CN109711845B - Bank-enterprise interconnection and docking method and system based on SaaS mode - Google Patents

Abstract

The invention discloses a bank-enterprise interconnection docking method and system based on a SaaS mode, belonging to the technical field of computers, aiming at solving the technical problem of how to realize the security certificate authentication between two side systems when the multi-tenant of a bank system and a cloud enterprise informatization system pays and settles accounts and to complete the quick and safe docking between an enterprise internal business database and the bank payment and settlement, and adopting the technical scheme that: (1) a bank-enterprise interconnection and docking method based on a SaaS mode comprises the following steps: s1, a bank-enterprise encryption soft certificate is subjected to secondary encryption stored in a cloud server; s2, sharing and butting of business data inside an enterprise are achieved between the bank financial system and the enterprise informatization system; s3, configuring port allocation of service butt joint; s4, autonomously configuring service at regular time; and S5, realizing distributed deployment by the system. (2) A bank-enterprise interconnection docking system based on a SaaS mode comprises a cloud certificate secret storage module, bank-enterprise financial equipment, a security authentication module, a data extraction module and an enterprise informatization module.

Description

Bank-enterprise interconnection and docking method and system based on SaaS mode

Technical Field

The invention relates to the technical field of computers, in particular to a bank-enterprise interconnection and docking method and system based on a SaaS mode.

Background

SaaS is short for Software-as-a-Service (Software-as-a-Service), and with the development of Internet technology and the maturity of application Software, the SaaS is a completely innovative Software application mode beginning to rise in the 21 st century. It has a similar meaning as "on-demand software", the Application Service Provider (ASP), and hosted software ". The method is a mode for providing software through the Internet, a manufacturer uniformly deploys application software on a server of the manufacturer, a customer can order required application software services from the manufacturer through the Internet according to actual requirements of the customer, 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 user does not need to purchase software, but rents Web-based software to the provider to manage enterprise operation activities, the software does not need to be maintained, the service provider can manage and maintain the software in full rights, the software manufacturer provides the Internet application to the client and provides the off-line operation and local data storage of the software, and the user can use the ordered software and services anytime and anywhere. SaaS is the best approach to adopt advanced technology for many small businesses, eliminating the need for businesses to purchase, build, and maintain infrastructure and applications.

In traditional bank enterprise interconnected products, cloud security authentication cannot be achieved frequently, and hardware resources of a server are reduced. At present, the butt joint mode of the interconnection of the bank and the enterprise is an enterprise private line mode and localized deployment. Therefore, how to realize the security certificate authentication between the two systems when the multi-tenant of the bank system and the cloud enterprise information system pays the settlement and complete the quick and safe butt joint of the enterprise internal business database and the bank payment settlement is a technical problem which is continuously solved in the prior art.

Patent document No. CN107516204a discloses an internet bank enterprise docking system, which includes: the bank-enterprise interconnection platform is used for independently configuring a front-end processor interface according to the standard of each bank so as to communicate with a plurality of bank systems; bank-enterprise docking services for multiple banks are provided to enterprise business systems based on unified bank-enterprise docking specifications, which include: and providing various unified payment calling interfaces and recording enterprise transaction data. However, the technical scheme solves the problems of increased technical difficulty and complex operation caused by the fact that when the traditional bank-enterprise docking scheme faces multiple banking businesses, different bank front-end computers need to be docked, and accounting information also needs to be recorded by different banks, and cannot realize security certificate authentication between a bank system and multiple tenants of an enterprise information system, so that rapid docking of a database is completed.

Disclosure of Invention

The technical task of the invention is to provide a bank-enterprise interconnection and docking method and system based on a SaaS mode, so as to solve the problem of how to realize the safety certificate authentication between the two systems when the bank system and the multi-tenant of the cloud enterprise informatization system pay and settle accounts, and to complete the quick and safe docking between the enterprise internal business database and the bank payment and settlement.

