ITMI20091263A1 - METHOD AND STORAGE SYSTEM OF ELECTRONIC DOCUMENTS - Google Patents

Description

â € œMethod and archiving system for electronic documents.â €

DESCRIPTION

The subject of the present invention is a method of archiving electronic documents. In particular, the invention refers to a method of transmission of electronic documents to be stored by one or more electronic client devices (client) to an electronic service device (server), for example, through a communication network operating according to TCP (Transmission Control Protocol) and IP (Internet Protocol) protocols.

In this context, â € œelectronic documentsâ € means any type of data processing document comprising a textual and / or graphic part and / or an audio and / or video part, but also any type of information contained in the aforementioned documents.

In client-server electronic systems known on the web, one or more devices operating as clients each communicate with a server device on the basis of Internet protocols divided into levels. One of the protocols used at the application layers is, for example, the HTTP (Hypertext Transfer Protocol) widely known to an expert in the field. This HTTP protocol is based on a response request mechanism: the device operating as a client makes a request (for data or information) to the server device, and the latter returns a relative response.

This HTTP communication protocol is characterized by the fact that connections between client and server devices are generally interrupted once a particular request (or a series of related requests) has been satisfied. Therefore, in the web communication between client-server based on HTTP, the device operating as a server is not able to know the identity of the client device that made a request nor to ask the client for information on the success of the transmission.

Furthermore, in the case of data transmission from the client device to the server with the HTTP protocol, for example to transmit electronic documents including large graphic or video parts, the duration of this transmission suffers from the time limit imposed by a time-out value. set up on the server which interrupts the connection even if the entire electronic document has not been completely transmitted.

The purpose of the present invention is to devise and make available a method of transmission, for example through a communication network operating in accordance with TCP and IP protocols, of electronic documents by one or more customer electronic devices (clients) to an electronic service device (server) for the filing of such documents which allows to overcome the drawbacks mentioned above in particular with reference to the HTTP communication protocol.

This object is achieved by means of a method according to claim 1. Forms

preferred embodiments of said method are defined by dependent claims 2-11.

Furthermore, an electronic document transmission system which implements this method as defined in claim 12 is also an object of the invention.

Further characteristics and advantages of the aforesaid method will result from the description given below of a preferred embodiment example, given by way of non-limiting example, with reference to the attached figures, in which:

Figure 1 schematically shows a transmission system for electronic documents to be filed in accordance with the present invention;

- figure 2 schematically shows a sequence of operations of the method of transmission and archiving of electronic documents of the invention.

With reference to the aforementioned figure 1, 100 indicates an example of a system for transmitting and filing electronic documents in accordance with the invention as a whole.

In this context, â € œelectronic documentsâ € means any type of data processing document comprising a textual and / or graphic part and / or an audio and / or video part, but also any type of information contained in the aforementioned documents.

The system 100 comprises, in particular, a first 101 and a second 102 electronic device connected to each other by means of a communication network 103.

Preferably, the first electronic device 101 is configured to operate as a client device and the second electronic device 102 is a server. The client device 101 is, for example, a mobile phone (smartphone), a personal digital assistant (PDA), a laptop (netbook or notebook), a desktop or host computer.

It should be noted that although in figure 1 reference is made, for simplicity, to a single client device 101 connected to the server 102, the system 100 can also comprise a plurality of client devices 101 all connected to the same server 102.

In particular, the client device 101 comprises in a respective memory a software application or SWC client software for starting and managing the transmission of electronic documents to be stored on the server 102 in accordance with the steps of the method described below.

The communication network 103 comprises means of transmission of electrical, optical or wireless signals managed by common physical layer protocols, for example ATM (Asynchronous Transfer Mode). Furthermore, the network 103 comprises connection means to allow the connection between a plurality of nodes including the client device 101 and the server 102 and to manage this connection according to protocols, of known type, operating on transport and internetworking levels ( network) such as, for example, TCP (Transmission Control Protocol) and IP (Internet Protocol), respectively.

At high application levels, the transmission of data and information between the client device 101 and the server 102 is managed by the standard HTTP (Hypertext Transfer Protocol).

Referring to Figure 1, the server device 102 comprises a central processing unit or CPU (Central Processing Unit) 200 for controlling document filing and management functions on the server and, especially, for controlling the operation of an interface 201 for the connection to the communication network 103. This interface is preferably an Ethernet network card 201 or any other network interface that supports the TCP-IP protocols.

In addition, the server 102 includes a mass memory 202 connected to the CPU 200 for the storage of electronic documents. This mass memory 202 is, for example, implemented by means of a hard disk, or by means of two hard disks of the RAID type (Redundant Array of Independent Disks) or by means of solid-state memory SSD (Solid-State Drive) independent of each other.

