and the unique identifier of the short message channel is a channel code; the program side uses a message queue intermediate component, and the message queue uses different subjects to execute different sending tasks; after the short message channel is successfully established, establishing a message queue theme which is the same as the channel code in the message queue, and simultaneously establishing a message queue theme for processing feedback information according to the format; the consumption end of the message queue queries a database for a channel code consistent with the message queue theme according to the message queue theme, calls a communication connection established by Netty before after acquiring corresponding channel information according to the queried channel code, and submits a task sending request interface by using the realized communication connection, so that a short message channel is used for executing a sending task, and the message queue consumption end for executing the sending task is set when the sending task is executed;

adding corresponding channel codes for users in the multi-user access module, managing short message channels of the multi-channel access module through the channel codes, and executing message queues with the same theme as the channel codes;

when the multi-service access module receives that a user has a sending task and needs to use a short message channel, the multi-service access module pushes the sending task to a message queue according to a short message channel code configured for the user at the multi-service access module, and when the message queue has the sending task, a message queue consumption end executes a consumption end program of the multi-channel access module to call the short message channel; pushing a sending task to a message queue, and setting the sending task as a message queue client for executing the sending task;

after the multi-channel access module executes a sending task, using a Netty receiving request feedback interface to receive operator feedback information of the sending task; calling the theme of the message queue for processing the feedback information after receiving the feedback information of the operator, and setting a client of the message queue for processing the feedback information; and meanwhile, a consumption end for processing the feedback information by the message queue is set, the sending state, the success quantity and the failure quantity of the short messages are recorded at the consumption end for processing the feedback information by the message queue, the feedback information is processed according to a characteristic format and then stored in a database, and an administrator checks the final feedback result of the sending task at the WEB client.

3. The SAAS-mode-based multi-service upstream and downstream multi-protocol access platform as claimed in claim 1, wherein the service management module sets keyword traffic, signature traffic, template traffic and frequency policy service flows for content security management, black and white list management, report function management, customer service function management, visual monitoring management, financial charging management and advanced function management.

4. The SAAS-mode-based multi-service upstream and downstream multi-protocol access platform of claim 1, wherein the content security management is: for the examination and verification of the short message content, the intelligent wind control management module is used for intelligently filtering the short message content, so that the traditional Chinese characters, effective websites, telephones and multiple keywords are subjected to personalized analysis; and for special conditions, when the intelligent wind control management module cannot realize automatic interception of the short message content, an interception group is provided for manual examination.

5. The SAAS-mode-based multi-service upstream and downstream multi-protocol access platform of claim 1, wherein the visual monitoring management is: and performing visual management on the background by using a WEB end provided by the platform, wherein the visual management comprises channel access and channel grouping management, signature preparation management, user account opening and authority management, multiple content auditing and operation and maintenance monitoring and early warning management.

6. The SAAS-mode-based multi-service upstream and downstream multi-protocol access platform of claim 5, wherein the early warning management comprises a platform internal operating environment alarm and a platform quality of service alarm; the internal operating environment alarm of the platform monitors and alarms whether threads and programs in the server are interrupted or not and whether the occupation of a memory and a CPU is normal or not, and early warning is carried out on abnormal conditions through short messages or mails; the platform service quality alarm detects the success rate of forwarding service and the quality of each channel and link, and notifies the service through short messages or mails after the abnormality is found.

7. The SAAS-mode-based multi-service upstream and downstream multi-protocol access platform of claim 1, wherein the multi-service upstream and downstream multi-protocol access platform is divided into a network layer, a data layer, an interface layer, a management layer, a user layer and a presentation layer according to functions; the network layer comprises a public network, a private network, a CMPP gateway, an SGIP gateway, an SMPP gateway and an SMGP gateway; the data layer comprises a message queue, a Redis cache cluster and a database cluster; the interface layer comprises HTTP, SGIP, CMPP, SGMP and SMPP interfaces.

8. The SAAS-mode-based multi-service upstream and downstream multi-protocol access platform as claimed in claim 7, wherein said management layer performs message management, short message management, channel management, operation management, and platform setup; the user layer is provided with personal information, an outbox, an inbox, an address book and a statistical report; the display layer provides functions of displaying short messages, multimedia messages and video short messages.

9. The SAAS-mode-based multi-service upstream and downstream multi-protocol access platform as claimed in claim 1, wherein the hardware device of the multi-service upstream and downstream multi-protocol access platform comprises an input device, a controller, a memory, an output device, and an arithmetic unit, wherein the input device is used for inputting instructions or messages, and the output device is used for displaying states or sending messages or instructions; the memory is in data interaction with the input device, the controller, the output device and the arithmetic unit.

10. A multi-service upstream and downstream multi-protocol access method based on an SAAS mode is characterized by comprising the following steps:

establishing multi-channel access with upstream: the flow of the channels is intelligently distributed among the multiple channels according to rules; when receiving a sending task, firstly distributing the tasks to the upstream channels of each province according to the provinces; secondly, carrying out flow guide according to template preparation, verification codes, signatures and contents; or flexible control is carried out through verification codes, notification and mass-sending priority sending strategies;

and downstream multi-protocol access: a user establishes a user channel by using a mode of butting an operator standard protocol, a standard CMPP, SGIP, SMGP and SMPP protocol and the multi-service upstream and downstream multi-protocol access platform based on the SAAS mode in any one of claims 1 to 9, or quickly butts the multi-service upstream and downstream multi-protocol access platform based on the SAAS mode by using an HTTP interface; the docking process uses visual configuration; the multi-service upstream and downstream multi-protocol access platform based on the SAAS mode adopts an independent virtual access number technology to seamlessly dock a CMPP standard protocol to a user;

and (3) multi-service access: the method supports the integrated extension of international short messages, voice short messages, USSD short messages, binary short messages, graphic and text multimedia messages and video short messages; different short message services are accessed to a multi-service upstream and downstream multi-protocol access platform based on an SAAS mode through a multi-user access module, the multi-service upstream and downstream multi-protocol access platform based on the SAAS mode perfects the short message extension content of the multi-service upstream and downstream multi-protocol access platform aiming at different services, and finally different forms of short messages meeting the standard of an operator are generated;

supporting enterprise users to access a multi-service upstream and downstream multi-protocol access platform based on an SAAS mode through a WEB terminal sending system: a multi-service upstream and downstream multi-protocol access platform based on an SAAS mode simultaneously provides a WEB management platform and a WEB terminal sending system, and service requirements of various service systems are met.

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