CN102752174B - System and method for testing safety performance of wireless local area network (WLAN) - Google Patents

Abstract

The invention discloses a system and a method for testing the safety performance of a wireless local area network (WLAN). The system comprises a WLAN safety performance test platform (101), a wireless equipment test bed (102), a wireless access point test server (103) and a safety performance test server (104), wherein the wireless equipment test bed (102), the wireless access point test server (103) and the safety performance test server (104) are communicated through a wired local area network; and the WLAN safety performance test platform (101) is communicated with the wireless equipment test bed (102), the wireless access point test server (103) and the safety performance test server (104) in the local area network respectively through a wireless equipment test bed interface (106) and a wireless access point test server interface (107). The method comprises the following steps of: (1) logining account management (201) of the WLAN safety performance test platform (101) by a manager, registering a user, and distributing permissions; (2) logining the WLAN safety performance test platform (101) by a user to carry out equipment management; and (3) carrying out equipment registration by the user. According to the system and the method, the safety performance test of the WLAN can be realized.

Description

A kind of Security in WLAN energy test macro and method

Technical field

The present invention relates to a kind of network security test macro and method thereof, specifically a kind of Security in WLAN energy test macro based on WEB Long-distance Control and method, the invention belongs to wireless network secure technical field.

Background technology

WLAN (wireless local area network) (Wireless LAN, WLAN), is generally used for broadband home, inside buildings and inside, garden, and typical range covers tens meters to hundreds of rice, and the technology adopted at present is 802.11a/b/g series mainly.WLAN utilizes wireless technology to transmit data, speech and vision signal aloft, as a kind of replacement scheme or the extension of traditional wiring network.The problem that the appearance of WLAN (wireless local area network) feature makes original cable network run into is readily solved, and it can make user expand cable network arbitrarily and extend.As long as make radio communication be achieved by wireless devices such as WAP (wireless access point), wireless bridge, wireless network cards on the basis of cable network.In contrast to traditional cable network, the using value of WLAN (wireless local area network) is embodied in: mobility, wiring easily, networking flexibility and cost advantage etc., wireless technology is widely applied in linking Internet and mobile communication.

Wireless application brings huge facility really, but simultaneously, its use also has factor leading to social instability.Primary problem is exactly wireless LAN safety potential problem.The use of WLAN (wireless local area network) is based upon on the basis of radio wave transmission.So the transmission means of this invisible stealth of radio wave, is difficult to allow people control.The inevitable bad control of safety problem.Nowadays the safety problem of WLAN (wireless local area network) being mainly manifested in easy intrusion, illegal WAP (wireless access point) (Access Point, AP), intercepting through licensing service, service and the restriction of performance, address spoofing and session interception and flow analysis and flow.For above problem, the safety problem of WLAN (wireless local area network) is more and more paid much attention to, and then seems particularly important to the test of wireless local area network building device security.

IEEE 802.11 series standard is from early stage Wired Equivalency protection (Wired Equivalent Privacy; WEP); wireless protection access (Wireless Protected Access finally; WPA) and wireless protection access 2 (Wireless Protected Access V2; WPA2) (i.e. 802.11i standard), is constantly improving the security mechanism of WLAN (wireless local area network).In China independent research WLAN standard GB15629.11, also using wireless discriminating and confidentiality foundation structure (Wireless Authentication Privacy Infrastructure, WAPI) as Security Assurance Mechanism.But all there is certain potential safety hazard in these security mechanisms.

Although WEP provides safety guarantee by encryption, but still there is many defects, a) lack key management; B) integrity checking value-based algorithm is improper; C) there is weakness in RC4 algorithm; D) authentication information is easy to forge.It is not a desirable Security Protocol Design that Temporal Key Integrirty Protocol (Temporal Key Integrity Protocol, TKIP) in WPA mechanism is wrapped in outside WEP; The security performance of message integrity check is very weak, certain countermeasure guarantee safety must be adopted: often bag key (Per-Packet Key) the generation method of TKIP complexity is the RC4 algorithm used to adapt to WEP, although extend sequence length, still there is leak in partial reuse mechanism theoretically.Also come with some shortcomings in WAPI, because certificate discrimination process and cipher key agreement process disconnect, and lack corresponding key confirmation mechanism, any assailant having legal certificate can pass through certification; Only use public-key certificate as identity documents, and flexibility is not high enough etc.

In view of the potential safety hazard existed in WEP, WPA, WPA2 and WAPI tetra-kinds of security mechanisms, the test for Security in WLAN energy seems significant.Present patent application is from the angle of four kinds of security mechanisms, to existing wireless local area network building device class test, testing equipment is to the support of security mechanism and support stability, thus test and evaluation is carried out to the security performance of WLAN (wireless local area network), be also the important means ensureing wireless LAN safety.

The method of existing performance of wireless local area networks test mainly contains active testing technique and passive analytical technology.So-called active testing, namely tester is by the attack of simulation for WLAN (wireless local area network), and structure also implementation of test cases, analyzes the defence capability of WLAN (wireless local area network) to determine wherein whether there is security threat simultaneously.Active testing technique has good autgmentability, is also applicable to the determination and analysis of unknown leak.For WLAN (wireless local area network), active testing can be divided into following three classes: the active testing for confidentiality, the active testing for integrality, active testing for availability.The phenomenons such as protocol data change, abnormal behavior, data inconsequent, exception of network traffic are caused, based on the statistics of these features and analytical method and passive analytical technology due to illegal invasion or attack.Passive analytical technology includes various detection technique, as statistical analysis, pattern matching, protocal analysis, command analysis, state transition analysis, distributed Intrusion Detection Systems etc.In addition, passive analysis depends on existing ripe rule base and pattern base, and the information arrived by research and application, is mated with pattern base, to judge whether the there is illegal invasion for WLAN (wireless local area network) and attack.