The technical task of the invention is realized in the following way, and the bank-enterprise interconnection and docking method based on the SaaS mode comprises the following steps:

s1, performing secondary encryption on a soft certificate stored in a cloud server by a bank-enterprise encryption device;

s2, realizing the internal business data sharing and butt joint between the bank financial system and the enterprise informatization system, namely reading the rule of the certificate data table;

s3, port allocation of configuration service butt joint: providing a table to record service bills and port information used by the service bills in the service system, and recording whether the information synchronization is successful or not;

s4, autonomous timing configuration service: polling to obtain data interface information, and making corresponding action according to the configuration file to finish the autonomous timing configuration of the user so as to meet different service requirements of the user;

s5, the system realizes distributed deployment: a plurality of tenants of the system distinguish data information of different tenants through different identity IDs, data are respectively stored in a plurality of tables or a plurality of schemas to realize data logic isolation, and are dispersedly stored in a plurality of independent servers to realize data isolation among the plurality of tenants, the data of different tenants are stored on different servers or the data of the plurality of tenants are stored in different schemas or tables in the same database example, the system can transversely expand in an infinite level, the centralized storage of the servers is realized, and the reliability, the availability and the expansibility of the system are improved.

Preferably, the specific steps of the second encryption of the bank-enterprise encryption soft certificate stored in the cloud server in step S1 are as follows:

s101, carrying out secondary encryption through an MD5 algorithm to carry out security management on the enterprise soft certificate;

and S102, when the configuration soft certificate is read, performing double identity authentication of the database password and the enterprise ID, and successfully matching.

Preferably, the specific steps of implementing the sharing and docking of the business data inside the enterprise between the banking system and the enterprise information system in the step S2 are as follows:

s201, providing a database configuration table, and storing the enterprise software book path;

s202, binding the tenant ID and the soft certificate of the database when the enterprise uses the cloud information system;

and S203, transmitting and confirming the data by using the data intermediate table.

Preferably, the port allocation for configuring service docking in step S3 includes implementing an enterprise information system interface and implementing an interface-side abstract class soft certificate interface.

Preferably, the specific steps of implementing the enterprise information system interface are as follows:

s3011, carrying out unified management and execution operation on a bank-enterprise interconnection and docking Fang Zhuaqu interface;

s3012, processing logic classes by the service;

s3013, calling an external interface;

and S3014, updating the state.

Preferably, the interface for implementing the interface-side abstract class soft certificate abstracts a database reading mode into an interface, wherein the interface includes methods of initialization, receiving, sending and destroying, so as to satisfy the bank-enterprise interconnection services provided by different enterprises, and the interface is implemented for a specific enterprise, and the specific steps are as follows:

s3021, storing tools of the connection interface provided by the bank;

s3022, configuring a system log;

s3023, restricting the number of times of token access of a newly added tenant;

s3024, setting the number of times of accessing the token interface;

s3025, token is a unique user identifier, and each link needs to be used in the same method, so that the link is uniformly realized in the place;

s3026, updating the interface data state to realize class realization;

s3027, putting the database into a state to realize class realization;

and S3028, acquiring the url with the HTTP request parameter.

Preferably, the bank enterprise encryption soft certificate designs an enterprise soft certificate data storage table in secondary encryption stored in the cloud server, and records the data storage table with LSCOMPZX.

Preferably, the field name of the data storage table includes a company number, a certificate name, a database number, a certificate address, an authentication password, and remark information.

Preferably, the specific steps of the system implementing distributed deployment in step S5 are as follows:

s501, storing data of a plurality of tables or schemas of a tenant in a server with different numbers (servers such as No. 1 and No. 2) in a scattered manner;

s502, after the system integration bidirectional handshake authentication is successful, the IDs of different data storage or application servers are obtained through the IDs, and then the request is connected to the corresponding WEB server or application server to obtain corresponding service data through load balancing; wherein, the load balance adopts a reverse proxy server Apache or Nginx;

s503, the operation user can automatically configure the needed data according to the function requirements of different service modules. The system dynamically generates an internal business process according to the condition of configuration parameters, dynamically captures the transmission business data wanted by a user in real time according to the process, and finally generates parameter setting of interface communication of system butt joint through certain rule comparison to realize the interconnection between the bank and the enterprise;

s504, when business interaction occurs, the bank financial system and the enterprise informatization system interact in real time to realize high sharing of data;

and S505, updating the state of the integrated comparison table, and keeping the reliability and consistency of the docking system.

