CN112565249A - Domain name detection method and device - Google Patents

Abstract

The present disclosure provides a domain name detection method and device, the method comprising: determining a detection area of a domain name to be detected, wherein the detection area at least comprises two areas; carrying out intercommunication detection on any two areas of the domain name to be detected in the detection area; and responding to the passing of intercommunication detection of the domain name to be detected in at least two areas of the detection areas, and determining that the domain name to be detected is a benign domain name. Before a user registers or uses a domain name to be detected, whether the domain name to be detected has the problem that different areas can not be intercommunicated and accessed can be quickly detected, and therefore poor experience and unnecessary loss brought to the user in the future service development process are avoided.

Description

Domain name detection method and device

Technical Field

The disclosure belongs to the technical field of computers, and particularly relates to a domain name detection method and device.

Background

At present, internet services all need to be accessed through domain names, and whether the domain names have defects or not is a primary and important link for service development. If a domain name newly registered by a user is used before and some adverse effects are generated, the domain name can enter various firewall blacklists, and further, problems that the user cannot access or can not intercommunicate in different areas and the like are generated when internet services are developed in the future.

If the domain name is not detected, when a user finds that the domain name has a problem of network intercommunication access in the process of carrying out a service based on a certain domain name, the user needs to readjust and deploy the system after modifying the domain name, and therefore poor user experience is caused, and even part of customers are lost.

Disclosure of Invention

In order to overcome the above disadvantages in the prior art, the present disclosure provides a domain name detection method and apparatus.

As a first aspect of the present disclosure, there is provided a domain name detection method including:

determining a detection area of a domain name to be detected, wherein the detection area at least comprises two areas;

carrying out intercommunication detection on any two areas of the domain name to be detected in the detection area;

and responding to the passing of intercommunication detection of the domain name to be detected in at least two areas of the detection areas, and determining that the domain name to be detected is a benign domain name.

Preferably, the performing intercommunication detection on any two regions of the domain name to be detected in the detection region includes:

binding the domain name to be detected with an Internet Protocol (IP) address of a first server in a first area;

indicating a first detection node of a first area to perform first intercommunication detection with the first server, and indicating a second detection node of a second area to perform first intercommunication detection with the first server;

responding to the first intercommunication detection of the domain name to be detected in the first area and the second area to pass, and binding the domain name to be detected with the IP address of a second server in the second area;

instructing the first detection node to perform a second intercommunication detection with the second server, and instructing the second detection node to perform a second intercommunication detection with the second server;

and responding to the passing of the second intercommunication detection of the domain name to be detected in the first area and the second area, and determining that the intercommunication detection of the domain name to be detected in the first area and the second area passes.

Preferably, the binding the domain name to be tested with the IP address of the first server in the first area includes:

in response to receiving a first detection request sent by the first detection node and receiving a first detection request sent by the second detection node, binding the domain name to be detected with the IP address of the first server;

the instructing a first detection node of a first area to perform a first intercommunication detection with the first server, and instructing a second detection node of a second area to perform a first intercommunication detection with the first server, includes:

and sending the domain name to be detected to the first detection node and the second detection node respectively so that the first detection node and the second detection node access the first server respectively.

Preferably, the binding the domain name to be tested with the IP address of the second server in the second area includes:

in response to receiving a second detection request sent by the first detection node and receiving a second detection request sent by the second detection node, binding the domain name to be detected with the IP address of the second server;

the instructing the first detection node to perform a second intercommunication detection with the second server, and instructing the second detection node to perform a second intercommunication detection with the second server, includes:

and respectively sending detection indication messages to the first detection node and the second detection node so that the first detection node and the second detection node respectively access the second server.

Preferably, the method further comprises:

and determining that the intercommunication detection of the domain name to be detected in the first area and the second area does not pass in response to the situation that the first intercommunication detection of the domain name to be detected in the first area does not pass, or the first intercommunication detection of the domain name to be detected in the second area does not pass, or the second intercommunication detection of the domain name to be detected in the first area does not pass, or the second intercommunication detection of the domain name to be detected in the second area does not pass.

