JP2008059423A - Ic card, ic card application execution method, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an IC card or the like which adds priorities to a service executed by the IC card, and processes a command with high priority preferentially. <P>SOLUTION: The IC card 1 includes a contact I/O port 25 and a contactless I/O port 26. Priority is added for every service such as settlement service and telephone call service, and command processing is performed by giving priority to service of higher priority. For a service having a constraint in processing time, a service priority/command processing order table 41 which holds priorities, kinds of command to be processed by the service and the order of processing and a service procedure table 42 showing a progress status of the service are held. During processing of a command, if a service command of higher priority is received, the processing of the command under execution at present is interrupted, and processing of a service command of higher priority is started. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to an IC card or the like that receives commands from a plurality of I / O ports and processes services with high priority in priority.

Currently, the spread of IC cards is progressing mainly in the fields of finance, communication, and transportation. The types of IC cards are broadly divided into contact type IC cards that are used by being inserted into terminals installed in stores, etc., and non-contact type IC cards that are used while being held over terminals, and are adopted based on service requirements. .
In addition, payment services using portable terminals having communication functions have appeared in the communication field. The IC card functions required for such portable terminals include a contact IC card function for communication services and a non-contact IC card function for payment services. For this reason, an IC card that has at least two I / O ports of contact type and non-contact type and processes a command received from each port has been put into practical use. (See Patent Document 1)

JP 2000-341429 A

However, in the above method, since the OS (Operating System) of the IC card sequentially executes commands received from the contact type I / O port and the non-contact type I / O port, one of the I / O ports is used. While the command received from the other I / O port is being executed, the command received from the other I / O port cannot be executed.
The communication service is a contact I / O port, the payment service is a contactless I / O port, and the service realized by the IC card and the I / O port used in the service may be fixed. Many. Further, due to the nature of services such as user convenience and security, it may be required to complete the processing within a certain time. In such a case, when the commands received at the contact-type I / O port and the non-contact-type I / O port are executed in the order of reception, a situation occurs where the request cannot be satisfied.

  The present invention has been made in view of such a problem, and an object of the present invention is to add priority to a service executed by an IC card and preferentially process a command of a service with a high priority. To provide cards and the like.

  In order to achieve the above object, a first invention is an information recording medium incorporating a CPU having two or more I / O ports, wherein the information recording medium incorporating the CPU is the I / O port. Service information holding means for holding information related to a service for executing a command received from the server, and processing order determining means for determining a command processing order according to the information related to the service when a command is received at the I / O port. An information recording medium having a built-in CPU.

The service information holding unit holds the priority of the service, the type of command processed by the service, and the processing order.
When receiving a command from the I / O port, the processing order determination unit compares the priority of the service that is processing the command currently being executed with the priority of the service that has newly received the command, The execution state of the command is determined according to the comparison result.
If the priority of the service that has received the command currently being executed is higher than the priority of the service that has newly received the command, the processing order determination means executes the command of the service that has received the command that is currently being executed. Continue.
If the priority of the service that is currently processing the command is lower than the priority of the service that received the new command, the current command is interrupted and the newly received command is executed. To do.
In addition, if the priority of the service that is processing the currently executing command is lower than the priority of the service that has received the new command, the currently executing command is interrupted and the newly received command is interrupted. Is executed, a command reception waiting state for the service having a high priority is set for a predetermined waiting time.

In addition, the processing order determination means may immediately after execution of the currently executing command when the priority of the service processing the currently executing command is lower than that of the service that has newly received the command. A newly received command may be executed.
The priority and the predetermined waiting time can be changed, and can be changed by issuing a command at the time of issuing an information recording medium incorporating a CPU or at the time of operation.

  A second aspect of the invention is an application execution method for an information recording medium incorporating a CPU having two or more I / O ports, and a service for holding information related to a service for executing a command received from the I / O port An information recording medium application with a built-in CPU, comprising: an information holding step; and a processing order determination step for determining a processing order of commands according to information on the service when a command is received at the I / O port It is an execution method.

  A third invention is a computer-readable program that causes a computer to function as an information recording medium incorporating the CPU of the first invention.

