JP3708878B2 - IC card handling terminal evaluation system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an evaluation system for an IC card handling terminal that evaluates an IC card handling terminal that handles IC cards in an order predetermined by a processing sequence.
[0002]
[Prior art]
In recent years, due to security problems, credit cards and the like have been moved from magnetic cards provided with magnetic tapes to IC cards. In a POS terminal as an IC card handling terminal that handles this IC card, processing is executed based on a processing sequence determined in advance with the IC card to be handled.
[0003]
For this reason, in an evaluation system as a simulator for evaluating an IC card handling terminal, an evaluation process based on a predetermined processing sequence is performed.
[0004]
Therefore, there is a drawback in that it is not possible to evaluate a plurality of IC card handling terminals each handling an IC card having a different processing sequence in one system.
[0005]
[Problems to be solved by the invention]
An object of the present invention is to provide an evaluation system for an IC card handling terminal capable of performing evaluation on a plurality of IC card handling terminals each handling an IC card having a different processing sequence by one system.
[0006]
[Means for Solving the Problems]
  An evaluation system for an IC card handling terminal according to the present invention comprises:DifferentIC cards are handled in the order determined in advance by the processing sequence.pluralIn evaluating IC card handling terminals,A dummy card set in place of the IC card with respect to the IC card handling terminal, and an evaluation terminal connected to the dummy card and evaluating whether the IC card handling terminal is valid or not, the dummy card Transmits a command from the IC card handling terminal to the evaluation terminal and sends response data from the evaluation terminal to the IC card handling terminal. The evaluation terminal is a dummy from the IC card handling terminal. The command supplied to the card and the corresponding commandA storage means for adding the information related to the next process to the group information obtained by dividing the set of response processing contents into groups based on the order of the processing sequence, and the IC card handling terminalVia the dummy cardBy the command sequentially supplied and the stored contents stored in the storage means,The above IC card handling terminalDetermination means for determining validity.
  An evaluation system for an IC card handling terminal according to the present invention evaluates a plurality of IC card handling terminals handling IC cards in a predetermined order by different processing sequences. Instead, it is composed of a dummy card that is set, and an evaluation terminal that is connected to the dummy card and evaluates whether the IC card handling terminal is valid. The dummy card receives a command from the IC card handling terminal. The evaluation terminal transmits response data from the evaluation terminal to the IC card handling terminal, and the evaluation terminal corresponds to a command supplied to the dummy card from the IC card handling terminal and the command. Group of response processing contents to be divided into groups based on processing sequence order The storage means for adding the information related to the next processing to the loop information and storing it, the commands sequentially supplied from the IC card handling terminal via the dummy card, and the storage contents stored in the storage means, First determination means for determining the legitimacy of the IC card handling terminal, and a response corresponding to the activation command determined by the first determination means are returned to the IC card handling terminal via the dummy card. 1 return means and supply of the command corresponding to the group number to be processed next added to the activation command determined by the first determination means from the IC card handling terminal via the dummy card. A first waiting means for waiting, and the IC card handling terminal via the dummy card when waiting by the first waiting means. Second determination means for determining the supply of the corresponding command, and when the supply of the corresponding command is determined by the second determination means, a response corresponding to the command is sent to the IC via the dummy card. A second return means for returning to the card handling terminal, and the dummy card from the IC card handling terminal of the command corresponding to the group number to be processed next added to the command judged by the second judgment means. And a second waiting means for waiting for the supply.
[0007]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an evaluation system for an IC card handling terminal according to an embodiment of the present invention will be described with reference to the drawings.
[0008]
As shown in FIGS. 1 and 2, the terminal evaluation system 1 of the present invention is a tool for evaluating IC card terminals (IC card handling terminals) 2a, 2b,. Is.
[0009]
As shown in FIGS. 1 and 2, the terminal evaluation system 1 includes a dummy card 3, a level converter 4, and a personal computer (personal computer) 5 as a control unit.
