FR3128038A1 - HYBRID DIGITAL INFORMATION STORAGE METHOD AND HYBRID DIGITAL INFORMATION STORAGE ARCHITECTURE - Google Patents

Abstract

TITLE OF THE INVENTION: HYBRID DIGITAL INFORMATION STORAGE METHOD AND HYBRID DIGITAL INFORMATION STORAGE ARCHITECTURE The hybrid digital information storage method (100) comprises: - a step (105) of configuration, which comprises:- a step (120) of defining at least two information storage devices, at least one of the devices being local and not dedicated to storage, - a step (125) of creating a computer abstraction having characteristics common addressing points between at least two local devices, each abstraction being addressable by a central control device, - iteratively, a dynamic step (110) of local storage capacity adjustment: - a step (130) of allocation, by at least one local device and not dedicated to storage, of a storage capacity and- a communication step (135), to the central control device, of an allocated storage capacity and- a step (115) execution, which comprises: - a step (140) for triggering the saving of digital information, - a step (145) for fragmenting the digital information into at least one information segment, - a step (150 ) of selection, by the central control device and for each segment, of a storage device according to the abstractions created and- a step (155) of recording, on the selected storage device, of the associated information segment . Figure for abstract: Figure 1

Description

HYBRID DIGITAL INFORMATION STORAGE METHOD AND HYBRID DIGITAL INFORMATION STORAGE ARCHITECTURE

Technical field of the invention

The present invention aims at a hybrid digital information storage method and a hybrid digital information storage architecture. It applies, in particular, to the field of computer data storage.

State of the art

In the field of computer data storage, local storage devices are essentially known, of the local memory type of computer terminals, such for example computers, and remote cloud storage devices.

These alternatives can be used in combination, although this hybrid usage is achieved file by file and manually by a user moving a file from or to cloud storage or from or to a local directory synchronized with a remote directory.

In addition, the improvement of techniques over the past 20 years has made it possible to increase the storage capacities of computer devices by nearly two orders of magnitude at a constant price (from ~100GB to ~10TB). During the same period, professional data storage needs have not all evolved to the same extent: while new practices such as multimedia production or big data are highly storage-intensive, the he increase in office automation needs was marginal during the same period. The result is that in many companies, the majority of storage present in IT equipment will never be used during the life of the equipment, which constitutes an economic and ecological waste.

Presentation of the invention

The present invention aims to remedy all or part of these drawbacks.

To this end, according to a first aspect, the present invention is aimed at a hybrid method for storing digital information, which comprises:
- a configuration step, which includes:
- a step of defining at least two information storage devices, at least one of the devices being local and not dedicated to storage,
- a step of creating a computer abstraction having common addressing characteristics between at least two local devices, each abstraction being addressable by a central control device,
- iteratively, a dynamic step for adjusting local storage capacity:
- a step of allocating, by at least one local device and not dedicated to storage, a storage capacity and
- a communication step, to the central control device, of an allocated storage capacity and
- an execution step, which includes:
- a step for triggering the saving of digital information,
- a step of fragmenting the digital information into at least one information segment,
- a step of selection, by the central control device and for each segment, of a storage device according to the abstractions created and
- a recording step, on the selected storage device, of the associated information segment.

Thanks to these provisions, the storage of the same file (or any other computer data structure) can be partially carried out on any number of resources, local or remote. Furthermore, the implementation of non-dedicated local resources, of the computer type regularly implemented by a user executing third-party applications, allows an optimization of the overall memory consumption. The availability of such resources can be updated in real time, as the storage capacity of a local terminal increases or decreases.

Overall, these arrangements result in a fine capacity for managing memory resources in a computer network.

In optional embodiments, the execution step includes a step of encryption at the source of an information segment according to a third-party private key.

These embodiments make it possible to guarantee the confidentiality of the stored data, this data being able to be stored on local terminals belonging to owners other than the owner of the data.

In optional embodiments, the configuration step and/or the dynamic adjustment step comprises:

- a step of allocation, by at least one third-party storage device located in a third-party computer network with respect to at least one local device, of a storage capacity,
- a communication step, by at least one third-party device to the central control device, of an allocated storage capacity and
- a step of creation, by a calculation system, of a computer abstraction having common addressing characteristics between at least one local device and at least one third-party device, each abstraction being addressable by a central control device.