In addition, the server 102 comprises a buffer memory 203 suitable for temporarily storing the electronic documents sent by the client device 101. This buffer memory is preferably a portion of the mass memory 202.

The hardware-type electronic components of the server 102 listed above can be housed inside a box-shaped enclosure.

The server 102 comprises a power supply unit 204 for the electronic components contained therein which can be connected to an external source of alternating current (AC) at the domestic network frequency.

Advantageously, the server device 102 stores, in a partition of the mass memory 202, a further software application or SWS server software to manage the reception and storage of electronic documents in accordance with the steps of the method of the invention.

In an alternative embodiment of the server device 102 of the system 100 of the invention, the SWS server software can be stored on a transportable memory medium, for example a portable mass memory or USB pendrive (Universal Serial Bus) which can be connected to a desktop type computer, notebook computer or netbook.

In particular, once the pendrive is connected to the computer, the stored SWS server software is configured to select and control at least a portion of the hardware resources of this device to manage the reception and storage of electronic documents.

Figure 2 schematically shows a sequence of operations of the method of transmission and storage on the server 102 of electronic documents processed and / or modified by a user associated with the client device 101.

In a first embodiment of the method of the invention, advantageously, the operations that characterize the method are activated every time a user saves an electronic document on his client device 101. Alternatively, the operations of the method are activated automatically following periodic scans, for example every 5 minutes, by the SWC client software of the individual electronic documents contained in the connected clients 101. In this way, advantageously, it is avoided that users have to periodically remember to save the processed electronic documents and at the same time, that relevant documents can be lost, as, on the other hand, happens in known systems in which the saving of documents is performed only once or twice a day.

It should be noted that once the server 102 is connected to the client device 101 via the network 103, the SWS server software is activated and the server itself waits to receive a request from the client 101 in accordance with the HTTP protocol. At the same time, the SWC client software application stored in the client device 101 is activated upon connection.

In an initial phase of AU authentication, this SWC client software selects the server to which the client device 101 must connect and the same client device 101 sends its credentials to the selected server 102, that is an ID identifier. For example, this ID is a sequence of bytes encrypted by standard and non-standard methods applied simultaneously. Note that the above AU authentication step is repeated periodically during the connection, for example every 20 minutes.

The server responds by sending a TK authorization token to the client device. This token TK is, for example, a string of bits and contains in particular a sequence of identifying information of the server 102 itself, of the client device 101, of the user and of authorization.

On the basis of the TK token received, the client device 101 is informed about the areas of the mass memory 202 of the server 102 to which it is authorized to access. In other words, with the token TK the method operates to define hierarchical levels of access to the mass memory 220 by the client devices 101.

In a subsequent selection phase SL, the client device 101 chooses an area of the mass memory 202 to which it has access and requests from the server 102 a list of folders contained in this area by means of a first selection message s1. The term folder means a sub-area of the selected memory area.

Server 102 replies with a second selection message s2 which contains information relating to the folders in the selected area. It should be noted that, starting from the SL selection phase, all subsequent communications between the client device 101 and the server 102 are based on web-service, i.e. they take place in accordance with a WS-1 / SOAP standard known to an expert in the sector. .

At this point the client device can decide whether to upload or download an electronic document to / from a folder. It should be noted that the upload or download operations that can be performed by the method of the invention are always linked to the preliminary identification of a folder in the mass memory 202.

In the event that the client device 101 decides to copy an electronic document M on the server 102 (for example, a revised word text or a re-elaboration of a digital photograph), the client device 101 preliminarily sends, in a phase of SIN synchronization, to the server 102 a first message r1 requesting a maximum size d of a data unit or data packet that the server 102 can accept from the network 103.

For example, the maximum size d for such a data packet is between 32 KByte and 512 KByte. Preferably, the typical maximum size is 64 Kbytes. Server 102 replies with a first reply message r2 containing the requested value.

Consequently, the electronic document M to be copied is fragmented inside the client device 101 into a plurality of data packets P1, P2, â € ¦, Pn each having the maximum size d indicated above. In particular, this plurality of packets comprises at least two data packets.

Furthermore, still in the SIN synchronization phase, the client device 101 requests from the server 102 indications on a minimum waiting time T which must elapse between the transmission of a single packet and the next. This occurs by means of a second request message r3 to which the server 102 replies, by means of a second reply message r4, indicating this minimum time T. Typical values of this time T are, for example, between 1 ms and 2 s, preferably 250 ms.

It should be observed that the maximum size d of each data packet and the minimum waiting time T mentioned above are fixed once the server 102 has been configured on the basis of the maximum amount of information (possibly also coming from different clients 101) that it is able to process simultaneously without saturating the 103 network.

