CN111159659A - Multi-system software registration method and terminal equipment - Google Patents
Multi-system software registration method and terminal equipment Download PDFInfo
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- CN111159659A CN111159659A CN201911388147.1A CN201911388147A CN111159659A CN 111159659 A CN111159659 A CN 111159659A CN 201911388147 A CN201911388147 A CN 201911388147A CN 111159659 A CN111159659 A CN 111159659A
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- 238000000034 method Methods 0.000 title claims abstract description 23
- 230000004913 activation Effects 0.000 claims abstract description 135
- 238000003860 storage Methods 0.000 claims abstract description 11
- 238000012795 verification Methods 0.000 claims description 19
- 230000003213 activating effect Effects 0.000 claims description 3
- 230000006855 networking Effects 0.000 description 5
- 238000004519 manufacturing process Methods 0.000 description 4
- 238000012545 processing Methods 0.000 description 4
- 230000008901 benefit Effects 0.000 description 3
- 238000004891 communication Methods 0.000 description 3
- 238000013461 design Methods 0.000 description 2
- 238000010923 batch production Methods 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
- 238000013500 data storage Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 230000002452 interceptive effect Effects 0.000 description 1
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F21/00—Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
- G06F21/10—Protecting distributed programs or content, e.g. vending or licensing of copyrighted material ; Digital rights management [DRM]
- G06F21/12—Protecting executable software
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F21/00—Security arrangements for protecting computers, components thereof, programs or data against unauthorised activity
- G06F21/30—Authentication, i.e. establishing the identity or authorisation of security principals
- G06F21/44—Program or device authentication
Abstract
The invention discloses a multi-system software registration method and terminal equipment, wherein the method comprises the following steps: a main system of the terminal equipment acquires activation state information and an activation code required by running software from a software registration server based on the unique equipment identifier; storing the activation state information and the activation code to a storage area which is not lost during power failure, upgrading or resetting; the main system sends the unique equipment identification, the activation state information and the activation code to a terminal equipment plugging system; the plugging system stores the unique equipment identifier to a storage area lost in power failure; based on the activation state information and the activation code, the plug-in system can run software which is arranged on the plug-in system and is the same as the main system. The invention can solve the problem that the same software needs to be repeatedly registered in different systems of the same terminal equipment, and can solve the problem that the activation state information and the activation code are reused in the terminal equipment of other manufacturers after the plug-in system software is registered; the problem that after one-time registration, when software is upgraded again, reset, power-off and other operations are carried out, the registration is not required to be connected with the network again can be solved.
Description
Technical Field
The invention relates to the technical field of software registration, in particular to a multi-system software registration method and terminal equipment.
Background
In some terminal devices (e.g., electronic whiteboard), one terminal device often integrates a plurality of system modules for flexible matching according to different market demands. Such as an integrated ops (windows) operating system, a dialable android module, and a native motherboard system (hereinafter referred to as a host system). On these modules, software common to customers, such as electronic whiteboard writing software, screen projection software, conference software, etc., is often installed simultaneously; namely, the software is to be simultaneously installed in a windows system of the OPS, an android system of the dialable android module and a main system of the local display control. However, whiteboard writing software, screen projection software, conference system software and the like are all charged software and can be used only by user registration. Therefore, different systems have different registration numbers, and for each module integrated in the same terminal equipment, the modules need to be registered for multiple times (respectively registered in window/android/Linux/MAC systems and the like); although the registration server is a terminal device, the registration server is identified as a plurality of terminal devices (different operating systems, each having its own unique machine identification code). This brings the trouble of registration to the producer and the end user, i.e. they must register the same software in different systems repeatedly, which affects both the production efficiency and the user experience. For the pluggable module, if the registration mode is adopted, the pluggable module is dialed to other machines which are not produced by the company and is registered, so that the pluggable module can be used without re-registration, and the benefit of the company is influenced.
Disclosure of Invention
The invention mainly aims to provide a multi-system software registration method and terminal equipment, which can solve the problem that the same software needs to be repeatedly registered in different systems of the same terminal equipment; the problem that the activation state information and the activation code are reused in terminal equipment of other manufacturers after the plug-in system software is registered can be solved; the problem that after registration, if the system software is not networked again after maintenance (reset and system software upgrade) can be solved, the system software cannot be activated; meanwhile, the direct automatic registration of the first networking is realized, and the problem that the production efficiency is influenced because the production line needs to manually input the registration code for registration is solved.
