CN114118924A - Logistics flow signing method and system based on block chain - Google Patents

Abstract

The application provides a logistics flow signing method and system based on a block chain. The logistics flow transfer signing method based on the block chain comprises the following steps: the order management system generates order data according to the order placing task of the user and stores the order data to the evidence storage platform; and the evidence storing platform acquires ca authentication information of the user and authenticates the ca authentication information, and if the ca authentication information is successfully authenticated, the evidence storing platform generates a first hash value according to the order data and stores the first hash value into the block chain to form a first storage evidence. According to the logistics circulation signing method based on the block chain, on-line signing of various bills in the logistics system is achieved, in one complete transportation business activity of logistics, the bill of each business activity can be signed on line, the hash value of the bill can be calculated, the bill is guaranteed not to be tampered in the circulation process of each business activity, and meanwhile the problem of goods loss liability caused by the fact that a traditional paper bill is lost can be prevented.

Description

Logistics flow signing method and system based on block chain

Technical Field

The application belongs to the technical field of logistics, and particularly relates to a block chain-based logistics flow signing method and a block chain-based logistics flow signing system.

Background

Aiming at medium and large logistics companies, the following phenomena exist in key links such as cargo storage, circulation, cargo handover and the like:

1. the handing-over foundation only has paper document, and paper document is signed instead in the in-process of signing for a sale, runs the risk of signing for a sale, and the authenticity is difficult to guarantee.

2. In the processes of circulation, handover and delivery of goods, the paper documents are large in quantity, easy to lose, easy to corrode and difficult to store.

3. The method is difficult to implement clear and efficient digital and visual management on upstream and downstream supply chain companies and transport companies, and cannot complete full link tracking in the process of cargo transportation.

4. When the demand of a large amount of logistics orders of E-commerce shopping festivals is met, the traditional paper document is low in efficiency, and risks of signing mistakes and document loss exist.

5. The existing identity authentication has loopholes, and privacy disclosure risks exist in the authentication or data transfer process

Aiming at the phenomena, a new technical scheme is expected to be provided, automatic mark keeping and online signing can be carried out on the goods handover and circulation process, the block chain network is automatically stored, and the manual intervention degree is reduced.

Accordingly, a technical solution is desired to overcome or at least alleviate at least one of the above-mentioned drawbacks of the prior art.

Disclosure of Invention

The present application aims to provide a block chain-based stream transfer signing method for logistics to solve at least one of the above problems.

In a first aspect of the present application, a block chain-based logistics flow transfer signing method is provided, and the block chain-based logistics flow transfer signing method includes:

the order management system generates order data according to the order placing task of the user and stores the order data to the evidence storage platform;

the certificate storing platform acquires ca authentication information of a user and authenticates the ca authentication information, and if the ca authentication information is successfully authenticated, the ca authentication information is authenticated

And the evidence storage platform generates a first hash value according to the order data and stores the first hash value into the block chain so as to form a first storage evidence.

Optionally, the block chain-based logistics flow transfer signature method further includes:

the warehouse management system acquires order data transmitted by the order management system;

the warehouse management system acquires an ex-warehouse delivery order generated by the user according to the order data and transmits the ex-warehouse delivery order to the first user mobile terminal;

the first user mobile terminal acquires the ex-warehouse delivery order, generates a user electronic signature according to the ex-warehouse delivery order and transmits the ex-warehouse delivery order with the user electronic signature to the warehouse management system;

the warehouse management system generates an electronic signature of a warehouse shipper on the delivery order with the electronic signature of the user so as to generate the delivery order with the electronic signature of the user and the electronic signature of the warehouse shipper;

the certificate storage platform acquires the ex-warehouse delivery receipt with the electronic signature of the user and the electronic signature of the warehouse shipper;

and the evidence storing platform generates a second hash value according to the ex-warehouse delivery bill with the user electronic signature and the warehouse shipper electronic signature and stores the second hash value into the block chain so as to form a second storage evidence.