The existing safety test to WLAN mainly concentrates on physical environment test and encrypting and authenticating situation is tested.Physical environment tests the potential safety hazard that the physical factors such as the interference of main test signal cause, and whether Encryption and authentication situation test main test WLAN employs data encryption and User identification mechanism.Current wlan security testing tool is less, and the product of comparative maturity has in the world: the network synthesis protocal analysis instrument family of fluke (Fluke) company, network universal instrument series, network lead to the portable computer wireless network measuring and analysing meter etc. of series of network analyzer and U.S. Ai Ermai (AirMagnet) company.The WLAN intruding detection system that domestic Related product only has company of CA-Jinchen to develop at the beginning of 2004.The realization of this series products is substantially all detect based on wireless invasive, can only detect some common attacks, and initiatively can not carry out analytical test, limited to wlan security protective capability, autgmentability is poor, unable in the face of new security breaches.

For the shortcomings and deficiencies that above wlan security testing tool exists, this patent proposes a kind of Security in WLAN energy test macro based on WEB Long-distance Control and method.Wherein relate to a kind of Security in WLAN energy testing scheme based on penetration testing, penetration testing is the attack method by simulating malicious hackers, carrys out a kind of appraisal procedure of evaluates calculation machine network system security.This process comprises passive analysis and the active testing of any weakness, technological deficiency or leak to system, and this is analyzed is carry out from the position that an assailant may exist, and has ready conditions from this position and initiatively utilize security breaches to perform attack.Devise concrete penetration testing platform in scheme, construct the attack Sample Storehouse for WLAN (wireless local area network), and formulate concrete penetration testing execution flow process, and operate simple and easy, automation integrated level is high.

Summary of the invention

technical problem:the object of the invention is to realize Security in WLAN can test, a kind of Security in WLAN energy test macro based on WEB Long-distance Control and method are provided.

technical scheme:for solving the problems of the technologies described above, the invention provides a kind of Security in WLAN energy test macro, this system comprises Security in WLAN energy test platform, wireless device test envelope, WAP (wireless access point) testing server and WAP (wireless access point) testing server; Wherein,

Wireless device test envelope, WAP (wireless access point) testing server are communicated with by cable LAN with security performance testing server equipment;

Security in WLAN energy test platform communicates with security performance testing server with wireless device test envelope, WAP (wireless access point) testing server with security performance testing server interface respectively by wireless device test envelope interface, WAP (wireless access point) testing server interface, Security in WLAN energy test platform in local area network (LAN);

Security in WLAN energy test platform, with wireless device test envelope interface communication, is configured wireless device to be measured, sends extraction equipment information, starts network connectivty test, terminates network connectivty test, the instruction of security protocol airworthiness compliance;

Security in WLAN energy test platform, with WAP (wireless access point) testing server interface communication, carries out channel parameter configuration and access point configuration to wireless test environment;

Security in WLAN energy test platform, with security performance testing server interface communication, carries out vulnerability analysis and testing permeability to wireless device to be measured;

Wireless device test envelope is used for wireless device configuration to be measured, coordinates WAP (wireless access point) testing server and security performance testing server to complete security protocol airworthiness compliance and device protocol safety test;

WAP (wireless access point) testing server is used for channel parameter configuration and access point configuration, coordinates wireless device test envelope and security performance testing server to complete security protocol airworthiness compliance and device protocol safety test;

Security performance testing server is used for vulnerability analysis and testing permeability, coordinates wireless device test envelope and WAP (wireless access point) testing server to complete security protocol airworthiness compliance and device protocol safety test.

Preferably, described Security in WLAN energy test platform comprises: account management, project management, Reports Administration, helps to illustrate, equipment control, facility registration, device protocol safety test, security protocol airworthiness compliance;

Account management, for managed wireless local area network security performance test platform account, uses this test macro to carry out test job according to authority;

Project management, for management equipment protocol security testing, modifies to test result or deletes;

Reports Administration, for Administrative Security agreement airworthiness compliance and device protocol safety test module results, and the facility information that bonding apparatus registration stores carries out report generation and management;

Help to illustrate, for Security in WLAN energy test platform operating instruction;

Equipment control, for management equipment registration, security protocol airworthiness compliance and device protocol safety test, the registration of finishing equipment and safety test work;

Facility registration, for during extraction equipment information and wireless device test envelope interface interchange configuration module equipment is configured;

Security protocol airworthiness compliance, for calling socket communication module and functional module carries out security protocol airworthiness compliance to equipment;

Device protocol safety test, for calling socket communication module and functional module carries out the test of start/end network connectivty to equipment.

Preferably, described wireless device test envelope comprises: configuration module, socket communication module and functional module, wherein,

Configuration module, for completing wireless device configuration function to be measured;

Socket communication module, for completing instruction between wireless device test envelope and Security in WLAN energy test platform and information interaction, and according to instruction calls specific functional modules;

Functional module, for completing for the function from socket communication module instruction.

Preferably, described WAP (wireless access point) testing server comprises: channel configuration module and access point configuration module, wherein,

Channel configuration module, for receiving the configuration-direct from Security in WLAN energy test platform, and completes the configuration to test protocol configuration script file;

Access point configuration module, for receiving the startup/closedown wireless test environmental directives from Security in WLAN energy test platform, and completes startup or the closedown of respective environment.

Preferably, described security performance testing server comprises: vulnerability analysis module and testing permeability module, wherein,

Vulnerability analysis module, for calling to vulnerability analysis function the vulnerability analysis realized wireless device to be measured;

Testing permeability module, for calling to testing permeability function the testing permeability realized wireless device to be measured.

Present invention also offers a kind of Security in WLAN energy method of testing, the method comprises the following steps:

Step 1: keeper logs in the account management of Security in WLAN energy test platform, registered user, distributes authority;

Step 2: user logs in Security in WLAN energy test platform, carries out equipment control;

Step 3: user carries out facility registration;

Step 4: user carries out security protocol airworthiness compliance to wireless device to be measured after carrying out facility registration success;

Step 5: after checking terminates, device protocol safety test is carried out to wireless device to be measured;

Step 6: login user checks the safety evaluation report carrying out security protocol airworthiness compliance and device protocol safety test for this wireless device to be measured by Reports Administration.

