JP4318494B2 - IC card and IC card program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to an IC card and an IC card program for receiving a command from an external device and transmitting a response to the external device in response to the command.
[0002]
[Prior art]
An IC card has an integrated circuit (IC) inside the card, exchanges information with an external device, and transmits the calculated results and stored information to the outside, or stores stored information A card that performs changes and other actions.
In general, an IC card includes three types of memories, ROM, RAM, and EEPROM, and a CPU that accesses these memories. The EEPROM is provided with one or more files, and information is stored in a record format in each file. For example, in the case of a file storing contact information, predetermined information such as name, address, and telephone number is stored in each record in a predetermined order for each individual.
[0003]
A record is a collection of information that has a logical meaning in accordance with the attributes of an entity, and is a unit of information that corresponds to one case when data is added to or deleted from a file. Record identification information for identifying a record such as a record identifier and a record number is assigned to the record. A plurality of records stored in one file share the same file identification information.
[0004]
All of the information stored in these IC cards is accessed via the CPU, and these files cannot be directly accessed from the outside. That is, when a predetermined “command” is given to the CPU from an external device such as a reader / writer, the CPU interprets and executes this “command” and transmits the result as a “response” to the external device.
[0005]
Conventionally, an external apparatus reads information stored in an IC card by designating one record as record identification information. Also, unnecessary information is deleted by deleting record information and leaving it blank.
Furthermore, in order to protect the stored information and maintain security, the conventional IC card receives a VERIFY command including authentication information from an external device and can authenticate it as a valid external device. In this case, access to information stored in the IC card such as reading, rewriting, and writing is permitted (see, for example, Patent Document 1). The authentication information is information for the IC card to authenticate that the external device or the user has the authority to access the IC card.
[0006]
[Patent Document 1]
Japanese Patent Laid-Open No. 2001-307043 (page 4, FIG. 2)
[0007]
[Problems to be solved by the invention]
However, in order to call all the information stored in the IC card records, the external device checks whether all the records are individually blank, that is, whether the information in each record is valid. However, there is a problem in that it causes a delay in processing speed.
Similarly, when information is newly stored in a record, each record must be read in order from the beginning of the file to search for a blank record, and in order to determine that there is no blank record. However, since the last record must be read, there is a problem in that the processing speed is hindered.
[0008]
Furthermore, in order to invalidate the information stored in the record, the contents of the record must be erased and the content of the record must be blank, which has the problem of burdening the processing and invalidating multiple records In this case, information contained in a plurality of records must be individually deleted, and this problem becomes more remarkable.
Furthermore, in the conventional IC card, in order for the external device to access the information stored in the IC card, two communications for authentication and execution of the access are required, and it takes time for the communication. There was a problem that hindered speeding up.
In addition, as a premise that the external device reads or rewrites the record, it is necessary to know information specifying a valid record such as record identification information of a valid record, and this information needs to be taken out of the IC card. Therefore, there was a risk of lack of security.
[0009]
SUMMARY OF THE INVENTION An object of the present invention is to provide an IC card and an IC card program that can reduce the burden and the number of communications in command processing, speed up processing, and improve security.
[0010]
[Means for Solving the Problems]
  The present invention solves the above problems by the following means. In addition, in order to make an understanding easy, although the code | symbol corresponding to embodiment of this invention is attached | subjected and demonstrated, it is not limited to this. That is, the invention of claim 1 stores information unit storage means (50) for storing predetermined information in a predetermined format and storing a plurality of information units sharing the same file identification information, and for each information unit. Management information unit storage means (50) for storing management information including validity information indicating validity, and storing a management information unit sharing the same file identification information as the plurality of information units;Effective information unit reading request receiving means (10) for receiving an effective information unit reading request for requesting reading of an effective information unit from the external device (2), and when receiving the effective information unit reading request, the management information Effective information unit reading means (22) for reading information stored in an effective information unit based on management information stored in the unit storage means, and information read by the effective information unit reading means to the external device Effective information unit transmitting means (10) for transmitting and,Read history information storage means (50) for storing read history information, which is a history of reading information units by the valid information unit reading means, is stored in the read history information storage means. The IC card (1) is characterized in that an effective information unit that has not been read for a predetermined period is read based on the read history information that has been read.
[0011]
According to a second aspect of the present invention, in the IC card according to the first aspect, the management information unit storage means is such that the maximum number information indicating the number of storable information units and / or stored information is valid. The IC card (1, 1-2) is characterized by storing a management information unit for storing management information including valid number information indicating the number of information units.
[0012]
  Claim3The invention of claim1In the IC card described in (1), based on the read history information stored by the read history information storage means and the validity information stored by the management information storage means, the validity has not been read for a predetermined period. Unread effective information unit quantity detecting means (23) for detecting a quantity of information units, and the effective information unit transmitting means determines the information unit quantity detected by the unread effective information unit quantity detecting means The IC card (1) is characterized in that it transmits the information unit read by the effective information unit reading means to the external device.
