CN108616379B - Method and system for managing automatic configuration server - Google Patents

Abstract

A system for managing an automatic configuration server comprises a first automatic configuration server and a second automatic configuration server. The customer premise equipment establishes connection with the first automatic configuration server according to the pre-stored first connection information request, and acquires second connection information after establishing connection. And the customer premise equipment establishes connection with the second automatic configuration server according to the second connection information request so as to acquire parameter configuration. And when the connection between the user end equipment and the first automatic configuration server is unsuccessful, the user end equipment is used for searching whether the second connection information exists, and when the second connection information exists, sending a connection request to the second automatic configuration server according to the second connection information so as to obtain parameter configuration. The invention also provides a method for managing the automatic configuration server. The system and the method for managing the automatic configuration server have good configuration safety and can also reduce the processing time of the abnormal configuration state in the configuration process.

Description

Method and system for managing automatic configuration server

Technical Field

The present invention relates to the field of communications, and in particular, to a method and system for managing an automatic configuration server.

Background

Many Customer Premise Equipment (CPE), such as set-top boxes and smart home hosts, require connections after broadband end products (e.g., digital subscriber lines, cable modems) to connect to the broadband network. Therefore, data transmission or operation and maintenance Management can be performed with a remote control center or an operator machine room, and a user terminal wide area network Management Protocol (CPE WAN Management Protocol, CWMP) for operation and maintenance Management is widely used. In the CWMP protocol, an administrator and an administrator are remote Automatic Configuration Servers (ACS) and CPEs of terminals, respectively.

Usually, when the CPE is first enabled, the CPE needs to be normally used after information configuration is performed by a remote ACS, and a secure configuration environment is required during the information configuration. However, setting up the CPE and ACS online is generally performed by inputting the CPE to be set by an engineer in a unified manner or by uniquely setting each CPE individually when the CPE is installed. This takes a lot of labor and time and also lacks the ability to automatically handle unsuccessful connections with the ACS when the CPE is installed.

Disclosure of Invention

Therefore, there is a need for a method and system for managing an automatic configuration server, which not only can improve the security of the ue configuration, but also can reduce the time for processing the abnormal configuration state.

An embodiment of the present invention provides a method for managing an automatic configuration server, including the steps of: sending a connection request to a first automatic configuration server according to prestored first connection information; judging whether the connection with the first automatic configuration server is successful; if the connection with the first automatic configuration server is successful, second connection information required for connecting a second automatic configuration server is obtained from the first automatic configuration server, and the connection request is sent to the second automatic configuration server according to the second connection information so as to obtain parameter configuration information; if the connection with the first automatic configuration server is unsuccessful and the number of attempted connections exceeds an upper limit value, searching whether the second connection information exists; and if the second connection information exists, sending the connection request to the second automatic configuration server according to the second connection information so as to acquire the parameter configuration information.

An embodiment of the present invention further provides a system for managing an automatic configuration server, which is used for performing parameter configuration on the user end device. The customer premise equipment is used for sending a connection request to the first automatic configuration server according to the pre-stored first connection information. When the user end device is successfully connected with the first automatic configuration server, the user end device is further configured to obtain second connection information required for connecting a second automatic configuration server from the first automatic configuration server, and send the connection request to the second automatic configuration server according to the second connection information, so as to perform parameter configuration. And when the connection between the user end equipment and the first automatic configuration server is unsuccessful and the number of attempted connections exceeds an upper limit value, the user end equipment is further used for searching whether the second connection information exists. When the customer premise equipment finds the second connection information, the customer premise equipment is further configured to send the connection request to the second automatic configuration server according to the second connection information so as to perform parameter configuration.

Compared with the prior art, the system and the method for managing the automatic configuration server can select other related configuration flows to try configuration when an error occurs in the configuration process, not only has good configuration safety, but also can reduce the processing time of an abnormal configuration state.

Drawings

FIG. 1 is a diagram of an application environment of a system for managing an autonomic configuration server, according to an embodiment of the present invention.

Fig. 2 is a functional block diagram of a system for managing an autonomic configuration server according to an embodiment of the present invention.

FIG. 3 is a flow chart of the steps of a method of managing an autonomic configuration server, in accordance with an embodiment of the present invention.

