KR20240053927A - Document form providing server which is able to perform forgery prevention processing for an electronic document, based on the cell format information of an input field, and the operating method thereof - Google Patents

Abstract

A document form providing server capable of performing anti-counterfeiting processing on an electronic document based on cell format information of an input field and a method of operating the same are disclosed. The present invention stores a plurality of document forms including a plurality of input fields capable of inputting data, and provides a first document form that is one of the plurality of document forms from a first electronic terminal of a first user. When a request for provision is received, the first document form is transmitted to the first electronic terminal, and thereafter, user data is entered into each of the first input fields included in the first document form by the first user. As the input is completed, a first electronic document in which user data is entered into each of the first input fields is received from the first electronic terminal, and a request for forgery and falsification prevention processing for the first electronic document is received, After completing the anti-counterfeiting processing for the first electronic document based on the cell format information constituting each of the first input fields and the user data input into each of the first input fields, the anti-counterfeiting processing is completed. The present invention relates to a document form providing server that transmits the first electronic document to the first electronic terminal and a method of operating the same.

Description

Document form providing server capable of performing anti-counterfeiting processing on electronic documents based on cell format information in the input field and its operating method {DOCUMENT FORM PROVIDING SERVER WHICH IS ABLE TO PERFORM FORGERY PREVENTION PROCESSING FOR AN ELECTRONIC DOCUMENT, BASED ON THE CELL FORMAT INFORMATION OF AN INPUT FIELD, AND THE OPERATING METHOD THEREOF}

The present invention relates to a document form providing server capable of performing anti-counterfeiting processing on an electronic document based on cell format information of an input field and a method of operating the same.

Recently, as the use of electronic documents has increased in various fields, the use of document forms that support easier creation of electronic documents has been increasing.

A document form is an electronic document of a specific, fixed form, such as a financial loan certificate or standard contract, and includes input fields that allow data entry. Therefore, even if the user does not fill out the form directly, he or she can easily create an electronic document in a specific form by directly entering user data into the input field included in the document form.

However, there is a problem in these electronic documents that user data entered by the user can be easily forged or falsified. In particular, the data insertion area surrounding the user data entered by the user in the input field is often smaller than the area of the input field. In this case, content other than the user data entered by the user is added to the margin area of the input field. It can be easily forged or altered by inserting a .

In order to prevent this problem, when a request for anti-counterfeiting processing for an electronic document is received from a user, for each of the input fields included in the electronic document, the cell format information of each input field and the user information entered in each input field Introduction of a technology that performs anti-forgery processing on the electronic document by generating a verification value for forgery verification based on data and additionally inserting a verification value for each input field into each of the input fields. can be considered.

If anti-counterfeiting processing is performed on the electronic document in this way, it is possible to prevent the user data inserted into each of the input fields from being easily forged or altered, and even if the user data inserted into each of the input fields is forged or altered. , it will be possible to easily check whether the electronic document has been forged or altered based on the verification value inserted into each input field.

Therefore, research is needed on technology to perform anti-counterfeiting processing for electronic documents.

The present invention stores a plurality of document forms including a plurality of input fields capable of inputting data, and provides a first document form that is one of the plurality of document forms from the first electronic terminal of the first user. When a request for provision is received, the first document form is transmitted to the first electronic terminal, and thereafter, user data is entered into each of the first input fields included in the first document form by the first user. As the input is completed, a first electronic document in which user data is entered into each of the first input fields is received from the first electronic terminal, and a request for forgery and falsification prevention processing for the first electronic document is received, After completing the anti-counterfeiting processing for the first electronic document based on the cell format information constituting each of the first input fields and the user data input into each of the first input fields, the anti-counterfeiting processing is completed. By presenting a document form providing server for transmitting the first electronic document to the first electronic terminal and a method of operating the same, the aim is to prevent user data entered into each of the first input fields in the first electronic document from being forged or altered. do.

According to an embodiment of the present invention, a document form providing server capable of performing anti-counterfeiting processing on an electronic document based on the cell format information of the input field includes a plurality of input fields capable of inputting data. A document form storage unit in which document forms are stored, when a request for provision of a first document form, which is one of the plurality of document forms, is received from a first electronic terminal of a first user, stored in the document form storage unit. A document form transmission unit that extracts the first document form and transmits it to the first electronic terminal, and after the first document form is transmitted to the first electronic terminal, the first document is sent by the first user As user data is completed entering each of the first input fields included in the form, a first electronic document in which user data is entered into each of the first input fields is received from the first electronic terminal, and the first electronic document is received. When a request for forgery prevention processing for an electronic document is received, a processing event generator that generates a processing event for performing forgery prevention processing on the first electronic document; when the processing event occurs, each of the first input fields For each of the first input fields in which user data is input, a verification value for forgery verification is generated based on the cell format information constituting each input field and the user data input in each input field. A forgery prevention processing unit that completes forgery prevention processing for the first electronic document by additionally inserting a verification value for each input field, and transmits the first electronic document for which the forgery prevention processing has been completed to the first electronic terminal. It includes a document transmission unit.