[0013]
  Claim4The invention of claim1Claims from3The IC card according to any one of the preceding claims, wherein the valid information unit read request receiving unit receives the valid information unit read request including authentication information, and is received by the valid information unit read request receiving unit. First authentication determining means (21, 140) for determining whether or not to authenticate the external device and / or user based on information, wherein the valid information unit reading means includes the first authentication determining means. The IC card (1) is characterized in that reading is performed when it is determined as affirmative.
[0014]
  Claim5The invention of claim 1 to claim 14The invalid information unit rewrite request receiving means (10) for receiving from the external device (2) an invalid information unit rewrite request for requesting writing or rewriting of information to an invalid information unit in the IC card according to any one of the above. ) And invalid information unit rewriting means for writing or rewriting information to invalid information units based on the management information stored in the management information unit storage means when the invalid information unit rewrite request is received The IC card (1-2) is characterized by comprising (24).
[0015]
  Claim6The invention of claim 1 to claim 15The management information stored in the management information unit storage means when the management information rewrite request including the information unit identification information is received from the external device (2) in the IC card according to any one of the above. The IC card (1-2) is characterized by comprising management information rewriting means (25) for rewriting management information for the information unit indicated by the information unit identification information included in the rewrite request.
[0016]
  Claim7The invention of claim6The invalid information unit rewrite request receiving means receives the management information rewrite request together with the invalid information unit rewrite request, and the management information rewrite means is stored in the management information unit storage means. The IC card (1-2) is characterized in that the management information on the information unit that is the target of the invalid information unit rewrite request is rewritten.
[0017]
  Claim8The invention of claim5Claims from7The IC card according to any one of the preceding claims, wherein the invalid information unit rewrite request receiving means receives the invalid information unit rewrite request including authentication information, and is received by the invalid information unit rewrite request receiving means. A second authentication determination unit (21-2) for determining whether or not to authenticate the external device and / or user based on information, wherein the invalid information unit rewriting unit includes the second authentication determination unit; The IC card (1-2) is characterized in that writing or rewriting is performed when it is determined as affirmative.
[0018]
  Claim9According to the present invention, the information unit storing means (50) for storing predetermined information in a predetermined format and storing a plurality of information units sharing the same file identification information, and the validity indicating the validity of each information unit CPU (20) of IC card (1) comprising management information unit storage means (50) for storing management information including sex information and storing management information units sharing the same file identification information as the information units. An effective information unit read request receiving procedure (S110) for receiving an effective information unit read request for requesting reading of an effective information unit from an external device (2), which is an IC card program to be executed, and the effective information unit read request When receiving a valid information unit reading procedure (S150) for reading out a valid information unit based on the management information stored in the management information unit storage means And an information unit transmission procedure information units read transmits to the external device (S180) in the valid information unit read procedure,The effective information unit reading procedure is a history of reading the information unit, and reading an effective information unit that has not been read for a predetermined period based on stored reading history information.Is an IC card program characterized by
[0019]
  Claim10The invention of claim9In the IC card program described in 1), based on the read history information and the validity information stored by the management information storage means, an unread amount of valid information units that have not been read for a predetermined period of time is detected. A valid information unit quantity detection procedure (S170), wherein the information unit transmission procedure includes the information unit quantity detected in the unread valid information unit quantity detection procedure together with the information unit read in the valid information unit readout procedure. An IC card program characterized by being transmitted to the external device.
[0020]
  Claim11The invention ofClaim 9 or Claim 10In the IC card program according to claim 1, the valid information unit read request receiving procedure receives the valid information unit read request including authentication information, and the external information based on the authentication information received in the valid information unit read request receiving procedure. A first authentication determination procedure (S120) for determining whether or not to authenticate an apparatus and / or a user is provided, and the effective information unit reading procedure is read when it is determined to be affirmative in the first authentication determination procedure. An IC card program characterized by
[0027]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in more detail with reference to the drawings.
(First embodiment)
FIG. 1 is a block diagram showing a first embodiment of an IC card according to the present invention.
The IC card 1 is an input / output circuit for transmitting and receiving data, and includes an I / O interface 10 that mediates communication with the external device 2, a CPU 20, a RAM 30 that is a memory, a ROM 40, an EEPROM 50, and the like.
The CPU 20 is connected to the I / O interface 10, the RAM 30, the ROM 40, the EEPROM 50, and the like, and performs overall control of the IC card 1 by executing programs stored in these memories. And the unread effective record quantity detection part 23 is implement | achieved. The functions of the determination unit 21, the valid record reading unit 22, and the unread valid record quantity detection unit 23 will be described later with reference to FIG.