As a second aspect of the present disclosure, there is provided a domain name detecting apparatus including:

the device comprises a first determining module, a second determining module and a judging module, wherein the first determining module is used for determining a detection area of a domain name to be detected, and the detection area at least comprises two areas;

the detection module is used for carrying out intercommunication detection on any two areas of the domain name to be detected in the detection area;

and the second determining module is used for responding to the passing of intercommunication detection of the domain name to be detected in at least two areas of the detection areas and determining that the domain name to be detected is a benign domain name.

Preferably, the detection module includes:

the first binding submodule is used for binding the domain name to be detected with the IP address of the Internet protocol address of the first server in the first area;

the first indication submodule is used for indicating a first detection node of a first area to perform first intercommunication detection with the first server and indicating a second detection node of a second area to perform first intercommunication detection with the first server;

the second binding submodule is used for binding the domain name to be detected with the IP address of a second server in a second area in response to the first intercommunication detection of the domain name to be detected in the first area and the second area passing;

a second indicating submodule, configured to instruct the first detecting node to perform second intercommunication detection with the second server, and instruct the second detecting node to perform second intercommunication detection with the second server;

and the first determining submodule is used for responding to the passing of the second intercommunication detection of the domain name to be detected in the first area and the second area, and determining that the intercommunication detection of the domain name to be detected in the first area and the second area passes.

Preferably, the first binding submodule is specifically configured to:

in response to receiving a first detection request sent by the first detection node and receiving a first detection request sent by the second detection node, binding the domain name to be detected with the IP address of the first server;

the first indication submodule is specifically configured to:

and sending the domain name to be detected to the first detection node and the second detection node respectively so that the first detection node and the second detection node access the first server respectively.

Preferably, the second binding submodule is specifically configured to:

in response to receiving a second detection request sent by the first detection node and receiving a second detection request sent by the second detection node, binding the domain name to be detected with the IP address of the second server;

the second indication submodule is specifically configured to:

and respectively sending detection indication messages to the first detection node and the second detection node so that the first detection node and the second detection node respectively access the second server.

Preferably, the method further comprises the following steps:

and the second determining submodule is used for determining that the intercommunication detection of the domain name to be detected in the first area and the second area does not pass in response to the situation that the first intercommunication detection of the domain name to be detected in the first area does not pass, or the first intercommunication detection of the domain name to be detected in the second area does not pass, or the second intercommunication detection of the domain name to be detected in the first area does not pass, or the second intercommunication detection of the domain name to be detected in the second area does not pass.

In the embodiment of the disclosure, a detection area of a domain name to be detected is determined, the detection area at least comprises two areas, any two areas of the domain name to be detected in the detection area are subjected to intercommunication detection, if the intercommunication detection of the at least two areas of the domain name to be detected in the detection area is passed, the domain name to be detected is determined to be a benign domain name, and a user is advised to use the domain name to be detected. Before a user registers or uses a domain name to be detected, whether the domain name to be detected has the problem that different areas can not be intercommunicated and accessed can be quickly detected, and therefore poor experience and unnecessary loss brought to the user in the future service development process are avoided.

Drawings

Fig. 1 is a flowchart of a domain name detection method provided in an embodiment of the present disclosure;

FIG. 2 is an alternative implementation of step 102 of FIG. 1 provided by an embodiment of the present disclosure;

fig. 3 is a functional diagram of two area interworking detection provided by the embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of a domain name detection apparatus according to an embodiment of the present disclosure.

Detailed Description

For a better understanding of the technical aspects of the present disclosure, reference is made to the following detailed description taken in conjunction with the accompanying drawings.

A firewall mainly refers to a set of software and hardware systems for filtering contents on an internet access. Because the technology and the filtering content (including the domain name to be detected in the disclosure) adopted by the firewall are not disclosed to the outside, the firewall can only detect whether the target domain name is in the blacklist of the firewall by a technical means, and no other acquisition way is available.