Preferably, in this step 3, facility registration comprises the following steps:

Step 31: login user is registered by equipment control access arrangement;

Step 32: fill in equipment essential information, selects device type;

Step 33: be remotely logged into wireless device test envelope, calls configuration module and is configured wireless device to be measured, Security in WLAN energy test platform extraction equipment information.

Preferably, in step 4, security protocol airworthiness compliance comprises the following steps:

Step 41: login user selects required indentification protocol, carries out security protocol airworthiness compliance one by one successively for selection protocol;

Step 42: by socket, Security in WLAN energy test platform informs that WAP (wireless access point) testing server starts test environment, access point configuration module starts test environment, and configuration result is returned Security in WLAN energy test platform;

Step 43: Security in WLAN energy test platform is remotely logged into wireless device test envelope, calls configuration module and deletes configuration information, then by the wireless test environment of wireless device access WAP (wireless access point) testing server to be measured establishment;

Step 44: by socket, Security in WLAN energy test platform informs that wireless device test envelope carries out security protocol airworthiness compliance, wireless device test envelope calling functional modules is verified, and calls socket communication module and the result is informed Security in WLAN energy test platform;

Step 45: by socket, Security in WLAN energy test platform informs that WAP (wireless access point) testing server closes test environment, access point configuration module closes test environment, and configuration result is returned Security in WLAN energy test platform.

Preferably, in step 5, device protocol safety test comprises the following steps:

Step 51: by socket, Security in WLAN energy test platform informs that security performance testing server carries out vulnerability analysis, security performance testing server calls vulnerability analysis module and carries out vulnerability analysis to wireless device to be measured, and result is returned to Security in WLAN energy test platform;

Step 52: login user selects required test protocol, carries out device protocol safety test one by one successively for selection protocol;

Step 53: by socket, Security in WLAN energy test platform informs that WAP (wireless access point) testing server starts test environment, access point configuration module starts test environment, and configuration result is returned Security in WLAN energy test platform;

Step 54: Security in WLAN energy test platform is remotely logged into wireless device test envelope, calls configuration module and deletes configuration information, then by the wireless test environment of wireless device access WAP (wireless access point) testing server to be measured establishment;

Step 55: by socket, Security in WLAN energy test platform informs that wireless device test envelope starts to carry out device protocol safety test, wireless device test envelope calling functional modules starts network connectivty test to wireless device to be measured, and calls socket communication module and inform that Security in WLAN energy test platform starts to carry out network connectivty test;

Step and 56: by socket, Security in WLAN energy test platform informs that security performance testing server carries out testing permeability, security performance testing server calls testing permeability module and tests, and informs Security in WLAN energy test platform after testing permeability terminates;

Step 57: Security in WLAN energy test platform is after testing permeability terminates, inform that wireless device test envelope terminates device protocol safety test by socket, wireless device test envelope calling functional modules extracts network connectivty test result, and calls socket communication module and test result is informed Security in WLAN energy test platform;

Step 58: by socket, Security in WLAN energy test platform informs that WAP (wireless access point) testing server closes test environment, access point configuration module closes test environment, and configuration result is returned Security in WLAN energy test platform.

beneficial effect:the present invention is a kind of Security in WLAN energy test macro based on WEB Long-distance Control and method; this Dynamic System is simple and easy; integrated automation testing process; carry out security protocol airworthiness compliance and device protocol safety test for Wired Equivalency protection (WEP) used in 802.11, wireless protection access (WPA), wireless protection access 2 (WPA2) and wireless discriminating and confidentiality foundation structure (WAPI) four kinds of security mechanisms, wherein device protocol safety test comprises vulnerability analysis and testing permeability.This system integration multiple safe mechanism, comprises initiatively and Passive Test technology, overcomes existing product and detect based on wireless invasive, some common attacks can only be detected, initiatively can not carry out analytical test, autgmentability is poor, unable in the face of weakness such as new security breaches.Native system is not only for several security mechanism security protocol airworthiness compliance that wireless local area network building equipment uses 802.11, carry out device protocol safety test for the security mechanism supported simultaneously, i.e. vulnerability analysis and testing permeability, can test the potential safety hazard of degree of stability that wireless local area network building equipment supports four kinds of security mechanisms and existence, final system provides security performance assessing report by security protocol airworthiness compliance and device protocol safety test result.

Accompanying drawing explanation

Fig. 1 is operation principle schematic diagram of the present invention;

Wherein have: Security in WLAN energy test platform 101, wireless device test envelope 102, WAP (wireless access point) testing server 103, security performance testing server 104, wireless device 105 to be measured, Security in WLAN energy test platform and wireless device test envelope interface 106, Security in WLAN energy test platform and WAP (wireless access point) testing server interface 107, Security in WLAN energy test platform and security performance testing server interface 108.

Fig. 2 is Security in WLAN energy test platform and wireless device test envelope Principle of Communication figure;

Wherein have: account management 201, project management 202, Reports Administration 203, help explanation 204, equipment control 205, facility registration 206, device protocol safety test 207, security protocol airworthiness compliance 208, configuration module 209, socket communication module 210, functional module 211.

Fig. 3 is Security in WLAN energy test platform and WAP (wireless access point) testing server Principle of Communication figure;

Wherein have: channel configuration module 301, access point configuration module 302.

Fig. 4 is Security in WLAN energy test platform and security performance testing server Principle of Communication figure;

Wherein have: vulnerability analysis module 401, testing permeability module 402.

Fig. 5 is the inventive method overall flow figure.

Fig. 6 is the inventive method facility registration flow chart.

Fig. 7 is the inventive method security protocol airworthiness compliance flow chart.

Fig. 8 is the inventive method device protocol safety test flow chart.

Embodiment

Below in conjunction with accompanying drawing, the present invention will be further described.