[0028]
The RAM 30 is a volatile memory, and is used as a work area where the CPU 20 performs processing. The ROM 40 is a nonvolatile read-only memory, and stores an OS, an execution environment, and the like.
The EEPROM 50 is a non-volatile memory that can be rewritten as needed, and stores programs such as applications and data.
In the EEPROM 50, three types of files, a main file (MF), a dedicated file (DF), and a basic file (EF), are stored so as to form a hierarchical structure based on the main file.
[0029]
FIG. 2 is a block diagram schematically showing how the various files are stored in the EEPROM 50.
The main file is a file of the entire data memory. The main file stores the common management information of the IC card 1, and has a dedicated file and a basic file under it. The dedicated file is generally a file set for each application, and has a basic file under the file. Each dedicated file is assigned a dedicated file name which is file identification information for identifying from other dedicated files. The basic file includes an internal basic file (IEF) that stores PIN information, a basic file for work (WEF) that stores data such as user information such as the name, address, and telephone number of the user used by the application. The file identification code (EFID) for identifying each basic file at least in the IC card 1 is assigned. The working basic file includes a plurality of records (R) sharing the same file identification code (EFID).
[0030]
FIG. 3 is a diagram for explaining a working basic file stored in the IC card according to the present invention.
As shown in FIG. 3, the work basic file stores information used by an application of a dedicated file that is executed when the IC card 1 is connected to the external device 2. The basic work file includes two types of records (information units), which are a management record (record number # 1) and a plurality of data records (record numbers # 2 to #n). The management record includes a card attribute ID and the number of valid records. The management information including the MAX number, valid information, and reading history is stored, and the plurality of data records respectively store predetermined information such as name, identifier, address, and telephone number in a predetermined format. The record numbers are unique and continuous in at least the basic work file, and are assigned in order from No. 1 (# 1).
[0031]
The card attribute ID is an identification code for identifying an attribute when the application of the IC card 1 is executed. For example, a code is assigned for each attribute such as a card type. The external device 2 can limit processing based on the card attribute ID read from the IC card 1. For example, when the external device 2 is an X bank ATM, it is possible to restrict the IC card 1 having the Y bank card attribute ID from being processed.
[0032]
The number of valid records indicates the number of data records that store valid information (hereinafter referred to as “valid records”) among the data records of record number # 2 or less included in the work basic file. Therefore, data records storing invalid information such as empty data records (hereinafter referred to as “invalid records”) are not included in this number.
[0033]
The MAX number is the maximum number of valid records that can be stored in the EEPROM 50. For example, when the number of valid cases is 3 and the number of MAX cases is 10, it indicates that there are 3 valid records and 7 invalid records.
The valid information indicates in which data record the information stored is valid. For example, the valid information indicates validity in bit units (“0”; invalid, “1”; valid). "0101001000b" indicates that the second, fourth, and seventh data records (record numbers # 3, # 5, and # 8) are valid, and the other data records are invalid.
[0034]
The read history is a history in which the data record is read by the valid record reading unit 22 and is reset (“0000000000000b”) when the IC card 1 is connected to the external device 2 and the card is initialized. In the present embodiment, the read history indicates which data record has been read within a predetermined period (within a connection period with the external apparatus 2 that receives power supply from the external apparatus 2). For example, if the reading history is “0101000000b”, the second and fourth data records have been read within the connection period of the IC card 1 and the external device 2, and other data records have not been read. That is, it indicates that the data has not been read.
[0035]
FIG. 4 is a diagram showing an APDU of a TRANSFER_OFFICIOUS command that can be used in the IC card according to the present invention.
As shown in FIG. 4, the TRANSFER_OFFICIOUS command reads an effective record that requests the IC card 1 to execute a series of processes of reading an effective record included in one work basic file specified by the command and transmitting it as a response. It is a request.
[0036]
The message of the TRANSFER_OFFICIOUS command is composed of a header and a body, and has the same configuration as a general command conforming to a protocol such as ISO.
The header of the TRANSFER_OFFICIOUS command includes command identification information including a class byte (CLA) and an instruction byte (INS), and parameters (P1, P2) that specify a plurality of records to be read.
CLA and INS, which are request identification information for identifying a request from the external device 2, are 90h and F2h, but are not limited to these codes, and are not used for other commands and are common to the IC card 1 and the external device 2. Any code may be used.
[0037]
P1 is a parameter that is not used in this command, and stores “00000000b”. The upper 5 bits of P2 are parameters for specifying one work basic file in which a record to be read is stored, and file identification information for identifying the work basic file is stored.
