CN106970547A - Smart card card maker control system and method - Google Patents

Abstract

The present invention provides a kind of smart card card maker control system and method, the system includes management center server and thin client, management center server includes task processing server and device management server thin client includes control server, and control server is used to receive the fabrication solicited message that task processing server is sent；Also include fabrication server, fabrication server is electrically connected with control server, and for receiving the fabrication numbering data in the fabrication solicited message that control server is sent, fabrication server obtains after fabrication data from management center server, fabrication data is sent to card maker；Also include monitoring of tools server, monitoring of tools server receives the status data of card maker, status data is sent to device management server.This method realizes the control to smart card card maker including the use of above-mentioned control system.Fabrication data quickly can be written to smart card by the present invention, and the input of card maker is very convenient with exiting.

Description

Smart card card maker control system and method

Technical field

The present invention relates to field of intelligent cards, control system and fabrication more particularly, to a kind of smart card card maker are set Standby control method.

Background technology

Smart card, which is also known as in chip, IC-card or CPU card, smart card, is generally integrated a chip, and chip can be run The operating system COS of smart card, and various application modules can be run in the operating system of smart card, such as pay Application module so that smart card possesses payment function.It is many to smart card write-in due to being needed in smart card production process Kind of data, if desired for write-in initialization data, pre- personal data and personal data, therefore the production process bag of smart card Include manufacture card base process, in addition to smart card write data process.

, it is necessary to write data to the chip on each Zhang Kaji using card maker when writing data to smart card, due to The data of smart card are provided by card sending mechanism, therefore card maker needs to obtain from the server of card sending mechanism by network Fabrication data are taken, and fabrication data are written in corresponding smart card.

Generally, card sending mechanism is bank, bus company, purchase card card sending mechanism etc., and these mechanisms will be every by network The data of one sheet smart card are sent to multiple manufacturers, and manufacturer is usually provided with many card makers, and card maker leads to The dedicated network for crossing encryption is obtained after fabrication data, and fabrication data are written in the chip of smart card.

Because the security requirement of fabrication data is high, therefore the server of card sending mechanism is needed in real time to card maker Data are sent, card maker is received needs that received data is written in smart card immediately after data.But, if system There are abnormal conditions in card apparatus, causes the write-in failure of fabrication data, it is necessary to which the server of card sending mechanism resends data.So And, present situation is that the server of card sending mechanism is often difficult to the running status of monitoring card maker in real time, leads to not standard Really, the running situation of card maker is obtained in time, when abnormal conditions occurs in card maker, it would still be possible to continue to card maker Send fabrication data, be so easily caused the risk of fabrication data leak, also easily mistake think response fabrication data Through being successfully written in smart card, cause fabrication mistake.

Further, since communicated between the server and card maker of card sending mechanism by dedicated network, therefore fabrication The increase or reduction of equipment are all not easy very much, very unfavorable with exiting to the equipment investment of manufacturer.

The content of the invention

The problem of in order to solve above-mentioned, the main object of the present invention be to provide one kind can in time by fabrication data send to Card maker and can monitor card maker running status smart card card maker control system.

It is a further object of the present invention to provide a kind of smart card card maker for ensuring that intelligent card data is timely, being correctly written in Control method.

To realize above-mentioned main purpose, the control system for the smart card card maker that the present invention is provided includes administrative center Server and thin client, management center server include task processing server and device management server thin client Including control server, control server is used to receive the fabrication solicited message that task processing server is sent；Also include fabrication Server, fabrication server is electrically connected with control server, and for receiving in the fabrication solicited message that control server is sent Fabrication numbering data, and fabrication server from management center server obtain fabrication data after, fabrication data are sent to system Card apparatus；Also include monitoring of tools server, monitoring of tools server receives the status data of card maker, and by status number According to transmission to device management server.

From such scheme, the management center server of card sending mechanism can be by task processing server by fabrication number According to sending to thin client, card maker is then sent data to by thin client, certainly, thin client can with it is many Platform card maker connects and obtains the running status of many card makers, or sends fabrication data to many card makers. So, the fabrication data of management center server timely can be sent to card maker by thin client, and in fabrication When abnormal conditions occurs in equipment, the running state data of card maker can timely be sent to administrative center and taken by thin client Business device, management center server can timely obtain the running state data of each card maker, determine whether to need Continue to send card maker to card maker, so that it is guaranteed that transmitted fabrication data can correctly be written to smart card Chip in.