  According to the present invention, it is possible to provide an IC card or the like that gives priority to a service executed by an IC card and preferentially processes a command of a service with a high priority.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.
First, an operation example of the IC card 1 according to the present embodiment will be described with reference to FIG.
FIG. 1 is a diagram illustrating an operation example of a mobile phone 3 on which an IC card 1 is mounted.

The IC card 1 is a removable recording medium mounted on a portable communication terminal such as a mobile phone 3 or a PDA (Personal Digital Assistance). Module) cards and UIM cards mounted on third generation mobile phones are known. The IC card 1 is a small IC card having a size of about 15 × 25 mm and a thickness of about 8 mm.
The IC card 1 has an antenna inside, or uses a weak radio wave transmitted from an external terminal or the like through a non-contact I / O port from a communication terminal side having a non-contact antenna, and stores data. It can be used as an IC card for transmission and reception, as a prepaid card such as a railway or bus, a commuter pass, or a settlement service such as credit or electronic money.
The IC card 1 is fixed to a predetermined recess on the inside or outside of an insertion port (not shown) provided on the side surface of the mobile phone 3 or a battery (not shown) whose lid on the back side of the mobile phone 3 is opened. .

  The mobile phone 3 has an antenna for transmitting and receiving, a display panel, key buttons, and the like, and is equipped with an IC card 1 that is a removable recording medium. The cellular phone 3 transmits / receives commands via the contact type I / O port of the IC card 1, and executes processing such as a call, Web access, mail transmission / reception through the base station 5.

The IC card reader 7 has a reader / writer and communicates wirelessly via a non-contact type I / O port of the IC card 1.
The IC card reader 7 is connected to the settlement host 9 via a network 11 such as the Internet. The payment host 9 is a host computer that provides a payment service such as credit or electronic money. The IC card 1 can communicate with the payment host 9 via the IC card reader 7 and use the payment service.

Next, the details of the IC card 1 will be described with reference to FIGS.
2 is a diagram showing the hardware configuration of the IC card 1, FIG. 3 is a diagram showing the details of the memory 24 of the IC card 1, and FIG. 4 is the details of the service priority / command processing order table 41 in the memory 24. FIG. 5 is a diagram showing details of the service procedure table 42 in the memory 24.

  As shown in FIG. 2, the IC card 1 includes a CPU (Central Processing Unit) 21, a ROM (Read Only Memory) 22, a RAM (Random Access Memory) 23, a memory 24, a contact I / O port 25, a noncontact I / O. An O port 26 is connected via a bus 28.

The CPU 21 executes a program. The ROM 22 stores program instructions or data. The RAM 23 temporarily stores data and the like during execution of the program.
The memory 24 stores data and the like necessary for the operation of the IC card 1.

The contact I / O port 25 is an I / O port for transmitting and receiving commands for executing communication services such as call processing by the mobile phone 3, Web access, and mail transmission and reception.
The non-contact I / O port 26 is an I / O port that performs communication for services such as a settlement service and authentication processing. By holding the IC card 1 over the IC card reader 7, the IC card 1 communicates wirelessly with the IC card reader 7 via the non-contact I / O port 26, and is connected to the settlement host 9 and the like via the network 11. . The IC card 1 can use a payment service by connecting to the payment host 9.

  As shown in FIG. 3, the memory 24 includes an OS 31, a service priority / command processing order table 41, a service procedure table 42, a contact I / O application 43, a non-contact I / O application 44, and the like.

The OS 31 is a program for controlling the operation of the entire IC card 1.
The contact I / O application 42 is an application for processing a command from the contact I / O port 25 of the IC card 1.
The non-contact I / O application 43 is an application for processing a command from the non-contact I / O port 26 of the IC card 1.

The service priority / command processing order table 41 includes a settlement service with a limited processing time, a priority of a service that is a series of procedures required when performing authentication processing, and a command type to be processed in each service. And holds the processing order, and has a service number 51, a service priority 53, a command sequence 55, and the like. In addition to this, the service priority / command processing order table 41 may add information to be held in accordance with service execution conditions such as the type of I / O port that receives a command.
Further, one or more commands are processed in each service, and it is not necessary to set a service that does not require priority setting.
The service priority / command processing order table 41 sets the priority of each service by issuing a command at the time of card issuance and operation. A default priority can also be set.

