CN202495958U - Distributed detection device of network service availability - Google Patents
Distributed detection device of network service availability Download PDFInfo
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- CN202495958U CN202495958U CN 201220102436 CN201220102436U CN202495958U CN 202495958 U CN202495958 U CN 202495958U CN 201220102436 CN201220102436 CN 201220102436 CN 201220102436 U CN201220102436 U CN 201220102436U CN 202495958 U CN202495958 U CN 202495958U
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Abstract
The utility model provides a distributed detection device of network service availability, which is characterized in that: the device is composed of a detection center device and detection point devices, wherein the detection point devices are connected to the detection center device and the detection point devices can be connected to a system being detected. The device comprises a plurality of detection point devices, wherein the plurality of detection point devices are connected to the same detection center device and connected to the same system being detected. Adoption of the distributed detection device of network service availability not only improves the reliability and timeliness of detection results, reduces the deployment and implementation difficulty of detecting services, and realizes real-time detection of network service availability, but also has a low cost, and can be implemented in a large scale, thereby facilitating intelligent analysis of data and realizing intelligent warning.
Description
Technical field
The utility model relates to the service field of IT O&M, particularly a kind of distributed network service availability checkout gear.
Background technology
Internet technology develops into today, has become the important channel that collectives such as enterprise, government department, tissue or individual diffused information, obtained information, and the dependence of the Internet is grown with each passing day.An internet sites is being born important information transfering action during establishment is published to close whole; Therefore the detection of network service availability also seems and is even more important; Effectively detection means can guarantee the normal operation of internet site's spot net service; In time fix a breakdown, to reduce because of the unavailable economic loss that is caused of internet site's spot net service.1, traditional the Internet detection technique lacks professional, simple checkout gear, the personnel that need have certain specialized technical merit, and complicated machinery equipment has caused expensive problem; 2, the detection method and the means of traditional the Internet detection technique are simple, can't accomplish real-time detection, and poor in timeliness can't be accomplished real-time detection, and detection technique can not be implemented on a large scale.3, medium-sized and small enterprises, tissue often can't dispose the detection service of specialty owing to reasons such as fund, technology, just perceive when catastrophe failure appears in the network service, cause economic loss.
The utility model content
The purpose of the utility model is to provide a kind of distributed network service availability checkout gear; Characteristics with Distributed Detection are detected internet sites by the test point that is distributed in all over the world, have improved the reliability and the promptness of testing result; Reduced the difficulty that detects service arrangement and realization; Make cost reduce, can implement on a large scale, make things convenient for enterprise, tissue or individual that the availability of network service is detected; Can also carry out intelligent data analysis and alarm to detecting the gained data, timely testing result fed back to site users intuitively, easily.
The detection method of the utility model institute foundation comprises: 1) set, set up inspection center and test point; 2) set the network service that needs detection at test point; 3) test point is through the regular access network services of procotol, and record network service availability, 4) test point turns back to inspection center through data passes with the testing result record; 5) inspection center analyzes according to preset rules the data that test point returns, record, displaying analysis result.Adopt the method for this Internet distributed monitoring that the network service availability is detected, reduced the difficulty that detects service arrangement and realization, can initiatively find network failure, and handle.
The detection method of the utility model institute foundation can also be provided with detection to same detected object at the plurality of detection point when test point is set the network service that needs detection.Can improve the promptness and the reliability of testing result.
The detection method of the utility model institute foundation can also adopt following steps test point to be carried out the setting of detected object: 1) user registers in inspection center; 2) user sets the network service that will detect in inspection center; 3) inspection center is issued to each test point through data passes with the information of detected object.The difficulty that detects service arrangement and realization can be further reduced like this, the model of monitor service can be adjusted in real time.
The detection method of the utility model institute foundation can also be included in inspection center the step of network being served the rule that unavailable record carries out initiatively informing is set, and can improve controllability, the convenience, ageing of detection.
The purpose of the utility model is to provide a kind of network service availability distribution detection device of implementing above-mentioned detection method; Include inspection center's device, test point device; The test point device is connected with the inspection center device, and the test point device is connected with system to be detected.
Further, the checkout gear of said network service availability can comprise many test point devices, many test point devices are connected with same inspection center device, and are connected with same system to be detected.
Further, be connected with on the said inspection center device device is set, can be configured inspection center's device through device is set, said inspection center device is connected with each test point device data, and inspection center's device can be configured setting to each test point device.
Further again, also be provided with the record dispensing device on the said inspection center device, can the record on inspection center's device initiatively be sent to the user.