These embodiments make it possible to connect additional memory resources located outside of a user's main network.

In optional embodiments, the fragmentation step comprises:
- a step of breaking down the information segment into at least one information block and
- a step for generating redundancies, for at least one block of information,

the blocks of information being recorded during the recording step.

These embodiments make it possible to increase the general reliability of the system in order to mitigate the risks of failure of information blocks or of storage devices hosting these blocks.

In optional embodiments, at least two segments and/or blocks representing initial digital information are recorded on at least two separate storage devices.

These embodiments make it possible to distribute the storage of a segment between two distinct devices, each storage device being incapable of restoring all of the digital information thus divided into segments and/or blocks.

In optional embodiments, the execution step includes a step of determining a unique fingerprint of an information segment and a step of storing the determined digital fingerprint, this fingerprint being configured to be used during a reading of the recorded information segment to ensure its integrity.

These embodiments make it possible to mitigate the risks of compromise of blocks of information or of storage devices hosting these blocks.

In optional embodiments, an allocation step is configured to associate at least one availability characteristic with a storage capacity, the selection step being carried out according to at least one storage capacity communicated to the central control.

These embodiments allow fine management of the memory resources in a computer network, according to the capacities available but also to the criteria of availability of these capacities.

In optional embodiments, an allocation step is configured to associate at least one user identifier with a storage capacity, the selection step being carried out according to at least one user identifier communicated to the device central control.

These embodiments allow fine management of memory resources in a computer network, depending on the capacities available but also on the user identifiers associated with these capacities. This, in particular, makes it possible to prevent all the segments and/or blocks from being saved in storage devices belonging to a single user.

In optional embodiments, the configuration step comprises a step for defining a selection strategy, the selection step implementing a defined selection strategy.

These embodiments allow fine management of memory resources in a computer network.

In optional embodiments, the method that is the subject of the present invention comprises, upstream of the step of recording on at least one selected storage, a step of local encryption of the segment or of the block to be recorded according to a key random encryption key, this random encryption key being configured to be used when reading the recorded information segment to ensure its integrity.

These embodiments make it possible to considerably reduce the risk of infection of a computer network or terminal by a virus, the segment or block being, during its decryption, rearranged so that a malicious computer program is rendered inoperative.

In optional embodiments, the central control device is directly addressable by at least one local storage and at least one third-party storage, allowing the formation of a star network between a local network and a non-local remote network.

These embodiments make it possible to circumvent the limitations linked to interactions in a local network on the one hand and to interactions in an Internet network on the other hand. Indeed, these interactions do not allow the direct connection of a resource in an Internet network to a resource in a local network.

In embodiments, a storage device of a device performing the triggering step is excluded from a list of candidate storage devices in the selection step.

These embodiments improve backup redundancy and optimize the overall memory management of the architecture.

According to a second aspect, the present invention aims at a hybrid digital information storage architecture, which comprises:

- at least two information storage devices, at least one of the devices being local and not dedicated to storage, at least one local device comprising:
- a means of allocating a storage capacity and
- a means of communication, to a central control device, of an allocated storage capacity,
- configuration means, configured to create a computer abstraction having common addressing characteristics between at least two local devices, each abstraction being addressable by the central control device,
- a means of triggering the backup of digital information,
- a means of fragmenting the digital information into at least one information segment,
- the central control device associated with each storage device comprising a means of selection, by the central control device and for each segment, of a storage device according to the abstractions created and
- A recording means, on the selected storage device, of the associated information segment.

The advantages of this architecture are identical to the advantages of the method which is the subject of the present invention.

Brief description of figures

Other advantages, aims and particular characteristics of the invention will emerge from the non-limiting description which follows of at least one particular embodiment of the method and of the architecture which are the objects of the present invention, with reference to the appended drawings, in which :

represents, schematically, and in the form of a flowchart, a particular succession of steps of the method which is the subject of the present invention and

schematically represents a particular embodiment of the architecture that is the subject of the present invention.