The service number 51 corresponds to a service procedure such as a settlement service or a call service. The service procedures with service numbers 51 “1” and “3” are processed by the non-contact I / O application 44, and the service procedures with service numbers 51 “2” and “4” are contact I / O applications. Assume that 43 processes.
The service priority 53 indicates the priority set for each service. The service priority 53 of the service procedure with the service number 51 of “1” is “1”, and the service procedure of the service number 51 is “2”. The service priority 53 of the service procedure with service number 51 of “3” is “3”, the service priority 53 of service procedure with service number 51 of “4” is “3”. "Is set.
If the commands have the same priority, processing is performed from the one received first.

The command sequence 55 is information that holds commands processed by each service in the order of processing. For example, a service procedure whose service number 51 is “1” processes commands in the order of command A, command B, command C, and command D. A service procedure with a service number 51 of “2” is in the order of command E and command F, and a service procedure with a service number 51 of “3” is in the order of command A, command G, and command D, and the service number 51 is “ 4 ”processes the commands in the order of command H, command I, and command J.
Commands that are not included in the command sequence 55 have low processing priority and have low priority.

  The service procedure table 42 is a table representing the progress of services for each I / O, and includes an I / O 61, a service number 51, a service priority 53, a next command 54, and the like.

The I / O 61 represents an I / O port through which the service transmits and receives commands. For example, the I / O 61 is “1” for the non-contact I / O port 26 and “2” for the contact I / O port 25. .
The service number 51 is the same as the service 51 in the service priority / command processing order table 41.
The service priority 53 is the same as the service priority 53 of the service priority / command processing order table 41, and indicates the priority set for each service.
The next command 63 sets a command to be processed next by the service procedure indicated by the service number 51.

The OS 31 includes an OS management process 32, a command transmission / reception process 33, a command management process 34, and the like.
The OS management process 32 manages the operation of the entire OS 31.
The command transmission / reception processing 33 performs processing necessary for transmission / reception of commands with the contact I / O port 25, the non-contact I / O port 26, and the like.
The command management process 34 schedules a command received by the command transmission / reception process 33 from the contact I / O port 25 or the non-contact I / O port 26, passes the command to an appropriate application, and instructs execution. A command delivery function 35, a processing order management function 36, a command processing interruption / resumption function 37, a reception waiting setting function 38, a command processing switching function 39, and the like are provided.

  The command delivery function 35 delivers a command to be executed next to the contact I / O application 43 or the non-contact I / O application 44.

The processing order management function 36 manages the processing order of commands received from the contact I / O port 25 or the non-contact I / O port 26.
When the command is received, it is confirmed whether or not the next command 63 set in the service procedure table 42 and the received command match, and if they match, the service priority 53 of the service and other data on the service procedure table 42 are displayed. The service priority 53 of the service is compared, and the interruption / save or continuation of command processing is determined according to the comparison result. If they do not match or there is no data in the service procedure table 42, the service priority corresponding to the received command is retrieved from the service priority / command processing order table 41 and set in the service procedure table 42.

When the processing of one command of the service procedure ends normally, the service priority / command processing order table 41 is referred to and the next command 63 that is expected to be received is set as the next command 63. If the first command of the service cannot uniquely identify which service, all the expected conditions are retained. For example, when the command A is received as the first command of the service, it is expected that the service procedure is the service procedure with the service number 51 “1” or the service procedure with the service number 51 “3”. Information regarding both service procedures is set in the table 41.
In this case, since the priority of the received command cannot be specified, the determination is made based on the priority of the service having the highest priority among a plurality of priorities set. When the second and subsequent commands are received and which service is identified, the remaining conditions on the service procedure table 42 are deleted.

The command processing interruption / resumption function 37 suspends and resumes command processing currently being executed by the contact I / O application 43 or the non-contact I / O application 44.
The command processing interruption determination function 38 receives a command from another I / O port when the command processing is currently being executed by the contact I / O application 43 or the non-contact I / O application 44. It is determined whether the command processing currently being executed is interrupted or the command processing currently being executed is continued.