In addition, the method of operating a document form providing server capable of performing anti-counterfeiting processing on an electronic document based on the cell format information of the input field according to an embodiment of the present invention includes a plurality of input fields capable of inputting data. maintaining a document form storage unit in which a plurality of document forms are stored; when a request for provision of a first document form, which is one of the plurality of document forms, is received from a first electronic terminal of a first user, the document form is stored; Extracting the first document form stored in a form storage unit and transmitting it to the first electronic terminal, after the first document form is transmitted to the first electronic terminal, by the first user, the first document form is transmitted to the first electronic terminal. 1 As user data is completed entering each of the first input fields included in the document form, a first electronic document in which user data is entered into each of the first input fields is received from the first electronic terminal, When a request for forgery prevention processing for a first electronic document is received, generating a processing event for performing forgery prevention processing on the first electronic document; when the processing event occurs, in each of the first input fields For this, a verification value for forgery verification is generated based on the cell format information constituting each input field and the user data entered in each input field, and then the user data is entered in each of the first input fields. , completing anti-forgery processing for the first electronic document by additionally inserting verification values for each input field, and transmitting the first electronic document for which the anti-forgery processing has been completed to the first electronic terminal. Includes.

The present invention stores a plurality of document forms including a plurality of input fields capable of inputting data, and provides a first document form that is one of the plurality of document forms from the first electronic terminal of the first user. When a request for provision is received, the first document form is transmitted to the first electronic terminal, and thereafter, user data is entered into each of the first input fields included in the first document form by the first user. As the input is completed, a first electronic document in which user data is entered into each of the first input fields is received from the first electronic terminal, and a request for forgery and falsification prevention processing for the first electronic document is received, After completing the anti-counterfeiting processing for the first electronic document based on the cell format information constituting each of the first input fields and the user data input into each of the first input fields, the anti-counterfeiting processing is completed. By presenting a document form providing server for transmitting the first electronic document to the first electronic terminal and a method of operating the same, it is possible to prevent user data entered into each of the first input fields in the first electronic document from being forged or altered. You can.

Figure 1 is a diagram illustrating the structure of a document form providing server capable of performing anti-counterfeiting processing on an electronic document based on cell format information of an input field according to an embodiment of the present invention.
Figure 2 is a diagram for explaining the operation of a document form providing server capable of performing anti-counterfeiting processing on an electronic document based on cell format information of an input field according to an embodiment of the present invention.
Figure 3 is a flow chart illustrating a method of operating a document form providing server capable of performing anti-counterfeiting processing on an electronic document based on cell format information of an input field according to an embodiment of the present invention.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the attached drawings. This description is not intended to limit the present invention to specific embodiments, but should be understood to include all changes, equivalents, and substitutes included in the spirit and technical scope of the present invention. In describing each drawing, similar reference numerals are used for similar components, and unless otherwise defined, all terms used in this specification, including technical or scientific terms, are within the scope of common knowledge in the technical field to which the present invention pertains. It has the same meaning as generally understood by those who have it.

In this document, when a part "includes" a certain component, this means that it may further include other components rather than excluding other components, unless specifically stated to the contrary. Additionally, in various embodiments of the present invention, each component, functional block, or means may be composed of one or more subcomponents, and the electrical, electronic, and mechanical functions performed by each component may be electronic. It may be implemented with various known elements or mechanical elements such as circuits, integrated circuits, and ASICs (Application Specific Integrated Circuits), and may be implemented separately or by integrating two or more into one.

Meanwhile, the blocks in the attached block diagram or the steps in the flow chart are computer program instructions that are mounted on the processor or memory of equipment capable of data processing, such as general-purpose computers, special-purpose computers, portable laptop computers, and network computers, and perform designated functions. It can be interpreted to mean. Because these computer program instructions can be stored in a memory provided in a computer device or in a computer-readable memory, the functions described in the blocks of a block diagram or the steps of a flow diagram can be produced as a manufactured product containing instruction means to perform them. It could be. In addition, each block or each step may represent a module, segment, or portion of code that includes one or more executable instructions for executing specified logical function(s). Additionally, it should be noted that in some alternative embodiments, it is possible for functions mentioned in blocks or steps to be executed in a different order. For example, two blocks or steps shown in succession may be performed substantially simultaneously or in reverse order, and in some cases, some blocks or steps may be omitted.

Figure 1 is a diagram illustrating the structure of a document form providing server capable of performing anti-counterfeiting processing on an electronic document based on cell format information of an input field according to an embodiment of the present invention.

Referring to FIG. 1, the document form providing server 110 according to an embodiment of the present invention includes a document form storage unit 111, a document form transmission unit 112, a processing event generation unit 113, and a forgery prevention processing unit ( 114) and a document transmission unit 115.

The document form storage unit 111 stores a plurality of document forms including a plurality of input fields in which data can be input.

Here, the document form is an electronic document of a specific fixed form, such as a financial loan certificate or a standard contract, and includes input fields through which data can be entered. Accordingly, users can create electronic documents by entering user data into input fields included in these document forms.

For example, the document form storage unit 111 may store a plurality of document forms including a plurality of input fields in which data can be input, as shown in Table 1 below.

Multiple document forms document form 1 document form 2 document form 3 document form 4 ...

When a request for provision of a first document form, which is one of the plurality of document forms, is received from the first electronic terminal 151 of the first user 141, the document form transmission unit 112 is configured to provide a document form storage unit ( The first document form stored in 111) is extracted and transmitted to the first electronic terminal 151.