Claims (13)

Hybrid method (100) for storing digital information, characterized in that it comprises:
- a configuration step (105), which comprises:
- a step (120) for defining at least two information storage devices, at least one of the devices being local and not dedicated to storage,
- a step (125) for creating a computer abstraction having common addressing characteristics between at least two local devices, each abstraction being addressable by a central control device,
- iteratively, a dynamic local storage capacity adjustment step (110):
- a step (130) of allocation, by at least one local device and not dedicated to storage, of a storage capacity and
- a step (135) of communication, to the central control device, of an allocated storage capacity and
- an execution step (115), which comprises:
- a step (140) for triggering the saving of digital information,
- a step (145) of fragmenting the digital information into at least one information segment,
- a step (150) of selection, by the central control device and for each segment, of a storage device according to the abstractions created and
- a step (155) of recording, on the selected storage device, the associated information segment. A method (100) according to claim 1, wherein the step (115) of executing includes a step (160) of source-encrypting a segment of information based on third-party privacy. Method (100) according to one of Claims 1 or 2, in which the configuration step (105) and/or the dynamic adjustment step (110) comprises:
- a step (165) of allocation, by at least one third-party storage device located in a third-party computer network with respect to at least one local device, of a storage capacity,
- a step (170) of communication, by at least one third-party device to the central control device, of an allocated storage capacity and
- a step (175) of creation, by a computing system, of a computer abstraction having common addressing characteristics between at least one local device and at least one third-party device, each abstraction being addressable by a central control device . Method (100) according to claim 3, in which the central control device is directly addressable by at least one local storage and at least one third-party storage, allowing the constitution of a star network between a local network and a remote network not local. Method (100) according to one of claims 1 to 4, in which the fragmentation step (145) comprises:
- a step (180) of breaking down the information segment into at least one information block and
- a redundancy generation step (185), for at least one information block,
the blocks of information being recorded during the step (155) of recording. Method (100) according to one of Claims 1 to 5, in which at least two segments and/or blocks representing initial digital information are recorded on at least two separate storage devices. Method (100) according to one of Claims 1 to 6, in which the step (115) of execution includes a step (190) of determining a unique fingerprint of an information segment and a step (195 ) for storing the determined digital fingerprint, this fingerprint being configured to be used during a reading of the recorded information segment to ensure its integrity. Method (100) according to one of Claims 1 to 7, in which an allocation step (130, 165) is configured to associate at least one availability characteristic with a storage capacity, the selection step (150) being carried out according to at least one storage capacity communicated to the central control device. Method (100) according to one of Claims 1 to 8, in which an allocation step (130, 165) is configured to associate at least one user identifier with a storage capacity, the step (150) of selection being made according to at least one user identifier communicated to the central control device. Method (100) according to one of Claims 1 to 9, in which the configuration step (105) comprises a step (200) of defining a selection strategy, the selection step (150) implementing a defined selection strategy. Method (100) according to one of Claims 1 to 10, which comprises, upstream of the step (155) of recording on at least one selected storage, a step (205) of local encryption of the segment or of the block to recording according to a random encryption key, this random encryption key being configured to be used during a reading of the recorded information segment to ensure its integrity and to protect the storage device from the introduction of malicious code. Method (100) according to one of Claims 1 to 11, in which a storage device of a device carrying out the step (140) of triggering is excluded from a list of candidate storage devices at the step (150 ) Selection. Hybrid digital information storage architecture (300), characterized in that it comprises:
- at least two information storage devices (305, 310, 315), at least one of the devices (305) being local and not dedicated to storage, at least one local device comprising:
- a means (306) for allocating a storage capacity and
- a means (307) of communication, to a central control device (335), of an allocated storage capacity,
- configuration means (320), configured to create a computer abstraction having common addressing characteristics between at least two local devices, each abstraction being addressable by the central control device,
- a means (325) for triggering the backup of digital information,
- a means (330) for fragmenting the digital information into at least one information segment,
- the central control device (335) associated with each storage device comprising a means of selection, by the central control device and for each segment, of a storage device according to the abstractions created and
- A means (340) for recording, on the selected storage device, the associated information segment.