FIG. 4 is a flow chart of steps of a method of managing an autonomic configuration server in accordance with another embodiment of the present invention.

FIG. 5 is a flow chart of steps of a method of managing an autonomic configuration server in accordance with another embodiment of the present invention.

Description of the main elements

The following detailed description will further illustrate the invention in conjunction with the above-described figures.

Detailed Description

Referring to fig. 1-2, a system 100 for managing an automatic configuration server is used for configuring parameters of a client device 1. The system 100 comprises a first autoconfiguration server 2, a second autoconfiguration server 3 and a third autoconfiguration server 4. The customer premises device 1 may be connected to a first auto configuration server 2, a second auto configuration server 3 and a third auto configuration server 4 via the internet.

The customer premises equipment 1 is configured to send a connection request to the first automatic configuration server 2 according to the pre-stored first connection information, so as to request to establish a communication connection with the first automatic configuration server 2. The first connection information may be connection information pre-stored in the ue 1 when the ue leaves a factory, and the first connection information includes information required for the ue 1 to successfully connect to the first auto-configuration server 2, for example, the first connection information includes a url (uniform Resource locator) address, a login user name, a login password, or a login credential of the first auto-configuration server 2, and of course, the first connection information may also include other login information that can successfully connect to the first auto-configuration server 2.

When the customer premise equipment 1 is successfully connected to the first automatic configuration server 2, the customer premise equipment 1 is further configured to acquire second connection information required for connecting to the second automatic configuration server 3 from the first automatic configuration server 2 and store the acquired second connection information. The second connection information contains information required for the client device 1 to successfully connect to the second autoconfiguration server 3.

The second connection information may be login information that is stored in advance by the first auto-configuration server 2 to connect to the second auto-configuration server 3. The second connection information may also be login information that is set by the first automatic configuration server 2 in a user-defined manner after the user-side device 1 is used for the first time and the user-side device 1 is successfully connected to the first automatic configuration server 2.

The second connection information may include a URL address, a login username, a login password, or login credentials of the second auto-configuration server 3. Of course, the second connection information may also comprise other login information that enables a successful connection to the second auto-configuration server 3.

The customer premises equipment 1 is further configured to send a connection request to the second automatic configuration server 3 according to the obtained second connection information, so as to request to establish a communication connection with the second automatic configuration server 3. When the customer premises equipment 1 and the second automatic configuration server 3 are successfully connected, the customer premises equipment 1 is further configured to obtain third connection information required for connecting the third automatic configuration server 4 from the second automatic configuration server 3 and store the obtained third connection information. The third connection information contains information required for the client device 1 to successfully connect to the third autoconfiguration server 4. The customer premises equipment 1 is further configured to send a connection request to the third automatic configuration server 4 according to the obtained third connection information.

In an embodiment, the third connection information may be login information pre-stored in the second automatic configuration server 3, or the third connection information may be login information that controls the second automatic configuration server 3 to perform user-defined setting after the user end device 1 is used for the first time and the user end device 1 and the second automatic configuration server 3 are successfully connected.

The third connection information may include a URL address, a login username, a login password, or login credentials of the third auto-configuration server 4. Of course, the third connection information may also comprise other login information that may successfully connect to the third auto-configuration server 4.

When the customer premise equipment 1 is successfully connected to the third automatic configuration server 4, the third automatic configuration server 4 performs network parameter configuration on the customer premise equipment 1, so that the customer premise equipment 1 can normally operate and can receive management of the third automatic configuration server 4.

In an embodiment, the customer premise equipment 1 is configured to store the first connection information, the second connection information, and the third connection information in different storage locations, so that the stored first connection information, second connection information, and third connection information do not overlap with each other, and a repeated trial configuration process can be implemented.

It should be noted that, for a plurality of customer premise equipment 1, the first connection information pre-stored in each customer premise equipment 1 may be the same. The second connection information obtained by each client device 1 from the first autoconfiguration server 2 or the third connection information obtained by each client device 1 from the second autoconfiguration server 3 is preferably unique, so that the configuration security of each client device 1 can be improved.