Optionally, the first user mobile terminals comprise a B2C mobile terminal and a B2B mobile terminal;

the warehouse management system acquires the ex-warehouse delivery order generated by the user according to the order data and transmits the ex-warehouse delivery order to the first user mobile terminal, and the warehouse management system comprises:

judging the type of the ex-warehouse delivery list, wherein the type of the ex-warehouse delivery list comprises a B2C delivery list and/or a B2B delivery list;

when the type of the ex-warehouse delivery receipt is B2C delivery receipt, transmitting the delivery receipt to the B2C mobile terminal;

when the type of the ex-warehouse delivery receipt is B2B delivery receipt, the type of the ex-warehouse delivery receipt is transferred to the B2B mobile terminal.

Optionally, the obtaining, by the first user mobile terminal, the ex-warehouse delivery order, generating a user electronic signature according to the ex-warehouse delivery order, and transmitting the ex-warehouse delivery order with the user electronic signature to the warehouse management system includes:

the first user mobile terminal judges whether a user using the first user mobile terminal has the right to generate a user electronic signature, if so, the first user mobile terminal judges whether the user using the first user mobile terminal has the right to generate the user electronic signature, and if so, the first user mobile terminal judges whether the user using the first user mobile terminal has the right to generate the user electronic signature

And the first user mobile terminal generates a user electronic signature according to the ex-warehouse delivery order and transmits the ex-warehouse delivery order with the user electronic signature to the warehouse management system.

Optionally, the determining whether the user using the first user mobile terminal is authorized to generate the user electronic signature includes:

a first user mobile terminal acquires identity information of a user;

the first user mobile terminal judges whether the user is a preset worker according to the identity information of the user, and if so, the first user mobile terminal judges whether the user is a preset worker

And judging that the user using the first user mobile terminal is authorized to generate the user electronic signature.

Optionally, the obtaining, by the first user mobile terminal, the ex-warehouse delivery order, generating a user electronic signature according to the ex-warehouse delivery order, and transmitting the ex-warehouse delivery order with the user electronic signature to the warehouse management system includes:

the first user mobile terminal judges whether the acquired ex-warehouse delivery bill is within the specified validity period, if so, the first user mobile terminal judges whether the acquired ex-warehouse delivery bill is within the specified validity period

And the first user mobile terminal generates a user electronic signature according to the ex-warehouse delivery order and transmits the ex-warehouse delivery order with the user electronic signature to the warehouse management system.

Optionally, the block chain-based logistics flow transfer signature method further includes:

when the type of the delivery cross-connect bill is B2B cross-connect bill, the transportation management system acquires the delivery cross-connect bill with the electronic signature of the user and the electronic signature of the warehouse shipper;

the transportation management system generates a warehousing delivery note according to the ex-warehouse delivery note with the user electronic signature and the warehouse shipper electronic signature and transmits the warehousing delivery note to a second user mobile terminal;

the second user mobile terminal acquires the warehousing delivery order, generates a second user electronic signature according to the warehousing delivery order and transmits the warehousing delivery order with the second user electronic signature to the warehouse management system;

the warehouse management system generates a warehouse consignee electronic signature on the warehousing delivery note with the second user electronic signature so as to generate a warehousing delivery note with the second user electronic signature and the warehouse consignee electronic signature;

the certificate storage platform acquires the warehousing delivery note with the electronic signature of the second user and the electronic signature of the warehouse consignee;

and the certificate storage platform generates a third hash value according to the warehousing delivery note with the second user electronic signature and the warehouse consignee electronic signature and stores the third hash value into the block chain so as to form a third storage evidence.

Optionally, the block chain-based logistics flow transfer signature method further includes:

and after the evidence storage platform generates a third hash value, packaging the first hash value, the second hash value and the third hash value to form a fourth hash value and storing the fourth hash value into the block chain to form a fourth storage evidence.