[0010]
The dummy card 3 is set in place of the IC card when the IC card terminals 2a, 2b,... Are evaluated. The dummy card 3 includes a contact portion 3a and a substrate 3b on which only the contact portion 3a is mounted. Has been.
[0011]
The level converter 4 adjusts the signal level handled by the IC card terminals 2a, 2b,... And the signal level handled by the personal computer 5, or converts the signal protocol.
[0012]
The personal computer 5 executes a sequence process for evaluating a terminal based on a script as a description expression stored in advance.
[0013]
As shown in FIGS. 1 and 2, the personal computer 5 includes a CPU 11 for controlling the whole personal computer 5, a control program, an HDD 12 for storing a script as a description expression for simulation, a RAM 13 for data storage, various instructions, and the like. Is configured by a keyboard 14 and a display unit 15 on which instruction contents and the like are displayed.
[0014]
The personal computer 5 and the level converter 4 are connected by an interface such as 282C or USB.
[0015]
The terminal evaluation system 1 is an example of an IC card simulator, and implements the function of an IC card using a personal computer. The evaluation is performed by inserting a card-shaped interface into the IC card terminals 2a, 2b,. The terminal evaluation system 1 operates like the IC cards 8a and 8b, and can perform the function evaluation of the IC card terminals 2a, 2b,. Further, unlike the actual IC cards 8a and 8b, abnormal operations can be easily performed.
[0016]
The IC cards 8a and 8b operate in response to commands from the IC card terminals 2a, 2b,... And return responses to the commands. Therefore, the terminal evaluation system 1 is similarly operated by commands from the IC card terminals 2a, 2b,.
[0017]
The IC card terminals 2a, 2b,... Handle different types of IC cards 8a, 8b. For example, the IC card terminal 2a handles the IC card 8a for company A, and the IC card terminal 2b handles the IC card 8b for company B. The processing sequence differs between the IC card 8a for company A and the IC card 8b for company B. For example, the processing order and contents are different.
[0018]
The IC card terminal 2a (2b,...) Includes a CPU 21 for controlling the entire corresponding terminal, a ROM 22 for storing control programs, a RAM 23 for data storage, a keyboard 24 for inputting setting state instructions, and a process Display unit 25 for displaying contents, printer 26 for printing processing results, card reader / writer 27 for exchanging data with IC card 8a (8b,...) Or terminal evaluation system 1, password It consists of a numeric keypad 28 for input.
[0019]
The IC card terminals 2a, 2b,... May have different processing methods depending on the IC card terminals 2a, 2b,. For example, an example is shown in FIGS. This example is processing when reading a certain record. In the processing of the IC card terminals 2a, 2b,..., Necessary record information is read by a read command (READ RECORD command) after selecting a directory in which a record to be read exists (SELECT command). In the processing of the IC card terminals 2a, 2b,..., Without selecting a directory, a record is directly selected (READ RECORD command) in a read command, and necessary record information is read.
[0020]
As described above, even in the case of realizing the function of reading out necessary information, the processing method may be different depending on the IC card terminals 2a, 2b,.... It is necessary to absorb in the evaluation system 1.
[0021]
Even in the case where there is a difference in processing depending on the IC card terminals 2a, 2b,... The group management of the set is to easily absorb the difference in processing by the IC card terminal.
[0022]
A script that describes the response to a command is called a script. In the present invention, the operation of the terminal evaluation system 1 can be freely changed by the terminal evaluation system 1 reading the script. Write a command / response pair in the script. When a command is transmitted from the IC card terminals 2a, 2b,... To be evaluated, the terminal evaluation system 1 determines whether the command can be received in the current stage according to the script. If the command can be received, a response to the command is returned. Here, it is realized by checking a group of a command and response group when determining whether the command is receivable.