The object of the invention is to realize Security in WLAN can test, a kind of Security in WLAN energy test macro based on WEB Long-distance Control and method are provided, i.e. whole test macro composition local area network (LAN), tester can according to main frame browser access system platform any in local area network (LAN), security protocol airworthiness compliance is carried out for WEP, WPA, WPA2 and WAPI tetra-kinds of security mechanisms, build attack use-case and realize device protocol safety test, and security performance assessing is carried out to Wireless Communication Equipment.WEP mechanism authentication information for WLAN devices security mechanism and existence is forged, WEP mechanism RC4 algorithm there is weakness and WAPI mechanism lacks the safety problems such as corresponding key confirmation mechanism, native system automation can realize security protocol airworthiness compliance, device protocol safety test to it, and according to checking and test result, assessment is made to its security performance.

See Fig. 1-8, Security in WLAN energy test macro provided by the invention, this system comprises Security in WLAN energy test platform 101, wireless device test envelope 102, WAP (wireless access point) testing server 103 and WAP (wireless access point) testing server 103.

Wireless device test envelope 102, WAP (wireless access point) testing server 103 are communicated with by cable LAN with security performance testing server 104 equipment; Security in WLAN energy test platform 101 communicates with security performance testing server 104 with wireless device test envelope 102, WAP (wireless access point) testing server 103 with security performance testing server interface 108 respectively by wireless device test envelope interface 106, WAP (wireless access point) testing server interface 107, Security in WLAN energy test platform in local area network (LAN); Security in WLAN energy test platform 101, communicate with wireless device test envelope interface 106, wireless device 105 to be measured is configured, sends extraction equipment information, start network connectivty test, terminate network connectivty test, the instruction of security protocol airworthiness compliance; Security in WLAN energy test platform 101, communicates with WAP (wireless access point) testing server interface 107, carries out channel parameter configuration and access point configuration to wireless test environment; Security in WLAN energy test platform 101, communicates with security performance testing server interface 108, carries out vulnerability analysis and testing permeability to wireless device 105 to be measured; Wireless device test envelope 102 configures for wireless device 105 to be measured, coordinates WAP (wireless access point) testing server 103 and security performance testing server 104 to complete security protocol airworthiness compliance and device protocol safety test; WAP (wireless access point) testing server 103, for channel parameter configuration and access point configuration, coordinates wireless device test envelope 102 and security performance testing server 104 to complete security protocol airworthiness compliance and device protocol safety test; Security performance testing server 104, for vulnerability analysis and testing permeability, coordinates wireless device test envelope 102 and WAP (wireless access point) testing server 103 to complete security protocol airworthiness compliance and device protocol safety test.

Described Security in WLAN energy test platform 101 comprises: account management 201, project management 202, Reports Administration 203, helps explanation 204, equipment control 205, facility registration 206, device protocol safety test 207, security protocol airworthiness compliance 208; Account management 201, for managed wireless local area network security performance test platform 101 account, uses this test macro to carry out test job according to authority; Project management 202, for management equipment protocol security testing 207, modifies to test result or deletes; Reports Administration 203, for Administrative Security agreement airworthiness compliance 208 and device protocol safety test 207 module results, and the facility information that bonding apparatus registration 206 stores carries out report generation and management; Help explanation 204, for Security in WLAN energy test platform 101 operating instruction; Equipment control 205, for management equipment registration 206, security protocol airworthiness compliance 208 and device protocol safety test 207, the registration of finishing equipment and safety test work; Facility registration 206, for during extraction equipment information and wireless device test envelope interface 106 call configuration module 209 pairs of equipment and be configured; Security protocol airworthiness compliance 208, for calling socket communication module 210 and functional module 211 pairs of equipment carry out security protocol airworthiness compliance; Device protocol safety test 207, for calling socket communication module 210 and functional module 211 pairs of equipment carry out the test of start/end network connectivty.

Described wireless device test envelope 102 comprises: configuration module 209, socket communication module 210 and functional module 211, and wherein, configuration module 209, for completing wireless device 105 configuration feature to be measured; Socket communication module 210, for completing instruction between wireless device test envelope 102 and Security in WLAN energy test platform 101 and information interaction, and according to instruction calls specific functional modules 211; Functional module 211, for completing for the function from socket communication module 210 instruction.

Described WAP (wireless access point) testing server 103 comprises: channel configuration module 301 and access point configuration module 302, wherein, channel configuration module 301, for receiving the configuration-direct from Security in WLAN energy test platform 101, and complete the configuration to test protocol configuration script file; Access point configuration module 302, for receiving the startup/closedown wireless test environmental directives from Security in WLAN energy test platform 101, and completes startup or the closedown of respective environment.

Described security performance testing server 104 comprises: vulnerability analysis module 401 and testing permeability module 402, and wherein, vulnerability analysis module 401, for calling to vulnerability analysis function the vulnerability analysis realized wireless device 105 to be measured; Testing permeability module 402, for calling to testing permeability function the testing permeability realized wireless device 105 to be measured.

Present invention also offers a kind of Security in WLAN energy method of testing, the method comprises the following steps:

Step 1: keeper logs in the account management 201 of Security in WLAN energy test platform 101, registered user, distributes authority;

Step 2: user logs in Security in WLAN energy test platform 101, carries out equipment control;

Step 3: user carries out facility registration;

Step 4: user carries out security protocol airworthiness compliance to wireless device 105 to be measured after carrying out facility registration success;

Step 5: after checking terminates, device protocol safety test is carried out to wireless device 105 to be measured;

Step 6: login user checks the safety evaluation report carrying out security protocol airworthiness compliance and device protocol safety test for this wireless device 105 to be measured by Reports Administration 203.

In this step 3, facility registration comprises the following steps: step 31: login user is by equipment control 205 access arrangement registration 206; Step 32: fill in equipment essential information, selects device type; Step 33: be remotely logged into wireless device test envelope.102, call configuration module 209 and wireless device 105 to be measured is configured, Security in WLAN energy test platform 101 extraction equipment information.