The reception waiting time setting function 38 receives a command for a service with a high priority while processing a command for a service with a low priority, interrupts processing of a command for a service with a low priority, and commands a service with a high priority. If a low priority service command is waiting to be resumed, or a high priority service command is received while a high priority service command is being processed, a high priority service command is received. If you continue the process and wait for the start of low-priority service command processing, the command for the low-priority service that is in the wait state will be waiting even if command processing for the high-priority service is completed Is not started, and a command reception waiting state from a high priority I / O port is set for a predetermined reception waiting time.
When the next command of a service with a high priority is received during the reception waiting time set by the reception waiting time setting function 38, the command processing switching function 39 starts processing the command. If the next command of the service with a high priority is not received within the reception waiting time, the processing of the command of the service with a low priority in the waiting state is started.

Next, the mobile phone 3 on which the IC card 1 is mounted will be described with reference to FIG.
FIG. 6 is a diagram illustrating a hardware configuration of the mobile phone 3.

  As shown in FIG. 6, the mobile phone 3 is connected to a control unit 71, a wireless communication unit 72, a display unit 73, an input unit 74, a call processing unit 75, a memory 76, an IC card interface 77, and the like via a bus 78. The

  The control unit 71 includes a CPU that executes a program, a memory such as an OS, a ROM that stores program instructions or data, and a RAM that stores temporary work data. The control unit 71 controls the entire mobile phone 3.

  The wireless communication unit 72 has an antenna and controls wireless communication performed with the base station 5. Under the control of the control unit 71, the wireless communication unit 72 generates a signal such as data related to voice or data for packet communication, and transmits the signal to the base station 5 via the antenna of the mobile phone 3, or The wireless signal transmitted from 5 is received via the antenna, and the received signal is demodulated to obtain data relating to voice and data for packet communication.

The display unit 73 includes a display panel and performs display control on the display panel.
The input unit 74 has key buttons for inputting numbers, characters, and operation instructions, and outputs a signal corresponding to the operation of the key buttons to the control unit 71.
The call processing unit 75 includes a microphone, a speaker, a voice processing unit, and the like, and performs call processing including call connection and disconnection processing under the control of the control unit 71.
The memory 76 stores application programs installed in the mobile phone 3, address book data such as telephone numbers and mail addresses, and the like.
The IC card interface 77 controls communication between the IC card 1 mounted on the mobile phone 3 and the mobile phone 3.

Next, the IC card reader 7 that performs wireless communication with the IC card 1 will be described with reference to FIG.
FIG. 7 is a diagram showing a hardware configuration diagram of the IC card reader 7.

  As shown in FIG. 7, the IC card reader 7 includes a control unit 81, an input unit 82, a display unit 83, a storage unit 84, a communication unit 85, a non-contact IC card R / W (reader) interconnected by a bus 87. Writer) 86 and the like.

  The control unit 81 includes a CPU that executes a program and a memory such as a ROM and a RAM that store program instructions or data. The control unit 81 controls the operation of the entire IC card reader 7.

The input unit 82 is an input device for inputting data to the IC card reader 7.
The display unit 83 is a display device such as an LCD.
The storage device 84 is a storage medium for storing fixed data such as a control program, data related to a settlement service used by the IC card 1, and the like.
The communication unit 85 is a communication control device, a communication port, and the like, and controls communication with the settlement host 9 via the network 11.
The non-contact I / C card R / W 86 reads and writes data from the IC card 1 by non-contact wireless communication with the IC card 1.

Next, the operation of the first embodiment will be described with reference to FIGS. 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, and 19.
FIG. 8 is a diagram showing a flow of processing when a command of a service with a high priority is received during command execution and switching command processing, FIG. 9 is a diagram showing the service procedure table 42 in step 103, and FIG. FIG. 11 is a diagram illustrating the service procedure table 42 in step 109, FIG. 11 is a diagram illustrating the service procedure table 42 in step 109, FIG. 12 is a diagram illustrating the service procedure table 42 in step 113, and FIG. FIG. 14 is a diagram showing the service procedure table 42 at step 118, FIG. 15 is a diagram showing the service procedure table 42 at step 120, and FIG. 16 is a diagram showing the service procedure table 42 at step 124. Figure 17 Fig, 18 showing the service procedure table 42 in step 126, figure 19 illustrating a service procedure table 42 in step 130 is a diagram showing a service procedure table 42 in step 132.