Technical scheme further is; Said inspection center device is made up of subscriber information server and data center server; Said test point device is many test point servers, and the detection server has the communication interface with system connectivity to be detected, and the different detection point server can dispose identical communication interface; Subscriber information server is connected with data center server with the test point server respectively, and the test point server all is connected with data center server.
Technical scheme further is, the said device that is provided with is connected with subscriber information server, and said record dispensing device is connected with data center server.
Adopt the network service availability distribution detection device that the utility model provided; Not only improve the result reliability and the promptness that detect, reduced the difficulty that detects service arrangement and realization, realized the real-time detection of network availability; And cost reduces; Also can implement on a large scale, make things convenient for the data intelligence analysis, the realization of intelligent alarm.
Description of drawings
The utility model will explain through example and with reference to the mode of accompanying drawing, wherein:
Fig. 1 is the testing process sketch map of the utility model;
Fig. 2 is the Organization Chart of the utility model;
Fig. 3 is the structural representation of the utility model;
Fig. 4 is the detection information interaction figure of the utility model.
Embodiment
Disclosed all characteristics in this specification, or the step in disclosed all methods or the process except mutually exclusive characteristic and/or the step, all can make up by any way.
The detection method of the utility model institute foundation is specially: 1) set up an inspection center, and set up test point in different regions; 2) user registers in inspection center; 3) user sets the network service that will detect, like the website, and ftp service etc.; 4) inspection center is issued to each test point to information on services to be monitored; 5) each test point is confirmed whether service is available, and the result is returned to inspection center through the regular access network services of procotol; 6) inspection center analyzes the data that gather, and whether final definite service is available, if unavailable, notifies the user.
Test point in the said step 1) comprises a plurality of test points that are distributed in different regions; Test point is through the regular access network services of procotol; Whether definite service is available; And the result returned to inspection center, inspection center carries out intellectual analysis to the data that test point returns, the rear line of reaching a conclusion feedback.
Said step 2) user in the specific practice of inspection center's registration is in: the user is through portal website's registration, and portal website is responsible for collecting user's name, contact method, information such as the domain name of the monitoring station of, IP address, region, server place.Purpose is to confirm the monitoring station object, and website unusual back occurs to user's advice method etc.
The network service specific practice that user's setting will detect in the said step 3) is: user's relevant information that setting network detects in portal website; The COS that for example detects; Detection mode etc.; Some are set simultaneously as required detect requirement, for example detect frequency, alarm level generates blanking time etc. with report.
Notify user's specific practice to be in the said step 6): the data of test point being returned by inspection center gather and analyze, and with the result through the user in step 2) in the contact method filled in for example: modes such as email, SMS, fax, internet transmission are informed the user.
Said step 1) is a step 2), 3), 4), 5), 6) hardware supports.
Said step 2) be step 3), 4), 5), 6) precondition, be this device and user communication the contact precondition.
The successful execution of said step 6) relies on the successful execution of step 5); The testing result of feeding back in the step 5) is the testing result of each test point; Step 6) gathers the result who returns in the step 5) and intellectual analysis, draws final result after the analysis, and final result is fed back to the user.
As shown in Figure 1, the concrete workflow step of the utility model is following: 1) user's log-on message to the portal website of data center; 2) user sets the network service that will detect; 3) if set that correct detection is served then execution in step 4), otherwise finish; 4) inform the Distributed Detection point, distribution detection task; 5) the Distributed Detection point detects and testing result is fed back to inspection center; 6) analytical information; Whether 7) inspection center judges whether the network service is available, occur unusual; 8) if do not occur unusually then execution in step 7), otherwise execution in step 9); 9) result is fed back to the user, the network service is unusual by oneself by the user, resets the network service that detects after handling well.
As shown in Figure 2; The utility model has designed a mounted cast; This model specifically is divided into several levels: 1) user interactions layer, constitute by registration portal website and network service initialization portal website two parts, and mainly undertake reciprocation with the user; Collect user profile, let the user according to the service of requirements set network; 2) inspection center's layer mainly is made up of database and the test point that is distributed in all over the world, and this layer is the core layer of The model, and Distributed Detection point is responsible for the detection to the network service, and the result is stored in the database, and database is responsible for stored information; 3) the feedback information layer mainly is made up of alarm device, is responsible for the result of network service detection is fed back to the user.