The processing event generation unit 113 is included in the first document form by the first user 141 after the first document form is transmitted to the first electronic terminal 151 by the document form transmission unit 112. As user data is completed inputting into each of the first input fields, a first electronic document in which user data is input into each of the first input fields is received from the first electronic terminal 151, and the first electronic document is received from the first electronic terminal 151. When a request for forgery prevention processing for a document is received, a processing event for performing forgery prevention processing for the first electronic document is generated.

When the processing event is generated by the processing event generation unit 113, the forgery prevention processing unit 114 generates a verification value for forgery verification for each of the first input fields, and then checks the user data entered. By additionally inserting a verification value for each input field into each of the first input fields, forgery prevention processing for the first electronic document is completed.

At this time, according to an embodiment of the present invention, the forgery prevention processing unit 114 is a specific configuration for performing forgery prevention processing on the first electronic document, and includes an information confirmation unit 116 and a verification value generation unit 117. and a verification value insertion unit 118.

When the processing event is generated by the processing event generator 113, the information confirmation unit 116 provides cell format information constituting each of the first input fields, including cell size information and cell background color for each input field. Check information and cell border format information.

When the cell size information, cell background color information, and cell border format information for each of the first input fields are confirmed, the verification value generator 117 inputs the information into each input field for each of the first input fields. The value calculated when the user data, cell size information, cell background color information, and cell border format information for each input field are input to the hash function for generating a preset verification value, and the verification value for each input field. By generating , verification values for each of the first input fields are generated.

When a verification value for each of the first input fields is generated by the verification value generation unit 117, the verification value insertion unit 118 generates a verification value for each of the first input fields in which user data is input. By additionally inserting the verification value for , the forgery prevention processing for the first electronic document is completed.

At this time, according to one embodiment of the present invention, the verification value insertion unit 118 checks the blank area excluding the data insertion area surrounding the user data entered in each input field in each of the first input fields, After checking the blank area of each of the first input fields, the forgery prevention processing for the first electronic document can be completed by inserting the verification value for each input field into the blank area of each of the first input fields. there is.

When the forgery prevention processing for the first electronic document is completed by the forgery prevention processing unit 114, the document transmission unit 115 transmits the first electronic document for which the forgery prevention processing has been completed to the first electronic terminal 151. .

Hereinafter, the operations of the document form transmission unit 112, processing event generation unit 113, information confirmation unit 116, verification value generation unit 117, verification value insertion unit 118, and document transmission unit 115. This will be explained in detail using an example.

First, assume that the document form providing server 110 receives a request for provision of 'document form 1', one of the plurality of document forms, from the first electronic terminal 151 of the first user 141.

Then, the document form transmission unit 112 can extract 'document form 1' stored in the document form storage unit 111 as shown in Table 1 above and transmit it to the first electronic terminal 151.

At this time, let's assume that 'document form 1' includes 'input field 1, input field 2, input field 3, ..., input field 7', as shown in reference numeral 210 in FIG. 2. In this situation, after 'document form 1' is transmitted to the first electronic terminal 151 by the document form transmission unit 112, the first user 141 enters 'input field 1, input field 2, input As user data is completed entering each of 'field 3, ..., input field 7', 'input field 1, input field 2, and input field 3' are sent from the first electronic terminal 151 to the document form providing server 110. , ..., Assume that 'electronic document 1' with user data entered in each of the input fields 7' is received, and a request for forgery prevention processing for 'electronic document 1' is received. Here, the user data entered into each of 'input field 1, input field 2, input field 3, ..., input field 7' is 'user data 1, user data 2, user data 3, ..., user data 7'. 'Let's say.

Then, the processing event generator 113 may generate a processing event to perform anti-counterfeiting processing on 'electronic document 1'.

At this time, the information confirmation unit 116 is cell format information constituting each of 'input field 1, input field 2, input field 3, ..., input field 7', and includes cell size information and cell background for each input field. Color information and cell border format information can be checked as shown in Table 2 below.

input field Cell Formatting Information Cell size information Cell background color information About Formatting Cell Borders input field 1 Cell size information 1 Cell background color information 1 Cell border formatting information 1 input field 2 Cell size information 2 Cell background color information 2 Cell border format information 2 Input field 3 Cell size information 3 Cell background color information 3 Cell border formatting information 3 ... ... ... ... Input field 7 Cell size information 7 Cell background color information 7 About cell border formatting 7

Then, the verification value generator 117 generates the user data entered in each input field and the user data for each input field for each of 'input field 1, input field 2, input field 3, ..., input field 7'. The value calculated when cell size information, cell background color information, and cell border format information are input to a hash function for generating a preset verification value is generated as a verification value for each input field, thereby generating the first input field. You can create verification values for each of them.

In relation to this, the user data entered in 'input field 1' is 'user data 1', and in Table 2 above, the cell size information, cell background color information, and cell border format information for 'input field 1' are 'cell Size information 1, cell background color information 1, cell border format information 1', so the verification value generator 117 generates 'user data 1, cell size information 1, cell background color information 1,' for 'input field 1'. When 'cell border format information 1' is applied as input to the hash function for generating the verification value, the calculated value is generated as the verification value for 'input field 1', so that the verification value for 'input field 1' is 'a _1' . It can be created like this:

In this way, the verification value generator 117 generates verification values for each of 'input field 1, input field 2, input field 3, ..., input field 7' as 'a ₁ , a ₂ , a ₃ , .' It can be created like .., a ₇ '.