In order to solve the problem that if the user does not detect before registering or using the domain name, when the user finds that the domain name has network intercommunication access in the service development process based on a certain domain name, the user needs to readjust and deploy the system after modifying the domain name, and therefore poor user experience is caused, and even part of customers are lost. The disclosure provides a domain name detection method and device. The following detailed description is made with reference to the accompanying drawings which respectively illustrate embodiments provided by the present disclosure.

Fig. 1 shows a flowchart of a domain name detection method provided in an embodiment of the present disclosure.

In a first aspect, the domain name detection method is applicable to a domain name detection apparatus. As shown in fig. 1, the present embodiment provides a domain name detection method, including:

step 101, determining a detection area of a domain name to be detected.

Wherein the detection area comprises at least two areas. In a preferred embodiment, the region is a country. In the embodiment of the disclosure, whether the domain name to be tested can be accessed in an intercommunication way or not among different areas can be detected. The detection area can be preset by a user or can be set by a domain name detection device.

In this step, before the user registers or uses the domain name to be detected, the detection region of the domain name to be detected is determined.

And 102, carrying out intercommunication detection on any two areas of the domain name to be detected in the detection area.

In this step, intercommunication detection is performed on any two areas of the domain name to be detected in the detection area, that is, whether the domain name to be detected can be intercommunicated and accessed in any two areas of the detection area is detected.

Step 103, responding to the passing of intercommunication detection of the domain name to be detected in at least two areas of the detection area, and determining that the domain name to be detected is a benign domain name.

In this step, if it is detected that at least two regions in the detection region can intercommunicate and access the domain name to be detected, it is determined that the domain name to be detected is a benign domain name, that is, it is determined that the domain name to be detected is not in the blacklist of the firewall, and the user is advised to use the domain name to be detected.

If one or no region in the detection region is detected to have access to the domain name to be detected, determining that the domain name to be detected is a bad domain name, determining that the domain name to be detected is in a blacklist of the firewall, and not suggesting that the user uses the domain name to be detected.

In a preferred embodiment, which regions in the detection area can intercommunicate and access the domain name to be detected, and which regions cannot access the detection result of the domain name to be detected can be fed back to the user, and the specific implementation manner is not limited herein. For example, the detection result is displayed through an interface of the terminal application.

In the embodiment of the disclosure, before the user registers or uses the domain name to be detected, whether the domain name to be detected has the problem that the different areas cannot be intercommunicated and accessed can be quickly detected, so that bad experience and unnecessary loss brought to the user in the future service development process are avoided.

In some embodiments, the performing intercommunication detection on the domain name to be detected in any two detection areas (i.e. step 102) includes:

step 201, binding the domain name to be tested with the IP address of the first server in the first area.

Step 202, instructing the first detection node of the first area to perform a first intercommunication detection with the first server, and instructing the second detection node of the second area to perform a first intercommunication detection with the first server.

Step 203, in response to that the first intercommunication detections of the domain name to be detected in the first area and the second area both pass, binding the domain name to be detected with the IP address of the second server in the second area.

Step 204, instructing the first detection node to perform a second intercommunication detection with the second server, and instructing the second detection node to perform a second intercommunication detection with the second server.

Step 205, in response to that the second intercommunication detections of the domain name to be detected in the first area and the second area both pass, determining that the intercommunication detections of the domain name to be detected in the first area and the second area pass.

In steps 201-205, taking the region as a country as an example, the first region is a first country, and the second region is a second country. The domain name to be detected is bound with the IP address of the first server of the first country, and then first intercommunication detection is carried out. And binding the domain name to be detected with the IP address of a second server of the second country when the first intercommunication detection of the domain name to be detected in the first country and the second country passes, and then carrying out second intercommunication detection. And if the second intercommunication detections of the domain name to be detected in the first country and the second country are both passed and the first intercommunication detections of the domain name to be detected in the first country and the second country are both passed, determining that the intercommunication detections of the domain name to be detected in the first country and the second country are passed. As shown in fig. 3, the functional diagram of two regional intercommunication detections is to implement that any two countries can intercommunicate and access the domain name to be detected, and four times of intercommunication detections need to be performed, and when all four times of intercommunication detections pass, it indicates that the domain name to be detected is not in the blacklist of the firewall between the first country and the second country.