Fig. 3 is the structural representation of the utility model: inspection center's device is made up of subscriber information server 1 and data center server 2; Said test point device is many test point servers 3; Detection server 3 has the communication interface with system connectivity to be detected; And different detection point server 3 can dispose identical communication interface, thereby can realize that many are detected being connected of servers and same system to be detected, can improve the reliability of checkout gear and the accuracy of testing result analysis like this; Subscriber information server 1 is connected with data center server 2 with test point server 3 respectively, and test point server 3 all is connected with data center server 2.Device is set can adopt the man-machine interactive system of known technology to realize; And be connected with subscriber information server 1; Said record dispensing device can be prior art devices such as mailing system, SMS platform system, facsimile transmission system, and the record dispensing device is connected with data center server 2.Subscriber information server 1 is being born and user interactions, collects user profile, and the setting network service also is handed down to the test point server 3 that is distributed in all over the world with the network service detection task that configures; Whether after Distributed Detection point server 3 receives the network service detection, can detect the network service through the procotol mode available; The data that detect are returned to the data center server 2 in inspection center's device; Data center server 2 gathers the information that each test point returns; Carry out intellectual analysis, draw corresponding conclusion, conclusion is informed the user through modes such as email mail, PC, fax, SMSs.
As shown in Figure 4, the mutual sequential of concrete data message of the utility model is following: 1) user lands portal website, log-on message; 2) portal website proposes the request of input information to the client; 3) user has filled in submission information after the information; 4) integrality and the accuracy of portal website's checking user entry information; 5) portal website submits user's log-on message to the setting website of network service; 6) stored information and inform whether user profile is complete; 7) user's setting network service as required; 8) means for signalling is stored user's director data, and assigns the detection task according to command request to the Distributed Detection point; 9) after the acquisition detection task, begin user's network service is detected; 10) the detected information state data of storage; 11) analytical information status data; 12) in time inform the user; 13) user processing is unusual; 14) reset the network service.
Claims (6)
1. network service availability distribution detection device, it is characterized in that: this device is made up of inspection center's device, test point device, and the test point device is connected with the inspection center device, and the test point device can be connected with system to be detected.
2. network service availability distribution detection device according to claim 1 is characterized in that: this device includes many test point devices, and many test point devices are connected with same inspection center device, and are connected with same system to be detected.
3. network service availability distribution detection device according to claim 2; It is characterized in that: be connected with on the said inspection center device device is set; Can be configured inspection center's device through device is set; Said inspection center device is connected with each test point device data, and inspection center's device can be configured setting to each test point device.
4. network service availability distribution detection device according to claim 3 is characterized in that: also be provided with the record dispensing device on the said inspection center device, can the record on inspection center's device be initiatively sent to the user.
5. according to the described network service availability of arbitrary claim distribution detection device in the claim 2 to 4; It is characterized in that: said inspection center device is made up of subscriber information server (1) and data center server (2); Said test point device is many test point servers (3); The detection server has the communication interface with system connectivity to be detected; And the different detection point server can dispose identical communication interface, and subscriber information server (1) is connected with data center server (2) with test point server (3) respectively, and test point server (3) all is connected with data center server (2).
6. network service availability distribution detection device according to claim 5 is characterized in that: the said device that is provided with is connected with subscriber information server (1), and said record dispensing device is connected with data center server (2).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220102436 CN202495958U (en) | 2012-03-19 | 2012-03-19 | Distributed detection device of network service availability |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 201220102436 CN202495958U (en) | 2012-03-19 | 2012-03-19 | Distributed detection device of network service availability |
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| CN202495958U true CN202495958U (en) | 2012-10-17 |
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| CN 201220102436 Expired - Fee Related CN202495958U (en) | 2012-03-19 | 2012-03-19 | Distributed detection device of network service availability |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105940638A (en) * | 2014-02-27 | 2016-09-14 | 英特尔公司 | Techniques for computing resource discovery and management |
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2012
- 2012-03-19 CN CN 201220102436 patent/CN202495958U/en not_active Expired - Fee Related
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105940638A (en) * | 2014-02-27 | 2016-09-14 | 英特尔公司 | Techniques for computing resource discovery and management |
| CN105940638B (en) * | 2014-02-27 | 2019-06-28 | 英特尔公司 | Apparatus, method, and machine-readable medium for computing resource discovery and management |
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| C14 | Grant of patent or utility model | ||
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| CP03 | Change of name, title or address |
Address after: Two Lu Tian Hua high tech Zone of Chengdu City, Sichuan province 610041 No. 219 Tianfu Software Park C District 10 building 20 layer Patentee after: Diligence digital Polytron Technologies Inc Address before: High tech Zone Chengdu City Tianyun road 610000 Sichuan No. 150 High Tech International Plaza D block, room 404 Patentee before: Chengdu Qinzhi Digital Technology Co., Ltd. |
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| CP03 | Change of name, title or address | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20121017 Termination date: 20190319 |
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| CF01 | Termination of patent right due to non-payment of annual fee |