Then, the verification value insertion unit 118 inserts the data in each of 'input field 1, input field 2, input field 3, ..., input field 7', excluding the data insertion area surrounding the user data entered into each input field. By checking the margin areas, 'input field 1, input field 2, input field 3, ..., input field 7', after checking each margin area, 'input field 1, input field 2, input field 3, ... ., Input field 7' By inserting 'a ₁ , a ₂ , a ₃ , ..., a ₇ ', which are verification values for each input field, into the blank area of each input field, anti-counterfeiting processing for 'electronic document 1' is performed. It can be completed.

In relation to this, as shown in the figure shown at 220 in FIG. 2, when user data such as '30,000,000,000 won' is input in 'input field 4', the verification value insertion unit 119 enters 'input field 4'. After checking the blank area of 'input field 4' by checking the blank area excluding the data insertion area surrounding user data such as '30,000,000,000 won', as shown in the figure shown at reference numeral 230, 'input field 4' You can insert 'a ₄ ', which is the verification value for 'input field 4', in the blank area of '.

In this way, when the forgery prevention processing for 'electronic document 1' is completed by the forgery prevention processing unit 114, the document transmission unit 115 transmits the 'electronic document 1' for which the forgery prevention processing has been completed to the first electronic terminal 151. Can be transmitted.

According to one embodiment of the present invention, the document form providing server 110 sends the first electronic document for which forgery prevention processing has been completed to the first electronic terminal 151, and then sends the second electronic document that obtained the first electronic document. When the first electronic document is received from the second electronic terminal 152 of the user 142 and a request to confirm whether the first electronic document has been forged or altered, it is determined whether the first electronic document has been forged or altered. A configuration for transmitting the result to the second electronic terminal 152 may be further included.

In this regard, according to one embodiment of the present invention, the document form providing server 110 includes a confirmation event generation unit 119, a verification value extraction unit 120, a hash value generation unit for verification 121, and a determination of forgery and alteration. It may further include a unit 122 and a notification message transmission unit 123.

After the first electronic document for which forgery prevention processing has been completed is transmitted to the first electronic terminal 151 by the document transmission unit 115, the confirmation event generation unit 119 is configured to transmit the first electronic document to the second electronic document. When the first electronic document is received from the second electronic terminal 152 of the user 142 and a request for confirmation of forgery or alteration of the first electronic document is received, a request for confirmation of forgery or alteration of the first electronic document is performed. Generates a confirmation event.

When the verification event is generated by the verification event generating unit 119, the verification value extractor 120 extracts user data and verification values entered into each input field from the first input fields.

The verification hash value generator 121 checks the cell size information, cell background color information, and cell border format information for each of the first input fields, and then checks the user information entered in each input field. By applying data, cell size information, cell background color information, and cell border format information for each input field as input to the hash function for generating a verification value, a hash value for verification for each input field is generated, 1 Create a hash value for verification for each input field.

For each of the first input fields, the forgery determination unit 122 checks whether the hash value for verification for each input field and the verification value extracted from each input field match each other, and determines whether the hash value for verification for each input field matches each other. For all of them, if it is confirmed that the hash value for verification and the verification value match each other, it is determined that the first electronic document has not been forged or altered, and for at least one input field among the first input fields, verification is performed. If it is confirmed that the hash value and the verification value do not match each other, it is determined that the first electronic document has been forged or altered.

The notification message transmission unit 123 generates a notification message notifying the result of determining whether the first electronic document has been forged or altered and transmits it to the second electronic terminal 152.

In the following, the operations of the confirmation event generation unit 119, the verification value extraction unit 120, the verification hash value generation unit 121, the forgery determination unit 122, and the notification message transmission unit 123 are described as examples. , will be explained in detail.

First, as in the above-mentioned example, it is assumed that 'electronic document 1' for which forgery prevention processing has been completed is completed by the document transmission unit 115 to the first electronic terminal 151, and thereafter, the document form providing server 110 ), when 'Electronic Document 1' was received from the second electronic terminal 152 of the second user 142 who obtained 'Electronic Document 1', a request to confirm whether 'Electronic Document 1' was forged or altered was received. Let's assume.

At this time, the confirmation event generator 121 may generate a confirmation event to check whether 'electronic document 1' has been forged or altered.

Then, the verification value extraction unit 120 extracts the user data and verification values entered in each input field for each of 'input field 1, input field 2, input field 3, ..., input field 7'. You can.

At this time, according to the above-mentioned example, the user data input into each of 'input field 1, input field 2, input field 3, ..., input field 7' is 'user data 1, user data 2, user data 3, ..., user data 7', and the verification values entered in each of 'input field 1, input field 2, input field 3, ..., input field 7' are 'a ₁ , a ₂ , a ₃ , . .., a ₇ ', so the verification value extraction unit 120 extracts 'user data 1, user data 2, user data from 'input field 1, input field 2, input field 3, ..., input field 7'. 3, ..., user data 7' and 'a ₁ , a ₂ , a ₃ , ..., a ₇ ' can be extracted.

Then, the verification hash value generator 121 generates cell size information, cell background color information, and cell border format information for each of 'input field 1, input field 2, input field 3, ..., input field 7'. This can be confirmed as shown in Table 2 above.