Optionally, the block chain-based logistics flow transfer signature method further includes:

when the type of the delivery cross-connect bill is B2C cross-connect bill, the transportation management system acquires the delivery cross-connect bill with the electronic signature of the user and the electronic signature of the warehouse shipper;

the transportation management system generates a delivery;

the third user mobile terminal acquires the delivery receipt, generates a third user electronic signature according to the delivery receipt and transmits the delivery receipt with the third user electronic signature to the deposit receipt platform;

the certificate storage platform acquires the delivery receipt with the electronic signature of the third user;

and the evidence storing platform generates a fifth hash value according to the delivery receipt with the electronic signature of the third user and stores the fifth hash value into the block chain so as to form a fifth storage evidence.

The application also provides a logistics circulation signing system based on the block chain, which comprises:

the order management system is used for generating order data according to the order placing task of the user and storing the order data to the evidence storage platform;

the certificate storage platform is used for acquiring ca authentication information of the user and authenticating the ca authentication information, and if the ca authentication information is successfully authenticated, the ca authentication information is used for authenticating the user

And the evidence storage platform generates a first hash value according to the order data and stores the first hash value into the block chain so as to form a first storage evidence.

The application has at least the following beneficial technical effects:

according to the block chain based logistics circulation signing method, various receipts in a logistics system are signed on line, in one complete transportation business activity of logistics, the receipts of each business activity can be signed on line and the hash value of each business activity can be calculated, the receipts are guaranteed not to be tampered in the circulation process of each business activity, meanwhile, the problem of goods loss liability caused by the loss of traditional paper receipts can be prevented, the effective management of the receipts in the specific business activity in the whole flow is realized, and the whole control of a supply chain system in the logistics industry can be realized.

Drawings

Fig. 1 is a schematic flow chart of a logistics flow signing method based on a block chain according to an embodiment of the present application.

Detailed Description

In order to make the implementation objects, technical solutions and advantages of the present application clearer, the technical solutions in the embodiments of the present application will be described in more detail below with reference to the drawings in the embodiments of the present application. In the drawings, the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The described embodiments are a subset of the embodiments in the present application and not all embodiments in the present application. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present application and should not be construed as limiting the present application. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application. Embodiments of the present application will be described in detail below with reference to the accompanying drawings.

It should be noted that the terms "first" and "second" in the description of the present invention are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

Fig. 1 is a schematic flow chart of a logistics flow signing method based on a block chain according to an embodiment of the present application.

The logistics flow signing method based on the block chain as shown in fig. 1 comprises the following steps:

step 1: an Order Management System (OMS) generates order data according to a placing task of a user and stores the order data to a evidence storage platform;

step 2: the certificate storing platform acquires ca authentication information of a user and authenticates the ca authentication information, and if the ca authentication information is successfully authenticated, the ca authentication information is authenticated

And step 3: and the evidence storage platform generates a first hash value according to the order data and stores the first hash value into the block chain so as to form a first storage evidence.

According to the block chain based logistics circulation signing method, various receipts in a logistics system are signed on line, in one complete transportation business activity of logistics, the receipts of each business activity can be signed on line and the hash value of each business activity can be calculated, the receipts are guaranteed not to be tampered in the circulation process of each business activity, meanwhile, the problem of goods loss liability caused by the loss of traditional paper receipts can be prevented, the effective management of the receipts in the specific business activity in the whole flow is realized, and the whole control of a supply chain system in the logistics industry can be realized.

In this embodiment, the block chain-based logistics flow transfer signature method further includes:

and 4, step 4: the warehouse management system acquires order data transmitted by the order management system;

and 5: the warehouse management system acquires an ex-warehouse delivery order generated by a user according to the order data and transmits the ex-warehouse delivery order to the first user mobile terminal;

step 6: the first user mobile terminal acquires the ex-warehouse delivery order, generates a user electronic signature according to the ex-warehouse delivery order and transmits the ex-warehouse delivery order with the user electronic signature to the warehouse management system;

and 7: the warehouse management system generates an electronic signature of a warehouse shipper on the delivery receipt with the electronic signature of the user so as to generate the delivery receipt with the electronic signature of the user and the electronic signature of the warehouse shipper;

and 8: the certificate storage platform acquires an ex-warehouse delivery receipt with an electronic signature of a user and an electronic signature of a warehouse shipper;

and step 9: and the evidence storing platform generates a second hash value according to the ex-warehouse delivery list with the electronic signature of the user and the electronic signature of the warehouse shipper and stores the second hash value into the block chain so as to form a second storage evidence.