In step 4, security protocol airworthiness compliance comprises the following steps:

In step 4, security protocol airworthiness compliance comprises the following steps: step 41: login user selects required indentification protocol, carries out security protocol airworthiness compliance 208 one by one successively for selection protocol; Step 42: by socket, Security in WLAN energy test platform 101 informs that WAP (wireless access point) testing server 103 starts test environment, access point configuration module 301 starts test environment, and configuration result is returned Security in WLAN energy test platform 101; Step 43: Security in WLAN energy test platform 101 is remotely logged into wireless device test envelope 102, call configuration module 209 and delete configuration information, then wireless device 105 to be measured is accessed the wireless test environment that WAP (wireless access point) testing server 103 creates; Step 44: by socket, Security in WLAN energy test platform 101 informs that wireless device test envelope 102 carries out security protocol airworthiness compliance, wireless device test envelope 102 calling functional modules 211 is verified, and calls socket communication module 210 and the result is informed Security in WLAN energy test platform 101; Step 45: by socket, Security in WLAN energy test platform 101 informs that WAP (wireless access point) testing server 103 closes test environment, access point configuration module 302 closes test environment, and configuration result is returned Security in WLAN energy test platform 101.

In step 5, device protocol safety test comprises the following steps: step 51: by socket, Security in WLAN energy test platform 101 informs that security performance testing server 104 carries out vulnerability analysis, security performance testing server 104 calls vulnerability analysis module 401 and carries out vulnerability analysis to wireless device 105 to be measured, and result is returned to Security in WLAN energy test platform 101; Step 52: login user selects required test protocol, carries out device protocol safety test one by one successively for selection protocol; Step 53: by socket, Security in WLAN energy test platform 101 informs that WAP (wireless access point) testing server 103 starts test environment, access point configuration module 301 starts test environment, and configuration result is returned Security in WLAN energy test platform 101; Step 54: Security in WLAN energy test platform 101 is remotely logged into wireless device test envelope 102, call configuration module 209 and delete configuration information, then wireless device 105 to be measured is accessed the wireless test environment that WAP (wireless access point) testing server 103 creates; Step 55: by socket, Security in WLAN energy test platform 101 informs that wireless device test envelope 102 starts to carry out device protocol safety test 207, wireless device test envelope 102 calling functional modules 211 starts network connectivty test to wireless device 105 to be measured, and calls socket communication module 210 and inform that Security in WLAN energy test platform 101 starts to carry out network connectivty test; Step and 56: by socket, Security in WLAN energy test platform 101 informs that security performance testing server 104 carries out testing permeability, security performance testing server 104 calls testing permeability module 402 and tests, and informs Security in WLAN energy test platform 101 after testing permeability terminates; Step 57: Security in WLAN energy test platform 101 is after testing permeability terminates, inform that wireless device test envelope 102 terminates device protocol safety test 207 by socket, wireless device test envelope 102 calling functional modules 211 extracts network connectivty test result, and calls socket communication module 210 and test result is informed Security in WLAN energy test platform 101; Step 58: by socket, Security in WLAN energy test platform 101 informs that WAP (wireless access point) testing server 103 closes test environment, access point configuration module 302 closes test environment, and configuration result is returned Security in WLAN energy test platform 101.

Specifically, as shown in Figure 1, this Security in WLAN energy test macro comprises Security in WLAN energy test platform 101, wireless device test envelope 102, WAP (wireless access point) testing server 103, security performance testing server 104, Security in WLAN energy test platform 101 is as this system master platform, first wireless device 105 to be measured connects wireless device test envelope 102, then register at Security in WLAN energy test platform 101, combining wireless testing of equipment bed 102 extraction equipment information simultaneously, by Security in WLAN energy test platform 101, wireless device test envelope 102 and WAP (wireless access point) testing server 103 carry out security protocol airworthiness compliance according to workflow to wireless device 105 to be measured, by Security in WLAN energy test platform 101, wireless device test envelope 102, WAP (wireless access point) testing server 103 and security performance testing server 104 carry out device protocol safety test according to workflow to wireless device 105 to be measured, finally provide security performance assessing report by Security in WLAN energy test platform 101.

As shown in Figure 2, this figure mainly Security in WLAN energy test platform 101 module declaration, wireless device test envelope 102 module declaration and Security in WLAN energy test platform and wireless device test envelope interface 106 illustrate, Security in WLAN energy test platform 101 comprises account management 201, project management 202, Reports Administration 203, helps the 5 modules such as explanation 204 and equipment control 205, and wherein equipment control 205 comprises facility registration 206, device protocol safety test 207 and security protocol airworthiness compliance 208; Wireless device test envelope 102 comprises configuration module 209, socket communication module 210 and functional module 211.Security in WLAN energy test platform and wireless device test envelope interface 106 function comprise Telnet wireless device test envelope and send socket instruction to wireless device test envelope and realize that network connectivty is tested, security protocol airworthiness compliance.

As shown in Figure 3, this figure mainly Security in WLAN energy test platform 101 module declaration, WAP (wireless access point) testing server 103 module declaration and Security in WLAN energy test platform and WAP (wireless access point) testing server interface 107 illustrate, WAP (wireless access point) testing server 103 comprises channel configuration module 301 and access point configuration module 302, and Security in WLAN energy test platform and WAP (wireless access point) testing server interface 107 function comprise configurating channel parameter, start test environment and close test environment.

As shown in Figure 4, this figure mainly Security in WLAN energy test platform 101 module declaration, security performance testing server 104 module declaration and Security in WLAN energy test platform and security performance testing server interface 108 illustrate, security performance testing server 104 comprises vulnerability analysis module 401 and testing permeability module 402, and Security in WLAN energy test platform and security performance testing server interface 108 function comprise to be called vulnerability analysis function and calls permeability analysis function.

Specific implementation method is introduced in detail below in conjunction with Security in WLAN energy test platform 101, wireless device test envelope 102, WAP (wireless access point) testing server 103, security performance testing server 104 and Security in WLAN energy test platform and wireless device test envelope interface 106, Security in WLAN energy test platform and WAP (wireless access point) testing server interface 107, Security in WLAN energy test platform and security performance testing server interface 108.

