FR2626696A1 - Memory recording system for a portable electronic device of the card type - Google Patents

Abstract

In an integrated circuit card possessing an integrated electrically erasable programmable read-only memory, data areas are allocated in the memory in descending order from the end-of-memory address and area definition data areas are allocated in the memory in ascending order from the start-of-memory address 12.

Description

 The present invention relates to a memory recording system for use in a portable electronic device, this system assigning a data zone and a zone definition data zone making it possible to define the data zone for a remanent memory of an integrated circuit card having an integrated circuit chip consisting of nonvolatile memory and a control element such as a central processing unit.

 New portable data storage media in the form of integrated circuit cards have recently been developed which have integrated non-volatile memory and an integrated control element such as a central processing unit. In the case of these integrated circuit cards, access to the non-volatile memory is carried out by the control element to execute a data input-output operation in accordance with a request sent by an external unit such as a reader. of integrated circuit card.

 The non-volatile memory of these integrated circuit cards is separated into two sections: a data zone used to store data and a zone definition data zone used to store zone definition data which makes it possible to define the data zone. inside memory. The zone definition data generally includes a zone number used to define a number specific to a data zone, a zone dimension used to define the storage capacity of the data zone, a pointer data which indicates the status of The data area, i.e. the data area to which the data was written, as well as the access conditions allowing access to data areas. When accessing data contained in an area of data, it is made access to a zone definition data zone which is associated with the targeted data zone in order to allow the reading of the start address as well as the dimension and the status of this zone. data, and access is made to the target data area. The area definition data area has a fixed dimension while The data area has a variable dimension, and the size of the data area is specified by an external unit such as an IC card reader / writer. allocation of memory in such an integrated circuit card is described for example in United States patent application no. 168 951 whose inventor is Takashi NIIMURA.

 However, with the system described, the border between the zone definition data zone and the data zone inside your memory is a predetermined border. More specifically, the dimension of the zone definition data area and that of the data area are fixed, so that a reduction or dilation of these dimensions cannot be authorized. The area definition data area and The data area are in one-to-one correspondence. Even if the area definition data area has a blank area (an area in which area definition data can be reassigned), it is therefore impossible to allocate the area definition data and of the data area unless The data area has a corresponding blank area having the designated size. The storage capacity to be incorporated in a compact electronic device such as an integrated circuit card is Limited, and it is therefore necessary to make, without waste, the best use of the capacity of memorization.

It is therefore an object of the invention to produce a memory recording system intended for a portable electronic device, which can also ensure the recording of data.
As long as a memory has a blank area large enough to store area definition data and data, so that efficient use is made of memory.

To achieve this goal, a memory recording system for a portable electronic device is proposed, which comprises:
a nonvolatile memory having a predetermined address location which contains a start address and an end address and having several data areas used for storing data as well as, in correspondence with the data areas, a plurality of data areas of area definition for storing area definition data that defines the data areas, the plurality of data areas and the plurality of area definition data areas being sequentially allocated in the memory; and
a write control device serving, during the sequential allocation of the data zones and of the zone definition data zones in the memory, to be allocated, in ascending order starting from the start address, One of the groups constituted by a group of data zones and a group of zone definition data zones and to be allocated, in a descending order starting from the end address, The other group, and used for writing data and area definition data respectively in the data areas and the area definition data areas.

The following description, intended to illustrate the invention, aims to give a better understanding of its characteristics and advantages; it is based on the accompanying drawings, among which:
- Figure 1 is a simplified diagram showing the structure of an integrated circuit card to which the invention is applied;
- Figure 2 is a conceptual diagram illustrating the allocation of non-volatile memory contained in the integrated circuit card of Figure 1; and
FIGS. 3A to 3D are diagrams used to explain the method for allocating the zones of zone definition data and the data zones in the non-volatile memory of FIG. 2.

 In Figure 1 is shown a block diagram giving an example of an integrated circuit card, constituting the portable electronic device, to which the invention is applied. The integrated circuit card comprises a control element 11 formed for example by a central processing unit (CPU), which provides general control of the card, a non-volatile memory 12, which can be constituted by an electrically erasable programmable read-only memory ( EEPROM), used to store data, a program memory 13, which can be constituted by a read-only memory with mask, used to store control programs which are executed by the control element 11, and a contact section 14 used to electrically couple the card to an external unit (not shown), for example an integrated circuit card reader-writer. Among these elements, those which are inside the block delimited by a dashed line (namely the control element 11, the data memory 12 and the program memory 13) are formed on a single chip of integrated circuit or on separate integrated circuit chips which are housed in the main body of the integrated circuit card.

In memory 12, as shown in FIG. 2, area definition data areas used to define data areas are allocated in ascending order from
The start address, and data areas defined by the data stored in the area definition data areas are assigned in descending order from the end address.

Upon receipt of a data recording request from the IC card reader-recorder (not shown), a data zone is allocated for the recording of the data supplied, and the zone definition data zone. corresponding to this data zone is then assigned for the recording of the zone definition data. In the example shown in Figure 2, four separate area definition data areas and four separate data areas are assigned. In this embodiment, the area definition data areas have a fixed dimension, while the data areas have a variable dimension. The zone definition data comprises a zone number used to define a specific number for each data zone, a start address used to define the position of the data zone, a zone dimension used to define the dimension of the zone. data and a zone status data item representing the status of a memory zone. The pair consisting of a data area and an area definition data area is called a sector and constitutes a basic unit for data access. To access the desired data area, when a certain number of sectors have been specified, since each area definition data area has a fixed dimension, one can reach
The start address to which the target area definition data area is assigned by multiplying the sector number by The number of bytes constituting the fixed dimension. As a result, the control element reads the content of the data area definition of the area reached in order to find the start address and the size of the target data area, then read the desired data in the target data area. On the other hand, since the data areas have variable dimensions, at a specific address of the memory 12, there is provided a data area pointer which indicates
The start address of memory 12 for which it is possible to assign the following data area. Thus, to assign a data area, the control element 11 relies on the pointer of memory 12 to determine the location of memory 12 auque! the following data area must be assigned.
The start address of the area definition data area is calculated in the previous case. The start address can be stored in a particular location of the memory 12 so that the control element 11 can read L ' desired address in this particular location in order to access the target area definition data area.

