CN108632601B - Terminal simulation system of satellite live television - Google Patents

Abstract

The invention discloses a terminal simulation system of a satellite direct broadcast television, which generates an installation opening message in a message simulation module by simulating a service scene of a direct broadcast satellite, and sends the installation opening message to a front-end system after a specific signature of a test set-top box, thereby realizing test verification of a service management and control mechanism and a position management mechanism under multiple scenes. The message analog simulation module of the terminal analog system comprises: a configuration information acquisition module; modifying the acquired configuration information to form set top box configuration information, generating a local installation opening message and sending the local installation opening message to a local message generation module for testing the set top box to carry out digital signature; acquiring a message signature module for installing a startup message; and the message sending module is used for sending and installing the opening message to the front-end system. The installation opening message of the set top box can be read and uploaded, the analog simulation of the installation opening message uploading is realized, the purpose of simulating the remote installation of the card opening/equipment replacement/machine moving is realized, and the full-service scene simulation is realized.

Description

Terminal simulation system of satellite live television

Technical Field

The invention relates to a terminal simulation system of a satellite direct broadcast television.

Background

At present, China's direct broadcast satellite users break through 1 hundred million users, and become the largest direct broadcast satellite platform in the world. Over 50 direct broadcast satellite set-top box enterprises have produced over 110 effective set-top box models. In order to realize the management of set-top boxes of different brands, models and versions, a live broadcast satellite front-end system develops and deploys a flexible service control mechanism, so that the control of a scene according to multidimensional factors such as set-top boxes, regions, time and the like is realized; in order to realize the set-top box installation and opening position management based on the mobile base station, a live broadcast satellite front-end system establishes a black and white list base station information base and develops and establishes a provincial, county and village area installation and opening position management mechanism.

In the process of upgrading and developing the front-end system, a service management and control mechanism and a position management mechanism under various scenes need to be tested and verified, and in view of various live broadcast satellite service scenes, the full-service scene test is difficult to realize under the conditions of limited time and set-top box resources, and the test efficiency is low.

Aiming at the problem of low test efficiency in the related technology, an effective solution is not provided at present.

Disclosure of Invention

Aiming at the problems in the related art, the invention provides a terminal simulation system of a satellite direct broadcast television, which can improve the testing efficiency, realize the testing automation and realize the test verification work of a full-service scene through a testing set-top box.

The technical scheme of the invention is realized as follows:

according to an aspect of the present invention, there is provided a terminal simulation system for a satellite direct broadcast television, comprising: the message simulation module and the test set top box are in communication connection with the message simulation module;

wherein, the message analog simulation module comprises:

the configuration information acquisition module is used for acquiring configuration information, and the acquired configuration information comprises configuration information uploaded by the test set top box and local configuration information;

the local message generation module is used for modifying the acquired configuration information as required to form set top box configuration information, then generating a local installation opening message and sending the installation opening message to the testing set top box for digital signature;

the message signature module is used for acquiring the installation opening message after the digital signature; and

and the message sending module is used for sending the installation and activation message to the front-end system.

In one embodiment, the set-top box configuration information includes: any of a set-top box serial number, a smart card number, a set-top box encryption serial number, a positioning module identifier, a loader identifier, and base station information.

In one embodiment, the message signature module is further configured to obtain a local installation provisioning message.

In one embodiment, the message simulation module further includes: the network configuration module is used for configuring an IP address and a port; the message sending module sends the message information to the front-end system according to the IP address and the port.

In one embodiment, the message simulation module further includes: the configuration information clearing module is used for sending a restoring command to the test set top box; and the testing set top box clears the received set top box configuration information after receiving the restoring command.

In one embodiment, the network configuration module is further configured to configure the sending time and frequency of the installation opening message.

In one embodiment, the message simulation module further includes: and the historical message management module is used for locally storing the acquired installation opening message according to the format.

In one embodiment, the message simulation module further includes: and the display module is used for displaying the acquired configuration information and providing a modification interface for the acquired configuration information.

The terminal simulation system of the satellite direct broadcast television can automatically read and support manual modification of the configuration information uploaded by the set top box, and achieves the purpose of simulating remote installation of the card opening/moving; the installation opening message after the signature of the set top box can be read and uploaded, the uploading time, the uploading frequency and times, the IP address and the port of the installation opening message are supported to be modified, and the analog simulation of the uploading of the installation opening message is realized; and the local configuration file can be read, the related configuration information of the set top box is analyzed, and further, the installation, opening and message uploading analog simulation is realized. The automatic uploading of the set top box installation opening message is realized, the related information of the set top box is updated, and the full-service scene simulation is realized.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a block diagram of a terminal simulation system for satellite direct broadcast television according to an embodiment of the present invention;

fig. 2 is a schematic system structure diagram of a message simulation module of the terminal simulation system according to the embodiment of the present invention;

FIG. 3 is a block diagram of a message emulation module of a terminal emulation system in accordance with an embodiment of the present invention;

fig. 4 is a schematic diagram of a message simulation module of a terminal simulation system acquiring configuration information according to an embodiment of the present invention;

fig. 5 is a schematic diagram of a message analog simulation module of a terminal analog system according to an embodiment of the present invention acquiring an installation activation message;

fig. 6 is a schematic diagram of a message simulation module of the terminal simulation system sending an installation activation message to a front-end system according to the embodiment of the present invention;

fig. 7 is a functional flow diagram of a test set-top box application of a terminal emulation system in accordance with an embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments that can be derived by one of ordinary skill in the art from the embodiments given herein are intended to be within the scope of the present invention.

