RU2216041C2 - Portable data medium using microprocessor and operating both in contact and contactless modes - Google Patents

Abstract

FIELD: computer engineering. SUBSTANCE: portable data medium incorporating provision for preventing contactless access to memory areas which are designed only for contact access has microprocessor, data input/output device, and memory that stores memory areas access conditions for different modes of operation. EFFECT: enhanced reliability. 10 cl, 5 dwg

Description

 The invention relates to a portable data carrier using a microprocessor and operating in both contact and non-contact modes. In this case, the portable storage medium is preferably made in the form of a card with a microprocessor.

 Contact cards have contact pads for supplying power and data exchange with the corresponding data input / output device operating in contact mode when brought into direct contact. Contact cards have been widespread for a long time and are used as access cards for mobile radio systems of the GSM standard (Global System for Communication with Mobile Objects), phone cards, health insurance cards, bank cards, etc.

 Contactless cards contain an inductor as an antenna for supplying power and data exchange with the corresponding data input / output device operating in the contactless (inductive) mode. At the same time, an antenna interface is provided on the card, which generates a constant voltage from the AC voltage induced in the inductor to supply the microprocessor with a supply voltage. The antenna interface serves as a signal converter for data exchanged between a contactless operating terminal and a microprocessor. The antenna interface is preferably integrated with the microprocessor into the semiconductor integrated circuit.

 The subject of the invention is a portable storage medium using a microprocessor and combining both functionalities (contact and non-contact operation mode). Such portable storage media are defined by the terms “combicart” (a combination of contact and non-contact functionality) or “card with a dual interface” (card with a contact and non-contact interface).

 The type of data transfer between the portable data carrier and the contact input / output device operating in a natural way differs from the type of data transfer between the portable data carrier and the contactless input / output device operating in non-contact mode. For the contact mode of operation and for the non-contact mode of operation of the portable data carrier, various transmission protocols are used. Only for the contact transmission mode are various transmission protocols known (T = 0, T = 1, T = 14).

 The portable storage media of the invention support both at least one transmission protocol for contact mode (for example, T = 1) and one transmission protocol for contactless mode.

 Portable storage media according to the invention use an operating system that, regardless of the type of data transmission, processes and distributes the data stored in various memory areas according to the commands received from the corresponding data input / output device.

 Based on such an operating system, one, two or more application programs can be installed. Such portable data carriers, on which several application programs are installed, are defined as multifunctional cards with microprocessors. In the case of a portable data carrier according to the invention, this is a multi-function card with a dual interface. In this case, each application program (application) can be associated with different memory areas. Thus, a portable storage medium could, for example, include an application related to bank credit cards and an application related to the cards of a public passenger transport public transport network provider (PSTN). In this case, the application corresponding to the credit card is allocated an electronic wallet for transferring funds as a memory area, and the application corresponding to the PSTN is allocated the corresponding electronic wallet of the PSTN as a memory area.

 While the contact use of a portable storage medium always provides that the owner of the portable storage medium introduces it consciously, of his own free will, into the corresponding data input / output device, such a conscious action, performed at the user's request, in the case of contactless mode is not necessary for implementation of data transfer. Due to the relatively long range of contactless input / output devices operating in non-contact mode, data transmission can also occur when the portable storage medium is, for example, in the bag of the owner of the data medium. So, for example, each time automatically when crossing the zone of entry / exit of metro stations, non-contact data transmission can occur to make fast and convenient fare payment.

 However, this advantage of a non-contact mode of operation in the case of a portable medium having the ability to work in both contact and non-contact mode poses a certain risk. This risk is caused by the fact that the intruder can try to covertly access memory areas that relate to contact access applications by means of a contactless data input / output device, and access to these memory areas is usually associated with the conscious, at the request of the owner, inputting the data carrier into contact data input / output device.

 The objective of the invention is the creation of a portable data carrier using a microprocessor, for which it is guaranteed that for the owner of the data carrier arbitrary contactless access to the memory areas that must belong to contacted access applications is impossible.