[0023]
As shown in FIG. 2, the IC card 8a (8b,...) Has a physical configuration including a control element 31, a data memory 32, a program memory 33, and a contact portion 34 for controlling the whole.
[0024]
The data memory 32 is used for storing various data, and is composed of an EEPROM (nonvolatile memory). The program memory 33 is composed of a mask ROM and stores a control program in advance. The contact part 34 serves as a contact point with the outside (card reader / writer 27).
[0025]
Data stored in the data memory 32 is managed as a tree structure image of a file as shown in FIG. That is, MF (master file), DF (digitized file), and EF (elementary file) are stored in a hierarchical structure. In the EF, data is recorded in record units or tags.
[0026]
The script as a description expression of the simulation stored in the HDD 12 in the personal computer 5 will be described with reference to FIG.
[0027]
A process (group) common to each IC card terminal 2a, 2b,... And a separate process of each IC card terminal 2a, 2b,. (Groups) are described separately.
[0028]
In group 1 as the first (first) process, a command is activated, a status is an initial response, and a next group is 2.
[0029]
In the group 2 as the second process, the command is described as READ RECORD, the status is data, and the next group is described as 3.
[0030]
In group 3 as the third process, the command is written as WRITE RECORD, the status is as normal status, and the next group is described as 4.
[0031]
In the group 3 as the third process, the command is described as READ RECORD, the status is data, and the next group is described as 5.
[0032]
In the group 4 as the fourth process, the command is described as READ RECORD, the status is data, and the next group is described as 6.
[0033]
In group 5 as the fifth process, the command is written as WRITE RECORD, the status is data, and the next group is described as 6.
[0034]
In group 6 as the sixth process, a command is described as VERIFY, a status as an abnormal status, and a next group as none.
[0035]
Groups 1, 2, and 6 are commonly processed for IC card terminals 2a, 2b,... Group 3 is individually processed for IC card terminals 2a, 2b,. Group 4 is processed individually for the IC card terminal 2a, and group 5 is processed individually for the IC card terminal 2b.
[0036]
As described above, when the order of performing the sequence processing for evaluating the IC card terminals 2a, 2b,... Is considered as a group, the expected value of the first command sent from the IC card terminals 2a, 2b,. Group. A normal response is returned in response to the command, and the command sent from the IC card terminals 2a, 2b,. By managing groups in this way, it is possible to easily return various responses to various commands from the IC card terminals 2a, 2b,.
[0037]
First, processing when the terminal evaluation system 1 performs a simulation of the IC card terminal 2a will be described with reference to a script description example shown in FIG. 6 and flowcharts shown in FIGS.
[0038]
For example, the simulation mode of the IC card terminal is set using the keyboard 14 and the display unit 15 of the personal computer 5 (ST1). As a result, the CPU 11 of the personal computer 5 determines the simulation mode of the IC card terminal (ST2), and enters a standby state for the first group described in the HDD 12 (ST3).
[0039]
Further, the dummy card 3 of the terminal evaluation system 1 is inserted into the IC card insertion slot (not shown) of the IC card terminal 2a (ST4). Then, the CPU 21 of the IC card terminal 2a generates an activation command based on the determination of insertion of the IC card (ST5), and transmits the generated activation command to the card reader / writer 27 (ST6). The card reader / writer 27 activates the IC card by an activation command. That is, power and a clock are supplied to the dummy card 3 and a signal for releasing the reset is output. These power supply, clock and signal for releasing the reset are supplied to the CPU 11 of the personal computer 5.
[0040]
As a result, when the power is supplied (ST7), the CPU 11 of the personal computer 5 reads the command for the first group described in the HDD 12 (ST8) and determines whether the command is a receivable command. (ST9).
[0041]
At this time, the CPU 11 of the personal computer 5 determines that the command is a receivable command, reads the initial response response as a status for the activation command described in the HDD 12 (ST10), and converts the level of the read initial response response. The data is transmitted to the CPU 21 of the IC card terminal 2a via the device 4, the dummy card 3, and the card reader / writer 27 (ST11).