As shown in Figure 1, this Security in WLAN energy test macro comprises Security in WLAN energy test platform 101, wireless device test envelope 102, WAP (wireless access point) testing server 103, security performance testing server 104, first wireless device 105 to be measured is needed to be installed to wireless device test envelope 102 before test, need the agreement that safety certificate is verified, corresponding certificate should be installed inside wireless device test envelope 102.

As Fig. 2, shown in Fig. 3, wireless device 105 to be measured is installed to wireless device test envelope 102, first wireless adapter is installed drive, then in Security in WLAN energy test platform 101 equipment control 205, facility registration 206 is carried out, first facility registration 206 needs the manufacturer of filling in wireless device 105 to be measured, model, the information such as device type, then be remotely logged into wireless device test envelope 102 by Security in WLAN energy test platform and wireless device test envelope interface 106 to run configuration module 209 and carry out facility information configuration, Security in WLAN energy test platform 101 sends extraction equipment information command, socket communication module 210 receives calling functional modules 211 extraction equipment information after instruction, then facility information is returned to Security in WLAN energy test platform 101 stored in database by socket communication module 210, last Security in WLAN energy test platform 101 detects wireless channel environment, send configurating channel parameter to wireless access point server 103, channel configuration module 301 carries out channel parameter configuration to institute's protocols having script file, and configuration result is returned to Security in WLAN energy test platform 101.

As shown in Figure 2 and Figure 3, after wireless device 105 to be measured carries out facility registration 206, carry out security protocol airworthiness compliance, login user selects required indentification protocol at Security in WLAN energy test platform 101, then carries out security protocol airworthiness compliance one by one successively for selection protocol.First, Security in WLAN energy test platform 101 is sent to WAP (wireless access point) testing server 103 by Security in WLAN energy test platform and WAP (wireless access point) testing server interface 107 and starts test environment instruction, after access point configuration module 302 receives instruction, according to instruction, startup test environment is carried out to appointment security protocol, and startup result is returned to Security in WLAN energy test platform 101; Then be remotely logged into wireless device test envelope 102 by Security in WLAN energy test platform and wireless device test envelope interface 106 and wireless device 105 to be measured is accessed test environment, Security in WLAN energy test platform 101 sends checking instruction to wireless device test envelope 102, socket communication module 210 receives instruction calls functional module 211, and result is returned to Security in WLAN energy test platform 101; Finally, Security in WLAN energy test platform 101 is sent to WAP (wireless access point) testing server 103 by Security in WLAN energy test platform and WAP (wireless access point) testing server interface 107 and closes test environment instruction, after access point configuration module 302 receives instruction, according to instruction, closedown test environment is carried out to appointment security protocol, and closedown result is returned to Security in WLAN energy test platform 101.

As shown in Figure 2, Figure 3, Figure 4, after wireless device 105 to be measured carries out security protocol airworthiness compliance, carry out device protocol safety test, login user selects required test protocol at Security in WLAN energy test platform 101, then carries out device protocol safety test one by one successively for selection protocol.Vulnerability analysis is carried out to wireless device 105 to be measured, Security in WLAN energy test platform 101 calls vulnerability analysis function by Security in WLAN energy test platform and security performance testing server interface 108, vulnerability analysis module 401 carries out vulnerability analysis to wireless device 105 to be measured, and vulnerability analysis report is returned to Security in WLAN energy test platform 101 stored in database.Permeability analysis is carried out to wireless device 105 to be measured, first, Security in WLAN energy test platform 101 is sent to WAP (wireless access point) testing server 103 by Security in WLAN energy test platform and WAP (wireless access point) testing server interface 107 and starts test environment instruction, after access point configuration module 302 receives instruction, according to instruction, startup test environment is carried out to appointment security protocol, and startup result is returned to Security in WLAN energy test platform 101; Then be remotely logged into wireless device test envelope 102 by Security in WLAN energy test platform and wireless device test envelope interface 106 and wireless device 105 to be measured is accessed test environment; Then Security in WLAN energy test platform 101 sends to wireless device test envelope 102 and starts network connectivty test instruction, socket communication module 210 receives instruction calls functional module 211, and result is returned to Security in WLAN energy test platform 101; Then, Security in WLAN energy test platform 101 calls testing permeability function by Security in WLAN energy test platform and security performance testing server interface 108, testing permeability module 402 carries out testing permeability to wireless device 105 to be measured, and test is informed Security in WLAN energy test platform 101; After testing permeability terminates, Security in WLAN energy test platform 101 sends to wireless device test envelope 102 and terminates network connectivty test instruction, socket communication module 210 receives instruction calls functional module 211, and result is returned to Security in WLAN energy test platform 101; Finally, Security in WLAN energy test platform 101 is sent to WAP (wireless access point) testing server 103 by Security in WLAN energy test platform and WAP (wireless access point) testing server interface 107 and closes test environment instruction, after access point configuration module 302 receives instruction, according to instruction, closedown test environment is carried out to appointment security protocol, and closedown result is returned to Security in WLAN energy test platform 101.

Security in WLAN energy test macro completes after wireless device 105 facility registration 206 to be measured, device protocol safety test 207 and security protocol compliance test 208, the security performance assessing generated for wireless device 105 to be measured by Reports Administration 203 is reported, and this report can be exported html, word, pdf tri-kinds of formatted files.

As shown in Figure 5, overall workflow of the present invention is as follows:

1) super keeper logs in Security in WLAN energy test platform account management, registered user, distributes authority;

2) user logs in Security in WLAN energy test platform, and access arrangement manages;

3) facility registration is carried out by test platform;

4), after facility registration success, security protocol airworthiness compliance is carried out to equipment;

5), after checking terminates, device protocol safety test is carried out to equipment;

6) login user checks the safety evaluation report carrying out security protocol airworthiness compliance and device protocol safety test for this wireless device to be measured by Reports Administration.