A bank-enterprise interconnection docking system based on a SaaS mode comprises a cloud certificate secret storage module, bank-enterprise financial equipment, a security authentication module, a data extraction module and an enterprise informatization module, wherein the cloud certificate secret storage module is used for reading the security authentication module; the bank and enterprise financial equipment is used for authenticating the security authentication module; the safety authentication module is used for carrying out data interaction with the data extraction module; and the data extraction module is used for the security authentication enterprise informatization module.

The bank-enterprise interconnection and docking method and system based on the SaaS mode have the following advantages:

the method effectively performs enterprise soft certificate cloud security authentication management, and realizes seamless connection between the bank financial system and the enterprise information system multi-tenant and multi-database; the method has the advantages that the extreme experience of a user is improved, waste of physical server resources and high integration of effective data can be avoided or reduced actually, so that enterprises can obtain more convenience on the Internet and financial platform, and more enterprise values are realized;

the invention realizes the safety certificate authentication between the bank system and the enterprise information system and the database is quickly connected; the system is particularly suitable for the situation that bank financial products are quickly butted with an enterprise informatization system and are applied online, so that the software products more meet the requirements of users and meet the demand to a certain extent;

the invention is provided aiming at the situation, and by the advantages of the cloud server and the Internet +, development and docking cost is saved, distributed centralized deployment of software products is quickly realized, simultaneous safety authentication among multiple tenants is realized, and the software products are used online at the same time;

the method not only breaks through the traditional butt joint mode of the interconnection of the bank and the enterprise, but also is not limited to a special line and a local deployment mode, fully utilizes a cloud SaaS mode, exerts the advantages of the Internet, reduces the informatization investment cost of enterprises, simultaneously supports the independent configuration of users and the opening and closing of various data information interfaces through configuration files, and does not need to invest in research and development cost;

the method not only enables the enterprise soft certificate cloud to carry out uniform security management and accords with the national trusted cloud authentication system, but also realizes complete data isolation when multiple tenants use the integrated system simultaneously through safe certificate path database table configuration management; meanwhile, enterprise users can use the network only by the presence of the network; the system completely conforms to a cloud SaaS mode, is free from installation, maintenance and upgrade, and also supports unlimited transverse extension of the server and butt joint of other financial products of a bank;

each enterprise of the invention has a unique private key soft certificate and stores the private key soft certificate in a cloud server; the certificate management realizes various modes of physical encryption and soft encryption, and effectively manages the certificate security;

the data sheet of the invention stores the certificate path of the soft certificate, thus realizing multi-tenant, multi-database unified authentication, and completely isolating data among tenants without mutual influence when a plurality of groups of users use the integrated system;

the invention solves the regional problem, the application on any remote server can run through the Internet, the payment is carried out according to the requirement of the user, meanwhile, the unlimited server horizontal extension and distributed centralized deployment are supported, the online butt joint of other financial products of the bank is supported, the rapid deployment is realized, the good effect of simple application is achieved, and the online loan transaction can be provided.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a flow diagram of a bank-enterprise interconnection and docking method based on a SaaS mode;

fig. 2 is a structural block diagram of a bank-enterprise interconnection docking system based on a SaaS mode.

Detailed Description

The bank-enterprise interconnection and docking method and system based on the SaaS mode of the present invention are described in detail below with reference to the drawings and specific embodiments of the specification.

Example 1:

as shown in the attached drawing 1, the bank-enterprise interconnection and docking method based on the SaaS mode comprises the following steps:

s1, a bank-enterprise encryption soft certificate is subjected to secondary encryption stored in a cloud server; the method comprises the following specific steps:

s101, carrying out secondary encryption through an MD5 algorithm to carry out security management on the enterprise soft certificate;

and S102, when the configuration soft certificate is read, performing double identity authentication of the database password and the enterprise ID, and successfully matching.