Further, since card maker is not directly to be communicated with management center server, but pass through thin client Communicated, therefore the manufacturer of smart card only needs to set one or many thin clients, card maker can connect It is connected on thin client, for example, thin client and card maker is arranged in a LAN, so, the input of card maker It is very convenient with exiting.

One preferred scheme is that thin client is provided with USB interface, and fabrication server is set by USB interface with fabrication Standby communication.

As can be seen here, thin client is communicated by USB interface with card maker, it is ensured that thin client and card maker Between communication in time, it is smooth, compared to communication, the security of USB interface is higher, and communication speed can be obtained Ensure.

Further scheme is that monitoring of tools server is communicated by USB interface and card maker.Due to monitoring of tools clothes It is also to be communicated by USB interface to be engaged between device and card maker, it can be ensured that monitoring of tools server can be obtained in time The running state data of card maker.In addition, thin client can set a USB interface, fabrication server and Supervision Control server can share a USB interface and be communicated with card maker, can so reduce the quantity of USB interface.Or, Fabrication server and monitoring of tools server are respectively communicated using a USB interface with card maker, so may insure Communication quality between fabrication server and card maker, is also ensured that logical between monitoring of tools server and card maker Interrogate quality.

To realize above-mentioned another object, the control method for the smart card card maker that the present invention is provided includes administrative center The task processing server of server sends fabrication solicited message to thin client, and the control server of thin client receives fabrication After solicited message, the fabrication numbering data of fabrication solicited message are sent to the fabrication server of thin client；Fabrication server Fabrication data are obtained from task processing server, fabrication data are sent to card maker, card maker writes fabrication data Into smart card；Monitoring of tools server on thin client obtains the running state data of card maker, and by running status Data are sent to the device management server of management center server.

From such scheme, management center server can be sent fabrication data to thin by task processing server Client computer, card maker is sent data to by thin client, so, and the fabrication data of management center server can be timely Sent by thin client to card maker.Also, when there are abnormal conditions in card maker, thin client can timely by The running state data of card maker is sent to management center server, and management center server can timely obtain each The running state data of card maker, determines whether to need to continue to send card maker to card maker, so that it is guaranteed that institute The fabrication data of transmission correctly can be written in the chip of smart card.

One preferred scheme is that control server is received after fabrication solicited message, judges setting in fabrication solicited message Whether standby coding is consistent with the device coding of thin client, such as inconsistent, then ignores fabrication solicited message.

As can be seen here, control server is received after fabrication solicited message, it is necessary to which checking the coding of fabrication solicited message is It is no consistent with the device coding of itself, so that it is guaranteed that the fabrication number that the fabrication data received, which are the thin clients, to be received According to so as to avoid passing through the fabrication data of card maker write error.

Further scheme is that fabrication server sends fabrication data to card maker, to task processing server Send fabrication data and send confirmation, also, task processing server receives fabrication data and sent after confirmation, and will be right The fabrication data markers answered are to have sent data.

It can be seen that, fabrication server feeds back the information that fabrication data send confirmation, Ke Yirang to task processing server in time Which fabrication data management center server records in time has been sent, it is to avoid the repetition of fabrication data is sent.

Further scheme is that running state data at least includes fabrication status data, card maker status data, card One in piece status data, card maker consumptive material status data.

As can be seen here, monitoring of tools server feeds back the current operation of such as card maker to equipment control in time without service The data such as state, fabrication state, card mode, can effectively allow device management server to obtain the shape of current card maker State, so as to find the abnormal conditions of card maker in time, sending card maker for management center server provides foundation.

Brief description of the drawings

Fig. 1 is the structured flowchart of the control system embodiment of smart card card maker of the present invention.

Fig. 2 is the flow chart of the control method embodiment of smart card card maker of the present invention.

Below in conjunction with drawings and Examples, the invention will be further described.

