US20080256624A1 - Systems and method for distributed network protection - Google Patents
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- US20080256624A1 US20080256624A1 US12/144,008 US14400808A US2008256624A1 US 20080256624 A1 US20080256624 A1 US 20080256624A1 US 14400808 A US14400808 A US 14400808A US 2008256624 A1 US2008256624 A1 US 2008256624A1
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/02—Network architectures or network communication protocols for network security for separating internal from external traffic, e.g. firewalls
- H04L63/0227—Filtering policies
- H04L63/0236—Filtering by address, protocol, port number or service, e.g. IP-address or URL
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/14—Network architectures or network communication protocols for network security for detecting or protecting against malicious traffic
- H04L63/1408—Network architectures or network communication protocols for network security for detecting or protecting against malicious traffic by monitoring network traffic
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/14—Network architectures or network communication protocols for network security for detecting or protecting against malicious traffic
- H04L63/1441—Countermeasures against malicious traffic
Definitions
- the systems and methods of this invention relate to protecting distributed networks.
- the systems and methods of this invention relate to protecting distributed networks through an intrusion detection and analysis system.
- the nation's information infrastructure based a large part on the Internet, has become an integral part of normal business and is becoming critical to the national security of many countries.
- the intrusion into public and private networks by unauthorized individuals is a major problem for many entities.
- Foreign powers, and a variety of hackers, i.e., individuals or entities who attempt to obtain unauthorized access to one or more networks, or portions' of networks, to, for example, obtain information continue to develop systems and methods that, for example, interrupt communications, damage files, damage computer network systems, gain access to private information, and the like.
- Many tools, such as firewalls, passwords and network security schemes have been developed in an attempt to provide protection to various aspects of distributed networks.
- One of the exemplary problems associated with finding the hacker is the generally indirect nature of the unauthorized access attempt.
- a hacker will traverse through several hosts using them as conduits through which unauthorized access attempts are launched.
- the systems and methods of this invention are capable of detecting an unauthorized access attempt in real-time or near real-time and can then, for example, engage the hacker in a series of transactions through the conduits from the target to the original source of the hacker.
- Some of the exemplary steps needed for successful identification of the origin of the unauthorized access attempt are the detection, verification and information exchange with the hacker using, for example, embedded flags or a concealed program having a predetermined function.
- the origin of a unauthorized access attempt can be most effectively traced in real-time or near real-time, i.e., during the course of the unauthorized access attempt.
- hackers often use various methods to disguise the real origin of the unauthorized access attempt, there is still at least one fundamental requirement for any unauthorized access attempt to succeed that can be used for tracking its origin. Indeed, except for denial of service unauthorized access attempts, hacking by its very nature requires that the target system's response to unauthorized access attempting packets be received by the hacker directly or indirectly. This means that no matter how sophisticated any disguise mechanism is, the hacker has to make itself available to receive such a response. This premise can be used effectively for tracing an unauthorized access attempt.
- Unauthorized access attempt tracing can be performed, for example, autonomously, i.e., by one or more entities without implementing general surveillance over the internet.
- a concealed program can be embedded in the response to the origin of the unauthorized access attempt.
- a concealed program could act as a “worm” within the one or more computers from which the unauthorized access attempt originated.
- the program such as a Java ⁇ script, or other executable program, could cause the unauthorized access attempting station to validate the hostile attempt and, if the attempt is confirmed, secretly forward the real identification, such as an IP address, to the target station or some other predetermined destination(s).
- the real identification such as an IP address
- the page can contain an executable program which could be invisible to the hacker.
- a disguised request for confirming hostile intent could be included in such an HTML page.
- the target system does not employ a “user ID” feature
- a fake request for such a user ID could be made.
- a hacker confirms they are not familiar with the target system and that they are trying to enter the system in an unauthorized manner.
- the concealed program could then, for example, be triggered if a hacker enters any user ID.
- This concealed program could then instruct the hacker's computer, for example, to forward information regarding the hacker to a predetermined destination, such as a pre-programmed IP address. This information could then be forwarded, for example, to a law enforcement or other entity as appropriate.
- the autonomous method as described above may not produce the desired result.
- a more complex method for example, involving cooperative reporting systems can be used.
- This cooperative reporting system could require full cooperation between, for example, the national information infrastructure systems, and for example, the private and government information technology communities.