 This problem in accordance with the invention is solved in that the portable storage medium for at least one memory area contains at least one data-specific access condition, which, depending on the type of data transfer between the portable storage medium and the data input / output device, determines A condition under which access to this memory area is allowed.

 The access condition can be contained in a single bit, which as a flag indicates whether access is allowed or not with the type of data transfer currently in use (contact or non-contact) to this memory area.

 In accordance with the invention, they then act in such a way that before accessing this memory area, i.e. Before executing the command transmitted from the data input / output device, the access condition corresponding to the data transmission mode related to the given memory area is read out from the portable data carrier using the control program stored in the portable data medium. Then it is checked whether, in the case of the corresponding currently used (i.e., current) type of data transmission, the desired access command, taking into account the access condition. In this case, the corresponding access command is executed only when verification shows that this access is allowed. In this case, information on what type of current data transmission, i.e. which transmission protocol is currently being applied.

 Thus, due to the access condition specific to the data transfer provided by the invention, it is reliably guaranteed that access is denied for contactless data transmission for certain memory areas, while access is allowed for contact data transmission.

 Moreover, in one form of execution, access in the case of contactless data transmission is prohibited in principle.

 In another implementation form, access restrictions are only valid for certain types of access (commands), while other types of access are allowed. In this case, one single access condition may be provided, which for different types of access determines various conditions under which this type of access is allowed. Alternatively, for each type of access, its own access condition corresponding to data transmission is provided.

 In addition, the reverse situation also enters into the scope of the invention, in which, in contact mode, on the basis of appropriate access conditions, access to certain areas of memory that should only be used in non-contact mode is prohibited.

 In addition, it is also provided that at least one access-specific condition for data transmission is provided for the contact mode, which, depending on the current transmission protocol (T = 0, T = 1, T = 14) in the contact mode determines the condition under which allowed access to the memory area.

 In this case, an access condition specific to data transmission is entered from an authorized point using protected information into a freely programmable non-volatile memory of a portable data carrier; preferably, the access conditions can also be reprogrammable. Access conditions are programmed by the so-called initialization and / or personalization steps.

 Instead of programming access conditions in a free way, you can also save them in unchangeable read-only memory (ROM).

 The invention is explained in more detail on the example implementation, illustrated by the drawings.

In FIG. 1 shows a portable data carrier made in the form of a card with a microcircuit. To implement the contact mode of operation, this data carrier has on one side of the card an electrically conductive contact pad (K _i ). For non-contact operation, the card body contains an antenna (A) in the form of a coil. For clarity, the card body in the area of the coil winding is shown with two tears.

Figure 2 shows a schematic illustration of a portable data carrier. A semiconductor integrated circuit with a microprocessor, memory and an integrated antenna interface is shown. To this integrated circuit, on the one hand, an antenna (A) is connected through the corresponding connecting conductor (SP), and on the other hand, contact pads (K _i ) through the corresponding connecting conductors (SP _i ). The integrated circuit, along with the central processing unit (CPU) as the central computing unit, also includes a ROM in which at least parts of the operating system are stored, as well as a volatile random access memory (RAM). In addition, there is a non-volatile programmable read-only memory device (EEPROM) divided into various memory areas. This EEPROM may store, inter alia, part of the operating system. In addition, application programs (applications) are stored there with the corresponding memory areas as data fields.

 FIG. 3A schematically illustrates a portable storage medium in connection with a contact input / output device operating in contact mode.

 FIG. 3B schematically illustrates a portable storage medium in connection with a non-contact data input / output device.

 Figure 4 schematically shows various sections of the EEPROM memory with corresponding access conditions according to the invention. In this case, the i-th memory area is provided as a data field for an electronic wallet, which is used in conjunction with an application corresponding to the use of a contact payment card. Along with this, the j-th memory area is used as a data field for another electronic wallet, which is used in conjunction with the application corresponding to the PSTN. 4 access conditions (UD1, UD2, UD3, UD4) are assigned to the memory areas corresponding to "electronic wallets", which determine access to such a memory area depending on the contact or contactless operation mode. In the simplest case, the access conditions are stored in the form of a flag in the form of a single bit, which can be set or not set.