In the present embodiment, the first user mobile terminals include a B2C mobile terminal and a B2B mobile terminal;

the warehouse management system acquires the ex-warehouse delivery order generated by the user according to the order data and transmits the ex-warehouse delivery order to the first user mobile terminal comprises the following steps:

judging the type of the ex-warehouse delivery list, wherein the type of the ex-warehouse delivery list comprises a B2C delivery list and/or a B2B delivery list;

when the type of the ex-warehouse delivery list is B2C delivery list, transmitting the delivery list to the B2C mobile terminal;

and when the type of the ex-warehouse delivery bill is B2B delivery bill, the delivery bill is transferred to the B2B mobile terminal.

In this embodiment, the step of the first user mobile terminal obtaining the ex-warehouse delivery order, generating the user electronic signature according to the ex-warehouse delivery order, and transmitting the ex-warehouse delivery order with the user electronic signature to the warehouse management system includes:

the first user mobile terminal judges whether a user using the first user mobile terminal has the right to generate a user electronic signature, if so, the first user mobile terminal judges whether the user using the first user mobile terminal has the right to generate the user electronic signature, and if so, the first user mobile terminal judges whether the user using the first user mobile terminal has the right to generate the user electronic signature

The first user mobile terminal generates a user electronic signature according to the ex-warehouse delivery order and transmits the ex-warehouse delivery order with the user electronic signature to the warehouse management system.

The first user mobile terminal judges whether the user using the first user mobile terminal has the right to generate the user electronic signature, if not, the first user mobile terminal does not have the right to generate the user electronic signature

And the first user mobile terminal generates an alarm signal according to the delivery order and transmits the alarm signal to the warehouse management system.

In this embodiment, the determining whether the user using the first user mobile terminal is authorized to generate the user electronic signature includes:

a first user mobile terminal acquires identity information of a user;

the first user mobile terminal judges whether the user is a preset worker according to the identity information of the user, and if so, the first user mobile terminal judges whether the user is a preset worker

And judging that the user using the first user mobile terminal has the right to generate the user electronic signature.

In this embodiment, the step of the first user mobile terminal obtaining the ex-warehouse delivery order, generating the user electronic signature according to the ex-warehouse delivery order, and transmitting the ex-warehouse delivery order with the user electronic signature to the warehouse management system includes:

the first user mobile terminal judges whether the acquired ex-warehouse delivery bill is within the specified validity period, if so, the first user mobile terminal judges whether the acquired ex-warehouse delivery bill is within the specified validity period

The first user mobile terminal generates a user electronic signature according to the ex-warehouse delivery order and transmits the ex-warehouse delivery order with the user electronic signature to the warehouse management system.

When the first user mobile terminal judges whether the obtained delivery bill is in the appointed validity period, if not, the delivery bill is sent to the first user mobile terminal

And the first user mobile terminal generates an alarm signal according to the delivery order and transmits the alarm signal to the warehouse management system.

In this embodiment, the block chain-based logistics flow transfer signature method further includes:

when the type of the delivery cross-connect bill is B2B cross-connect bill, the transportation management system acquires the delivery cross-connect bill with the electronic signature of the user and the electronic signature of the warehouse shipper;

the transportation management system generates a warehousing delivery note according to the ex-warehouse delivery note with the electronic signature of the user and the electronic signature of the warehouse shipper and transmits the warehousing delivery note to the second user mobile terminal;

the second user mobile terminal acquires the warehousing delivery order, generates a second user electronic signature according to the warehousing delivery order and transmits the warehousing delivery order with the second user electronic signature to the warehouse management system;

the warehouse management system generates an electronic signature of a warehouse consignee on the warehousing delivery bill with the electronic signature of the second user so as to generate a warehousing delivery bill with the electronic signature of the second user and the electronic signature of the warehouse consignee;

the certificate storage platform acquires a warehousing delivery receipt with a second user electronic signature and a warehouse consignee electronic signature;

and the certificate storage platform generates a third hash value according to the warehousing delivery note with the electronic signature of the second user and the electronic signature of the warehouse receiver and stores the third hash value into the block chain so as to form a third storage evidence.