- a target station having confirmed an unauthorized access attempt, can include a flag concealed in the response to the hacker.
- participating nodes and conduit hosts throughout the distributed network will be supplied and updated with information relating to the unauthorized access attempt so that the participating nodes and conduit hosts can detect the passage of the flag and forward information regarding the passage of the flag to a predetermined destination.
- the long-range, i.e., multiple node traversed, unauthorized access attempts with many hops are vulnerable to flag detection at intermediate nodes, while closer range unauthorized access attempts are more vulnerable to direct detection.
- the systems and methods discussed herein at least overcome the need for general surveillance, which could be very difficult to perform and may compromise privacy in that all packets would be scanned.
- a general surveillance system would analyze packets flowing through one or more internet nodes in an effort to detect and track hackers attempting to access restricted portions of the network.
- the systems and methods of this invention help to maintain the privacy of private information since, for example, only information determined about one or more hackers can be forwarded to the appropriate entity such as law enforcement personnel. Thus, the integrity of the underlying data can be maintained.
- a retaliatory action or counter “hack” can be implemented if such a retaliatory action is launched in real-time or near real-time. Indeed, if a retaliatory action is launched after the original hack has been completed, the retaliatory action must deal with the defensive posture of the original hacking system. On the other hand, a hacker is most vulnerable to a retaliatory action during the unauthorized access attempt, since during the unauthorized access attempt the hacker has to substantially take down the originating system's defensive mechanisms. It is this weakness that allows a defensive system to perform a retaliatory action.
- an executable program could be embedded into a response returned to the hacker.
- the executable program could be a JAVA® program embedded into an HTML page.
- the information returned to the hacker could be any information that is capable of determining, identifying or obtaining information about the origin of the unauthorized access attempt.
- the executable program could contain, for example, codes similar to that found in a virus.
- the triggering mechanism could be, for example, based on one or more levels of verification to ensure the hostile intent of a hacker.
- a false request for a password can be made while the target system does not employ password-based security features.
- the hacker would have confirmed that they are not familiar with the protocols for the target system and therefore their access to it could be deemed unauthorized.
- responding to a password request could trigger the executable program which could, for example, alter the operation of one or more of the hacker's computer(s), query and forward information about the hacker's computers, or the like.
- aspects of the present invention relate to a protection system for a portion of a distributed network.
- an exemplary embodiment of the invention provides systems and methods for determining the origin of an unauthorized access attempt.
- a further aspect of the invention relates to determining an action responsive to an unauthorized access attempt.
- An additional aspect of the invention relates to providing a conduit through which a third party can communicate with an entity originating an unauthorized access attempt.
- An additional aspect of the invention relates to determining information forwarded to a hacker based on information associated with the intended target.
- An additional aspect of the invention relates to providing a communications link between a third party and a hacker while concealing the identity of the third party.
- An additional aspect of the invention relates to providing a restricted tunnel between a monitoring center and a hacker while concealing the identity of the monitoring center.
- FIG. 1 illustrates an exemplary embodiment of the network protection system according to this invention
- FIG. 2 illustrates a second exemplary embodiment of the network protection system according to this invention
- FIG. 3 is a functional block diagram illustrating an exemplary intrusion detection system according to this invention.
- FIG. 4 is a functional block diagram illustrating an exemplary analysis system according to this invention.
- FIG. 5 is a flowchart outlining an exemplary method of protecting a distributed network according to this invention.
- FIG. 6 is a flowchart outlining a second exemplary method for protecting a distributed network according to this invention.
- the systems and methods of this invention for example, deter unauthorized access attempts, i.e., hacks, by providing a method and infrastructure for determining the origin of the unauthorized access attempt, and having determined the origin, the ability to perform retaliatory actions.
- an intrusion detection system monitors information flow to one or more portions of a protected network. Upon detection of an unauthorized access attempt, an intrusion detection system can forward information regarding the intrusion attempt to an analysis system. The analysis system can verify that the unauthorized access attempt is a bona fide attempt and, if so, perform a number of tracing and/or retaliatory actions. For example, the analysis system can initiate a tracing procedure where an attempt is made to determine the origin of the unauthorized access attempt.
- the analysis system can forward information regarding the unauthorized access attempt to, for example, law enforcement personnel.
- the network protection system acting as a conduit, can act as a conduit allowing the law enforcement personnel to further communicate with the hacker via the targeted system.