And if the detection area comprises a plurality of countries, arranging and combining the countries to obtain a combination number C (n,2), wherein n is the number of the countries in the detection area. The number of times of intercommunication detection to be performed for the detection region is C (n,2) × 4, and finally a mesh detection structure is formed. For example, if there are 3 countries in the detection area, the number of combinations is C (3,2) ═ 3, and the number of times of interworking detection in 3 countries is 3 × 4 ═ 12.

In the embodiment of the disclosure, whether a plurality of areas can communicate with each other to access a domain name can be detected, and compared with the method that a common user manually completes domain name interoperability detection, the method and the device provide greater convenience and detection efficiency and improve user experience.

In some embodiments, the binding the domain name to be tested with the IP address of the first server in the first area (step 201) includes:

and binding the domain name to be detected with the IP address of the first server in response to receiving the first detection request sent by the first detection node and receiving the first detection request sent by the second detection node.

In this step, the detection requests are all initiated by the detection node. When the domain name detection device receives a first detection request sent by a first detection node in a first area and a first detection request sent by a second detection node in a second area, and triggers first intercommunication detection, the domain name to be detected is bound with the IP address of the first server.

The instructing the first detecting node of the first area to perform the first interworking detection with the first server, and instructing the second detecting node of the second area to perform the first interworking detection with the first server (i.e., step 202), includes: and respectively sending the domain names to be detected to the first detection node and the second detection node so that the first detection node and the second detection node respectively access the first server.

In this step, after the domain name to be detected is bound to the IP address of the first server, the domain name to be detected is sent to the first detection node and the second detection node, respectively. The first detection node and the second detection node respectively analyze the domain name to be detected to obtain the IP address of the first server bound with the domain name to be detected, and respectively send access requests to the first server. And after the first detection node and the second detection node successfully access the first server, respectively returning a first intercommunication detection passing message to the domain name detection device. And if the first detection node or the second detection node does not successfully access the first server, returning a first intercommunication detection failure message to the domain name detection device.

In some embodiments, the binding the domain name to be tested with the IP address of the second server in the second area in step 203 includes: and binding the domain name to be detected with the IP address of the second server in response to receiving the second detection request sent by the first detection node and receiving the second detection request sent by the second detection node.

In this step, when the first intercommunication detections of the domain name to be detected in the first area and the second area both pass, and the domain name detection device receives the second detection request sent by the first detection node in the first area and the second detection request sent by the second detection node in the second area, the second intercommunication detection is triggered, and then the domain name to be detected is bound with the IP address of the second server.

The instructing the first detecting node to perform the second intercommunication detection with the second server and instructing the second detecting node to perform the second intercommunication detection with the second server (i.e. step 204) includes: and respectively sending detection indication messages to the first detection node and the second detection node so that the first detection node and the second detection node respectively access the second server.

In this step, after the domain name to be detected is bound to the IP address of the second server, a detection instruction message is sent to the first detection node and the second detection node, respectively. The first detection node and the second detection node respectively analyze the pre-stored domain name to be detected, obtain a new IP address bound by the pre-stored domain name to be detected, namely the IP address of the second server, and respectively send access requests to the second server. And after the first detection node and the second detection node successfully access the second server, respectively returning a second intercommunication detection passing message to the domain name detection device. And if the first detection node or the second detection node does not successfully access the second server, returning a second intercommunication detection failure message to the domain name detection device.

In some embodiments, the method further comprises:

and determining that the intercommunication detection of the domain name to be detected in the first area and the second area does not pass in response to the condition that the first intercommunication detection of the domain name to be detected in the first area does not pass, or the first intercommunication detection of the domain name to be detected in the second area does not pass, or the second intercommunication detection of the domain name to be detected in the first area does not pass, or the second intercommunication detection of the domain name to be detected in the second area does not pass.

In this step, if any one of the four times of intercommunication detections performed by the domain name to be detected in the first area and the second area fails, it is determined that the intercommunication detections of the domain name to be detected in the first area and the second area fail.

Fig. 4 shows a schematic structural diagram of a domain name detection device provided in the embodiment of the present disclosure.