In this embodiment, the block chain-based logistics flow transfer signature method further includes:

and after the evidence storage platform generates a third hash value, packaging the first hash value, the second hash value and the third hash value to form a fourth hash value and storing the fourth hash value into the block chain to form a fourth storage evidence.

In this embodiment, the block chain-based logistics flow transfer signature method further includes:

when the type of the delivery cross-connect bill is B2C cross-connect bill, the transportation management system acquires the delivery cross-connect bill with the electronic signature of the user and the electronic signature of the warehouse shipper;

the transportation management system generates a delivery;

the third user mobile terminal acquires the delivery receipt, generates a third user electronic signature according to the delivery receipt and transmits the delivery receipt with the third user electronic signature to the deposit receipt platform;

the certificate storage platform acquires the delivery receipt with the electronic signature of the third user;

and the evidence storing platform generates a fifth hash value according to the delivery receipt with the electronic signature of the third user and stores the fifth hash value into the block chain so as to form a fifth storage evidence.

The present application is described in further detail below by way of examples, it being understood that the examples do not constitute any limitation to the present application.

An Order Management System (OMS) generates order data according to a placing task of a user and stores the order data to a evidence storage platform; for example, the order task is to transport goods from location a to location B and sign in by location C.

The evidence storage platform acquires ca authentication information of a user and authenticates the ca authentication information, in this embodiment, the ca authentication information of the user refers to ca authentication information of a shipper, that is, authentication information of a, and the authentication process is the prior art and is not described herein again.

If the authentication is successful, then

And the evidence storage platform generates a first hash value according to the order data and stores the first hash value into the block chain so as to form a first storage evidence.

And after the authentication is successful, the order management system transmits the order data to the warehouse management system, and in the actual process, the goods to be transported are also transported to the warehouse to be stored.

The warehouse management system acquires order data transmitted by the order management system; in this embodiment, after the warehouse delivery staff acquires the order data through the warehouse management system, the operations of picking, packaging, ex-warehouse and the like of the order goods are completed, and the ex-warehouse delivery order generated according to the order data is input to the warehouse management system.

The warehouse management system acquires an ex-warehouse delivery order generated by a user according to the order data and transmits the ex-warehouse delivery order to the first user mobile terminal; specifically, the first user mobile terminal may be a courier or a terminal system held by a freight driver, for example, a bushikabob APP or a bushikabobs terminal.

The first user mobile terminal acquires the ex-warehouse delivery order, generates a user electronic signature according to the ex-warehouse delivery order and transmits the ex-warehouse delivery order with the user electronic signature to the warehouse management system; in this embodiment, the electronic signature is generated by using the prior art, which is not described herein again.

The warehouse management system generates an electronic signature of a warehouse shipper on the delivery receipt with the electronic signature of the user so as to generate the delivery receipt with the electronic signature of the user and the electronic signature of the warehouse shipper;

the certificate storage platform acquires an ex-warehouse delivery receipt with an electronic signature of a user and an electronic signature of a warehouse shipper;

and the evidence storing platform generates a second hash value according to the ex-warehouse delivery list with the electronic signature of the user and the electronic signature of the warehouse shipper and stores the second hash value into the block chain so as to form a second storage evidence.

In this embodiment, the step of acquiring the ex-warehouse delivery order generated by the user according to the order data and transmitting the ex-warehouse delivery order to the first user mobile terminal by the warehouse management system includes:

judging the type of the ex-warehouse delivery list, wherein the type of the ex-warehouse delivery list comprises a B2C delivery list and/or a B2B delivery list;

when the type of the ex-warehouse delivery list is B2C delivery list, the delivery list is transmitted to a B2C mobile terminal, such as a Baishi Tanbao APP;

when the type of the ex-warehouse delivery receipt is the B2B delivery receipt, the delivery receipt is transmitted to a B2B mobile terminal, such as a century-owned mobile terminal.