The invention adopts the following technical scheme:
in one aspect, the invention relates to a multi-system software registration method, which comprises the following steps:
a main system of the terminal equipment acquires activation state information and an activation code required by running software from a software registration server based on the unique equipment identifier; storing the activation state information and the activation code in a storage area which is not lost after power-off, upgrading or resetting operation;
the main system sends the unique equipment identification, the activation state information and the activation code to a plugging system of the terminal equipment; the plugging system is a system for plugging the module of the terminal equipment;
the plugging system stores the unique equipment identifier to a storage area lost in power failure; based on the activation state information and the activation code, the plug-in system can run software which is arranged on the plug-in system and is the same as the main system.
Preferably, the acquiring, by the host system of the terminal device, activation state information and an activation code required for running software from the software registration server based on the device unique identifier specifically includes:
the main system sends a software activation request including a unique device identifier to the software registration server;
the software registration server judges whether the unique equipment identifier is recorded and registered, if so, the software registration server passes verification and sends activation state information and an activation code to the main system to activate the software; if not, the verification fails and the software is not activated.
Preferably, before the main system of the terminal device obtains the activation state information and the activation code required for running the software from the software registration server based on the device unique identifier, the method further includes:
the main system judges whether an activation code and activation state information required by running software are stored or not, and if yes, the activation state information is verified; if the verification is passed, the software is activated, and the main system does not acquire the activation state information and the activation code required by the running software from the software registration server; if the verification fails, the main system of the terminal equipment acquires the activation state information and the activation code required by the running software from the software registration server based on the equipment unique identification.
Preferably, the multi-system software registration method further includes:
the plug-in system judges whether activation state information and activation codes required by running software are stored or not, and if yes, the activation state information is verified; if the verification is passed, activating the software; and if the verification fails, the plugging system acquires the activation state information and the activation code required by the running software from the software registration server based on the unique equipment identifier.
Preferably, the verifying the activation status information specifically includes:
and performing encryption operation based on the unique equipment identifier, comparing the encrypted identifier with the stored activation state information, and if the encrypted activation state information is consistent with the stored activation state information, verifying the encrypted activation state information to pass.
Preferably, the device unique identifier includes a MAC address of the terminal device or a unique identification code generated based on the MAC address.
Preferably, the main system and the plugging system perform command word communication through one or more of an HDMI transmission signal, a serial port and a USB.
In another aspect of the present invention, a terminal device includes the host system and the plug system; the plugging system comprises one or more than one plugging system.
Compared with the prior art, the invention has the following beneficial effects:
(1) the invention relates to a multi-system software registration method and terminal equipment.A terminal equipment uses the same equipment unique identifier for all systems and shares the unique identifier on each module through internal communication; as long as the main system is registered, the same software integrated on other plug-in systems on the terminal equipment can be simultaneously registered;
(2) after the main system of the terminal equipment is registered once, the activation state information and the activation code are permanently stored, and operations such as resetting, upgrading and the like do not disappear;
(3) the plugging system stores the unique equipment identifier in a storage area which is lost when the power is off, so that when the plugging system is moved to terminal equipment of other companies, software registration information is invalid, and the use right of purchasing software needs to be registered again (a registration code is purchased to obtain activation state information and an activation code); software on the dial-plug module is prevented from being used by other non-company equipment;
(4) the invention can purchase and register the unique identification code in batches, and the unique identification code is directly recorded in the software registration server by a factory, so that the software can be automatically registered (without manually inputting the registration code) only by networking for the first time, and can be used without networking for the next time, thereby solving the problem that the production efficiency is influenced by batch production, manual registration for each time and the like.
The above description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the description of the technical means more comprehensible.
The above and other objects, advantages and features of the present invention will become more apparent to those skilled in the art from the following detailed description of specific embodiments thereof, taken in conjunction with the accompanying drawings.
Drawings
FIG. 1 is a main flow chart of a multi-system software registration method according to an embodiment of the present invention;
FIG. 2 is a detailed flowchart of a multi-system software registration method according to an embodiment of the present invention;
fig. 3 is a block diagram of the structure of the embodiment of the present invention.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, embodiments of the present invention will be described in detail with reference to the accompanying drawings.
Referring to fig. 1, in one aspect, the present invention provides a multi-system software registration method, including:
s101, a main system of the terminal equipment acquires activation state information and an activation code required by running software from a software registration server based on the unique equipment identifier; storing the activation state information and the activation code in a storage area which is not lost after power-off, upgrading or resetting operation;
s102, the main system sends the unique equipment identification, the activation state information and the activation code to a plugging system of the terminal equipment during registration; the plugging system is a system for plugging the module of the terminal equipment;
s103, the plugging system stores the unique equipment identifier to a storage area lost in power failure; based on the activation state information and the activation code, the plug-in system can run software which is arranged on the plug-in system and is the same as the main system.