In an embodiment, three states may be defined for the customer premises device 1 to represent the operation state of the customer premises device 1, where the three states are a first state, a second state and a third state. When the ue 1 does not successfully establish a communication connection with any of the first, second and third autoconfiguration servers 2, 3, 4, the ue 1 is marked as a first state. When the ue 1 and the first autoconfiguration server 2 successfully establish a communication connection, the ue 1 is marked to be in the second state. When the ue 1 and the second autoconfiguration server 3 successfully establish a communication connection, the ue 1 is marked to be in the third state.

It should be noted that, when the user end device 1 is not used for the first time, the user end device 1 is further configured to determine the state when the user end device 1 was powered on last time, and if the state when the user end device 1 was powered off last time is the first state or the second state, the user end device 1 enters the first state after being powered on, that is, the user end device 1 is configured to send a connection request to the first automatic configuration server 2 according to the pre-stored first connection information to request to establish a communication connection with the first automatic configuration server 2. If the state of the user end device 1 when last shutdown is the third state, the user end device 1 directly enters the third state after startup, that is, the user end device 1 directly sends a connection request to the third automatic configuration server 4 according to the third connection information stored when last shutdown.

In one embodiment, when the connection between the client device 1 and the first automatic configuration server 2 is unsuccessful, the client device 1 and the first automatic configuration server 2 repeatedly try to connect. When the number of times of connection attempts of the customer premise equipment 1 and the first automatic configuration server 2 exceeds the upper limit value and the customer premise equipment 1 still cannot be successfully connected with the first automatic configuration server 2, the customer premise equipment 1 is further configured to search whether second connection information is stored in the customer premise equipment 1. If the customer premise equipment 1 stores the second connection information, the customer premise equipment 1 changes the current operation state from the first state to the second state, and sends a connection request to the second automatic configuration server 3 according to the stored second connection information, so as to skip the process of trying to connect with the first automatic configuration server 2 and try to directly connect with the second automatic configuration server 3, so as to obtain the configuration information.

If the connection between the user end device 1 and the second automatic configuration server 3 is still unsuccessful and the number of attempted connections exceeds the upper limit value or the user end device 1 does not find the second connection information according to the stored second connection information, the user end device 1 is further configured to find whether third connection information is stored in itself. If the customer premise equipment 1 stores the third connection information, the customer premise equipment 1 changes the current operation state from the second state to the third state, and sends a connection request to the third automatic configuration server 4 according to the stored third connection information, so as to skip the process of trying to connect with the first automatic configuration server 2 and the second automatic configuration server 3 and try to directly connect with the third automatic configuration server 4, so as to obtain the configuration information.

In an embodiment, when the connection between the ue 1 and the second automatic configuration server 3 is unsuccessful and the number of connection attempts exceeds the upper limit, the ue 1 is further configured to search the pre-stored first connection information, and send a connection request to the first automatic configuration server 2 according to the pre-stored first connection information again.

In an embodiment, when the connection between the ue 1 and the third automatic configuration server 4 is unsuccessful and the number of connection attempts exceeds the upper limit, the ue 1 is further configured to search the pre-stored first connection information, and send a connection request to the first automatic configuration server 2 according to the pre-stored first connection information again.

In one embodiment, the upper limit of the number of attempted connections may be set according to actual requirements, for example, the upper limit may be set to 3 times, 5 times, and so on.

FIG. 3 is a flow chart of steps of a method of managing an autonomic configuration server in accordance with an embodiment of the present invention.

In step S300, the user end device 1 sends a connection request to the first automatic configuration server 2 according to the pre-stored first connection information.

In step S302, the ue 1 determines whether the connection with the first autoconfiguration server 2 is successful. If not successful, go to step S308.

In step S304, if the ue 1 is successfully connected to the first automatic configuration server 2, the ue 1 obtains second connection information required for connecting to the second automatic configuration server 3 from the first automatic configuration server 2.

Step S306, the user end device 1 sends the connection request to the second automatic configuration server 3 according to the second connection information, so as to obtain the parameter configuration information.

Step S308, if the connection between the ue 1 and the first automatic configuration server 2 is unsuccessful, determine whether the number of connection attempts exceeds the upper limit. If the upper limit value is not exceeded, the process goes to step S300.

In step S310, if the number of connection attempts exceeds the upper limit, the ue 1 searches whether the second connection information exists.

Step S312, if the second connection information exists, the user end device 1 sends a connection request to the second automatic configuration server according to the second connection information, so as to obtain the parameter configuration information.