Referring to fig. 1 in conjunction with fig. 3, a terminal simulation system for direct broadcast satellite television according to an embodiment of the present invention includes: the method comprises the following steps: the device comprises a message analog simulation module and a testing set-top box which is in communication connection with the message analog simulation module. The number of test set-top boxes and the criteria for their implementation may be configured according to the actual circumstances. Specifically, the message simulation module can be written based on a windows 7 or above operating system and by using a C # language, which is a modern, type-safe, object-oriented programming language and has good platform compatibility characteristics. And the usability and compatibility of the software are ensured. The communication part of the message analog simulation module and the testing set-top box can be written by adopting C language.

As shown in fig. 2, the message simulation module may be implemented by a presentation layer, a business logic layer, and a data access layer. The presentation layer can present a user interface for a user to display information of the set top box, information of the base station, installation and opening messages and the like and provide an interactive function; the logic layer is used for assembling, checking, packaging and storing the analog data; the data access layer is a communication part of the testing set top box and the message analog simulation module.

As shown in fig. 3, the message analog simulation module may be connected to and communicate with the testing set top box through the serial port communication module. Furthermore, according to the design of the system business process, on the basis of the existing serial communication module of the set-top box application software, four serial communication instructions are designed, including: SENDSTNIFO, namely a set top box configuration information acquisition instruction; a modify stbion, i.e. a set-top box configuration information update instruction; SENDPERSON, namely installing and installing a message obtaining command; erasetinfo, i.e., restore set-top box default configuration information command. And the message simulation module sends the serial port communication instruction to the application software of the testing set top box, and the application software executes a corresponding data processing flow according to the convention.

Referring to fig. 1, the message simulation module includes a configuration information obtaining module, configured to obtain configuration information; the acquired configuration information comprises configuration information uploaded by the testing set top box and local configuration information. Referring to fig. 4, the message simulation module may provide two ways to obtain configuration information: the device can be connected with a test set top box through a serial port line, and can acquire configuration information uploaded by the test set top box through a serial port and local configuration information in a PC. And the other service systems can be conveniently connected.

The message analog simulation module also comprises a local message generation module which is used for modifying the acquired configuration information to form set-top box configuration information according to the requirement, then generating a local installation opening message and sending the installation opening message to the test set-top box for digital signature. The modification of the acquired configuration information supports manual modification. The configuration information updating means that information modification including the brand, model, version number, base station information and the like of the set top box is carried out, and the modified configuration information is sent to the test set top box so as to simulate installation opening messages under different scenes.

The message analog simulation module also comprises a message signature module which is used for acquiring the installation opening message after the digital signature of the test set top box is detected.

In one embodiment, the message signing module may be further configured to obtain a local installation provisioning message. In this embodiment, referring to fig. 5, the message analog simulation module may obtain the installation activation message of the test set top box in two ways: the message simulation module is connected with the set top box through a serial port line, acquires a set top box installation opening message of the card opening of the set top box to be tested through a serial port, further can display the acquired set top box installation opening message on an interface, and can store the set top box installation opening message in a local computer; and the encrypted message file can be locally generated, meanwhile, the historical message can be imported through the local installation opening message, and the obtained local installation opening message is displayed and stored, so that the butt joint of other service systems is facilitated.

The message simulation module also comprises a message sending module which is used for sending the installation and opening message to the front-end system. Specifically, the install provisioning message is sent to a server of the front-end system. The position management mechanism of the front-end system compares the base station information uploaded by the set-top box with a base station library of a registered and input region of the equipment according to rules, so that the message simulation module needs to have the capability of simulating base stations in different regions according to the requirements of a test scene. The testing set top box carries double tasks of position positioning and installation and opening message uploading, wherein the installation and opening message uploading can be based on a GPRS channel of an operator, and because the GPRS channel is low in data rate and large in difference of signal quality in different areas, in order to improve the installation and opening efficiency, the message analog simulation module needs to have the capacity of acquiring the installation and opening message and further can have the capacity of sending the installation and opening message through a WLAN or an Ethernet.

The technical scheme of the invention can realize the automatic uploading of the set top box installation message, update the related information of the set top box and realize the full-service scene simulation.

In one embodiment, the message emulation module further comprises a display module (not shown). Referring to fig. 3, the display module may be configured to display and preview the acquired configuration information, and may provide an interface for modifying the acquired configuration information. And a user interaction interface is provided, and the display of the related information of the set top box can be realized.

Wherein the set-top box configuration information comprises: any of a set-top box serial number, a smart card number, a set-top box encryption serial number, a positioning module identifier, a loader identifier, and base station information. According to actual requirements, the set-top box configuration information may also include other information, such as loader version information, information of each module in the test set-top box, and the like. Therefore, the function of simulating different brands, models, software version numbers and positioning module identification numbers according to the test scene requirements is realized.