[0042]
Further, the CPU 11 of the personal computer 5 determines that the next group for the activation command described in the HDD 12 is “2” (ST12), and enters a standby state for the second group described in the HDD 12 (ST13).
[0043]
Thereby, when the CPU 21 of the IC card terminal 2a receives the initial response response in response to the transmission of the activation command (ST14), the CPU 21 generates a read record command (ST15), and the generated read record command is sent to the card reader. The data is transmitted to the CPU 11 of the personal computer 5 through the writer 27, the dummy card 3, and the level converter 4 (ST16).
[0044]
Thereby, when the CPU 11 of the personal computer 5 receives the read record command (ST17), it reads the command for the second group described in the HDD 12 (ST18) and determines whether the command is a receivable command. (ST19).
[0045]
At this time, the CPU 11 of the personal computer 5 determines that the command is a receivable command, reads the data as the status for the read record command described in the HDD 12 (ST20), and reads the read data into the level converter 4 and the dummy The data is transmitted to the CPU 21 of the IC card terminal 2a via the card 3 and the card reader / writer 27 (ST21).
[0046]
Further, the CPU 11 of the personal computer 5 determines that the next group corresponding to the read record command described in the HDD 12 is “3” (ST22), and enters a standby state for the third group described in the HDD 12 (ST23).
[0047]
Thereby, when the CPU 21 of the IC card terminal 2a receives the data in response to the transmission of the read record command (ST24), it generates a write record command including the write data (ST25), and uses the generated write record command. The data is transmitted to the CPU 11 of the personal computer 5 via the card reader / writer 27, the dummy card 3, and the level converter 4 (ST26).
[0048]
Thereby, when the CPU 11 of the personal computer 5 receives the write record command (ST27), it reads the command for the third group described in the HDD 12 (ST28) and determines whether the command is a receivable command. (ST29).
[0049]
At this time, the CPU 11 of the personal computer 5 determines that the command is a receivable command, reads the normal status as the status for the write record command described in the HDD 12 (ST30), and converts the read normal status into the level converter 4 Then, the data is transmitted to the CPU 21 of the IC card terminal 2a via the dummy card 3 and the card reader / writer 27 (ST31).
[0050]
The CPU 11 of the personal computer 5 determines whether the command is a receivable command (ST32), and enters a standby state for the fourth group described in the HDD 12 (ST33).
[0051]
Thereby, when the CPU 21 of the IC card terminal 2a receives the normal status in response to the transmission of the write record command (ST34), it generates a read record command (ST35), and the generated read record command is sent to the card reader / writer. 27, the data is transmitted to the CPU 11 of the personal computer 5 through the dummy card 3 and the level converter 4 (ST36).
[0052]
As a result, when the CPU 11 of the personal computer 5 receives the read record command (ST37), it reads the command for the fourth group described in the HDD 12 (ST38) and determines whether the command is a receivable command. (ST39).
[0053]
At this time, the CPU 11 of the personal computer 5 determines that the command is a receivable command, reads data as a status for the read record command described in the HDD 12 (ST40), and reads the read data into the level converter 4 and the dummy. The data is transmitted to the CPU 21 of the IC card terminal 2a via the card 3 and the card reader / writer 27 (ST41).
[0054]
Further, the CPU 11 of the personal computer 5 determines that the next group for the read record command described in the HDD 12 is “6” (ST42), and enters a standby state for the sixth group described in the HDD 12 (ST43).
[0055]
As a result, when the CPU 21 of the IC card terminal 2a receives data in response to the transmission of the read record command (ST44), the display unit 25 guides the password input, and the keyboard 24 is input based on this guidance. A verify command including the password is generated (ST45), and the generated verify command is transmitted to the CPU 11 of the personal computer 5 via the card reader / writer 27, the dummy card 3, and the level converter 4 (ST46).