Furthermore, before the entire electronic document M divided into packets is sent, the method of the invention provides, in a digital signature phase FD, that the client device 101 performs a signature operation on the document M to be sent. In greater detail, this signature phase is realized, for example, with the calculation by the client 101 of a hash of the document M itself performed on the sequence and position of the bits that form this document in accordance with methods known to an expert in the field. .

Then, client 101 sends a first h1 hash message to server 102 containing the computed message hash value. In turn, the server 102 replies with a respective message h2 indicating whether the electronic document M that the client 101 wants to send is already present or not in the mass memory 202 in the selected folder.

Advantageously, the verification of the signature by the server 102 and the relative signaling, avoids, in the case in which the document M has already been previously stored (for example by another client), that the same document is re-sent, guaranteeing a reduction of the total amount of information that engages the network 103, that is, avoiding overloading it. Moreover, advantageously, this signature calculation, by reducing the overall number of documents to be stored, allows to save memory area on the server 102.

It should be noted that if the document M is already in the mass memory 202 of the server 102, but in a further folder different from the one selected, the method of the invention provides that the client device 101 requests the server 102 to create a link to the document M between the aforementioned additional folder and the one initially selected. In this way, advantageously, once the document M is registered on the server 102 becomes unique, that is, it cannot be duplicated.

If the server 102 indicates with the respective message h2 that the electronic document M is not present in the mass memory 202, a transmission phase TR of the message divided into data packets is activated. In particular, the client device 101 sends in succession, in accordance with the HTTP protocol, the single data packets of the plurality P1, P2 ..., Pn so that between the sending of each data packet and the the following waiting time T.

It should be observed that to each data packet sent by the client 101, the server 102 replies with a respective message C1, C2, â € ¦, Cn confirming the correct reception.

Advantageously, with the method of the invention each data packet sent by the client device 101 is equivalent to a single request, from the point of view of the resources involved, sent to the server 102 in accordance with the standard HTTP communication protocol.

Advantageously, for electronic documents M of large dimensions, such as for example graphic files, the method of the invention operates in accordance with the HTTP protocol to send such documents M by dividing each of them into a plurality of data packets whose maximum size d e the minimum time interval T between the sending of one packet and the next are established in the synchronization phase between the client 101 and the server 102 on the basis of the availability of resources of the same server and the number of clients 101 simultaneously connected.

In this way, the method of transmission of documents of the invention not only avoids overloading the server 102 and the transmission network 103, but also prevents the transmission from being interrupted following reaching the time-out limit set on the server. 102 to protect it also from possible external malicious attacks.

Note that all data packets P1, P2, â € ¦, Pn received by server 102 are temporarily stored in buffer 203 before being archived.

Once the last data packet Pn has been sent to the server 102 and the relative confirmation message Cn has been received, the client 101 sends a message N1 indicating the conclusion of the sending phase of the electronic document M.

Upon receipt of this end-of-sending message N1, the method proceeds to a compacting phase of the packets P1, â € ¦, Pn stored in the buffer 203 to reconstruct the original electronic document M to be transferred to the mass memory 202 of the server 102 .

In particular, it should be noted that the SWS server software is capable of "dispersing" the data representative of the electronic document M reconstructed in the entire database corresponding to the server 102. In other words, such data are not stored in a precise location of the mass memory 202, but are mixed in such memory 202 with data and information relating to other documents. The data of the same electronic document M can only be traced by the SWS server software application by means of a respective identification index. In greater detail, for each document stored on server 102 there is an array of indexes, each of which is able to uniquely identify a version of the document.

It should be noted that this technique of archiving electronic documents is particularly advantageous in terms of security as it prevents access from outside to confidential information by unauthorized users.

Furthermore, on the 102 server it is always possible to trace each version of the electronic documents processed and / or modified as different versions of the same document are saved and can be identified with a respective index without overwriting them.

In this way, advantageously, the method of the invention is able to make an archived electronic document M not only non-duplicable, but also non-modifiable.

Furthermore, with the document transmission and archiving system 100 of the invention it is possible to make backup copies of the electronic documents archived simply by duplicating the contents of the server 102 (for example on another server) without spending time in reconstructing the connections between different versions of documents.

In addition, the method of transmission and storage of the present invention makes it possible not to have to resort to external entities that provide data backup services, for example on-line, which are not always reliable both due to line intermittent services via the Internet and due to a loss of control of sensitive documents.

To the embodiments of the method and of the electronic document filing system described above, a person skilled in the art, in order to meet contingent needs, can make changes, adaptations and replacements of elements with other functionally equivalent ones, without departing from the scope of the following claims. Each of the features described as belonging to a possible embodiment can be realized independently of the other described embodiments.