As shown in Figure 6, facility registration specific works flow process of the present invention is as follows:

1) login user is registered by equipment control access arrangement;

2) fill in equipment essential information, select device type;

3) be remotely logged into wireless device test envelope, call configuration module device under test and be configured, Security in WLAN energy test platform extraction equipment information;

As shown in Figure 7, security protocol airworthiness compliance specific works flow process of the present invention is as follows:

1) login user selects required indentification protocol, carries out security protocol airworthiness compliance one by one successively for selection protocol;

2) by socket, Security in WLAN energy test platform informs that WAP (wireless access point) testing server starts test environment, and access point configuration module starts test environment, and configuration result is returned Security in WLAN energy test platform;

3) Security in WLAN energy test platform is remotely logged into wireless device test envelope, calls configuration module and deletes configuration information, then Devices to test is accessed the wireless test environment that WAP (wireless access point) testing server creates;

4) by socket, Security in WLAN energy test platform informs that wireless device test envelope carries out security protocol airworthiness compliance, wireless device test envelope calling functional modules is verified, and calls socket communication module and the result is informed Security in WLAN energy test platform;

5) by socket, Security in WLAN energy test platform informs that WAP (wireless access point) testing server closes test environment, and access point configuration module closes test environment, and configuration result is returned Security in WLAN energy test platform;

As shown in Figure 8, device protocol safety test specific works flow process of the present invention is as follows:

1) by socket, Security in WLAN energy test platform informs that security performance testing server carries out vulnerability analysis, security performance testing server calls vulnerability analysis module and carries out vulnerability analysis to wireless device to be measured, and result is returned to Security in WLAN energy test platform;

2) login user selects required test protocol, carries out device protocol safety test one by one successively for selection protocol;

3) by socket, Security in WLAN energy test platform informs that WAP (wireless access point) testing server starts test environment, and access point configuration module starts test environment, and configuration result is returned Security in WLAN energy test platform;

4) Security in WLAN energy test platform is remotely logged into wireless device test envelope, calls configuration module and deletes configuration information, then Devices to test is accessed the wireless test environment that WAP (wireless access point) testing server creates;

5) by socket, Security in WLAN energy test platform informs that wireless device test envelope starts to carry out device protocol safety test, wireless device test envelope calling functional modules device under test starts network connectivty test, and calls socket communication module and inform that Security in WLAN energy test platform starts to carry out network connectivty test;

6) by socket, Security in WLAN energy test platform informs that security performance testing server carries out testing permeability, security performance testing server calls testing permeability module and tests, and informs Security in WLAN energy test platform after testing permeability terminates;

7) Security in WLAN energy test platform is after testing permeability terminates, inform that wireless device test envelope terminates device protocol safety test by socket, wireless device test envelope calling functional modules extracts network connectivty test result, and calls socket communication module and test result is informed Security in WLAN energy test platform;

By socket, Security in WLAN energy test platform informs that WAP (wireless access point) testing server closes test environment, access point configuration module closes test environment, and configuration result is returned Security in WLAN energy test platform.

The foregoing is only better embodiment of the present invention; protection scope of the present invention is not limited with above-mentioned execution mode; in every case those of ordinary skill in the art modify or change according to the equivalence that disclosed content is done, and all should include in the protection range recorded in claims.

Claims (6)

1. a Security in WLAN energy test macro, is characterized in that: this system comprises Security in WLAN energy test platform (101), wireless device test envelope (102), WAP (wireless access point) testing server (103) and security performance testing server (104); Wherein,

Wireless device test envelope (102), WAP (wireless access point) testing server (103) are communicated with by cable LAN with security performance testing server (104);

Security in WLAN energy test platform (101) respectively by wireless device test envelope interface (106), WAP (wireless access point) testing server interface (107), Security in WLAN energy test platform and security performance testing server interface (108), communicates with security performance testing server (104) with wireless device test envelope (102), WAP (wireless access point) testing server (103) in local area network (LAN);

Security in WLAN energy test platform (101), communicate with wireless device test envelope interface (106), wireless device to be measured (105) is configured, sends extraction equipment information, beginning network connectivty is tested, terminate the instruction of network connectivty test and security protocol airworthiness compliance;

Security in WLAN energy test platform (101), communicates with WAP (wireless access point) testing server interface (107), carries out channel parameter configuration and access point configuration to wireless test environment;

Security in WLAN energy test platform (101), communicates with security performance testing server interface (108), carries out vulnerability analysis and testing permeability to wireless device to be measured (105);

Wireless device test envelope (102), for wireless device to be measured (105) configuration, coordinates WAP (wireless access point) testing server (103) and security performance testing server (104) to complete security protocol airworthiness compliance and device protocol safety test;

WAP (wireless access point) testing server (103), for channel parameter configuration and access point configuration, coordinates wireless device test envelope (102) and security performance testing server (104) to complete security protocol airworthiness compliance and device protocol safety test;

Security performance testing server (104), for vulnerability analysis and testing permeability, coordinates wireless device test envelope (102) and WAP (wireless access point) testing server (103) to complete security protocol airworthiness compliance and device protocol safety test.

2. Security in WLAN energy test macro according to claim 1, it is characterized in that: described Security in WLAN energy test platform (101) comprising: account management (201), project management (202), Reports Administration (203), help (204) are described, equipment control (205), facility registration (206), device protocol safety test (207), security protocol airworthiness compliance (208);

Account management (201), for managed wireless local area network security performance test platform (101) account, uses this test macro to carry out test job according to authority;

Project management (202), for management equipment protocol security testing (207), modifies to test result or deletes;

Reports Administration (203), for Administrative Security agreement airworthiness compliance (208) and device protocol safety test (207) module results, and the facility information that bonding apparatus registration (206) stores carries out report generation and management;

Help (204) to be described, for Security in WLAN energy test platform (101) operating instruction;

Equipment control (205), for management equipment registration (206), security protocol airworthiness compliance (208) and device protocol safety test (207), the registration of finishing equipment and safety test work;

Facility registration (206), for during extraction equipment information and wireless device test envelope interface (106) call configuration module (209) equipment be configured;

Security protocol airworthiness compliance (208), for calling socket communication module (210) and functional module (211) carries out security protocol airworthiness compliance to equipment;

Device protocol safety test (207), for calling socket communication module (210) and functional module (211) carries out the test of start/end network connectivty to equipment.