In the lower 3 bits of P2, authentication suggestion information indicating whether or not PIN authentication is requested is stored. In this embodiment, when the lower 3 bits of P2 are “000b”, PIN authentication is requested, and when it is “100b”, it indicates that it is not necessary. When the lower 3 bits of P2 are “000b”, the command format type information indicating that the TRANSFER_OFFICIOUS command is the command format of Case 4 in which the PIN information is stored in the data field (Data) is stored. . When the lower 3 bits of P2 are “100b”, the TRANSFER_OFFICIOUS command indicates that the command format is Case2.
[0038]
Further, when the body of the TRANSFER_OFFICIOUS command has a command format of Case 4 (when the lower 3 bits of P2 are “000b”), the Lc field that is the length of the data field, the data field (Data), The length of the information stored in the record to be output is composed of Le fixed to “00h”, and PIN information is stored in the data field. In the case 2 command format, the body is composed of Le fixed to “00h”. The RFU indicates a reservation for future use. The current EF and current record refer to the basic file and record currently selected as a command operation target.
[0039]
FIG. 5 is a diagram showing an APDU of a response to the TRANSFER_OFFICIOUS command that can be used in the IC card according to the present invention. FIG. 5 (a) shows a normal end, and FIG. 5 (b) shows an abnormal end. Shows the case.
As shown in FIG. 5, the response is composed of Value and status bits (SW; SW1-SW2), and conforms to the conventions such as ISO as well as the command. The status bit is processing result information indicating the processing result of the command, such as whether or not it is normal termination. The value stores the value of the read record. In the case of normal termination, if the unread valid record is not other than the data record to be transmitted, the status bit is “9000h”. If there is still an unread valid record, the status is not read. The unread effective record quantity information indicating the number of effective records is stored. On the other hand, in the case of abnormal termination, a value corresponding to the error is stored.
[0040]
FIG. 6 is a diagram showing the meaning of the status bits included in the response, showing the items of errors that the IC card 1 checks. FIG. 6A shows the common error check, and FIGS. (C) shows command error check items, respectively.
Each item shown in FIG. 6A and FIG. 6B is a check item that is also performed by a general command that conforms to a standard such as ISO.
[0041]
Also, # 1 in FIG. 6C determines whether or not to be a check item depending on the mounting of the IC card 1, and # 2 is output as a response to a normal IC card command. . When the CPU 20 receives the TRANSFER_OFFICIOUS command, the CPU 20 detects an error for these various items, and the IC card 1 transmits a response storing a value corresponding to the processing result in the status bit to the external device 2.
Note that the status bit and its meaning can be arbitrarily determined as long as they are common to the IC card 1 and the external device 2, but from the viewpoint of versatility and convenience, in the present embodiment, It was in line with the specifications stipulated in the ISO standards.
[0042]
FIG. 7 is a flowchart showing processing relating to the TRANSFER_OFFICIOUS command of the IC card according to the present invention and the IC card program according to the present invention.
In S100, the IC card 1 is connected and initialized by being inserted into the external device 2 or the like. The determination unit 21 of the IC card 1 receives the TRANSFER_OFFICIOUS command transmitted from the external device 2 from the I / O interface 10 (S110), and determines whether or not the lower 3 bits of P2 are “000b”. It is determined whether PIN verification is requested (S120).
[0043]
When it determines with affirmation, the determination part 21 performs authentication determination. The determination unit 21 collates the PIN information included in the TRANSFER_OFFICIOUS command with the PIN information stored in the internal basic file (S130), and determines whether to authenticate the external device 2 (S140). If NO is determined, an error occurs (S190), and the IC card 1 transmits a response (SW = 6985h) indicating that from the I / O interface 10 to the external device 2 (S180), and ends the processing. (S200).
[0044]
If no in S120 or if the determination unit 21 determines affirmative in S140, the valid record reading unit 22 reads an unread valid record. The valid record reading unit 22 is valid and unread by referring to the valid information and read history of the management information stored in the EEPROM 50 and included in the working file indicated by the file identification information of the upper 5 bits of P2 of the TRANSFER_OFFICIOUS command The data record with the smallest record number among the data records, that is, the data records with the valid information “1” and the reading history “0” is read from the EEPROM 50 (S150). Further, the CPU 20 rewrites the reading history for the read data record (S160). If there is no unread valid record, the IC card 1 transmits a response (SW = 6985h) indicating an error to the external device 2 and ends the process (S200).
[0045]
In S <b> 170, the unread valid record quantity detection unit 23 detects the quantity of unread valid records based on the management information read history stored in the EEPROM 50. When an unread valid record remains, the IC card 1 externally sends a response including information on the data record read by the valid record reading unit 22 and the quantity detected by the unread valid record quantity detection unit 23. The data is transmitted to the apparatus 2 (S180), and the process is terminated (S200). On the other hand, when it is detected that the number of unread valid records is zero, the IC card 1 transmits a response (SW = 9000h) indicating that fact to the external device 2 (S180), and ends the processing. (S200).