In a second aspect, as shown in fig. 4, based on the same technical concept as the embodiment corresponding to fig. 1, an embodiment of the present disclosure further provides a domain name detection apparatus, including:

the first determining module 11 is configured to determine a detection area of the domain name to be detected, where the detection area includes at least two areas.

And the detection module 12 is configured to perform intercommunication detection on any two regions of the domain name to be detected in the detection region.

A second determining module 13, configured to determine that the domain name to be detected is a benign domain name in response to that at least two areas of the domain name to be detected intercommunicate and detect in the detection area.

In some embodiments, the detection module 12 includes:

and the first binding submodule is used for binding the domain name to be detected with the IP address of the Internet protocol address of the first server in the first area.

And the first indicating submodule is used for indicating a first detection node of a first area to perform first intercommunication detection with the first server and indicating a second detection node of a second area to perform first intercommunication detection with the first server.

And the second binding submodule is used for binding the domain name to be detected with the IP address of a second server in the second area in response to the first intercommunication detection of the domain name to be detected in the first area and the second area passing.

And the second indicating submodule is used for indicating the first detecting node to carry out second intercommunication detection with the second server and indicating the second detecting node to carry out second intercommunication detection with the second server.

And the first determining submodule is used for responding to the passing of the second intercommunication detection of the domain name to be detected in the first area and the second area, and determining that the intercommunication detection of the domain name to be detected in the first area and the second area passes.

In some embodiments, the first binding submodule is specifically configured to:

and binding the domain name to be detected with the IP address of the first server in response to receiving the first detection request sent by the first detection node and receiving the first detection request sent by the second detection node.

The first indication submodule is specifically configured to:

and sending the domain name to be detected to the first detection node and the second detection node respectively so that the first detection node and the second detection node access the first server respectively.

In some embodiments, the second binding submodule is specifically configured to:

and binding the domain name to be detected with the IP address of the second server in response to receiving a second detection request sent by the first detection node and receiving a second detection request sent by the second detection node.

The second indication submodule is specifically configured to:

and respectively sending detection indication messages to the first detection node and the second detection node so that the first detection node and the second detection node respectively access the second server.

In some embodiments, further comprising:

and the second determining submodule is used for determining that the intercommunication detection of the domain name to be detected in the first area and the second area does not pass in response to the situation that the first intercommunication detection of the domain name to be detected in the first area does not pass, or the first intercommunication detection of the domain name to be detected in the second area does not pass, or the second intercommunication detection of the domain name to be detected in the first area does not pass, or the second intercommunication detection of the domain name to be detected in the second area does not pass.

It is to be understood that the above embodiments are merely exemplary embodiments that are employed to illustrate the principles of the present disclosure, and that the present disclosure is not limited thereto. It will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the disclosure, and these are to be considered as the scope of the disclosure.

Claims (10)

1. A domain name detection method is characterized by comprising the following steps:

determining a detection area of a domain name to be detected, wherein the detection area at least comprises two areas;

carrying out intercommunication detection on any two areas of the domain name to be detected in the detection area;

and responding to the passing of intercommunication detection of the domain name to be detected in at least two areas of the detection areas, and determining that the domain name to be detected is a benign domain name.

2. The domain name detection method according to claim 1, wherein the performing intercommunication detection on any two regions of the domain name to be detected in the detection region comprises:

binding the domain name to be detected with an Internet Protocol (IP) address of a first server in a first area;

indicating a first detection node of a first area to perform first intercommunication detection with the first server, and indicating a second detection node of a second area to perform first intercommunication detection with the first server;

responding to the first intercommunication detection of the domain name to be detected in the first area and the second area to pass, and binding the domain name to be detected with the IP address of a second server in the second area;

instructing the first detection node to perform a second intercommunication detection with the second server, and instructing the second detection node to perform a second intercommunication detection with the second server;

and responding to the passing of the second intercommunication detection of the domain name to be detected in the first area and the second area, and determining that the intercommunication detection of the domain name to be detected in the first area and the second area passes.