3. Security in WLAN energy test macro according to claim 1, it is characterized in that: described wireless device test envelope (102) comprising: configuration module (209), socket communication module (210) and functional module (211), wherein

Configuration module (209), for completing the configuration feature to wireless device to be measured (105);

Socket communication module (210), for completing instruction between wireless device test envelope (102) and Security in WLAN energy test platform (101) and information interaction, and according to instruction calls specific functional modules (211);

Functional module (211), for completing the function from socket communication module (210) instruction.

4. Security in WLAN energy test macro according to claim 1, it is characterized in that: described WAP (wireless access point) testing server (103) comprising: channel configuration module (301) and access point configuration module (302), wherein

Channel configuration module (301), for receiving the configuration-direct from Security in WLAN energy test platform (101), and completes the configuration to test protocol configuration script file;

Access point configuration module (302), for receiving the startup/closedown wireless test environmental directives from Security in WLAN energy test platform (101), and completes startup or the closedown of respective environment.

5. Security in WLAN energy test macro according to claim 1, it is characterized in that: described security performance testing server (104) comprising: vulnerability analysis module (401) and testing permeability module (402), wherein

Vulnerability analysis module (401), for calling to vulnerability analysis function the vulnerability analysis realized wireless device to be measured (105);

Testing permeability module (402), for calling to testing permeability function the testing permeability realized wireless device to be measured (105).

6. a Security in WLAN energy method of testing, is characterized in that: the method comprises the following steps:

Step 1: keeper logs in the account management (201) of Security in WLAN energy test platform (101), registered user, distributes authority;

Step 2: user logs in Security in WLAN energy test platform (101), carries out equipment control;

Step 3: user carries out facility registration;

Step 4: user carries out security protocol airworthiness compliance to wireless device to be measured (105) after carrying out facility registration success;

Step 5: after checking terminates, device protocol safety test is carried out to wireless device to be measured (105);

Step 6: login user checks the safety evaluation report carrying out security protocol airworthiness compliance and device protocol safety test for this wireless device to be measured (105) by Reports Administration (203);

Wherein:

In this step 3, facility registration comprises the following steps:

Step 31: login user is by equipment control (205) access arrangement registration (206);

Step 32: fill in equipment essential information, selects device type;

Step 33: be remotely logged into wireless device test envelope (102), call configuration module (209) to be configured wireless device to be measured (105), Security in WLAN energy test platform (101) extraction equipment information;

In step 4, security protocol airworthiness compliance comprises the following steps:

Step 41: login user selects the agreement of required checking, carries out security protocol airworthiness compliance (208) one by one successively for selection protocol;

Step 42: by socket, Security in WLAN energy test platform (101) informs that WAP (wireless access point) testing server (103) starts test environment, access point configuration module (302) starts test environment, and configuration result is returned Security in WLAN energy test platform (101);

Step 43: Security in WLAN energy test platform (101) is remotely logged into wireless device test envelope (102), call configuration module (209) and delete configuration information, then wireless device to be measured (105) is accessed the wireless test environment that WAP (wireless access point) testing server (103) creates;

Step 44: by socket, Security in WLAN energy test platform (101) informs that wireless device test envelope (102) carries out security protocol airworthiness compliance, wireless device test envelope (102) calling functional modules (211) is verified, and calls socket communication module (210) and the result is informed Security in WLAN energy test platform (101);

Step 45: by socket, Security in WLAN energy test platform (101) informs that WAP (wireless access point) testing server (103) closes test environment, access point configuration module (302) closes test environment, and configuration result is returned Security in WLAN energy test platform (101);

In step 5, device protocol safety test comprises the following steps:

Step 51: by socket, Security in WLAN energy test platform (101) informs that security performance testing server (104) carries out vulnerability analysis, security performance testing server (104) calls vulnerability analysis module (401) and carries out vulnerability analysis to wireless device to be measured (105), and result is returned to Security in WLAN energy test platform (101);

Step 52: login user selects required test protocol, carries out device protocol safety test one by one successively for selection protocol;

Step 53: by socket, Security in WLAN energy test platform (101) informs that WAP (wireless access point) testing server (103) starts test environment, access point configuration module (302) starts test environment, and configuration result is returned Security in WLAN energy test platform (101);

Step 54: Security in WLAN energy test platform (101) is remotely logged into wireless device test envelope (102), call configuration module (209) and delete configuration information, then wireless device to be measured (105) is accessed the wireless test environment that WAP (wireless access point) testing server (103) creates;

Step 55: by socket, Security in WLAN energy test platform (101) informs that wireless device test envelope (102) starts to carry out device protocol safety test (207), wireless device test envelope (102) calling functional modules (211) starts network connectivty test to wireless device to be measured (105), and calls socket communication module (210) and inform that Security in WLAN energy test platform (101) starts to carry out network connectivty test;

Step and 56: by socket, Security in WLAN energy test platform (101) informs that security performance testing server (104) carries out testing permeability, security performance testing server (104) calls testing permeability module (402) and tests, and informs Security in WLAN energy test platform (101) after testing permeability terminates;

Step 57: Security in WLAN energy test platform (101) is after testing permeability terminates, inform that wireless device test envelope (102) terminates device protocol safety test (207) by socket, wireless device test envelope (102) calling functional modules (211) extracts network connectivty test result, and calls socket communication module (210) and test result is informed Security in WLAN energy test platform (101);

Step 58: by socket, Security in WLAN energy test platform (101) informs that WAP (wireless access point) testing server (103) closes test environment, access point configuration module (302) closes test environment, and configuration result is returned Security in WLAN energy test platform (101).