[0046]
The determination unit 21 determines whether there are various errors (see FIG. 6) in the processing from S110 to S180 as well as the error in PIN verification (S140). The IC card 1 transmits a response indicating the error content to the external device 2 (S190, S180), and ends the process (S200).
[0047]
As described above, according to the first embodiment, since the EEPROM 50 of the IC card 1 stores management information, the IC card 1 reads individual data sequentially from the beginning of the file when reading a valid data record. There is no need to read a record and search for a valid record, and it is possible to easily check whether a data record is valid by referring to management information, thereby reducing the processing burden and speeding up the process. It became.
Further, since the IC card 1 stores the management record and the data record in the same work basic file, the management record and the data record can be processed without reselecting the file, thereby speeding up the processing. It became possible.
[0048]
Furthermore, since the external device 2 transmits a TRANSFER_OFFICIOUS command to the IC card 1 to check whether or not it is a valid record, only the valid record can be read without specifying the valid record. In addition, the number of communications between the IC cards 1 can be reduced and the processing can be speeded up. In addition, since the external device 2 can read the record number and validity information without knowing it, the security can be improved and the IC card 1 actively performs processing. These effects can be obtained without burdening development.
[0049]
Furthermore, the EEPROM 50 stores the reading history, and the external device 2 can successively read unread valid records by sending TRANSFER_OFFICIOUS commands to the IC card 1 one after another. It has become possible to reduce the processing speed.
Further, as shown in FIG. 8, since the IC card 1 includes the number of unread data records in the response and transmits it to the external device 2, the external terminal 2 transmits the TRANSFER_OFFICIOUS command until this number becomes zero. It became possible to read out all valid records quickly and easily.
Further, the external device 2 transmits the TRANSFER_OFFICIOUS command including the PIN information even when authentication is necessary for reading the data record, reads the valid and unread data record in one communication, It has become possible to speed up and improve security.
[0050]
(Second Embodiment)
FIG. 9 is a block diagram showing a second embodiment of the IC card according to the present invention.
In addition, the same code | symbol is attached | subjected to the part which fulfill | performs the same function as 1st Embodiment mentioned above, and the overlapping description is abbreviate | omitted suitably.
As shown in FIG. 9, the IC card 1-2 includes an I / O interface 10, a CPU 20-2, a RAM 30, a ROM 40, an EEPROM 50, and the like.
The CPU 20-2 performs overall control of the IC card 1-2 by executing programs stored in these memories, and realizes the determination unit 21-2, the invalid record rewriting unit 24, and the management information rewriting unit 25. The functions of the determination unit 21-2, the invalid record rewriting unit 24, and the management information rewriting unit 25 will be described later with reference to FIG.
[0051]
FIG. 10 is a diagram showing APDU of TRANSFER_OFFICIOUS2 command that can be used in the IC card according to the present invention.
As shown in FIG. 10, the TRANSFER_OFFICIOUS2 command writes or rewrites data to an invalid record with the smallest record number or a designated record among invalid records included in one designated work basic file. And an invalid record rewrite request for requesting the IC card 1-2 to execute a series of processes of transmitting a response. In addition, when the TRANSFER_OFFICIOUS2 command designates a valid record, the management card requests the IC card 1-2 to execute a series of processes in which the management information in the management record is invalidally rewritten and a response is transmitted. This is an information rewrite request.
[0052]
The message of TRANSFER_OFFICIOUS2 command is composed of a header and a body. CLA and INS, which are request identification information for identifying a request from the external device 2, are 90h and F3h, but are not limited to these codes, and are not used for other commands, and are not used for the IC card 1-2 and the external device 2. Any common code may be used.
[0053]
When P1 is “00000000b” or an invalid record number, it indicates that the TRANSFER_OFFICIOUS2 command is an invalid record rewrite request, and when it is a valid record number, it indicates that it is a management information rewrite request. Show. Therefore, request processing content identification information indicating the processing content to be requested is stored in P1. P1 stores record identification information for identifying a data record to be processed such as a record number.
The upper 5 bits of P2 are parameters for specifying one work basic file in which a data record to be written or rewritten is stored, and file identification information for identifying this work basic file is stored. Is done.
The lower 3 bits of P2 are parameters that are not used in this command, and store a constant value “001b”.
Also, write information, which is data to be written, is stored in the data field of the body of the TRANSFER_OFFICIOUS2 command.
[0054]
FIG. 11 is a diagram showing an APDU of a response to a TRANSFER_OFFICIOUS2 command that can be used in the IC card according to the present invention. 11A shows the case of normal termination, FIG. 11B shows the case of abnormal termination, and FIG. 11A-1 shows the response to the TRANSFER_OFFICIOUS2 command in which P1 is “00000000b”. a-2) indicates a response in which P1 is other than “00000000b”.