The bank enterprise soft certificate encryption soft certificate is characterized in that an enterprise soft certificate data storage table is designed in secondary encryption stored in a cloud server and is recorded by a table LSCOMPZX. The field names of the data storage table comprise company numbers, certificate names, database numbers, certificate addresses, authentication passwords and remark information.

S2, sharing and butting internal business data of the enterprise between the bank financial system and the enterprise informatization system, namely reading a certificate data table rule; the method comprises the following specific steps:

s201, providing a database configuration table, and storing the path of the enterprise software book;

s202, binding the tenant ID and the soft certificate of the database when the enterprise uses the cloud information system;

and S203, transmitting and confirming the data by using the data intermediate table.

S3, port allocation of configuration service butt joint: providing a table to record service bills and port information used by the service bills in the service system, and recording whether the information synchronization is successful or not; the port allocation for configuration service docking comprises an interface for realizing an enterprise information system and an interface for realizing an abstract class soft certificate interface.

The specific steps for realizing the enterprise information system interface are as follows:

s3011, carrying out unified management and execution operation on a bank-enterprise interconnection and docking Fang Zhuaqu interface;

s3012, processing logic classes by the service;

s3013, calling an external interface;

and S3014, updating the state.

The interface for realizing the interface side abstract type soft certificate interface is an interface abstracted by a database reading mode, and comprises methods of initialization, receiving, sending and destroying so as to meet the requirement of bank-enterprise interconnection services provided by different enterprises, and the interface is realized for specific enterprises, and the specific steps are as follows:

s3021, storing tools of the connection interface provided by the bank;

s3022, configuring a system log;

s3023, restricting the token access times of the newly added tenant;

s3024, setting the number of times of accessing the token interface;

s3025, token is a unique user identifier, and each link needs to be used in the same method, so that the link is uniformly realized in the place;

s3026, updating the interface data state to realize class realization;

s3027, putting the database into a state to realize class realization;

and S3028, acquiring the url with the HTTP request parameter.

S4, autonomous timing configuration service: polling to obtain data interface information, and making corresponding action according to the configuration file to finish the autonomous timing configuration of the user so as to meet different service requirements of the user;

s5, the system realizes distributed deployment: the system has the advantages that a plurality of tenants distinguish data information of different tenants through different identity IDs, the data are respectively stored in a plurality of tables or a plurality of schemas to realize data logic isolation and are dispersedly stored in a plurality of independent servers, so that the data isolation among the tenants is realized, the data of different tenants are stored on different servers or the data of a plurality of tenants are stored in different schemas or tables in the same database example, the system can be transversely and infinitely expanded in a system structure, the centralized storage of the servers is realized, and the reliability, the availability and the expansibility of the system are improved; the method comprises the following specific steps:

s501, storing data of a plurality of tables or schemas of a tenant in a server with different numbers (servers such as No. 1 and No. 2) in a scattered manner;

s502, after the system integration bidirectional handshake authentication succeeds, different IDs of data storage or application servers are obtained through the IDs, and then load balancing is performed to request connection to a corresponding WEB server or application server to obtain corresponding service data; wherein, the load balance adopts reverse proxy server Apache or Nginx;

s503, the operation user can automatically configure the needed data according to the functional requirements of different service modules. The system dynamically generates an internal business process according to the condition of configuration parameters, dynamically captures the transmission business data wanted by a user in real time according to the process, and finally generates parameter setting of interface communication of system butt joint through certain rule comparison to realize the interconnection between the bank and the enterprise;

s504, when business interaction occurs, the bank financial system and the enterprise informatization system interact in real time to realize high sharing of data;

and S505, updating the state of the integrated comparison table, and keeping the reliability and consistency of the docking system.

Example 2:

as shown in fig. 2, the bank-enterprise interconnection and docking system based on the SaaS mode of the present invention includes a cloud certificate secrecy storage module, a bank-enterprise financial device, a security authentication module, a data extraction module, and an enterprise informatization module, wherein the cloud certificate secrecy storage module is used for reading the security authentication module; the bank and enterprise financial equipment is used for authenticating the security authentication module; the safety authentication module is used for carrying out data interaction with the data extraction module; and the data extraction module is used for the security authentication enterprise informatization module.