- a third party such as the FBI.
- FIG. 1 illustrates an exemplary network protection system 100 .
- the network protection system 100 comprises an intrusion detection system 110 , an analysis system 120 , one or more targets 130 , a monitoring center 140 and one or more hackers 150 , all interconnected by one or more networks 10 and links 5 .
- the network protection system 100 can also be connected to one or more other distributed network protection systems and is scalable depending on the particular implementation.
- the hacker 150 is illustrated as a single entity, it should be appreciated that the hacker 150 can be one or more devices, computers or entities, and can be located at one or more geographic or virtual locations on a distributed network.
- FIG. 1 While the exemplary embodiments illustrated in FIG. 1 , and in FIG. 2 below, show the network protection systems 100 and 200 and associated components co-located, it is to be appreciated that the various components of the network protection system can be located at distant portions of a distributed network, such as a local area network, a wide area network, an intranet, and/or the Internet, or within a dedicated network protection system. Thus, it should be appreciated that the components of the network protection system can be combined into one device collocated on a particular node of a distributed network. Furthermore, it should be appreciated that for ease of illustration, that various functional components of the network protection system have been divided as illustrated in FIGS. 1 and 2 . However, any of the functional components illustrated in FIG. 1 or 2 can be combined without affecting the operation of the system. It will be appreciated from the following description, and for reasons of computational efficiency, the components of the network protection system can be arranged at any location within a distributed network without affecting the operation of the system.
- the links 5 can be a wired or wireless link or any other known or later developed element(s) that is capable of supplying and communicating electronic data to and from the connected elements.
- the network protection system can comprise one or more input devices (not shown) that can include, for example, a keyboard, a mouse, a speech to text converter, a stylus or the like.
- the input device can be any device capable of communicating information to the network protection system.
- the network protection system can comprise one or more display devices (not shown) such as a computer monitor, a display on a PDA, or any other device capable of displaying information to one or more users.
- the intrusion detection system 110 monitors communications to the one or more potential targets 130 .
- the intrusion detection system 110 can implement the systems and methods described in co-pending patent application Ser. No. 09,571,377 entitled “Method of Communications and Communication Network Intrusion Protection Method and Intrusion Attempt Detection System” filed May 15, 2000 and incorporated herein by reference in its entirety.
- the intrusion detection system 110 can use any method of monitoring communications to one or more portions of a protected network for detecting an unauthorized access attempt.
- the intrusion detection system 110 Upon detection of an unauthorized access attempt, for example, by the hacker 150 initiating an intrusion attempt to one or more targets 130 , the intrusion detection system 110 forwards information regarding the unauthorized access attempt to the analysis system 120 .
- the analysis system 120 can, optionally, commence logging of all communications with the hacker 150 and determine a responsive action. For example, the analysis system 120 can forward information regarding the unauthorized access attempt to one or more monitoring centers, such as those described in co-pending Ser. No. 09/867,442 as discussed above. Then, for example, based on instructions received from one or more monitoring centers 140 , the analysis system 120 , in cooperation with the intrusion detection system 110 , can engage the hacker 150 in an attempt to determine the origin of the unauthorized access attempt.
- the analysis system 120 in cooperation with the intrusion detection system 110 , can receive one or more of instructions, or other information aimed at communicating with or engaging the hacker 150 in an attempt to determine the location or origin of the unauthorized access attempt.
- the monitoring center 140 can covertly send information to the analysis system 120 which could, for example, remove the origin information of the monitoring center 140 , and forward the information, which would include the origin information of the original target, back to the hacker 150 .
- the hacker 150 it would appear as if communications were continuing with the one or more intended targets 130 .
- FIG. 2 illustrates a second exemplary embodiment of the network protection system.
- the system of FIG. 2 includes comparable components to those discussed above, in relation to FIG. 1 , and additionally a second intrusion detection system 170 that is capable of monitoring unauthorized access attempts that may occur within the protected network itself.
- the intrusion detection systems 110 and 170 are shown as separate functional blocks, it is to be appreciated that they can be combined into a single intrusion detection system that is capable of monitoring both internal communications within a protected network as well as communications received from one or more external origins.
- the hacker 160 may be internal to the protected network, such as a disgruntled employee, or other entity that may legitimately have access to other portions of the protected network.