In this embodiment, the step of the first user mobile terminal obtaining the ex-warehouse delivery order, generating the user electronic signature according to the ex-warehouse delivery order, and transmitting the ex-warehouse delivery order with the user electronic signature to the warehouse management system includes:

the first user mobile terminal judges whether the user using the first user mobile terminal has the right to generate the user electronic signature, if so, the first user mobile terminal judges whether the user using the first user mobile terminal has the right to generate the user electronic signature, and if so, the first user mobile terminal judges whether the user using the first user mobile terminal has the right to generate the user electronic signature

The first user mobile terminal generates a user electronic signature according to the delivery order and transmits the delivery order with the user electronic signature to the warehouse management system

In this embodiment, the determining whether the user using the first user mobile terminal is authorized to generate the user electronic signature includes:

the first user mobile terminal obtains identity information of a user, for example, whether the first user mobile terminal is a pre-stored authorized person is judged in a head portrait identification mode, for example, a pre-stored database is obtained, the pre-stored database comprises a face image of a, when the first user mobile terminal obtains the face image of the user through a camera or other external equipment, whether the user is a is judged in a face image similarity comparison mode, if yes, the user is a preset worker, and then the user is judged to be a preset worker

And judging that the user using the first user mobile terminal has the right to generate the user electronic signature.

In other embodiments, the following may also be used:

the first user mobile terminal judges whether the obtained delivery bill is within the specified validity period, for example, the specified validity period in the delivery bill is before 24 o 'clock 2021, 9, 10, and the time when the judgment is 22 o' clock 2021, 9, 10, if yes, the judgment is made

The first user mobile terminal generates a user electronic signature according to the ex-warehouse delivery order and transmits the ex-warehouse delivery order with the user electronic signature to the warehouse management system.

In this embodiment, when the type of the delivery receipt is B2B delivery receipt, the carrier will naturally take the goods from the shipper and bring the goods to the next warehouse, such as the second warehouse, and at this time, the block chain-based logistics diversion signature method of the present application further includes:

the transportation management system acquires an ex-warehouse delivery order with an electronic signature of a user and an electronic signature of a warehouse shipper;

the transportation management system generates a warehousing delivery note according to the ex-warehouse delivery note with the electronic signature of the user and the electronic signature of the warehouse shipper and transmits the warehousing delivery note to the second user mobile terminal; for example, a second user mobile terminal used by a transporter transporting goods from a first warehouse to a second warehouse.

The second user mobile terminal acquires the warehousing delivery order, generates a second user electronic signature according to the warehousing delivery order and transmits the warehousing delivery order with the second user electronic signature to the warehouse management system;

the warehouse management system generates a warehouse consignee electronic signature on the warehousing delivery note with the second user electronic signature (at the moment, the warehouse management system is generated by a consignee of the second warehouse), so that the warehousing delivery note with the second user electronic signature and the warehouse consignee electronic signature is generated;

the certificate storage platform acquires a warehousing delivery receipt with a second user electronic signature and a warehouse consignee electronic signature;

and the certificate storage platform generates a third hash value according to the warehousing delivery note with the electronic signature of the second user and the electronic signature of the warehouse receiver and stores the third hash value into the block chain so as to form a third storage evidence.

In this embodiment, after the second user mobile terminal obtains the warehousing delivery order and generates the second user electronic signature according to the warehousing delivery order and transmits the warehousing delivery order with the second user electronic signature to the warehouse management system, and the warehouse management system generates the warehouse consignee electronic signature on the warehousing delivery order with the second user electronic signature (at this time, the warehouse management system is generated by the consignee in the second warehouse), so as to generate the warehousing delivery order with the second user electronic signature and the warehouse consignee electronic signature, the second user can take away the goods, at this time, the second user may send the goods to the consignee hand, at this time, the second user mobile end of the second user generates the consignee delivery order, and the consignee needs to use the second user mobile terminal to generate the consignee electronic signature according to the consignee delivery order, at this time, the proof-of-deposit platform acquires the recipient delivery receipt with the recipient electronic signature, and the proof-of-deposit platform generates a recipient hash value according to the recipient delivery receipt with the recipient electronic signature and stores the recipient hash value into the block chain to form a recipient storage evidence.