Example 3:

the bank-enterprise interconnection and docking method based on the SaaS mode is specifically implemented as follows:

A. encrypting and storing an enterprise soft certificate configuration data table, designing an enterprise soft certificate data storage table, and recording by using a table LSCOMPZX, wherein the table is as follows:

field numbering	Name of field	Field type	Description of the invention
				LSCOMPZX_ID	Company number	Varchar(20)	Company with unique identification
LSCOMPZX_ZSMC	Certificate name	Varchar(60)	Through secondary encryption
				LSCOMPZX_DBID	Database numbering	Varchar(30)	Unique identifier of database
LSCOMPZX_ZSADD	Certificate address	Varchar(100)	Certificate-preserving link address
				LSCOMPZX_PWD	Authentication password	Varchar(30)	Password for reading certificate
LSCOMPZX_NOTE	Remark information	Varchar(100)	Remark information

B. Reading the certificate data table rules, the main codes are as follows:

C. service port configuration setting:

(1) the enterprise information system interface is realized, and main codes are as follows:

(2) the interface side abstract class is realized, and main codes are as follows:

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D. autonomous timing service configuration, the main codes are as follows:

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E. the system realizes distributed deployment, and the main codes are as follows:

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finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and these modifications or substitutions do not depart from the spirit of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A bank-enterprise interconnection and docking method based on a SaaS mode is characterized by comprising the following steps:

s1, a bank-enterprise encryption soft certificate is subjected to secondary encryption stored in a cloud server;

s2, sharing and butting internal business data of the enterprise between the bank financial system and the enterprise informatization system, namely reading a certificate data table rule;

s3, configuring port allocation of service docking: providing a table to record service bills and used port information in a service system, and recording whether information synchronization is successful or not;

s4, autonomous timing configuration service: polling to obtain data interface information, and making corresponding action according to the configuration file to finish the autonomous timing configuration of the user so as to meet different service requirements of the user;

s5, realizing distributed deployment by the system: a plurality of tenants of the system distinguish data information of different tenants through different identity IDs, data are stored in a plurality of tables or a plurality of schemas respectively to realize data logic isolation and are stored in a plurality of independent servers in a dispersed mode, data isolation among the plurality of tenants is realized, data of different tenants are stored on different servers or data of the plurality of tenants are stored in different schemas or tables in the same database example, the system can be transversely and infinitely expanded in a system structure, centralized storage of the servers is realized, and reliability, usability and expansibility of the system are improved.

2. The bank-enterprise interconnection and docking method based on the SaaS mode as claimed in claim 1, wherein the bank-enterprise encryption soft certificate in the step S1 is subjected to secondary encryption stored in a cloud server, and the specific steps are as follows:

s101, carrying out secondary encryption through an MD5 algorithm to carry out security management on the enterprise soft certificate;

and S102, when the configuration soft certificate is read, performing double identity authentication of the database password and the enterprise ID, and successfully matching.

3. The bank-enterprise interconnection docking method based on the SaaS mode as claimed in claim 1 or 2, wherein the concrete steps of implementing enterprise internal business data sharing docking between the bank financial system and the enterprise information system in the step S2 are as follows:

s201, providing a database configuration table, and storing the enterprise software book path;

s202, binding the tenant ID and the soft certificate of the database when the enterprise uses the cloud information system;

and S203, transmitting and confirming the data by using the data intermediate table.

4. The bank-enterprise interconnection docking method based on the SaaS mode as claimed in claim 3, wherein the port allocation for configuring service docking in the step S3 includes implementation of an enterprise information system interface and implementation of an interface-side abstract class soft certificate interface.

5. The bank-enterprise interconnection and docking method based on the SaaS mode as claimed in claim 4, wherein the specific steps for realizing the enterprise information system interface are as follows:

s3011, carrying out unified management and execution operation on a bank-enterprise interconnection and docking Fang Zhuaqu interface;

s3012, service processing logic class;

s3013, calling an external interface;

and S3014, updating the state.