3. The domain name detection method according to claim 2, wherein the binding the domain name to be detected with the IP address of the first server in the first area comprises:

in response to receiving a first detection request sent by the first detection node and receiving a first detection request sent by the second detection node, binding the domain name to be detected with the IP address of the first server;

the instructing a first detection node of a first area to perform a first intercommunication detection with the first server, and instructing a second detection node of a second area to perform a first intercommunication detection with the first server, includes:

and sending the domain name to be detected to the first detection node and the second detection node respectively so that the first detection node and the second detection node access the first server respectively.

4. The domain name detection method according to claim 2, wherein the binding the domain name to be detected with the IP address of the second server in the second area comprises:

in response to receiving a second detection request sent by the first detection node and receiving a second detection request sent by the second detection node, binding the domain name to be detected with the IP address of the second server;

the instructing the first detection node to perform a second intercommunication detection with the second server, and instructing the second detection node to perform a second intercommunication detection with the second server, includes:

and respectively sending detection indication messages to the first detection node and the second detection node so that the first detection node and the second detection node respectively access the second server.

5. The domain name detection method according to claim 2, characterized in that the method further comprises:

and determining that the intercommunication detection of the domain name to be detected in the first area and the second area does not pass in response to the situation that the first intercommunication detection of the domain name to be detected in the first area does not pass, or the first intercommunication detection of the domain name to be detected in the second area does not pass, or the second intercommunication detection of the domain name to be detected in the first area does not pass, or the second intercommunication detection of the domain name to be detected in the second area does not pass.

6. A domain name detecting apparatus, comprising:

the device comprises a first determining module, a second determining module and a judging module, wherein the first determining module is used for determining a detection area of a domain name to be detected, and the detection area at least comprises two areas;

the detection module is used for carrying out intercommunication detection on any two areas of the domain name to be detected in the detection area;

and the second determining module is used for responding to the passing of intercommunication detection of the domain name to be detected in at least two areas of the detection areas and determining that the domain name to be detected is a benign domain name.

7. The domain name detection device according to claim 6, wherein the detection module comprises:

the first binding submodule is used for binding the domain name to be detected with the IP address of the Internet protocol address of the first server in the first area;

the first indication submodule is used for indicating a first detection node of a first area to perform first intercommunication detection with the first server and indicating a second detection node of a second area to perform first intercommunication detection with the first server;

the second binding submodule is used for binding the domain name to be detected with the IP address of a second server in a second area in response to the first intercommunication detection of the domain name to be detected in the first area and the second area passing;

a second indicating submodule, configured to instruct the first detecting node to perform second intercommunication detection with the second server, and instruct the second detecting node to perform second intercommunication detection with the second server;

and the first determining submodule is used for responding to the passing of the second intercommunication detection of the domain name to be detected in the first area and the second area, and determining that the intercommunication detection of the domain name to be detected in the first area and the second area passes.

8. The domain name detection device according to claim 7, wherein the first binding sub-module is specifically configured to:

in response to receiving a first detection request sent by the first detection node and receiving a first detection request sent by the second detection node, binding the domain name to be detected with the IP address of the first server;

the first indication submodule is specifically configured to:

and sending the domain name to be detected to the first detection node and the second detection node respectively so that the first detection node and the second detection node access the first server respectively.

9. The domain name detection device according to claim 7, wherein the second binding sub-module is specifically configured to:

in response to receiving a second detection request sent by the first detection node and receiving a second detection request sent by the second detection node, binding the domain name to be detected with the IP address of the second server;

the second indication submodule is specifically configured to:

and respectively sending detection indication messages to the first detection node and the second detection node so that the first detection node and the second detection node respectively access the second server.

10. The domain name detection apparatus according to claim 7, further comprising:

and the second determining submodule is used for determining that the intercommunication detection of the domain name to be detected in the first area and the second area does not pass in response to the situation that the first intercommunication detection of the domain name to be detected in the first area does not pass, or the first intercommunication detection of the domain name to be detected in the second area does not pass, or the second intercommunication detection of the domain name to be detected in the first area does not pass, or the second intercommunication detection of the domain name to be detected in the second area does not pass.

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