Afterwards, the hash value generator 121 for verification generates the user data entered in each input field and each input for each of 'input field 1, input field 2, input field 3, ..., input field 7'. Cell size information, cell background color information, and cell border format information for the field can be applied as input to the hash function for generating the verification value, thereby generating a hash value for verification for each input field.

In relation to this, the user data extracted from 'input field 1' is 'user data 1', and in Table 2 above, the cell size information, cell background color information, and cell border format information for 'input field 1' are 'cell size'. Information 1, cell background color information 1, cell border format information 1', so the verification hash value generator 121 generates 'user data 1, cell size information 1, cell background color information 1' for 'input field 1'. , When 'cell border format information 1' is applied as input to the hash function for generating the verification value, the calculated value is generated as a verification hash value for 'input field 1', thereby creating a verification hash for 'input field 1'. You can create a value like 'a ₁ '.

In this way, the verification hash value generator 121 generates verification hash values for each of 'input field 1, input field 2, input field 3, ..., input field 7' as 'a ₁ , a ₂ , It can be created like a ₃ , ..., a ₇ '.

Then, the forgery/modification determination unit 122 determines the hash value for verification for each input field and the You can check whether the extracted verification values match each other.

At this time, the hash values for verification for each of 'input field 1, input field 2, input field 3, ..., input field 7' are 'a ₁ , a ₂ , a ₃ , ..., a ₇ ', Since the verification values extracted from each of 'input field 1, input field 2, input field 3, ..., input field 7' are 'a ₁ , a ₂ , a ₃ , ..., a ₇ ', whether forgery or falsification is determined Unit 122 can confirm that the hash value for verification and the verification value match each other for all 'input field 1, input field 2, input field 3, ..., input field 7'.

Then, the forgery and alteration determination unit 122 may determine that 'electronic document 1' has not been forged or altered.

On the other hand, if it is confirmed that the hash value for verification and the verification value do not match each other for at least one input field among 'input field 1, input field 2, input field 3, ..., input field 7' , the forgery determination unit 122 may determine that ‘electronic document 1’ has been forged or altered.

Then, the notification message transmission unit 123 may generate a notification message notifying the result of the determination of whether 'electronic document 1' has been forged or altered and transmit it to the second electronic terminal 152.

At this time, according to an embodiment of the present invention, the document form providing server 110 includes a history information generator 124, a hash value generator 125, an electronic signature value generator 126, and a registration processor 127. More may be included.

When the notification message is transmitted to the second electronic terminal 152 by the notification message transmitting unit 123, the history information generator 124 generates a message from the second electronic terminal 152. After receiving current location information and generating date and time information for the current time, a first device consisting of the current location information, the date and time information, and information on a result of determining whether the first electronic document has been forged or altered Create history information.

When the first history information is generated by the history information generator 126, the hash value generator 125 generates a first hash value by applying the first history information as an input to a preset hash function.

When the first hash value is generated by the hash value generator 125, the electronic signature value generator 126 encrypts the first hash value with a preset private key to generate a first electronic signature value.

When the first electronic signature value is generated by the electronic signature value generation unit 126, the registration processing unit 127 corresponds to the first history information, the first hash value, the first electronic signature value, and the private key. After generating the first transaction including the public key, the first transaction is registered in the preset blockchain network 100.

Hereinafter, the operations of the history information generator 124, the hash value generator 125, the electronic signature value generator 126, and the registration processor 127 will be described in detail using examples.

First, as in the above-described example, let us assume that the notification message is transmitted to the second electronic terminal 152 by the notification message transmitter 123.

Then, the history information generator 124 may receive the current location information of the second electronic terminal 152 from the second electronic terminal 152 and generate date and time information for the current time.

At this time, when the current location information is called 'current location information 1' and the date and time information is '14:15 on September 20, 2022', the history information generator 126 generates 'current location information 1', 'September 20, 2022 14:15', and 'History Information 1' consisting of information on the result of the determination of forgery and falsification of 'Electronic Document 1' can be created.

Then, the hash value generator 125 can generate 'hash value 1' by applying 'history information 1' as an input to a preset hash function.

Then, the electronic signature value generator 126 can generate 'digital signature value 1' by encrypting 'hash value 1' with a preset private key.

Then, the registration processing unit 127 generates a first transaction including 'history information 1', 'hash value 1', 'electronic signature value 1', and a public key corresponding to the private key, and then executes the first transaction. can be registered in the preset blockchain network 100.

At this time, according to an embodiment of the present invention, the registration processing unit 127 may propagate the first transaction to the blockchain network 100 in order to register the first transaction in the blockchain network 100. . Then, one of the plurality of nodes 101, 102, 103, 104, 105, and 106 constituting the blockchain network 100 generates the first block containing the first transaction, It can be propagated to nodes (101, 102, 103, 104, 105, and 106). Accordingly, when the first block is received by a plurality of nodes (101, 102, 103, 104, 105, and 106), the plurality of nodes (101, 102, 103, 104, 105, and 106) send a message to each node. The first transaction can be shared by chaining the first block to the blockchain data based on the previous block chained to the stored blockchain data.

In this way, after the first transaction is registered in the blockchain network 100, the first user 141 can check 'history information 1'. Specifically, the first user 141 may search for the first transaction from the blockchain network 100 through the first electronic terminal 151.