Embodiment

The control system of the smart card card maker of the present invention is used to be controlled the card maker of smart card, including to The card maker of smart card sends fabrication data, and monitors the running status of card maker.The smart card fabrication of the present invention is set Standby control method exactly application control system realizes the control to card maker.

When making smart card, the manufacturer of smart card needs the initial data that the card sending mechanism for obtaining smart card is provided, These initial data may be constructed fabrication data, or be used as a part of data of fabrication data.Card sending mechanism is typically bank Deng the card sending mechanism of debit card, credit card, and the initial data that bank provides can include the data for needing to write to smart card, Card number, card property, the smart card of such as smart card need application program to be mounted.The manufacturer of smart card receives hair fastener , it is necessary to which the data that card sending mechanism is provided are written in smart card after the data that mechanism is provided.

Referring to Fig. 1, the fabrication data storage of card sending mechanism on management center server 10, management center server 10 by Card sending mechanism is managed, and management center server 10 includes task processing server 11 and device management server 12, wherein Task processing server 11 is used to be managed fabrication task, including sends fabrication data, monitors the process of fabrication task.And Device management server 12 is then used to be monitored the running status of card maker 30, in order to which operation maintenance personnel passes through in management Central server 10 understands the state of card maker 30 in time.

The manufacturer of smart card is provided with thin client 20 and card maker 30, the present embodiment, a smart card Manufacturer can set many thin clients 20, and the smart card factory that management center server 10 can be different from many The thin client 20 of family is communicated.Namely management center server 10 can be communicated with multiple thin clients 20, and These thin clients 20 can be the thin client that same smart card manufacturer uses or many different productions The thin client that producer uses.

Thin client 20 includes at least one Embedded chip, and is provided with memory etc..It is each in the present embodiment Platform thin client 20 includes a control server 21, fabrication server 22 and monitoring of tools server 23, wherein, control clothes Business device 21 can be a chip being arranged in thin client 20, and control server 21 has independent service ability, can To be communicated with management center server 10.It is preferred that, the communication between task processing server 11 and control server 21 (Message Queuing Telemetry Transport, MQTT) agreement, task processing are transmitted using message queue remote measurement Server 11 is used to send fabrication solicited message to control server 21, is sent out with the data for informing the fabrication in need of thin client 20 Deliver to thin client 20.

Control server 21 is received after fabrication solicited message, and fabrication solicited message is sent to fabrication server 22, system Card server 22 is received after fabrication solicited message, will recognize the device coding in fabrication solicited message, if fabrication request letter Device coding in breath is identical with the device coding of current thin client 20, then judges management center server 10 to current thin Client computer 20 sends fabrication solicited message, and otherwise, judging management center server 10 is sent to current thin client 20 Fabrication solicited message, then ignore currently received fabrication solicited message.

Fabrication server 22 is received after fabrication solicited message, and information is sent to task processing server 11, to ask to obtain Take fabrication data.Because the security requirement of fabrication data is high, thus management center server 10 and fabrication server 22 it Between communicated by encrypted tunnel, for example communicated by HPPTS encrypted tunnels.Task processing server 11 is also to pass through Encrypted tunnel sends fabrication data to fabrication server 22, and fabrication data include the data of each sheet smart card, such as individualizedization Data and pre- personal data etc..

Fabrication server 22 is received after fabrication data, and fabrication data are sent to card maker 30.In the present embodiment, one Platform thin client 20 can be connected and be communicated with many card makers 30.It is preferred that, it is provided with USB on thin client 20 Interface, thin client 20 is communicated by USB interface with card maker 30, therefore between thin client 20 and card maker 30 Be wired connection and communicated, therefore ensure that data transmission security between thin client 20 and card maker 30 and Message transmission rate.

Card maker 30 is received after fabrication data, and fabrication data are written in the chip of smart card, so as to realize intelligence The writing operation that can block.In the present embodiment, monitoring of tools is provided with the operation of card maker 30, thin client 20 to monitor Server 23, card maker 30 sends the current status data of card maker 30 to monitoring of tools service in card production course Device 23.It is preferred that, monitoring of tools server 23 is also to be communicated by USB interface with card maker 30, it is ensured that the stream of communication Smooth property.