Moreover, access conditions may express the following:
UD1 = 1: the read command in contact mode is enabled,
UD1 = 0: the read command in contact mode is prohibited,
UD2 = 1: the command to update data (records) in contact mode is allowed,
UD2 = 0: write command in contact mode is prohibited,
UD3 = 1: read command in contactless mode is prohibited,
UD3 = 0: the read command in contactless mode is enabled,
UD4 = 1: write command in contactless mode is prohibited,
UD4 = 0: write command in non-contact mode is enabled.

 The corresponding ratios are valid for access conditions for another e-wallet that complies with the PSTN.

 Access conditions can be read internally (in a portable storage medium) in both operating modes. As an additional option, the access conditions can also be read from the data input / output device. However, they can be changed only through authorized points.

Claims (10)

 1. A portable storage medium using a microprocessor and capable of operating in contact and non-contact modes, the data being transferred in contact mode between the portable data carrier and the input / output data device operating in contact mode, and the non-contact transmission is between the portable data carrier and operating in non-contact mode, a data input / output device, a portable data carrier has at least one memory subdivided into different memory areas and, in the portable storage medium for at least one memory area, at least one access condition is stored that determines under what condition access to this memory area is allowed, in the portable storage medium for at least one memory area, a condition corresponding to data transmission is stored access, which, depending on the type of data transfer between the portable storage medium and the data input / output device, determines the condition under which access to this memory area is allowed, characterized in that etstvuyuschee transmission data access condition read using a portable medium stored in the control program data, wherein the corresponding transmission condition data inputted from an authorized access point using the security information into a programmable non-volatile storage medium of the portable storage device.  2. A portable data carrier using a microprocessor according to claim 1, characterized in that for at least one memory area an access condition is provided for data transfer for a contactless mode of operation, which in the contactless mode of operation of a portable data medium prohibits any access to this area memory.  3. A portable storage medium using a microprocessor according to claim 1 or 2, characterized in that for at least one memory area an access condition for a non-contact mode of operation is provided, which in a non-contact mode of operation of a portable data medium defines at least at least two different types of access, respectively, different conditions under which access is allowed.  4. A portable storage medium using a microprocessor, according to any one of paragraphs. 1-3, characterized in that the various access types for the memory area are associated with various access conditions corresponding to data transmission for the non-contact mode of operation, which in the non-contact mode of the portable data carrier for any type of access determine the conditions under which access is allowed.  5. A portable storage medium using a microprocessor, according to any one of paragraphs. 1-4, characterized in that for at least one memory area, an access condition for contact mode of operation corresponding to data transmission is provided, which in the contact mode of operation of a portable data medium prohibits any access to this area of memory.  6. A portable storage medium using a microprocessor, according to any one of paragraphs. 1-5, characterized in that for at least one memory area there is provided an access condition corresponding to the data transfer for the contact mode of operation, which in the contact mode of the portable data carrier determines for at least two different types of access the corresponding different conditions under which access allowed.  7. A portable storage medium using a microprocessor, according to any one of paragraphs. 1-6, characterized in that the various access conditions for the memory area are associated with various access conditions corresponding to data transmission for the contact mode of operation, which in the contact mode of the portable data carrier for any type of access determine the conditions under which access is allowed.  8. A portable storage medium using a microprocessor, according to any one of paragraphs. 1-7, characterized in that for at least one memory area for at least one type of access, an access condition for contact operation and a data access condition for contactless operation are provided for data transmission.  9. A portable storage medium using a microprocessor, according to any one of paragraphs. 1-8, characterized in that it is designed in such a way that the access condition corresponding to the data transfer is entered from an authorized point using protected information into a portable data medium in a reprogrammable manner.  10. A portable storage medium using a microprocessor, according to any one of paragraphs. 1-8, characterized in that the access condition corresponding to the data transfer is stored in an unchangeable read-only memory of the portable data carrier.

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