It is to be understood that, in other embodiments, the evidence storing platform may also pack the first hash value, the second hash value, the third hash value, and the recipient hash value at the same time to form a fourth hash value, and store the fourth hash value in the block chain to form a fourth stored evidence.

The application also provides a logistics flow signing system based on the block chain, which comprises an order management system and a certificate storage platform, wherein the order management system is used for generating order data according to the order placing task of a user and storing the order data to the certificate storage platform; the evidence storing platform is used for obtaining ca authentication information of a user and authenticating the ca authentication information, and if the ca authentication information is successfully authenticated, the evidence storing platform generates a first hash value according to the order data and stores the first hash value into the block chain so as to form a first storage evidence.

In this embodiment, the order management system, the warehouse management system, and the like are all networking systems, each system can be used by multiple persons, and each person has an account belonging to the person.

Finally, it should be pointed out that: the above examples are only for illustrating the technical solutions of the present invention, and are not limited thereto. Although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. A block chain-based logistics flow transfer signing method is characterized by comprising the following steps:

the order management system generates order data according to the order placing task of the user and stores the order data to the evidence storage platform;

the certificate storing platform acquires ca authentication information of a user and authenticates the ca authentication information, and if the ca authentication information is successfully authenticated, the ca authentication information is authenticated

And the evidence storage platform generates a first hash value according to the order data and stores the first hash value into the block chain so as to form a first storage evidence.

2. The block chain-based stream transfer signing method according to claim 1, wherein the block chain-based stream transfer signing method further comprises:

the warehouse management system acquires order data transmitted by the order management system;

the warehouse management system acquires an ex-warehouse delivery order generated by the user according to the order data and transmits the ex-warehouse delivery order to the first user mobile terminal;

the first user mobile terminal acquires the ex-warehouse delivery order, generates a user electronic signature according to the ex-warehouse delivery order and transmits the ex-warehouse delivery order with the user electronic signature to the warehouse management system;

the warehouse management system generates an electronic signature of a warehouse shipper on the delivery order with the electronic signature of the user so as to generate the delivery order with the electronic signature of the user and the electronic signature of the warehouse shipper;

the certificate storage platform acquires the ex-warehouse delivery receipt with the electronic signature of the user and the electronic signature of the warehouse shipper;

and the evidence storing platform generates a second hash value according to the ex-warehouse delivery bill with the user electronic signature and the warehouse shipper electronic signature and stores the second hash value into the block chain so as to form a second storage evidence.

3. The block chain-based logistics transit signature method of claim 2, wherein said first user mobile terminals comprise B2C mobile terminal and B2B mobile terminal;

the warehouse management system acquires the ex-warehouse delivery order generated by the user according to the order data and transmits the ex-warehouse delivery order to the first user mobile terminal, and the warehouse management system comprises:

judging the type of the ex-warehouse delivery list, wherein the type of the ex-warehouse delivery list comprises a B2C delivery list and/or a B2B delivery list;

when the type of the ex-warehouse delivery receipt is B2C delivery receipt, transmitting the delivery receipt to the B2C mobile terminal;

when the type of the ex-warehouse delivery receipt is B2B delivery receipt, the type of the ex-warehouse delivery receipt is transferred to the B2B mobile terminal.

4. The block chain-based logistics flow transfer signing method of claim 3, wherein the first user mobile terminal obtaining the ex-warehouse delivery receipt and generating a user electronic signature according to the ex-warehouse delivery receipt and transmitting the ex-warehouse delivery receipt with the user electronic signature to the warehouse management system comprises:

the first user mobile terminal judges whether a user using the first user mobile terminal has the right to generate a user electronic signature, if so, the first user mobile terminal judges whether the user using the first user mobile terminal has the right to generate the user electronic signature, and if so, the first user mobile terminal judges whether the user using the first user mobile terminal has the right to generate the user electronic signature

And the first user mobile terminal generates a user electronic signature according to the ex-warehouse delivery order and transmits the ex-warehouse delivery order with the user electronic signature to the warehouse management system.