 We now refer to FIGS. 3A to 3D, in relation to which we will give a description of the memory recording system according to the invention. Figure 3A shows the memory 12 which can record area definition data and data; nothing has been written in the memory shown in this figure. It is assumed that a request for registration of a data zone is sent to the integrated circuit card from the integrated circuit card reader-recorder. In response to this request, the control element 11 of the integrated circuit card reads the data area pointer provided at a particular address in the memory 12. As nothing has yet been written in the memory 12 at this stage , The data area pointer indicates the end address of the memory 12. The control element 11 assigns a data area of a specified size (data area 1) starting from The end address of the memory 12 and written in Data area 1 The data sent by the IC card reader-recorder.

Then, the control element 11 assigns a zone definition data zone having a fixed dimension (zone 1 of zone definition data) which starts from the start address of the memory 12, and it writes in the zone zone definition data start address, size and status data of data zone 1. Then, the control element 11 updates the data zone pointer to the memory address 12 which can then be assigned.

If a data recording request is likewise made by the integrated circuit card reader-recorder,
The control element 11 gives access to the particular address of the memory 12 making it possible to consult the data zone pointer which has been updated, allocates the second data zone having the specified size (data zone 2) on based on the pointer's indications, and writes in the data zone 2 the data coming from the integrated circuit card reader-recorder. Next, the control element 11 multiplies the sector number by the number of bytes of fixed dimension the first zone of zone definition data in order to obtain the start address of the memory 12 riveted to the allocation of the second zone of challenge data zone concept (zone 2 of zone definition data), attributes
Zone 2 of zone definition data as a function of the location obtained, and writes the start address, the dimension and the status data of data zone 2, as in the previous case. Then, the control element 11 again updates the data area pointer. By repeating the above operation, it is possible to allocate in sequence, as and when requested, zones of variable dimensions. More specifically, as shown in FIG. 3D, the definition data zones of zones are allocated in ascending order from the physical start address of memory 12, and the data zones are allocated in descending order from the physical end address of memory 12. Thus, data and area definition data can be saved as long as there is a blank area large enough to allocate the size data area.

requested in addition to that of the zone definition data zone, so that an efficient use of the household 12 is ensured.

In the embodiment presented above, the area definition data areas are allocated in descending order from the start address of the memory 12 and the data areas Le are in descending order from starting from the end address of the memory 12. However, the invention is in no way limited to this particular embodiment. For example, the data areas could be assigned in
The ascending order from the start address of memory 12 and the area definition data areas in descending order from the end address of memory 12.

 While each zone definition data zone has a fixed dimension and each data zone has a variable dimension in the above embodiment, it would be possible to reverse this relationship or to give the two types of zones given a fixed dimension or a variable dimension.

 Of course, those skilled in the art will be able to imagine, from the memory recording system whose description has just been given by way of illustration and in no way limitative, various other variants and modifications which do not come out of the scope of the invention.

Claims (12)

 1. Memory recording system for a portable electronic device, characterized in that it comprises  a memory (12) having a predetermined address location which has a start address and an end address assigned in the memory and having a plurality of data areas for storing data and a plurality of definition definition data areas area for storing area definition data which each respectively defines said data areas; and  write control means (11) for assigning, in ascending order starting from the start address, one of the groups that constitute a group of said data areas and a group of said definition data areas zone and to assign, in a descending order which leaves from the end address, the other group, and serving to write respectively data and zone definition data in said data zones and said definition data data zones. zoned.  2. System according to claim 1, characterized in that said write control means (11) allocates said data areas and said area definition data areas until there is no more blank area in said memory.  3. System according to claim 1, characterized in that at least one of the groups formed by the group of said zone definition data areas and the group of said data areas has a variable dimension.  4. System according to claim 3, characterized in that said variable dimension is fixed coming from an external unit.  5. System according to claim 1, characterized in that said memory (12) comprises a non-volatile memory.  6. System according to claim 1, characterized in that said zone definition data item includes a zone number used to define a number specific to an area, a start address used to define the location of said data area, a area dimension used to define the dimension of said data area, and area status data representing the status of said area.  7. Portable electronic device, characterized in that it comprises:  a memory (12) having a predetermined address location which has a start address and an end address assigned therein and having a plurality of data areas for storing data and a plurality of definition data areas an area for storing area definition data which each respectively defines said data areas; and  write control means (11) for assigning, in ascending order starting from the start address, one of the groups formed by a group of said data areas and a group of said definition data areas zone and to allocate, in a descending order starting from the end address, the other group and used to write data and zone definition data respectively in said data zones and said zone definition data zones .  8. Device according to claim 7, characterized in that said write control means (11) allocates said data areas and said area definition data areas until there is no more blank area in said memory.  9. Device according to claim 7, characterized in that at least one of the groups formed by the group of said zone definition data areas and the group of said data areas has a variable dimension.  10. Device according to claim 9, characterized in that said variable dimension is provided by an external unit.  11. Device according to claim 7, characterized in that said memory (12) comprises a non-volatile memory.  12. Device - according to claim 7, characterized in that said zone definition data comprises a zone number used to define a number specific to the data zone, a start address used to define - the location of said zone data, an area dimension used to define the dimension of said data area, and area status data representing The status of said data area.