Referring to fig. 4, in an embodiment, step S306 further includes step S3060, step S3062, step S3064, step S3066, step S3068 and step S30610. Step S3060, the customer premises equipment 1 sends a connection request to the second provisioning server 3 according to the second connection information. Step S3062, the ue 1 determines whether the connection with the second autoconfiguration server 3 is successful. Step S3064, if the ue 1 and the second automatic configuration server 3 are successfully connected, the ue 1 obtains third connection information required for connecting the third automatic configuration server 4 from the second automatic configuration server 3. Step S3066, the customer premises device 1 sends a connection request to the third provisioning server 4 according to the third connection information. Step S3068, the ue 1 determines whether the connection with the third autoconfiguration server 4 is successful. Step S30610, if the connection between the ue 1 and the third automatic configuration server 4 is successful, receive the parameter configuration information sent by the third automatic configuration server 4.

In an embodiment, after the method performs step S302, the ue 1 is further configured to determine that the connection between the ue 1 and the first automatic configuration server 2 is unsuccessful, and find whether the second connection information is stored in the ue 1. If the ue 1 stores the second connection information, the process proceeds to step S3060. If the connection between the user end device 1 and the second automatic configuration server 3 is still unsuccessful or the second connection information is not found according to the stored second connection information, the user end device 1 is further configured to find whether third connection information is stored in itself. If the user end device 1 stores the third connection information, the process proceeds to step S3066.

In an embodiment, after the method performs step S3062, when it is determined that the connection between the ue device 1 and the second automatic configuration server 3 is unsuccessful, the method jumps to step S300 again for execution.

In an embodiment, after the method performs step S3068, when it is determined that the connection between the ue 1 and the third automatic configuration server 4 is unsuccessful, the method jumps to step S300 again for execution.

Referring to fig. 5, when the client device 1 is not used for the first time. In step S400, the user end device 1 is turned on. In step S402, the ue 1 determines whether to establish a communication connection with the second automatic configuration server 3 when the ue is powered off last time. If the ue 1 does not establish a communication connection with the second automatic configuration server 3 during the last shutdown, the process proceeds to step S300 after the ue 1 is powered on, and the execution flow after the process proceeds to step S300 is as described in fig. 3, which is not described in detail herein. If the ue 1 establishes a communication connection with the second automatic configuration server 3 when the ue is powered off last time and the ue 1 stores the third connection information, the ue 1 directly enters step S3066 after being powered on, and the execution flow after entering step S3066 is as described in fig. 4, which is not described in detail herein.

The system and the method for managing the automatic configuration server can select other related configuration flows to try configuration when an error occurs in the configuration process, not only have good configuration safety, but also reduce the processing time of an abnormal configuration state.

It will be apparent to those skilled in the art that other variations and modifications may be made in accordance with the invention and its spirit and scope in accordance with the practice of the invention disclosed herein.

Claims (10)

1. A method of managing an auto-configuration server, comprising the steps of:

sending a connection request to a first automatic configuration server according to prestored first connection information;

judging whether the connection with the first automatic configuration server is successful;

if the connection with the first automatic configuration server is successful, second connection information required for connecting a second automatic configuration server is obtained from the first automatic configuration server;

sending the connection request to the second automatic configuration server according to the second connection information to acquire parameter configuration information;

if the connection with the first automatic configuration server is unsuccessful and the number of attempted connections exceeds an upper limit value, searching whether the second connection information exists;

if the second connection information exists, sending the connection request to the second automatic configuration server according to the second connection information so as to acquire the parameter configuration information;

wherein the acquiring the parameter configuration information further comprises:

sending the connection request to the second automatic configuration server according to the second connection information;

judging whether the connection with the second automatic configuration server is successful;

if the connection with the second automatic configuration server is successful, third connection information required for connecting a third automatic configuration server is obtained from the second automatic configuration server;

sending the connection request to the third automatic configuration server according to the third connection information;

judging whether the connection with the third automatic configuration server is successful; and

if the connection with the third automatic configuration server is successful, receiving the parameter configuration information sent by the third automatic configuration server;

if the second connection information does not exist, or the second connection information exists but the connection with the second automatic configuration server is unsuccessful, and the number of times of trying to connect exceeds the upper limit value, searching whether the third connection information exists; and

and if the third connection information exists, sending the connection request to the third automatic configuration server according to the third connection information so as to acquire the parameter configuration information.