5. The method according to claim 4, wherein said determining whether the user using said first user mobile terminal is authorized to generate a user electronic signature comprises:

a first user mobile terminal acquires identity information of a user;

the first user mobile terminal judges whether the user is a preset worker according to the identity information of the user, and if so, the first user mobile terminal judges whether the user is a preset worker

And judging that the user using the first user mobile terminal is authorized to generate the user electronic signature.

6. The block chain-based logistics flow transfer signing method of claim 3, wherein the first user mobile terminal obtaining the ex-warehouse delivery receipt and generating a user electronic signature according to the ex-warehouse delivery receipt and transmitting the ex-warehouse delivery receipt with the user electronic signature to the warehouse management system comprises:

the first user mobile terminal judges whether the acquired ex-warehouse delivery bill is within the specified validity period, if so, the first user mobile terminal judges whether the acquired ex-warehouse delivery bill is within the specified validity period

And the first user mobile terminal generates a user electronic signature according to the ex-warehouse delivery order and transmits the ex-warehouse delivery order with the user electronic signature to the warehouse management system.

7. The block chain-based stream transfer signing method according to claim 3, wherein the block chain-based stream transfer signing method further comprises:

when the type of the delivery cross-connect bill is B2B cross-connect bill, the transportation management system acquires the delivery cross-connect bill with the electronic signature of the user and the electronic signature of the warehouse shipper;

the transportation management system generates a warehousing delivery note according to the ex-warehouse delivery note with the user electronic signature and the warehouse shipper electronic signature and transmits the warehousing delivery note to a second user mobile terminal;

the second user mobile terminal acquires the warehousing delivery order, generates a second user electronic signature according to the warehousing delivery order and transmits the warehousing delivery order with the second user electronic signature to the warehouse management system;

the warehouse management system generates a warehouse consignee electronic signature on the warehousing delivery note with the second user electronic signature so as to generate a warehousing delivery note with the second user electronic signature and the warehouse consignee electronic signature;

the certificate storage platform acquires the warehousing delivery note with the electronic signature of the second user and the electronic signature of the warehouse consignee;

and the certificate storage platform generates a third hash value according to the warehousing delivery note with the second user electronic signature and the warehouse consignee electronic signature and stores the third hash value into the block chain so as to form a third storage evidence.

8. The block chain-based stream transfer signing method of claim 7, wherein the block chain-based stream transfer signing method further comprises:

and after the evidence storage platform generates a third hash value, packaging the first hash value, the second hash value and the third hash value to form a fourth hash value and storing the fourth hash value into the block chain to form a fourth storage evidence.

9. The block chain-based stream transfer signing method according to claim 6, wherein the block chain-based stream transfer signing method further comprises:

when the type of the delivery cross-connect bill is B2C cross-connect bill, the transportation management system acquires the delivery cross-connect bill with the electronic signature of the user and the electronic signature of the warehouse shipper;

the transportation management system generates a delivery;

the third user mobile terminal acquires the delivery receipt, generates a third user electronic signature according to the delivery receipt and transmits the delivery receipt with the third user electronic signature to the deposit receipt platform;

the certificate storage platform acquires the delivery receipt with the electronic signature of the third user;

and the evidence storing platform generates a fifth hash value according to the delivery receipt with the electronic signature of the third user and stores the fifth hash value into the block chain so as to form a fifth storage evidence.

10. A block chain-based logistics transfer signing system, which is characterized in that the block chain-based logistics transfer signing system comprises:

the order management system is used for generating order data according to the order placing task of the user and storing the order data to the evidence storage platform;

the certificate storage platform is used for acquiring ca authentication information of the user and authenticating the ca authentication information, and if the ca authentication information is successfully authenticated, the ca authentication information is used for authenticating the user

And the evidence storage platform generates a first hash value according to the order data and stores the first hash value into the block chain so as to form a first storage evidence.

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