For example, setting a USB interface on thin client 20, fabrication server 22 and monitoring of tools server 23 lead to The USB interface is crossed to be communicated with card maker 30.Or, multiple USB interfaces, fabrication server are set on thin client 20 22 are communicated by a USB interface and card maker 30, and monitoring of tools server 23 passes through another USB interface and system Card apparatus 30 is communicated.

Monitoring of tools server 23 is obtained after the current running state data of card maker 30, by the operation of card maker 30 Status data is sent to the device management server 12 of management center server 10.So, the operation maintenance personnel of card sending mechanism Easily to obtain the running status that card maker 30 is current, and once find that abnormal conditions occurs in card maker 30, you can To be quickly controlled to task processing server 11, to avoid continuing sending fabrication data to the card maker 30.

In the present embodiment, monitoring of tools server 23 is also to be communicated by encrypted tunnel with device management server 12 , data are for example sent by HPPTS encrypted tunnels, to ensure the security of transmitted data.

The control method realized with reference to Fig. 2 control systems for introducing smart card card maker.First, in management Central server is got after fabrication data, is sent fabrication solicited message to thin client by task processing server, that is, is performed Step S1.Generally, fabrication data are sent on management center server by card sending mechanism, and management center server receives fabrication After data, i.e., send fabrication solicited message to thin client.Because management center server can be sent to many thin clients Fabrication solicited message, but only that wherein one thin client response fabrication solicited message.Therefore, administrative center services The fabrication solicited message that device is sent includes device coding, and the device coding is the device coding of a certain bar thin client.

Thin client is received after fabrication solicited message, and the equipment obtained by control server in the fabrication solicited message is compiled Code, checks whether identification coding is consistent with the device coding of thin client, if consistent with the device coding of thin client, table Show that management center server sends fabrication solicited message to the thin client, if it is inconsistent, received system can be ignored Card solicited message.

If the device coding that the fabrication solicited message that thin client is received is included is identical with the device coding of oneself, The fabrication solicited message is sent from control server to fabrication server, that is, performs step S2.Fabrication server receives fabrication Solicited message, that is, obtain fabrication task, it is therefore desirable to obtains the fabrication data that card sending mechanism is provided from management center server, In order to which fabrication data are written in smart card.Also, fabrication data also include fabrication numbering data, in order to be asked to fabrication Ask the identification of information.

Therefore, after fabrication server receives fabrication solicited message, step S3 is performed, is sent to management center server Solicited message, transmitted solicited message includes fabrication numbering data.Task processing server is received after solicited message, root Sent according to the corresponding fabrication data of fabrication numbering data search, and by the fabrication data found to fabrication server.It is preferred that , task processing server is sent fabrication data to fabrication server by encrypted tunnel, such as will by HPPTS encrypted tunnels Fabrication data are sent to fabrication server, so that it is guaranteed that the transmission safety of fabrication data.

Fabrication server is received after fabrication data, performs step S4, and fabrication data, card maker are sent to card maker Receive after fabrication data, the fabrication data received are written in the chip of smart card.Also, fabrication server receives system After card data, in addition it is also necessary to send fabrication data to task processing server and send confirmation, to represent the success of fabrication server Receive fabrication data.Task processing server receives fabrication data and sent after confirmation, by corresponding fabrication data markers To have sent data, that is, record corresponding fabrication data and sent success, it is to avoid be follow-up to repeat to send fabrication data.This In embodiment, fabrication server is connected by USB interface with card maker, thereby, it is ensured that fabrication data can safely, quickly It is transferred to card maker.

When card maker is run, monitoring of tools server obtains the running state data of card maker, that is, performs step S5.In the present embodiment, the card maker status data acquired in monitoring of tools server includes fabrication status data, card maker Status data, card mode data, card maker consumptive material status data are medium, can be one in above-mentioned data, can also It is multiple in above-mentioned data.Wherein, the consumptive material status data of card maker can include the colour band service condition of card maker Etc. data, in addition, monitoring of tools server can also monitor the essential information for the card base deposited on card maker, such as card radix According to, version etc..

In the present embodiment, monitoring of tools server is communicated by the USB interface on thin client and card maker, from And ensure the running state information of card maker and quickly transmit into monitoring of tools server.For example, being set on thin client One USB interface, fabrication server and monitoring of tools server share a USB interface and using the USB interface and system Card server is communicated.Or, multiple USB interfaces are set on thin client, and fabrication server uses a USB interface and system Card apparatus is communicated, and monitoring of tools server is communicated using another USB interface and card maker.