For this reason, when the first transaction is retrieved from the blockchain network 100, the first electronic terminal 151 decrypts 'electronic signature value 1' with the public key corresponding to the private key included in the first transaction. After generating the decryption value, the decryption value and 'hash value 1' included in the first transaction can be compared.

As a result, if both values are confirmed to match each other, the first electronic terminal 151 can complete verification of 'electronic signature value 1'.

Then, the first electronic terminal 151 can display 'history information 1' included in the first transaction on the screen, and the first user 141 can check 'history information 1' displayed on the screen. You can.

Figure 3 is a flow chart illustrating a method of operating a document form providing server capable of performing anti-counterfeiting processing on an electronic document based on cell format information of an input field according to an embodiment of the present invention.

In step S310, a document form storage unit is maintained in which a plurality of document forms including a plurality of input fields in which data can be input are stored.

In step S320, when a request to provide a first document form, which is one of the plurality of document forms, is received from the first electronic terminal of the first user, the first document form stored in the document form storage unit is extracted and transmitted to the first electronic terminal.

In step S330, after the first document form is transmitted to the first electronic terminal, user data is entered into each of the first input fields included in the first document form by the first user. , When a first electronic document in which user data is entered into each of the first input fields is received from the first electronic terminal, and a request for forgery prevention processing for the first electronic document is received, the first electronic document Generates a processing event to perform anti-counterfeiting processing.

In step S340, when the processing event occurs, each of the first input fields is verified for forgery and forgery based on the cell format information constituting each input field and the user data entered in each input field. After generating the value, the forgery prevention processing for the first electronic document is completed by additionally inserting a verification value for each input field into each of the first input fields in which user data is input.

In step S350, the first electronic document for which forgery prevention processing has been completed is transmitted to the first electronic terminal.

At this time, according to one embodiment of the present invention, when the processing event occurs in step S340, cell format information constituting each of the first input fields, cell size information for each input field, and cell background color Checking information and cell border format information, when cell size information, cell background color information, and cell border format information for each of the first input fields are confirmed, for each of the first input fields, each input field When the user data entered and the cell size information, cell background color information, and cell border format information for each input field are input to the hash function for generating a preset verification value, the calculated value is entered into each input field. generating a verification value for each of the first input fields by generating a verification value for each of the first input fields; and when the verification value for each of the first input fields is generated, the first input fields in which user data is input Each may include a verification value insertion step of completing anti-forgery processing for the first electronic document by additionally inserting a verification value for each input field.

At this time, according to one embodiment of the present invention, the verification value insertion step is performed by checking a blank area excluding the data insertion area surrounding the user data entered in each of the first input fields, After checking the blank area of each of the first input fields, the forgery prevention processing for the first electronic document can be completed by inserting the verification value for each input field into the blank area of each of the first input fields. .

In addition, according to an embodiment of the present invention, the method of operating the document form providing server includes, in step S350, after the first electronic document for which forgery prevention processing has been completed is transmitted to the first electronic terminal, 1 When the first electronic document is received from the second electronic terminal of the second user who obtained the electronic document and a request for confirmation of forgery or alteration of the first electronic document is received, confirmation of forgery or alteration of the first electronic document generating a confirmation event for, and when the confirmation event occurs, extracting user data and verification values entered in each input field from the first input fields, for each of the first input fields , After checking the cell size information, cell background color information, and cell border format information for each input field, the user data entered in each input field and the cell size information, cell background color information, and cell border format information for each input field Generating a hash value for verification for each of the first input fields by applying information as an input to the hash function for generating a verification value and generating a hash value for verification for each input field, the first For each of the input fields, check whether the verification hash value for each input field and the verification value extracted from each input field match each other, and for all of the first input fields, the verification hash value and verification If the values are confirmed to match each other, it is determined that the first electronic document has not been forged or altered, and for at least one of the first input fields, the hash value for verification and the verification value do not match each other. If it is confirmed that the first electronic document has been forged or altered, it may further include determining that the first electronic document has been forged or altered, and generating a notification message notifying the result of the determination of whether the first electronic document has been forged and transmitted to the second electronic terminal. You can.

At this time, according to one embodiment of the present invention, the operating method of the document form providing server includes transmitting to the second electronic terminal, and when the notification message is transmitted to the second electronic terminal, the second electronic terminal , After receiving the current location information of the second electronic terminal and generating date and time information for the current time, a result of determining whether the current location information, the date and time information, and the first electronic document have been forged or altered. generating first history information consisting of information about; once the first history information is generated, applying the first history information as an input to a preset hash function to generate a first hash value; When a hash value is generated, encrypting the first hash value with a preset private key to generate a first electronic signature value; and when the first electronic signature value is generated, the first history information, the first hash value, After generating a first transaction including the first electronic signature value and a public key corresponding to the private key, the step of registering the first transaction in a preset blockchain network may be further included.

Above, the operation method of the document form providing server according to an embodiment of the present invention has been described with reference to FIG. 3. Here, the operation method of the document form providing server according to an embodiment of the present invention may correspond to the configuration of the operation of the document form providing server 110 described using FIGS. 1 and 2, so a more detailed description thereof is provided. will be omitted.

The operating method of the document form providing server according to an embodiment of the present invention may be implemented as a computer program stored in a storage medium to be executed through combination with a computer.