As shown in FIG. 8, when the CPU 21 of the IC card 1 receives the command A at the non-contact I / O port 26 (step 101), the command reception processing is performed by the command transmission / reception processing 33 in the OS 31 (step 102). Processing order management is performed (step 103).
The CPU 21 of the IC card 1 refers to the service procedure table 42 according to the processing order management function 36 and confirms that it is empty, that is, there is no command processing currently being executed. Then, the CPU 21 of the IC card 1 searches the command sequence 55 in the service priority / command processing order table 41, searches for the service whose first command is the command A, and sets as shown in FIG. Since there are two services with the service number 51 of “1” and “3” for the service whose first command is the command A, both services are set in the service procedure table 42. Since both the service procedure with the service number 51 “1” and the service procedure with the service number 51 “3” receive commands at the non-contact I / O port 26, the I / O 61 is at the non-contact I / O port 26. It is set to “1” indicating that it exists. The service number 51 is set to “1” and “3”, the service priority 53 is set to “1” and “3”, respectively, and the next command 63 is set to command A.
Since the command A received this time is a service procedure with the service number 51 “1” or a service procedure with the service number 51 “3”, it cannot be uniquely identified. "

  The CPU 21 of the IC card 1 executes the command processing of the command A by the non-contact I / O application 44 (step 104), and transmits a response to the non-contact I / O port 26 by the command transmission / reception processing 33 in the OS 31. Transmission processing is performed (step 105). With reference to the service priority / command processing order table 41, as shown in FIG. 10, the command B, which is a command that is predicted to be received next to the command A in the services with the service numbers 51 “1” and “3”. The command G is set in the next command 63 of the service procedure table 42, and the command is transmitted from the non-contact I / O port 26 (step 106).

  Next, when the command G is received from the non-contact I / O port 26 (step 107), the CPU 21 of the IC card 1 performs command reception processing by the command transmission / reception processing 33 in the OS 31 (step 108), and the command procedure table 42 is stored. The received command G determines that the service number 51 corresponds to the service “3”, and as shown in FIG. 11, data relating to the service whose service number 51 is “1” in the service procedure table 42. Is deleted, and the non-contact I / O application 44 is instructed to process the command G (step 109).

  While the command G is being processed by the non-contact I / O application 44 (step 110), when the command E is received at the contact I / O port 25 (step 111), the CPU 21 of the IC card 1 performs the command transmission / reception processing 33 in the OS 31. Command reception processing is performed (step 112), and a search is made as to whether or not there is a service corresponding to the contact I / O port 25 in the service procedure table 42. Since there is no service corresponding to the contact I / O port 25, referring to the service priority / command processing order table 41, as shown in FIG. Service 2 ”is registered in the service procedure table 42. In the service registered in the service procedure table 42, the priority of the service with the service number 51 “2” is higher than the priority of the service with the service number 51 “3”. Then, the processing of the command G executed by the non-contact I / O application 44 is saved, and the processing of the command E is instructed to the contact I / O application 43 (step 113).

  When the processing of the command E is completed in the contact I / O application 43 (step 114), the CPU 21 of the IC card 1 performs a command transmission process for transmitting a response to the contact I / O port 25 (step 115). The I / O port 25 transmits a command (step 116).

The CPU 21 of the IC card 1 refers to the service priority / command processing order table 41 and sets the next command 63 of the command E to the command F as shown in FIG. Then, the CPU 21 of the IC card 1 sets the reception waiting time d by the reception waiting time setting function 38 in the OS 31, and before resuming the processing of the command G at the suspended non-contact I / O port 26, the contact I The reception of the command F specified by the next command 63 is awaited at the / O port 25 (step 117).
The reception waiting time d is set as a default value by issuing a command when the IC card 1 is issued or during operation.

If the command F is not received at the contact I / O port 25 even after the reception wait time d set by the reception wait time setting function 39 elapses, the CPU 21 of the IC card 1 receives the next command at the contact I / O port 25. The non-contact I / O application 44 that has been suspended by the command processing switching function 40 of the OS 31 until the service priority 53 of the service corresponding to the contact I / O port 25 is invalidated as shown in FIG. Is instructed to resume the processing of the command G (step 118).
After completing the command processing by the contactless I / O application 44 (step 119), the CPU 21 of the IC card 1 performs a transmission process for transmitting a response to the contactless I / O port 26 by the command transmission / reception process 33 in the OS 31. (Step 120), with reference to the service priority / command processing order table 41, as shown in FIG. 15, the command D is set in the next command 63 of the service procedure table 42, and the command from the non-contact I / O port 26 is set. Is transmitted (step 121).