2. The method of claim 1, wherein the method further comprises:

if the connection with the second automatic configuration server is unsuccessful and the number of attempted connections exceeds the upper limit value, searching the pre-stored first connection information; and

and sending the connection request to the first automatic configuration server according to the first connection information.

3. The method of claim 1, wherein the method further comprises:

if the connection with the third automatic configuration server is unsuccessful and the number of attempted connections exceeds the upper limit value, searching the pre-stored first connection information; and

and sending the connection request to the first automatic configuration server according to the first connection information.

4. The method of claim 1, wherein the method further comprises:

judging whether to establish communication connection with the second automatic configuration server when the computer is powered off last time;

if the communication connection with the second automatic configuration server is established during the last shutdown, sending the connection request to the third automatic configuration server according to the third connection information;

and if the communication connection with the second automatic configuration server is not established during the last shutdown, sending the connection request to the first automatic configuration server according to the pre-stored first connection information.

5. The method of claim 1, wherein the first connection information, the second connection information, and the third connection information are stored in different storage locations, respectively.

6. A system for managing an automatic configuration server is used for carrying out parameter configuration on user side equipment and is characterized by comprising a first automatic configuration server, a second automatic configuration server and a third automatic configuration server;

the user end equipment is used for sending a connection request to the first automatic configuration server according to prestored first connection information;

when the customer premise equipment is successfully connected with the first automatic configuration server, the customer premise equipment is further used for acquiring second connection information required by connection of the second automatic configuration server from the first automatic configuration server and sending the connection request to the second automatic configuration server according to the second connection information so as to perform parameter configuration;

when the connection between the customer premise equipment and the first automatic configuration server is unsuccessful and the number of attempted connections exceeds an upper limit value, the customer premise equipment is further used for searching whether the second connection information exists;

when the customer premise equipment finds the second connection information, the customer premise equipment is further used for sending the connection request to the second automatic configuration server according to the second connection information so as to perform parameter configuration;

wherein the parameter configuration further comprises:

when the customer premise equipment is successfully connected with the second automatic configuration server, the customer premise equipment is further used for acquiring third connection information required for connecting the third automatic configuration server from the second automatic configuration server;

the customer premise equipment is further configured to send the connection request to the third automatic configuration server according to the third connection information; and

when the customer premise equipment is successfully connected with the third automatic configuration server, the third automatic configuration server performs parameter configuration on the customer premise equipment;

when the customer premise equipment does not find the second connection information or when the second connection information exists, but the customer premise equipment is unsuccessfully connected with the second automatic configuration server and the number of connection attempts exceeds the upper limit value, the customer premise equipment is further used for finding whether the third connection information exists; and

when the customer premise equipment finds the third connection information, the customer premise equipment is further configured to send the connection request to the third automatic configuration server according to the third connection information.

7. The system of claim 6, wherein when the connection between the customer premise equipment and the second autoconfiguration server is unsuccessful and the number of attempted connections exceeds the upper limit, the customer premise equipment is further configured to search the pre-stored first connection information; and

and the customer premise equipment is also used for sending the connection request to the first automatic configuration server again according to the first connection information.

8. The system of claim 6, wherein when the connection between the customer premise equipment and the third autoconfiguration server is unsuccessful and the number of attempted connections exceeds the upper limit, the customer premise equipment is further configured to search the pre-stored first connection information; and

and the customer premise equipment is also used for sending the connection request to the first automatic configuration server again according to the first connection information.

9. The system of claim 6, wherein the client device is further configured to determine whether to establish a communication connection with the second auto-configuration server when the client device is powered off last time after the client device is powered on;

when the customer premise equipment has established communication connection with the second automatic configuration server when the customer premise equipment is powered off last time, the customer premise equipment sends the connection request to the third automatic configuration server according to the third connection information;

and when the customer premise equipment does not establish communication connection with the second automatic configuration server when the customer premise equipment is powered off last time, the customer premise equipment sends the connection request to the first automatic configuration server according to the prestored first connection information.

10. The system of claim 6, wherein when the user end device obtains the second connection information and the third connection information, the user end device is further configured to store the first connection information, the second connection information, and the third connection information in different storage locations, respectively.

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