[0056]
As a result, when the CPU 11 of the personal computer 5 receives the verify command (ST47), it reads the command for the sixth group described in the HDD 12 (ST48) and determines whether the command is a receivable command (ST48). ST49).
[0057]
At this time, the CPU 11 of the personal computer 5 determines that the command is a receivable command, reads the normal status as the status for the verify command described in the HDD 12 (ST50), and converts the read normal status into the level converter 4, The data is transmitted to the CPU 21 of the IC card terminal 2a via the dummy card 3 and the card reader / writer 27 (ST51).
[0058]
Thereby, the CPU 21 of the IC card terminal 2b ends the process when receiving the normal status in response to the transmission of the verify command (ST54).
Further, the CPU 11 of the personal computer 5 determines that there is no next group for the verify command described in the HDD 12 (ST52), and ends a series of sequence processes (ST53).
[0059]
Further, an abnormal status may be described as the status for the verify command for the sixth group. In this case, the CPU 21 transmits an abnormal status at step 51.
[0060]
As a specific example of the above-described operation, the read record command transmitted in step 16 is a personal ID read command, the write record command transmitted in step 26 is a date write command, and is transmitted in step 36. The read record command is a read command for the number of visits to the store, and the verify command transmitted at step 46 is a password confirmation command.
[0061]
Next, processing when the terminal evaluation system 1 performs a simulation of the IC card terminal 2b will be described with reference to a script description example shown in FIG. 6 and flowcharts shown in FIGS.
[0062]
For example, the simulation mode of the IC card terminal is set using the keyboard 14 and display unit 15 of the personal computer 5 (ST101). As a result, the CPU 11 of the personal computer 5 determines the simulation mode of the IC card terminal (ST102), and enters a standby state for the first group described in the HDD 12 (ST103).
[0063]
Further, the dummy card 3 of the terminal evaluation system 1 is inserted into the IC card insertion slot (not shown) of the IC card terminal 2b (ST104). Then, the CPU 21 of the IC card terminal 2b generates an activation command based on the determination of insertion of the IC card (ST105), and transmits the generated activation command to the card reader / writer 27 (ST106). The card reader / writer 27 activates the IC card by an activation command. That is, power and a clock are supplied to the dummy card 3 and a signal for releasing the reset is output. These power supply, clock and signal for releasing the reset are supplied to the CPU 11 of the personal computer 5.
[0064]
Thereby, when power is supplied (ST107), the CPU 11 of the personal computer 5 reads the command for the first group described in the HDD 12 (ST108) and determines whether the command is a receivable command. (ST109).
[0065]
At this time, the CPU 11 of the personal computer 5 determines that the command is a receivable command, reads the initial response response as the status for the activation command described in the HDD 12 (ST110), and converts the level of the read initial response response. The data is transmitted to the CPU 21 of the IC card terminal 2a through the device 4, the dummy card 3, and the card reader / writer 27 (ST111).
[0066]
Further, the CPU 11 of the personal computer 5 determines that the next group for the activation command described in the HDD 12 is “2” (ST112), and enters a standby state for the second group described in the HDD 12 (ST113).
[0067]
Thereby, when the CPU 21 of the IC card terminal 2a receives the initial response response in response to the transmission of the activation command (ST114), it generates a read record command (ST115), and the generated read record command is sent to the card reader. The data is transmitted to the CPU 11 of the personal computer 5 via the writer 27, the dummy card 3, and the level converter 4 (ST116).
[0068]
As a result, when the CPU 11 of the personal computer 5 receives the read record command (ST117), it reads the command for the second group described in the HDD 12 (ST118) and determines whether the command is a receivable command. (ST119).
[0069]
At this time, the CPU 11 of the personal computer 5 determines that the command is a receivable command, reads data as a status for the read record command described in the HDD 12 (ST120), and reads the read data into the level converter 4 and the dummy. The data is transmitted to the CPU 21 of the IC card terminal 2b via the card 3 and the card reader / writer 27 (ST121).