Additionally, the operating method of the document form providing server according to an embodiment of the present invention may be implemented in the form of computer program instructions for execution through combination with a computer and recorded on a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, etc., singly or in combination. Program instructions recorded on the medium may be specially designed and constructed for the present invention or may be known and usable by those skilled in the art of computer software. Examples of computer-readable recording media include magnetic media such as hard disks, floppy disks, and magnetic tapes, optical media such as CD-ROMs and DVDs, and magnetic media such as floptical disks. -Includes optical media (magneto-optical media) and hardware devices specifically configured to store and execute program instructions, such as ROM, RAM, flash memory, etc. Examples of program instructions include machine language code, such as that produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter, etc.

As described above, the present invention has been described with specific details such as specific components and limited embodiments and drawings, but this is only provided to facilitate a more general understanding of the present invention, and the present invention is not limited to the above embodiments. , those skilled in the art can make various modifications and variations from this description.

Accordingly, the spirit of the present invention should not be limited to the described embodiments, and the scope of the patent claims described later as well as all things that are equivalent or equivalent to the scope of this patent claim shall fall within the scope of the spirit of the present invention. .

110: Document form providing server
111: document form storage unit 112: document form transmission unit
113: Processing event generation unit 114: Forgery prevention processing unit
115: Document transmission unit 116: Information confirmation unit
117: Verification value generation unit 118: Verification value insertion unit
119: Verification event generation unit 120: Verification value extraction unit
121: Hash value generation unit for verification 122: Forgery and alteration determination unit
123: Notification message transmission unit 124: History information generation unit
125: Hash value generation unit 126: Electronic signature value generation unit
127: Registration processing department
100: Blockchain network
101, 102, 103, 104, 105, 106: multiple nodes
141: first user 142: second user
151: first electronic terminal 152: second electronic terminal

Claims (12)