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Claims (18)

CLAIMS 1. Method of transmission in accordance with the HTTP protocol of an electronic document (M) from at least one client electronic device (101) to an electronic server device (102) connected together by means of a communication network (103) to store on the server ( 102) said electronic document, comprising the steps of: - sending by the client device (101) a first request message (r1) to the server (102) to know a maximum size (d) of a data unit that can be individually transmitted over the network (103); - sending by the server (102) a first response message (r2) to the client device (101) including this maximum size (d) requested; - sending from the client device (101) a second request message (r3) to the server (102) to know a minimum waiting time (T) that must elapse between the transmission of a single data unit and the next; - sending by the server (102) a second response message (r2) to the client device (101) containing said minimum waiting time (T); - fragmenting, by the client device (101), the electronic document (M) to be stored in a plurality of data units (P1, P2, â € ¦, Pn) each having said maximum size (d); - send in sequence to the server (102) by the client device (101) the data units of the plurality (P1, P2, â € ¦, Pn) so that between the sending of each unit and the next, said minimum waiting time (T). Transmission method according to claim 1, wherein said plurality of data units (P1, P2, â € ¦, Pn) comprises at least two data units. Transmission method according to claim 1 or 2, wherein said maximum size (d) of a data unit is comprised between 32 Kbytes and 512 Kbytes, preferably 64 Kbytes. Transmission method according to claim 1 or 2, wherein values of said minimum waiting time (T) are comprised between 1 ms and 2 s, preferably 250 ms. Transmission method according to claim 1, comprising, following said step of sending the plurality of data units, a step of sending by the server device (102) of a respective plurality of confirmation messages (C1 , C2, â € ¦, Cn) of correct reception, each confirmation message being sent in response to the sending of a respective data unit. 6. Transmission method according to claim 1, further comprising the steps of: - sending by the client device (101) a first selection message (s1) to the server device (102) to select an area of a mass memory (202) of said server device; - sending from the server device (102) a second selection message (s2) comprising information relating to the archive folders present in the selected area; - choose from the client device (101) a folder in the mass memory area (202) selected for filing the electronic document (M). 7. Transmission method in accordance with claim 6, further comprising the steps of: - performing, by the client device (101), a signature operation of the document (M) to be archived by calculating a hash of the document same; - sending by the client device (101) a first hash message (h1) to the server device (102) containing the hash value of the calculated document; - send, from the server device (102) a respective reply message (h2) to indicate whether the electronic document (M) has already been stored in the mass memory (202) of the server device in the selected folder. 8. Transmission method according to claim 7, wherein when the electronic document (M) is already stored in the mass memory (202) of the server device (102) in a respective folder different from the selected one, a step of sending by the client device (101) a further message to the server (102) to request the creation of a link to the document (M) between said folder and the selected one. Transmission method according to any one of the preceding claims, wherein the steps of the method are performed in response to a save operation of the electronic document (M) by a user on his client device (101). Transmission method according to any one of the preceding claims, in which the steps of the method are performed automatically following periodic scans of the electronic documents contained in the client device (101). Method of transmission according to claim 6, comprising, in an initial authentication step, the steps of: - sending from the client device (101) to the server (102) its credentials in the form of an identifier (ID); - send, in response, from the server (102) to the client device (101) an authorization token (TK) indicating the areas of the mass memory (202) to which the client device is authorized to access. 12. System (100) for the transmission of an electronic document (M), comprising: - at least one client electronic device (101) which stores said electronic document (M) to be transmitted; - a server electronic device (102) operatively connected to said at least one client electronic device (101) by means of a communication network (103) for receiving and storing said electronic document, characterized in that said at least one client device (101) and said server device (102) are configured to implement the transmission method according to at least one of claims 1-11. 13. Transmission system (100) according to claim 12, wherein said at least one client device (101) is included in the whole: mobile phone (smartphone), PDA, laptop, netbook or notebook, desktop computer or host. Transmission system (100) according to claim 12, wherein said server device (100) comprises: - a central processing unit (200) for the control of electronic document storage and management functions (M) and for the control of an interface (201) for connection to the communication network (103); - a mass memory (202) for archiving electronic documents (M); - a buffer memory (203) suitable for temporarily storing the electronic documents (M) transmitted by at least one client device (101). Transmission system (100) according to claim 14, wherein said buffer memory (203) corresponds to a portion of the mass memory (202). Transmission system (100) according to claim 14, wherein said connection interface (201) is an Ethernet-type network card (201) or any other network interface that supports TCP-IP protocols. Transmission system (100) according to claim 14, wherein said mass memory (202) is included in the whole: hard disk, two hard disks of the RAID type, solid state memory SSD. 18. Computer program (SWC, SWS) loaded on a memory of at least one client electronic device (101) and one server electronic device (102) of an electronic document transmission system (100) (M) to manage the transmission and the archiving of such documents in accordance with the method defined in claims 1-11.