[0070]
Further, the CPU 11 of the personal computer 5 determines that the next group corresponding to the read record command described in the HDD 12 is “3” (ST122), and enters a standby state for the third group described in the HDD 12 (ST123).
[0071]
Thus, when the CPU 21 of the IC card terminal 2b receives data in response to the transmission of the read record command (ST124), the CPU 21 generates a read record command (ST125), and uses the generated read record command as the card reader / writer 27. Then, the data is transmitted to the CPU 11 of the personal computer 5 via the dummy card 3 and the level converter 4 (ST126).
[0072]
As a result, when the CPU 11 of the personal computer 5 receives the read record command (ST127), it reads the command for the third group described in the HDD 12 (ST128) and determines whether the command is a receivable command. (ST129).
[0073]
At this time, the CPU 11 of the personal computer 5 determines that the command is a receivable command, reads data as a status for the read record command described in the HDD 12 (ST130), and reads the read data into the level converter 4 and the dummy. The data is transmitted to the CPU 21 of the IC card terminal 2b via the card 3 and the card reader / writer 27 (ST131).
[0074]
Further, the CPU 11 of the personal computer 5 determines that the next group corresponding to the read record command described in the HDD 12 is “5” (ST132), and enters a standby state for the fifth group described in the HDD 12 (ST133).
[0075]
Thereby, when the CPU 21 of the IC card terminal 2b receives the data in response to the transmission of the read record command (ST134), it generates a write record command including the write data (ST135), and the generated write record command is displayed. The data is transmitted to the CPU 11 of the personal computer 5 via the card reader / writer 27, the dummy card 3, and the level converter 4 (ST136).
[0076]
Thus, when the CPU 11 of the personal computer 5 receives the write record command (ST137), it reads the command for the fifth group described in the HDD 12 (ST138) and determines whether the command is a receivable command. (ST139).
[0077]
At this time, the CPU 11 of the personal computer 5 determines that the command is a receivable command, reads the normal status as the status for the write record command described in the HDD 12 (ST140), and converts the read normal status into the level converter 4 Then, the data is transmitted to the CPU 21 of the IC card terminal 2a via the dummy card 3 and the card reader / writer 27 (ST141).
[0078]
Further, the CPU 11 of the personal computer 5 determines that the next group for the write record command described in the HDD 12 is “6” (ST142), and enters a standby state for the sixth group described in the HDD 12 (ST143).
[0079]
Thereby, when the CPU 21 of the IC card terminal 2b receives the data in response to the transmission of the write record command (ST144), it guides the password input by the display unit 25, and the keyboard 24 is input based on this guidance. A verify command including a password is generated (ST145), and the generated verify command is transmitted to the CPU 11 of the personal computer 5 via the card reader / writer 27, the dummy card 3, and the level converter 4 (ST146).
[0080]
Thus, when the verify command is received (ST147), the CPU 11 of the personal computer 5 reads the command for the sixth group described in the HDD 12 (ST148), and determines whether the command is a receivable command (ST148). ST149).
[0081]
At this time, the CPU 11 of the personal computer 5 determines that the command is a receivable command, reads the normal status as the status for the verify command described in the HDD 12 (ST150), and converts the read normal status into the level converter 4, The data is transmitted to the CPU 21 of the IC card terminal 2a via the dummy card 3 and the card reader / writer 27 (ST151).
[0082]
Thereby, the CPU 21 of the IC card terminal 2b ends the process when receiving the normal status in response to the transmission of the verify command (ST154).
Further, the CPU 11 of the personal computer 5 determines the absence of the next group for the verify command described in the HDD 12 (ST152), and ends a series of sequence processing (ST153).
[0083]
Further, an abnormal status may be described as the status for the verify command for the sixth group. In this case, the CPU 21 transmits an abnormal status at step 151.