  When the command F is received from the contact I / O port 25 (step 122), the CPU 21 of the IC card 1 performs command reception processing by the command transmission / reception processing 33 of the OS 31 (step 123), and as shown in FIG. The service priority 53 of the service corresponding to the contact I / O port 25 that has been invalidated in the table 42 is returned to “2”, and the command I is instructed to the contact I / O application 43 (step 124). .

After the command processing by the contact I / O application 43 is completed (step 125), the CPU 21 of the IC card 1 performs command transmission processing for transmitting a response to the contact I / O port 25 (step 126). The port 25 transmits a command (step 127).
Since the service with service number 51 “2” completes processing with command F, the data corresponding to the service with service number 51 “2” is deleted as shown in FIG.

When the command J is received at the non-contact I / O port 26 (step 128), the CPU 21 of the IC card 1 performs command reception processing by the command transmission / reception processing 33 in the OS 31 (step 129).
With reference to the service procedure table 42, since the command D of the next command 63 of the service corresponding to the contactless I / O port 26 and the received command J do not match, the service number 51 is “ It is determined that a service different from the service 3 ”is requested. Since there is no service in which the first command is the command J in the service priority / command processing order table 41, the service number 51 and the service priority 53 are registered with no data as shown in FIG. Then, the non-contact I / O application 44 is instructed to process the command J (step 130). When the service priority 53 is no data, the service is processed as the service with the lowest priority.

  After the command processing by the non-contact I / O application 44 is completed (step 131), the CPU 21 of the IC card 1 performs command transmission processing for transmitting a response to the non-contact I / O port 26 (step 132). The I / O port 26 transmits a command (step 133). Since the command J does not exist in the service priority / command processing order table 41, it is determined that there is no next command, and the data in the service procedure table 42 is deleted as shown in FIG.

In step 113 of FIG. 8, when a service command with a high priority is received while the service procedure with service number 51 of “3” is being executed by the contactless I / O application 44, the contactless I / O application If the execution of the service procedure with the service number 51 of “2” is switched by interrupting the execution of 44, but it is difficult to interrupt the application being executed, there is a method in which the application being executed is not interrupted.
The operation of the second embodiment will be described with reference to FIGS. 20, 21, 22, 23, 24, and 25.
FIG. 20 is a diagram showing a flow of processing when a command of a high priority service is received during command execution and command processing is continued, FIG. 21 is a diagram showing a service procedure table 42 in step 203, and FIG. FIG. 23 shows the service procedure table 42 in step 209, FIG. 24 shows the service procedure table 42 in step 213, and FIG. 25 shows the service procedure table 42 in step 215. It is a figure which shows the procedure table.

As shown in FIG. 20, when the CPU 21 of the IC card 1 receives the command A at the non-contact I / O port 26 (step 201), the command reception processing is performed by the command transmission / reception processing 33 in the OS 31 (step 202). Processing order management is performed (step 203).
The CPU 21 of the IC card 1 refers to the service procedure table 42 according to the processing order management function 36 and confirms that it is empty, that is, there is no command processing currently being executed. Then, the CPU 21 of the IC card 1 searches the command sequence 55 of the service priority / command processing order table 41, searches for a service whose first command is the command A, and a service whose first command is the command A. As shown in FIG. 21, a service procedure table 42 is set for two services with numbers 51 of “1” and “3”.

  The CPU 21 of the IC card 1 executes the command processing of the command A by the non-contact I / O application 44 (step 204), and transmits a response to the non-contact I / O port 26 by the command transmission / reception processing 33 in the OS 31. Transmission processing is performed (step 205). With reference to the service priority / command processing order table 41, as shown in FIG. 22, in the service with the service numbers 51 “1” and “3”, the command B that is predicted to be received next to the command A The command G is set in the next command 63 of the service procedure table 42, and the command is transmitted from the non-contact I / O port 26 (step 206).