In one embodiment, referring to fig. 3, the message simulation module may further include a network configuration module, which is responsible for setting network parameters for installing and opening message transmission, including configuring an IP address and a port, and installing and opening message transmission time, frequency parameters, and other information. And the message sending module sends the installation opening message to the front-end system according to the IP address and the port. Referring to fig. 6, the message simulation module may support sending the installation activation message to the front-end system through the local wireless network or the ethernet network, where the sending mode includes single sending and automatic sending with a specified frequency.

In an embodiment, referring to fig. 3, the message simulation module may further include a configuration information clearing module, configured to clear the local configuration information and send a configuration information restoring command to the set-top box, so that the set-top box returns to the original configuration value. The configuration information clearing module can be used for sending a restoring command to the testing set top box; and the testing set top box clears the received set top box configuration information after receiving the restoring command. The message simulation module can send a reduction command to the testing set-top box through a serial port line connected with the testing set-top box, and the testing set-top box can remove set-top box configuration information sent by the PC end after receiving the reduction command.

Referring to fig. 3, the message simulation module may further include other modules as needed. Such as a history installation and activation message management module and a login module, which are used for locally storing the installation and activation message read from the set-top box each time according to the format.

The following describes the function of the testing set-top box in detail. The existing set-top box application software can read the real brand, model, software version number, loader version, positioning module identification, base station information and the like of the set-top box after the set-top box is started each time, judge the card opening or machine moving state of the set-top box, and package and check various information of the set-top box if the card opening condition is met to generate a set-top box installation opening message.

In order to realize the simulation function of the set-top box, the test set-top box can define a temporary configuration file in the application software thereof, and the message simulation module can update and clear configuration information through a serial port. And when the test set top box is started up every time, the application software reads the configuration information and interacts with the encryption card to generate an installation opening message. And simultaneously, responding to a corresponding business process according to the requirement of the serial port communication instruction. The set-top box application software function implementation flow is shown in fig. 7. Wherein, the virtual frame is used for realizing the extended function of the set-top box application software testing.

In conclusion, the terminal simulation system of the satellite direct broadcast television can automatically read and support manual modification of the configuration information uploaded by the set top box, and achieves the purpose of simulating remote installation of the card opening/moving; the installation opening message after the signature of the set top box can be read and uploaded, the uploading time, the uploading frequency and times, the IP address and the port of the installation opening message are supported to be modified, and the analog simulation of the uploading of the installation opening message is realized; and the local configuration file can be read, the related configuration information of the set top box is analyzed, and further, the installation, opening and message uploading analog simulation is realized. The automatic uploading of the set top box installation starting card is realized, the related information of the set top box is updated, and the full-service scene simulation is realized.

Based on the complex and various current situations of the live broadcast satellite service scene and the actual requirements of the full-service scene test, the method can be practically applied to test work, greatly improves the test efficiency and the automation level, ensures the stability of a front-end system of the live broadcast satellite, and ensures the ordered development of the live broadcast satellite service. Furthermore, the system can be connected with a direct broadcast satellite monitoring system in a butt joint mode, and full-automatic monitoring of an end-to-end business process is achieved. Meanwhile, the method can also provide reference for simulation test and monitoring construction of other systems.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. A terminal simulation system of a satellite direct broadcast television is characterized by comprising:

the test set-top box comprises a message analog simulation module and a test set-top box which is in communication connection with the message analog simulation module;

wherein, the message analog simulation module comprises:

the message simulation module is connected with the testing set top box through a serial port line and is configured to acquire the configuration information uploaded by the testing set top box and the local configuration information through a serial port;

the local message generation module is used for modifying the acquired configuration information as required to form set top box configuration information, then generating a local installation opening message and sending the local installation opening message to the test set top box for digital signature;

the message simulation module is set to import historical messages through the local installation opening messages and display and store the obtained local installation opening messages; and

and the message sending module is used for sending the installation opening message to a front-end system.

2. The terminal simulation system according to claim 1,

the set-top box configuration information includes: any of a set-top box serial number, a smart card number, a set-top box encryption serial number, a positioning module identifier, a loader identifier, and base station information.

3. The terminal simulation system according to claim 1, wherein the message simulation module further comprises:

the network configuration module is used for configuring an IP address and a port;

and the message sending module sends the installation opening message to the front-end system according to the IP address and the port.

4. The terminal simulation system according to claim 1, wherein the message simulation module further comprises:

the configuration information clearing module is used for sending a restoring command to the test set top box;

and the test set top box clears the received set top box configuration information after receiving the restoration command.

5. The terminal simulation system according to claim 3, wherein the network configuration module is further configured to configure the sending time and frequency of the installation activation packet.

6. The terminal simulation system according to claim 1, wherein the message simulation module further comprises:

and the historical message management module is used for locally storing the acquired installation opening message according to the format.

7. The terminal simulation system according to any one of claims 1 to 6, wherein the message simulation module further comprises:

and the display module is used for displaying the acquired configuration information and providing a modification interface for the acquired configuration information.

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