[0084]
As a specific example of the above-described operation, the read record command transmitted at step 116 is a personal ID read command, the read record command transmitted at step 126 is a read command for the number of visits to the store, and transmitted at step 136. The write record command is a date write command, and the verify command transmitted in step 146 is a password confirmation command.
[0085]
As described above, in a system for evaluating the function of a terminal having an interface with an IC card, that is, a system for confirming the function of a terminal that behaves like an IC card, communication with the IC card, that is, command and response This system has a function to read processing contents from the outside, and the evaluation function can be changed by changing the processing contents of the command and response. The command and response pairs are described in groups based on the processing sequence. A function for adding information related to the next processing to the group information, a function for judging the validity of a command transmitted from the terminal based on the group information, and the group information It has a function of judging the legitimacy of processing based on the added processing order.
[0086]
Thereby, in an IC card simulator that evaluates a terminal having an IC card interface, it becomes possible to easily handle differences in processing methods due to differences in terminals. In addition, it is possible to combine processes that have been divided into test processes for each terminal so far, and it is possible to easily manage evaluation tests.
[0087]
Therefore, it is possible to evaluate a plurality of IC card handling terminals each handling an IC card having a different processing sequence in one system.
[0088]
As described above, in FIG. 7, the command that can be received after returning the initial response to the activation is the READ RECORD command. When a READ RECORD command is transmitted from the IC card terminal 2a, normal data is returned, and a transition is made to a state of waiting for the next command. A command that can be received in this state is a WRITE RECORD command or a READ RECORD command. Here, when a READ RECORD command is received from the IC card terminal 2a, normal data is returned, and a WRITE RECORD command is waited from the next group information.
[0089]
When the processing order is considered as a group, the expected value of the first command sent from the IC card terminals 2a, 2b,. A normal response is returned in response to the command, and the command sent from the IC card terminals 2a, 2b,. By managing groups in this way, it is possible to easily return various responses to various commands from the IC card terminals 2a, 2b,.
[0090]
With this function, the terminal evaluation system 1 can easily realize the original function as an IC card. Also, it is possible to easily set abnormal processing that is difficult to realize with an original IC card.
[0091]
Further, it is possible to easily set the processing sequence by adding the next group information.
[0092]
【The invention's effect】
As described above in detail, according to the present invention, it is possible to provide an evaluation system for an IC card handling terminal capable of performing evaluation on a plurality of IC card handling terminals each handling an IC card having a different processing sequence in one system. .
[Brief description of the drawings]
FIG. 1 is a diagram showing a schematic configuration of an evaluation system for an IC card handling terminal for explaining an embodiment of the present invention.
FIG. 2 is a block diagram showing a schematic configuration of an IC card handling terminal evaluation system and an IC card handling terminal.
FIG. 3 is a diagram for explaining exchange of commands and the like between the IC card terminal and the IC card.
FIG. 4 is a diagram for explaining exchange of commands and the like between an IC card terminal and an IC card.
FIG. 5 is a diagram for explaining an example of data stored in a data memory;
FIG. 6 is a diagram for explaining a description formula of simulation.
FIG. 7 is a flowchart for explaining processing when a simulation of an IC card terminal is performed by a terminal evaluation system.
FIG. 8 is a flowchart for explaining processing when a simulation of an IC card terminal is performed by a terminal evaluation system.
FIG. 9 is a flowchart for explaining processing when a simulation of an IC card terminal is performed by a terminal evaluation system.
FIG. 10 is a flowchart for explaining processing when a simulation of an IC card terminal is performed by a terminal evaluation system.
FIG. 11 is a flowchart for explaining processing when a simulation of an IC card terminal is performed by the terminal evaluation system.
FIG. 12 is a flowchart for explaining processing when a simulation of an IC card terminal is performed by a terminal evaluation system.