[0055]
As shown in FIG. 11 (a-1), for the invalid record with the smallest record number among the invalid records included in one work basic file specified by the processing target of the TRANSFER_OFFICIOUS2 command (P1 = 00000000b) If the response is a normal end, the invalid number indicating the number of invalid records remaining after processing is stored in the status bit. That is, when the number of remaining invalid cases is zero, the status bit is “9000h”, and when the number of invalid cases is X, “62CXh”.
As shown in FIG. 11A-2, this is a response to the case where the TRANSFER_OFFICIOUS2 command designates the processing target by the record number, and in the case of normal end, the status bit has a constant value “9000h”.
On the other hand, as shown in FIG. 11B, in the case of abnormal termination, a value corresponding to the error is stored in the status bit.
[0056]
FIG. 12 is a diagram showing the meaning of the status bits included in the response, showing items of errors checked by the IC card 1-2. FIG. 12 (a) is a common error check, FIG. 12 (b) and FIG. FIG. 12C shows command error check items.
Each item shown in FIG. 12A and FIG. 12B is a check item that is performed even with a general command that conforms to a standard such as ISO. In FIG. 12C, # 1 determines whether or not to be a check item depending on the mounting of the IC card 1-2, and # 2 is output as a response to the command of the normal IC card 1-2. Is.
[0057]
FIG. 13 is a flowchart showing processing relating to the TRANSFER_OFFICIOUS2 command of the IC card according to the present invention and the IC card program according to the present invention.
In S300, the IC card 1-2 is connected and initialized by being inserted into the external device 2 or the like. The determination unit 21-2 of the IC card 1-2 receives the TRANSFER_OFFICIOUS2 command transmitted from the external device 2 from the I / O interface 10 (S310), and the determination unit 21-2 determines whether P1 is “00000000b”. It is determined whether or not (S320). When it determines with affirmation, CPU20-2 searches the invalid record of the youngest record number by referring management information (S330).
[0058]
If there is no invalid record, an error occurs (S340, S400), and the IC card 1-2 transmits a response (SW = 6985h) indicating that fact to the external device 2 (S370), and ends the processing (S410). ). The invalid record rewriting unit 24 writes the write information included in the TRANSFER_OFFICIOUS2 command in the found invalid record (S350). The management information rewriting unit 25 rewrites the valid information about the data record in which the write information is written by the invalid record rewriting unit 24 from “0” to “1”, and rewrites the number of valid cases by 1 (S360). The IC card 1-2 transmits a response according to the invalid number calculated from the MAX number and the valid number to the external device 2 (S370), and ends the process (S410).
[0059]
If the determination unit 21-2 determines NO in S320, the determination unit 21-2 determines whether the record specified by P1 is an invalid record based on the management information (S380). When it determines with affirmation, it progresses to S350. If it is determined that the specified record is a valid record, the management information rewriting unit 25 rewrites the management information for the specified record from valid to invalid, and the IC card 1-2 is normal. An end response (SW = 9000h) is transmitted from the I / O interface 10 to the external device 2 (S370), and the process ends (S410).
[0060]
Note that the determination unit 21-2 determines whether there are various errors (see FIG. 12) in the processing from S310 to S390 as well as the determination in S340 regarding the error. The IC card 1-2 transmits a response indicating the error content to the external device 2 (S400, S370), and ends the process (S410).
[0061]
As described above, according to the second embodiment, in addition to the same effects as those of the first embodiment, when writing or rewriting to an invalid record, individual records are read in order from the beginning of the file to invalid records. Even if it is not searched, it is possible to easily confirm whether the data record is valid by referring to the management information, and it becomes possible to reduce the processing load and speed up the processing. Further, since the IC card 1-2 can determine that there is no invalid record without reading up to the last data record, it is possible to facilitate and speed up the processing.
Further, the external device 2 checks whether or not the record is a valid record, and can write or rewrite the invalid record by sending the TRANSFER_OFFICIOUS2 command to the IC card 1-2 without designating the invalid record. The number of communications between the external device 2 and the IC card 1-2 can be reduced, and the processing can be speeded up.
Furthermore, the management information rewriting unit 25 can invalidate the information stored in the data record by rewriting the management information, thereby reducing the processing burden and speeding up the processing. became. This effect is more remarkable when invalidating a plurality of data records.
[0062]
(Deformation)
The present invention is not limited to the embodiment described above, and various modifications and changes are possible, and these are also within the equivalent scope of the present invention. For example, in each embodiment, the IC cards 1 and 1-2 are contact IC cards that communicate with the external device 2 in a contact manner, contactless IC cards that communicate in a contactless manner, or contact / non-contact. A contact-type IC card may be used, and the communication method is not limited.