In the document form providing server that can perform anti-counterfeiting processing on electronic documents based on the cell format information of the input field,
a document form storage unit storing a plurality of document forms including a plurality of input fields capable of inputting data;
When a request to provide a first document form, which is one of the plurality of document forms, is received from the first electronic terminal of the first user, the first document form stored in the document form storage unit is extracted and the first document form is extracted. 1 Document form transmission unit for transmitting to an electronic terminal;
After the first document form is transmitted to the first electronic terminal, as user data is completed by the first user in each of the first input fields included in the first document form, the first electronic terminal When a first electronic document in which user data is entered into each of the first input fields is received from the terminal and a request for anti-forgery processing for the first electronic document is received, anti-forgery processing for the first electronic document is performed. a processing event generator that generates a processing event to be performed;
When the processing event occurs, for each of the first input fields, a verification value for forgery verification is generated based on the cell format information constituting each input field and the user data entered in each input field. , a forgery prevention processing unit that completes forgery prevention processing for the first electronic document by additionally inserting a verification value for each input field into each of the first input fields in which user data is input; and
A document transmission unit that transmits the first electronic document for which forgery prevention processing has been completed to the first electronic terminal
A server that provides document forms containing . According to paragraph 1,
The forgery prevention processing unit
When the processing event occurs, an information confirmation unit that checks cell size information, cell background color information, and cell border format information for each input field as cell format information constituting each of the first input fields;
When the cell size information, cell background color information, and cell border format information for each of the first input fields are confirmed, for each of the first input fields, user data entered in each input field and When the cell size information, cell background color information, and cell border format information are input to a hash function for generating a preset verification value, the calculated value is generated as a verification value for each input field, thereby generating the first input a verification value generator that generates verification values for each of the fields; and
When the verification value for each of the first input fields is generated, the verification value for each input field is additionally inserted into each of the first input fields in which user data is input, thereby Verification value insertion section to complete anti-counterfeiting processing
A server that provides document forms containing . According to paragraph 2,
The verification value insertion part
After confirming the blank area of each of the first input fields by checking the blank area excluding the data insertion area surrounding the user data input in each input field, the first input field A document form providing server, characterized in that the forgery prevention processing for the first electronic document is completed by inserting verification values for each input field into the blank area of each field. According to paragraph 2,
After the first electronic document for which forgery prevention processing has been completed is transmitted by the document transmission unit to the first electronic terminal, from the second electronic terminal of the second user who obtained the first electronic document, the first electronic document When a document is received and a request to confirm whether the first electronic document has been forged or altered is received, a confirmation event generator that generates a confirmation event to confirm whether the first electronic document has been forged or altered;
a verification value extractor that extracts user data and verification values entered into each input field from the first input fields when the confirmation event occurs;
For each of the first input fields, after checking the cell size information, cell background color information, and cell border format information for each input field, user data entered in each input field and cell size information for each input field , cell background color information and cell border format information are applied as input to the hash function for generating the verification value, thereby generating a hash value for verification for each input field, thereby creating a hash for verification for each of the first input fields. A hash value generator for verification that generates a value;
For each of the first input fields, check whether the verification hash value for each input field and the verification value extracted from each input field match each other, and for all of the first input fields, the verification hash If it is confirmed that the value and the verification value match each other, it is determined that the first electronic document has not been forged or altered, and for at least one input field among the first input fields, the hash value for verification and the verification value are different from each other. a forgery determination unit that determines that the first electronic document has been forged or altered if it is confirmed that they do not match; and
A notification message transmitting unit that generates a notification message notifying the result of determination of whether the first electronic document has been forged or altered and transmits it to the second electronic terminal.
A document form providing server that further includes a. According to paragraph 4,
When the notification message is transmitted to the second electronic terminal by the notification message transmission unit, current location information of the second electronic terminal is received from the second electronic terminal, and date and time information for the current point of time is received. a history information generator that generates, after generation, first history information consisting of the current location information, the date and time information, and information on a result of determining whether the first electronic document has been forged or altered;
When the first history information is generated, a hash value generator that generates a first hash value by applying the first history information as an input to a preset hash function;
When the first hash value is generated, an electronic signature value generator that generates a first electronic signature value by encrypting the first hash value with a preset private key; and
When the first electronic signature value is generated, a first transaction containing the first history information, the first hash value, the first electronic signature value, and the public key corresponding to the private key is generated, and then the first transaction is generated. 1 Registration processing unit that registers transactions in the pre-established blockchain network
A document form providing server that further includes a. In the method of operating a document form providing server capable of performing anti-counterfeiting processing on an electronic document based on cell format information of an input field,
maintaining a document form storage unit in which a plurality of document forms including a plurality of input fields capable of inputting data are stored;
When a request for provision of a first document form, which is one of the plurality of document forms, is received from the first electronic terminal of the first user, the first document form stored in the document form storage unit is extracted and the first document form is extracted. 1 Transmitting to an electronic terminal;
After the first document form is transmitted to the first electronic terminal, as user data is completed by the first user in each of the first input fields included in the first document form, the first electronic terminal When a first electronic document in which user data is entered into each of the first input fields is received from the terminal and a request for anti-forgery processing for the first electronic document is received, anti-forgery processing for the first electronic document is performed. generating a processing event to perform;
When the processing event occurs, for each of the first input fields, a verification value for forgery verification is generated based on the cell format information constituting each input field and the user data entered in each input field. , completing anti-counterfeiting processing for the first electronic document by additionally inserting a verification value for each input field into each of the first input fields in which user data is input; and
Transmitting the first electronic document for which forgery prevention processing has been completed to the first electronic terminal
How the server operates to provide a document form containing . According to clause 6,
The steps to complete are
When the processing event occurs, checking cell size information, cell background color information, and cell border format information for each input field as cell format information constituting each of the first input fields;
When the cell size information, cell background color information, and cell border format information for each of the first input fields are confirmed, for each of the first input fields, user data entered in each input field and When the cell size information, cell background color information, and cell border format information are input to a hash function for generating a preset verification value, the calculated value is generated as a verification value for each input field, thereby generating the first input generating verification values for each of the fields; and
When the verification value for each of the first input fields is generated, the verification value for each input field is additionally inserted into each of the first input fields in which user data is input, thereby Verification value insertion step to complete anti-forgery processing
How the server operates to provide a document form containing . In clause 7,
The verification value insertion step is
After confirming the blank area of each of the first input fields by checking the blank area excluding the data insertion area surrounding the user data entered in each input field, the first input field A method of operating a document form providing server, comprising completing anti-counterfeiting processing for the first electronic document by inserting verification values for each input field into the blank area of each field. In clause 7,
After the first electronic document for which forgery prevention processing has been completed by the step of transmitting to the first electronic terminal is transmitted to the first electronic terminal, from the second electronic terminal of the second user who obtained the first electronic document , when the first electronic document is received and a request for confirmation of forgery or alteration of the first electronic document is received, generating a confirmation event for confirmation of forgery or alteration of the first electronic document;
When the confirmation event occurs, extracting user data and verification values entered into each input field from the first input fields;
For each of the first input fields, after checking the cell size information, cell background color information, and cell border format information for each input field, user data entered in each input field and cell size information for each input field , cell background color information and cell border format information are applied as input to the hash function for generating the verification value, thereby generating a hash value for verification for each input field, thereby creating a hash for verification for each of the first input fields. generating a value;
For each of the first input fields, check whether the verification hash value for each input field and the verification value extracted from each input field match each other, and for all of the first input fields, the verification hash If it is confirmed that the value and the verification value match each other, it is determined that the first electronic document has not been forged or altered, and for at least one input field among the first input fields, the hash value for verification and the verification value are different from each other. If it is confirmed that they do not match, determining that the first electronic document has been forged or altered; and
Generating a notification message notifying the result of determining whether the first electronic document has been forged or altered and transmitting it to the second electronic terminal
The operation method of the document form providing server further includes. According to clause 9,
By transmitting to the second electronic terminal, when the notification message is transmitted to the second electronic terminal, current location information of the second electronic terminal is received from the second electronic terminal, and the date for the current time And after generating time information, generating first history information consisting of the current location information, the date and time information, and information about a result of determining whether the first electronic document has been forged or altered;
When the first history information is generated, generating a first hash value by applying the first history information as an input to a preset hash function;
When the first hash value is generated, encrypting the first hash value with a preset private key to generate a first electronic signature value; and
When the first electronic signature value is generated, a first transaction containing the first history information, the first hash value, the first electronic signature value, and the public key corresponding to the private key is generated, and then the first transaction is generated. 1 Step to register the transaction in the pre-established blockchain network
The operation method of the document form providing server further includes. A computer-readable recording medium recording a computer program for executing the method of any one of claims 6 to 10 through combination with a computer. A computer program stored in a storage medium for executing the method of any one of claims 6 to 10 through combination with a computer.

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