FIG. 13 is a flowchart for explaining processing when a simulation of an IC card terminal is performed by a terminal evaluation system.
FIG. 14 is a flowchart for explaining processing when a simulation of an IC card terminal is performed by a terminal evaluation system.
FIG. 15 is a flowchart for explaining processing when a simulation of an IC card terminal is performed by a terminal evaluation system.
FIG. 16 is a flowchart for explaining processing when a simulation of an IC card terminal is performed by the terminal evaluation system.
FIG. 17 is a flowchart for explaining processing when a simulation of an IC card terminal is performed by the terminal evaluation system.
FIG. 18 is a flowchart for explaining processing when a simulation of an IC card terminal is performed by the terminal evaluation system.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Terminal evaluation system, 2a, 2b ... IC card terminal, 3 ... Dummy card, 4 ... Level converter, 5 ... Control part (personal computer).

Claims (5)

In an evaluation system for an IC card handling terminal that evaluates a plurality of IC card handling terminals that handle IC cards in a predetermined order by different processing sequences,
A dummy card set in place of the IC card for the IC card handling terminal;
It is connected to this dummy card and is composed of an evaluation terminal for evaluating whether or not the IC card handling terminal is valid,
The dummy card is
Sending a command from the IC card handling terminal to the evaluation terminal, and sending response data from the evaluation terminal to the IC card handling terminal,
The evaluation terminal
A set of a command supplied to the dummy card from the IC card handling terminal and a processing content of a response corresponding to the command is divided into groups based on the order of the processing sequence, and information related to the next processing is added and stored. Storage means;
A judging means for judging the legitimacy of the IC card handling terminal based on commands sequentially supplied from the IC card handling terminal via the dummy card and the stored contents stored in the storage means;
An evaluation system for an IC card handling terminal.   The storage means stores the group information common to each IC card handling terminal and the individual group information of each IC card handling terminal in a plurality of steps in the processing sequence for each IC card handling terminal. The evaluation system for an IC card handling terminal according to claim 1.  2. The evaluation system for an IC card handling terminal according to claim 1, wherein the group information stored in the storage means includes a command, a status, a group number, and a next group number. In an evaluation system for an IC card handling terminal that evaluates a plurality of IC card handling terminals that handle IC cards in a predetermined order by different processing sequences,
A dummy card set in place of the IC card for the IC card handling terminal;
It is connected to this dummy card and is composed of an evaluation terminal for evaluating whether or not the IC card handling terminal is valid,
The dummy card is
Sending a command from the IC card handling terminal to the evaluation terminal, and sending response data from the evaluation terminal to the IC card handling terminal,
The evaluation terminal
A set of a command supplied to the dummy card from the IC card handling terminal and a processing content of a response corresponding to the command is divided into groups based on the order of the processing sequence, and information related to the next processing is added and stored. Storage means;
First determination means for determining the start of a processing sequence by a group 1 activation command supplied from the IC card handling terminal via the dummy card ;
First return means for returning a response corresponding to the activation command determined by the first determination means to the IC card handling terminal via the dummy card ;
A first standby for waiting for the supply of the command corresponding to the group number to be processed next added to the activation command determined by the first determination means from the IC card handling terminal via the dummy card Means,
A second determination unit that determines supply of a corresponding command from the IC card handling terminal via the dummy card when waiting by the first standby unit;
A second return means for returning a response corresponding to the command to the IC card handling terminal via the dummy card when supply of the corresponding command is determined by the second determination means;
Second standby means for waiting for supply of a command corresponding to a group number to be processed next added to the command determined by the second determination means from the IC card handling terminal via the dummy card ; ,
An evaluation system for an IC card handling terminal.   The storage means stores the group information common to each IC card handling terminal and the individual group information of each IC card handling terminal in a plurality of steps in the processing sequence for each IC card handling terminal. The evaluation system for an IC card handling terminal according to claim 4.

Images