  Next, when the command G is received from the non-contact I / O port 26 (step 207), the CPU 21 of the IC card 1 performs command reception processing by the command transmission / reception processing 33 in the OS 31 (step 208), and the command procedure table 42 is stored. The received command G determines that the service number 51 corresponds to the service “3”, and as shown in FIG. 23, the data relating to the service whose service number 51 is “1” in the service procedure table 42. Is deleted, and the non-contact I / O application 44 is instructed to process the command G (step 209).

  While the command G is being processed by the non-contact I / O application 44 (step 210), when the command E is received at the contact I / O port 25 (step 211), the CPU 21 of the IC card 1 performs the command transmission / reception processing 33 in the OS 31. Command reception processing is performed (step 212), and it is searched whether or not there is a service corresponding to the contact I / O port 25 in the service procedure table 42. Since there is no service corresponding to the contact I / O port 25, referring to the service priority / command processing order table 41, as shown in FIG. Service 2 ”is registered in the service procedure table 42. Then, the CPU 21 of the IC card 1 instructs the non-contact I / O application 44 to resume processing of the command G (step 213).

  After the command processing by the contactless I / O application 44 is completed (step 214), the CPU 21 of the IC card 1 performs command transmission processing for transmitting a response to the contactless I / O port 26, and service priority / command processing. Referring to the order table 41, as shown in FIG. 25, the command D is set in the next command 63 of the service procedure table 42 as the next command of the command G (step 215). The non-contact I / O port 26 transmits a command (step 216).

  Since the processing of the command E of the service procedure with the high priority service number 51 “2” is in a waiting state, the CPU 21 of the IC card 1 does not set the reception waiting time, and the contact I / O application 43 Is instructed to process command E (step 217), and the contact I / O application 43 starts processing of command E (step 218).

  After the command processing by the contact I / O application 43 is completed, the CPU 21 of the IC card 1 performs command transmission processing to send a response to the contact I / O port 25 (step 219), and the contact I / O port 25 receives the command. Is transmitted (step 220).

  As described above, according to the present embodiment, it is possible to provide an IC card or the like that gives priority to a service executed by the IC card and preferentially processes a command of a service with a high priority.

  The preferred embodiment of the IC card according to the present invention has been described with reference to the accompanying drawings, but is not limited to the above-described embodiment. It is obvious for those skilled in the art that various modifications or modifications can be conceived within the scope of the technical idea described in the claims, and these are naturally within the technical scope of the present invention. It is understood that it belongs.

The figure which shows the operation example of the mobile telephone 3 carrying the IC card 1 The figure which shows the hardware constitutions of IC card 1 The figure which shows the detail of the memory 24 of IC card 1 The figure which shows the detail of the service priority / command processing order table 41 in the memory 24 The figure which shows the detail of the service procedure table 42 in the memory 24 The figure which shows the hardware constitutions of the mobile telephone 3 The figure which shows the hardware constitutions of IC card reader 7 Diagram showing the flow of processing when a command with a high priority service is received during command execution and command processing is switched The figure which shows the service procedure table 42 of step 103 The figure which shows the service procedure table 42 of step 105 The figure which shows the service procedure table 42 of step 109 The figure which shows the service procedure table 42 of step 113 The figure which shows the service procedure table 42 of step 115 The figure which shows the service procedure table 42 of step 118 The figure which shows the service procedure table 42 of step 120 The figure which shows the service procedure table 42 of step 124 The figure which shows the service procedure table 42 of step 126 The figure which shows the service procedure table 42 of step 130 The figure which shows the service procedure table 42 of step 132 Diagram showing the flow of processing when a command with a high priority service is received during command execution and command processing continues The figure which shows the service procedure table 42 of step 203 The figure which shows the service procedure table 42 of step 205 The figure which shows the service procedure table 42 of step 209 The figure which shows the service procedure table 42 of step 213 The figure which shows the service procedure table 42 of step 215