Specifically, referring to fig. 2, the device unique identifier includes a MAC address of the terminal device or a unique identifier deviceId generated based on the MAC address. In one embodiment, the unique identifier deviceId can identify the MAC address of the terminal device and the manufacturer of the terminal device.
When the application software of the main system is started, the main system software registration method of the invention specifically comprises the following steps:
(1) the main system judges whether activation state information and an activation code are stored locally; if not, executing (2); if the unique identification code deviceId is stored, judging whether the unique identification code deviceId is empty, if not, carrying out MD5 encryption processing on the unique identification code deviceId, and comparing the unique identification code deviceId with locally stored activation state information; if the MAC address is null, MD5 encryption processing is carried out on the MAC address, and comparison is carried out on the MAC address and activation state information stored locally; if the comparison with the activation state information is consistent, activating the software, allowing the software to be used, and if the comparison is inconsistent, executing (2);
(2) judging whether the unique identification code deviceId is empty or not, if not, using the unique identification code deviceId to perform networking verification on the software registration system, judging whether the unique equipment identification is recorded and registered or not by the software registration server, if so, sending activation state information and an activation code to the main system to activate the software, and storing the activation state information and the activation code by the main system; if not, the verification is not passed, and (3) is carried out; if the unique identification code deviceId is null, turning to (3);
(3) using the MAC address to perform networking verification on the software registration system, judging whether the MAC address is registered or not by the software registration server, if so, sending activation state information, an activation code and activation state information to the main system to activate the software, and storing the activation state information, the activation code and the activation state information by the main system; otherwise, the verification fails and the software is not activated.
The activation state information is information obtained by performing MD5 encryption processing on the unique identifier deviceId or the MAC address.
After a main system of the terminal equipment acquires activation state information and an activation code required by running software, storing the activation state information and the activation code in a storage area which is not lost during power failure, resetting and upgrading; and sending the device unique identifier (unique identification code deviceId or MAC address), the activation status information and the activation code to a plug-in system of the terminal device. And when the software is operated on the plugging system, executing a registration mode same as the main system software registration method.
Further, the registration mode is divided into manual registration and automatic registration.
The automatic registration mode is that a distributor uniformly purchases a batch of registered unique identification codes from a company, and a factory directly registers the unique identification codes uniformly.
Specifically, the distributor client directly purchases a batch of registration codes from the company, the registration codes are generated by using the continuous unique identification code deviceId compiled on the basis of the MAC address of the network card, and the company informs the range of the continuous identification codes to the software operator, and the software operator records the range on the software registration server of the company.
When the terminal equipment is manufactured in a factory, an MAC address is burnt into a main system (such as a display system) of the terminal equipment, the system generates a unique identification code deviceId according to the MAC address, and when the main system of the terminal equipment surfs the internet for the first time to start software, the main system sends the deviceId to a software registration server through a network to acquire activation state information and an activation code; since the registration server is already registered, the registration server responds with activation status information (deviceId encrypted information) and an activation code to the host system, and the host system stores the activation status information and the activation code in a data storage area that is not cleared by power-off, reset, and upgrade. If the deviceId, the activation state information and the activation code exist, the main system is registered, namely the deviceId and the activation state information are verified each time the software is started, and if the verification is passed, the main system is registered; if not, the registration server is again solicited over the network for the activation status information and activation code (and activation status information). The activation modes of other plug-in systems are similar, and the only difference is that the deviceId, the activation state information and the activation code of the plug-in system are acquired from a main system through serial ports or other communication modes such as USB; the plug-in system and the main system are agreed, and the deviceID, the activation state information and the activation code cannot be stored in the plug-in modules; that is, each time the computer is started, the main system actively sends deviceID, activation state information and an activation code to each dial-plug module; or actively requesting the deviceID, the activation state information and the activation code from the main system when the plugging system is powered on. The aim of non-storage is to solve the problem that when the plugging and unplugging system dials to other unregistered terminal equipment, the registration information is invalid, so that the rights and interests of companies are protected. The main system is stored in an area which is not cleared after power-off, reset, upgrade and the like, so that after registration once, re-registration is not needed, namely whether machines can be networked or not, whether power-off, reset, upgrade software or the like is performed or not.