[0063]
In the first embodiment, PIN information included in the TRANSFER_OFFICIOUS command is external device authentication information for authenticating the external device 2, but user authentication information for authenticating a user such as a PIN input by the user. And the determination part 21 may determine whether a user is authenticated.
In the second embodiment, as in the first embodiment, the I / O interface 10 receives the TRANSFER_OFFICIOUS2 command including the PIN information, and the determination unit 21-2 determines the external device 2 based on the PIN information. When authenticated, the invalid record rewriting unit 24 may perform writing or rewriting. It is not necessary to perform communication for authentication, and the processing can be speeded up.
[0064]
In each embodiment, the valid record reading unit 22 reads the valid record having the smallest record number, and the invalid record rewriting unit 24 rewrites the invalid record having the smallest record number. Processing may be performed for records or invalid records. The selection may be made by parameters such as P1 and P2. Convenience can be improved by making settings according to the application.
[0065]
In each embodiment, the IC cards 1 and 1-2 store the management record and the data record in the EEPROM 50. However, for example, other types of memory such as FROM may be provided and stored in this memory. . As long as it is a rewritable nonvolatile memory, the type of memory for storing the management record and the data record is not limited.
[0066]
In each embodiment, the IC cards 1 and 1-2 store the basic file of the record structure in the EEPROM 50, read out information in record units in response to the TRANSFER_OFFICIOUS or TRANSFER_OFFICIOUS2 command, and transmit the information to the external device 2, but the data object structure The basic file of the transparent structure may be stored and read out in units of data objects and binary data, and the structure of the basic file stored in the IC cards 1 and 1-2 is not limited.
[0067]
【The invention's effect】
As described above in detail, according to the present invention, the following effects can be obtained.
(1) Each information unit is valid by storing management information including validity information indicating the validity of the information unit and storing the management information unit sharing the same file identification information as a plurality of information units. It is easy to check whether or not to speed up the process. Further, the management information unit and the information unit are processed without reselecting the file, thereby speeding up the processing.
(2) By storing the maximum number information and / or valid number information, it is possible to easily confirm the quantity of valid information units and / or invalid information units, and to speed up the processing.
(3) When a valid information unit read request is received, a valid information unit is read based on the management information and transmitted, thereby reducing the number of communications between the IC card and the external device and speeding up the processing. . Further, the effective information unit is read out without knowing the validity of each information unit to the external device, and the security is improved.
(4) By storing the read history information, unread and effective information units are read one after another, further reducing the number of communications and accelerating processing.
(5) Sending the quantity of unread and valid information units to an external device to notify it, thereby improving the efficiency and speed of processing.
(6) When a valid information unit read request including authentication information, an invalid information unit rewrite request, or a management information rewrite request is received, it is determined whether to authenticate the external device and / or user. Speed up processing by improving and reducing the number of communications.
(7) When an invalid information unit rewrite request is received, information is written into an invalid information unit based on the management information, thereby reducing the number of communications between the IC card and the external device and speeding up the processing.
(8) When a management information rewrite request is received, the attribute (valid / invalid) of the information unit is rewritten by rewriting the management information for the information unit indicated by the information unit identification information included in the request, thereby facilitating processing. And speed up.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a first embodiment of an IC card according to the present invention.
FIG. 2 is a block diagram schematically showing how various files are stored in an EEPROM.
FIG. 3 is a diagram illustrating a work basic file stored in an IC card according to the present invention.
FIG. 4 is a diagram showing an APDU of a TRANSFER_OFFICIOUS command that can be used in an IC card according to the present invention.
FIG. 5 is a diagram showing an APDU of a response to a TRANSFER_OFFICIOUS command that can be used in the IC card according to the present invention.
FIG. 6 is a diagram illustrating the meaning of status bits included in a response.
FIG. 7 is a flowchart showing processing related to a TRANSFER_OFFICIOUS command of an IC card according to the present invention and an IC card program according to the present invention.
FIG. 8 is a diagram for explaining the effect of the first embodiment of the IC card according to the present invention.
FIG. 9 is a block diagram showing a second embodiment of the IC card according to the present invention.
FIG. 10 is a diagram showing an APDU of a TRANSFER_OFFICIOUS2 command that can be used in the IC card according to the present invention.
FIG. 11 is a diagram showing an APDU of a response to a TRANSFER_OFFICIOUS2 command that can be used in the IC card according to the present invention.
FIG. 12 is a diagram illustrating the meaning of status bits included in a response.
FIG. 13 is a flowchart showing processing related to a TRANSFER_OFFICIOUS2 command of an IC card according to the present invention and an IC card program according to the present invention.