Explanation of symbols

1 ... IC card 3 ... Mobile phone 5 ... Base station 7 ... IC card reader 9 ... Payment host 11 ... Network 21 ... CPU
22 ... ROM
23 ......... RAM
24 ......... Memory 25 ......... Contact I / O port 26 ......... Non-contact I / O port 28 ......... Bus 31 ......... OS
32... OS management processing 33... Command transmission / reception processing 34... Command management processing 35... Command delivery function 36... Processing sequence management function 37. Reception wait time setting function 39 ......... Command processing switching function 41 ......... Service priority / command processing order table 42 ......... Service procedure table 43 ......... Contact I / O application 44 ......... Non-contact I / O Application for O

Claims (17)

An information recording medium incorporating a CPU having two or more I / O ports,
The information recording medium incorporating the CPU is
Service information holding means for holding information on a service for executing a command received from the I / O port;
A processing order determining means for determining a processing order of commands according to information on the service when receiving a command at the I / O port;
An information recording medium having a built-in CPU.   2. The information recording medium with a built-in CPU according to claim 1, wherein the service information holding means holds the priority of the service, the type of command processed by the service, and the processing order.   When receiving a command from the I / O port, the processing order determination unit compares the priority of the service that is processing the command currently being executed with the priority of the service that has newly received the command, 2. The information recording medium with a built-in CPU according to claim 1, wherein an execution state of the command is determined according to the comparison result.   If the priority of the service that has received the command currently being executed is higher than the priority of the service that has newly received the command, the processing order determination means executes the command of the service that has received the command that is currently being executed. 4. An information recording medium having a built-in CPU according to claim 3, wherein   The processing order determination means interrupts the currently executing command when the priority of the service that is processing the currently executing command is lower than the priority of the service that has newly received the command, 4. The information recording medium with a built-in CPU according to claim 3, wherein a newly received command is executed.   The processing order determination means interrupts the currently executing command when the priority of the service that is processing the currently executing command is lower than the priority of the service that has newly received the command, 4. The information recording medium with a built-in CPU according to claim 3, wherein after the newly received command is executed, a command reception waiting state for the service having a high priority is set for a predetermined waiting time. .   When the priority of the service that is processing the command currently being executed is lower than the service that has newly received the command, the processing order determining means starts a new command immediately after execution of the command currently being executed. 4. The information recording medium having a built-in CPU according to claim 3, wherein the received command is executed.   2. The information recording medium having a built-in CPU according to claim 1, wherein the priority and the predetermined waiting time can be changed. An application execution method for an information recording medium incorporating a CPU having two or more I / O ports,
A service information holding step for holding information about a service for executing a command received from the I / O port;
When receiving a command at the I / O port, a processing order determining step for determining a processing order of the command according to information on the service;
An information recording medium application execution method including a CPU.   10. The method of executing an information recording medium application incorporating a CPU according to claim 9, wherein the service information holding step holds the priority of the service, the type of command processed by the service, and the processing order.   In the processing order determination step, when a command is received from the I / O port, the priority of the service that is currently processing the command is compared with the priority of the service that has newly received the command, 10. The method of executing an information recording medium application with a built-in CPU according to claim 9, wherein the execution state of the command is determined according to the comparison result.   In the processing order determination step, if the priority of the service that has received the currently executing command is higher than the priority of the service that has newly received the command, the command execution of the service that has received the currently executing command is executed. 12. The method of executing an information recording medium application with a built-in CPU according to claim 11, further comprising:   In the processing order determination step, when the priority of the service that is processing the command currently being executed is lower than the priority of the service that has newly received the command, the currently executing command is interrupted, 12. The method for executing an information recording medium application with a built-in CPU according to claim 11, wherein the newly received command is executed.   In the processing order determination step, when the priority of the service that is processing the command currently being executed is lower than the priority of the service that has newly received the command, the currently executing command is interrupted, 12. The information recording medium with a built-in CPU according to claim 11, wherein after the newly received command is executed, a command reception waiting state for the service having a high priority is set for a predetermined waiting time. Application execution method.   In the processing order determination step, when the priority of the service that is processing the command currently being executed is lower than the service that has newly received the command, a new command is immediately started after the execution of the command currently being executed. 12. The method for executing an information recording medium application incorporating a CPU according to claim 11, wherein the received command is executed.   10. The method of executing an information recording medium application incorporating a CPU according to claim 9, wherein the priority and the predetermined waiting time can be changed.   A computer-readable program that causes a computer to function as an information recording medium incorporating the CPU according to claim 1.

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