The manual registration mode is a processing mode of bulk customers who do not purchase the registration codes in batches. Clicking registration on a software interface, inputting a purchased registration code into software of the terminal equipment, sending the registration code to a registration server by the software for verification, and binding the deviceID or mac address of the terminal equipment and the registration code on the registration server after the verification of the registration server is passed (the registration code is recorded on the server); at the same time, the activation state information and the activation code are replied to the main system; the main system is distributed to other plugging systems; the other plugging systems acquire the activation status information, the activation code and the deviceId in the same way as the automatic registration.
On the other hand, the terminal equipment comprises the main system and the plugging system; the plugging system comprises one or more than one plugging system.
In this embodiment, taking the terminal device of the interactive electronic whiteboard as an example, as shown in fig. 3, the main display system is responsible for the operation of the whole system, i.e., the touch control, the system display, and the state identification of other modules; the module OPS is connected with the main display system through an HDMI signal, a serial port, a USB and the like, the main system displays the windows content on the OPS, and simultaneously, the main system communicates through the serial port or the USB and transmits registration related information; the RK3399 is a higher-end android system and is also connected with a main display system through HDMI signals, serial ports, USB and the like, the main system is responsible for displaying the signals of the RK3399, and the two parties communicate through the serial ports or the USB to acquire registration related information. The OPS and RK3399 and other dialable plug-in modules are not standard matches, and are customer-selected modules, i.e. machines on sale, may not be matched with the OPS and RK3399 and other dialable plug-in modules; it is also possible to match both or either; however, regardless of the customer's configuration, these systems will have the same software installed for the different system types. For example, in a system combining an OPS and a main display, some clients are used for making conference system models, an android system of the main display is only used for displaying, and software of the android system runs on windows; if the client dials the OPS, the system automatically becomes a common android electronic whiteboard, and the software is used under the android system. The RK3399 and the main display system are combined in a model that modules similar to RK3399 dialable high android versions are added because the android versions of the main display system are low, and some customers require higher versions of android systems.
The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.
Claims (8)
1. A multi-system software registration method is characterized by comprising the following steps:
a main system of the terminal equipment acquires activation state information and an activation code required by running software from a software registration server based on the unique equipment identifier; storing the activation state information and the activation code in a storage area which is not lost after power-off, upgrading or resetting operation;
the main system sends the unique equipment identification, the activation state information and the activation code to a plugging system of the terminal equipment; the plugging system is a system for plugging the module of the terminal equipment;
the plugging system stores the unique equipment identifier to a storage area lost in power failure; based on the activation state information and the activation code, the plug-in system can run software which is arranged on the plug-in system and is the same as the main system.
2. The multi-system software registration method according to claim 1, wherein the main system of the terminal device obtains activation state information and an activation code required for running software from the software registration server based on the device unique identifier, and specifically includes:
the main system sends a software activation request including a unique device identifier to the software registration server;
the software registration server judges whether the unique equipment identifier is recorded and registered, if so, the software registration server passes verification and sends activation state information and an activation code to the main system to activate the software; if not, the verification fails and the software is not activated.
3. The multi-system software registration method according to claim 2, wherein before the main system of the terminal device obtains the activation state information and the activation code required for running the software from the software registration server based on the device unique identifier, the method further comprises:
the main system judges whether an activation code and activation state information required by running software are stored or not, and if yes, the activation state information is verified; if the verification is passed, the software is activated, and the main system does not acquire the activation state information and the activation code required by the running software from the software registration server; if the verification fails, the main system of the terminal equipment acquires the activation state information and the activation code required by the running software from the software registration server based on the equipment unique identification.
4. The multi-system software registration method of claim 2, further comprising:
the plug-in system judges whether activation state information and activation codes required by running software are stored or not, and if yes, the activation state information is verified; if the verification is passed, activating the software; and if the verification fails, the plugging system acquires the activation state information and the activation code required by the running software from the software registration server based on the unique equipment identifier.
5. The multi-system software registration method according to claim 3, wherein verifying the activation status information specifically comprises:
and performing encryption operation based on the unique equipment identifier, comparing the encrypted identifier with the stored activation state information, and if the encrypted activation state information is consistent with the stored activation state information, verifying the encrypted activation state information to pass.
6. The multi-system software registration method according to claim 1, wherein the device unique identifier comprises a MAC address of the terminal device or a unique identification code generated based on the MAC address.
7. The method of multi-system software registration according to claim 1, wherein the host system and the plug system communicate command words via one or more of HDMI transport signals, serial ports and USB.
8. A terminal device, characterized in that it comprises a host system and a plugging system according to claims 1 to 7; the plugging system comprises one or more than one plugging system.
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