[Explanation of symbols]
1,1-2 IC card
2 External device
10 I / O interface
20, 20-2 CPU
21, 21-2 determination unit
22 Reading unit
23 Rewriting Department
30 RAM
40 ROM
50 EEPROM

Claims (11)

Information unit storage means for storing predetermined information in a predetermined format and storing a plurality of information units sharing the same file identification information;
Management information unit storage means for storing management information including validity information indicating the validity of each information unit, and storing a management information unit sharing the same file identification information as the plurality of information units;
Effective information unit reading request receiving means for receiving an effective information unit reading request for requesting reading of an effective information unit from an external device;
Effective information unit reading means for reading information stored in an effective information unit based on the management information stored by the management information unit storage means when receiving the effective information unit reading request;
Effective information unit transmitting means for transmitting information read by the effective information unit reading means to the external device;
Read history information storage means for storing read history information, which is a history of reading information units by the effective information unit reading means,
The effective information unit reading means reads an effective information unit that has not been read for a predetermined period based on the reading history information stored in the reading history information storage means.
IC card characterized by In the IC card according to claim 1,
The management information unit storage means stores management information including maximum number information indicating the number of storable information units and / or management information including valid number information indicating the number of information units in which the stored information is valid. Storing information units;
IC card characterized by In the IC card according to claim 1,
Based on the read history information stored in the read history information storage means and the validity information stored in the management information storage means, the quantity of valid information units that have not been read for a predetermined period is detected. An unread effective information unit quantity detecting means for
The effective information unit transmitting means transmits the quantity of information units detected by the unread effective information unit quantity detecting means together with the information units read by the effective information unit reading means to the external device;
IC card characterized by In the IC card according to any one of claims 1 to 3,
The valid information unit read request receiving means receives the valid information unit read request including authentication information,
First authentication determining means for determining whether to authenticate the external device and / or user based on authentication information received by the valid information unit read request receiving means;
The effective information unit reading means performs reading when the first authentication determining means determines affirmative;
IC card characterized by In the IC card according to any one of claims 1 to 4,
An invalid information unit rewrite request receiving means for receiving an invalid information unit rewrite request for requesting writing or rewriting of information to an invalid information unit from an external device;
An invalid information unit rewriting unit that writes or rewrites information to an invalid information unit based on the management information stored in the management information unit storage unit when the invalid information unit rewrite request is received. thing,
IC card characterized by In the IC card according to any one of claims 1 to 5,
When a management information rewrite request including information unit identification information is received from an external device, management of the information unit indicated by the information unit identification information included in the management information rewrite request stored by the management information unit storage means Providing management information rewriting means for rewriting information,
IC card characterized by In the IC card according to claim 6,
The invalid information unit rewrite request receiving means receives the management information rewrite request together with the invalid information unit rewrite request,
The management information rewriting means rewrites the management information for the information unit that is the target of the invalid information unit rewriting request, stored in the management information unit storage means.
IC card characterized by In the IC card according to any one of claims 5 to 7,
The invalid information unit rewrite request receiving means receives the invalid information unit rewrite request including authentication information,
Second authentication determination means for determining whether to authenticate the external device and / or user based on authentication information received by the invalid information unit rewrite request receiving means;
The invalid information unit rewriting unit performs writing or rewriting when the second authentication determination unit determines affirmative;
IC card characterized by Information unit storage means for storing a plurality of information units each storing predetermined information in a predetermined format and sharing the same file identification information, and management information including validity information indicating the validity of each information unit An IC card program for executing a CPU of an IC card comprising a management information unit storing means for storing and storing a management information unit for sharing the same file identification information as the information unit,
An effective information unit read request reception procedure for receiving an effective information unit read request for requesting reading of an effective information unit from an external device;
An effective information unit reading procedure for reading an effective information unit based on the management information stored by the management information unit storage means when receiving the effective information unit reading request;
An information unit transmission procedure for transmitting the information unit read in the effective information unit reading procedure to the external device,
The effective information unit reading procedure is a history of reading the information unit, and reading an effective information unit that has not been read for a predetermined period based on stored reading history information.
IC card program characterized by this. The IC card program according to claim 9, wherein
An unread effective information unit quantity detection procedure for detecting the quantity of valid information units that have not been read for a predetermined period based on the read history information and the validity information stored by the management information storage means. Prepared,
The information unit transmission procedure transmits the quantity of information units detected in the unread effective information unit quantity detection procedure together with the information unit read in the effective information unit reading procedure to the external device.
IC card program characterized by this. In the IC card program according to claim 9 or 10,
The valid information unit read request reception procedure receives the valid information unit read request including authentication information,
A first authentication determination procedure for determining whether to authenticate the external device and / or user based on the authentication information received in the valid information unit read request reception procedure;
The effective information unit reading procedure performs reading when it is determined to be affirmative in the first authentication determining procedure;
IC card program characterized by this.

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