6. The bank-enterprise interconnection and docking method based on the SaaS mode as claimed in claim 5, wherein the interface-side abstract type soft certificate interface is an interface obtained by abstracting a database reading mode, and the interface comprises methods of initialization, receiving, sending and destroying so as to meet bank-enterprise interconnection services provided by different enterprises, and the specific steps are as follows:

s3021, storing tools of the connection interface provided by the bank;

s3022, configuring a system log;

s3023, restricting the number of times of token access of a newly added tenant;

s3024, setting the number of times of accessing the token interface;

s3025, token is a unique user identifier, and each link needs to be used in the same method, so that the link is uniformly realized in the place;

s3026, updating the interface data state to realize class implementation;

s3027, putting the database into a state to realize class realization;

and S3028, acquiring the url with the HTTP request parameter.

7. The SaaS mode-based bank-enterprise interconnection and docking method as claimed in claim 6, wherein the bank-enterprise encryption soft certificate designs an enterprise soft certificate data storage table in secondary encryption stored in a cloud server, and records the table LSCOMPZX.

8. The SaaS mode-based bank-enterprise interconnection and docking method as claimed in claim 7, wherein the field names of the data storage table include company numbers, certificate names, database numbers, certificate addresses, authentication passwords, and remark information.

9. The bank-enterprise interconnection and docking method based on the SaaS mode as claimed in claim 8, wherein the specific steps of the system in the step S5 for realizing distributed deployment are as follows:

s501, data of a plurality of tables or schemas of the tenant are stored on servers with different numbers in a scattered mode;

s502, after the system integration bidirectional handshake authentication succeeds, different IDs of data storage or application servers are obtained through the IDs, and then load balancing is performed to request connection to a corresponding WEB server or application server to obtain corresponding service data; wherein, the load balance adopts reverse proxy server Apache or Nginx;

s503, the operation user can automatically configure the required data according to the functional requirements of different service modules; the system dynamically generates an internal business process according to the condition of configuration parameters, dynamically captures the transmission business data wanted by a user in real time according to the process, and finally generates parameter setting of interface communication of system butt joint through certain rule comparison to realize the interconnection between the bank and the enterprise;

s504, when business interaction occurs, the bank financial system and the enterprise informatization system interact in real time to realize high sharing of data;

and S505, updating the state of the integrated comparison table, and keeping the reliability and consistency of the docking system.

10. A bank-enterprise interconnection docking system based on a SaaS mode is characterized by comprising a cloud certificate secrecy storage module, bank-enterprise financial equipment, a security authentication module, a data extraction module and an enterprise informatization module, wherein the cloud certificate secrecy storage module is used for reading the security authentication module; the bank and enterprise financial equipment is used for authenticating the security authentication module; the safety authentication module is used for carrying out data interaction with the data extraction module; the data extraction module is used for safely authenticating the enterprise informatization module;

the cloud certificate secret storage module is used for secondary encryption of the bank-enterprise encrypted soft certificate stored in the cloud server;

the bank-enterprise financial equipment is used for realizing the sharing and butt joint of business data in an enterprise between a bank financial system and an enterprise informatization system, namely reading the rule of a certificate data table;

the safety authentication module is used for configuring port allocation of service butt joint, namely, a providing table records service bills in a service system and port information used by the service bills, and records whether information synchronization succeeds or not;

the data extraction module is used for autonomously configuring service at regular time, namely polling to acquire data interface information, and making corresponding action according to the configuration file to finish autonomous timed configuration of a user and meet different service requirements of the user;

the enterprise information module is used for realizing distributed deployment of the system, namely a plurality of tenants of the system distinguish data information of different tenants through different identity IDs, the data are respectively stored in a plurality of tables or a plurality of schemas to realize data logic isolation, and are dispersedly stored in a plurality of independent servers to realize data isolation among the multiple tenants, the data of different tenants are stored on different servers or the data of the multiple tenants are stored in different schemas or tables in the same database instance, the system can transversely expand a system structure in an infinite level, the centralized storage of the servers is realized, and the reliability, the availability and the expansibility of the system are improved.

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