Finally, monitoring of tools server performs step S6, by the status data transfers of the card maker of acquisition into managing The device management server of central server, so, operation maintenance personnel can obtain card maker by device management server in time Running state data, once abnormal conditions occurs in card maker, operation maintenance personnel is that can be obtained by device management server Corresponding information, and stopped from task processing server to corresponding thin client transmission fabrication data, it is to avoid the system of transmission Card data can not be written in smart card in time.

In the present embodiment, thin client can be arranged in a LAN with card maker, so, the production of smart card Producer can set one or many card makers in LAN according to actual needs, and operation maintenance personnel can be with very convenient Understanding each card maker running status, so that timely different fabrication data are sent to suitable Thin clients Machine, to ensure that fabrication data timely can be written in smart card.

It can be seen that, by the control system of smart card card maker, especially set after thin client, can allow fabrication data Quickly it is transferred on card maker, card maker can also be allowed efficiently to put into and exit, the running status of card maker Data also can be transmitted quickly to management center server, be conducive to the quick Fabrication of smart card.

Certainly, above-described embodiment is only the preferred embodiment of the present invention, during practical application, and the present invention is also more Change, for example, the running status number acquired in the change of the quantity for the USB interface that thin client is set, monitoring of tools server According to change, such change can also realize the purpose of the present invention.

Claims (10)

1. the control system of smart card card maker, including：

Management center server, including task processing server and device management server；

It is characterized in that：

The control system also includes thin client, and the thin client includes

Server is controlled, the control server is used to receive the fabrication solicited message that the task processing server is sent；

Fabrication server, the fabrication server is electrically connected with the control server, and for receiving the control server Fabrication numbering data in the fabrication solicited message sent, and the fabrication server obtains system from the management center server After card data, the fabrication data are sent to card maker；

Monitoring of tools server, the monitoring of tools server receives the status data of the card maker, and by the shape State data are sent to the device management server.

2. the control system of smart card card maker according to claim 1, it is characterised in that：

The thin client is provided with USB interface, and the fabrication server is led to by the USB interface and the card maker News.

3. the control system of smart card card maker according to claim 2, it is characterised in that：

The monitoring of tools server is communicated by the USB interface and the card maker.

4. the control method of smart card card maker, it is characterised in that including：

The task processing server of management center server sends fabrication solicited message, the control of the thin client to thin client Control server is received after the fabrication solicited message, and the fabrication numbering data of the fabrication solicited message are sent to the thin visitor The fabrication server of family machine；

The fabrication server obtains fabrication data from the task processing server, and the fabrication data are sent to fabrication and set Standby, the fabrication data are written in smart card by the card maker；

Monitoring of tools server on the thin client obtains the running state data of the card maker, and by the operation Status data is sent to the device management server of the management center server.

5. the control method of smart card card maker according to claim 4, it is characterised in that：

The control server is received after the fabrication solicited message, judges whether is device coding in the fabrication solicited message It is consistent with the device coding of the thin client, it is such as inconsistent, then ignore the fabrication solicited message.

6. the control method of the smart card card maker according to claim 4 or 5, it is characterised in that：

The fabrication server sends the fabrication data to the card maker, is sent to the task processing server Fabrication data send confirmation.

7. the control method of smart card card maker according to claim 6, it is characterised in that：

The task processing server receives the fabrication data and sent after confirmation, is by corresponding fabrication data markers Data are sent.

8. the control method of the smart card card maker according to claim 4 or 5, it is characterised in that：

The running state data is at least set including fabrication status data, card maker status data, card mode data, fabrication One in standby consumptive material status data.

9. the control method of the smart card card maker according to claim 4 or 5, it is characterised in that：

Data interaction is carried out by encrypted tunnel between the management center server and the thin client.

10. the control method of the smart card card maker according to claim 4 or 5, it is characterised in that：

The thin client is provided with USB interface, and the fabrication server is led to by the USB interface and the card maker News, and the monitoring of tools server passes through the USB interface and card maker communication.