- the intrusion detection system 170 can forward information regarding the unauthorized access attempt to the analysis system 120 . Similar to the embodiment described above, the analysis system 120 can perform an evaluation of the unauthorized access attempt and determine the validity of the unauthorized access attempt, and whether any retaliatory action need be taken. Since the location of the internal hacker 160 is probably known, the analysis system 120 can make a determination whether the nature of the unauthorized access attempt can be handled internally, or should be forwarded to, for example, the monitoring center 140 , such as a law enforcement entity, for further action. Then, comparable to the system described above in conjunction with FIG.
- the monitoring center 140 could commence communications with the internal hacker 160 , via the analysis system 120 and the intrusion detection system 170 , such that the internal hacker 160 is unaware that they are communicating with, for example, a law enforcement entity as opposed to one or more of the targets 130 .
- FIG. 3 illustrates an exemplary intrusion detection system 110 .
- the intrusion detection system 110 comprises an I/O interface 1100 , a controller 1110 , a memory 1120 , an intrusion detection module 1130 , and a communications management system 1140 , all interconnected by link 5 .
- the intrusion detection module 1130 upon receipt of one or more communications via the network 10 and link 5 , the intrusion detection module 1130 , in cooperation with the I/O interface 1100 , the controller 1110 and the memory 1120 determines the nature of the communication. If the communication is authorized, the intrusion detection system 1130 forwards the communication to its intended destination. However, if the intrusion detection system 1130 determines that the communication is an unauthorized access attempt, or appears to be an unauthorized access attempt, the intrusion detection module 1130 , in cooperation with the I/O interface 1100 , the controller 1110 and the memory 1120 , forwards, with the aid of the communications management system 1140 , the apparently unauthorized access attempt to the analysis system 1120 .
- communications management system 1140 cooperates with the analysis system 1120 , as described hereinafter, to facilitate acting as a conduit between the one or more external monitoring centers 140 and a hacker.
- communications management system 1140 is capable of forwarding modified information from one or more entities back to the apparent origin of the unauthorized access attempt.
- FIG. 4 illustrates an exemplary analysis system 120 .
- the analysis system 120 comprises an I/O interface 1200 , a controller 1210 , a memory 1220 , a database 1230 , an intrusion analysis module 1240 and an intrusion reaction coordination system 1250 , all interconnected by link 5 . Additionally, the analysis system 120 can be connected to one or more distributed networks 10 which can, for example, be connected to one or more monitoring centers 140 .
- the analysis system 120 receives information forwarded by the intrusion detection system 110 that has been determined to possibly be an unauthorized access attempt.
- the intrusion analysis system 1240 in cooperation with the I/O interface 1200 , the controller 1210 , the memory 1220 , and optionally using hacker information stored in database 1230 , determines the authenticity of the unauthorized access attempt.
- the database 1230 can contain profiles of information related to one or more hackers, unauthorized access attempt origin information, or in general any information that can aid the intrusion analysis system 1240 in determining the accuracy of the detected unauthorized access attempt.
- the intrusion analysis module 1240 can query database 1230 to determine if perhaps the apparent unauthorized access attempt was simply an error in communications, such as a bit error, which may in actuality be an authorized user of the protected network. If the intrusion analysis system 1240 determines that the access attempt is legitimate, the intrusion analysis system can forward, directly, or for example, via link 5 and network 10 , an instruction to the intrusion detection module 1130 , with cooperation of the communications management system 1140 , that the user is authorized and to forward information from that user to the one or more intended destinations.
- the intrusion analysis module 1240 determines, based on, for example, historical profiles, previous unauthorized access attempts, or the like, that the access attempt is unauthorized, the intrusion analysis module 1240 cooperates with the intrusion reaction coordination system 1250 to determine an appropriate response and/or retaliatory action. For example, based on the number of previous unauthorized access attempts from this hacker, the nature of the unauthorized access attempt, such as destructiveness of the received packets, or the like, the intrusion reaction coordination system can determine whether forwarding information about the unauthorized access attempt to an outside entity, such as the monitoring center 140 is required.
- an analysis can be performed that weighs the information received by the intrusion detection system, historical information, source or destination port and/or IP address information, information received from, for example, a central repository that catalogs information related to unauthorized access attempts from one or more other protected networks, or the like, to determine whether a reaction is needed.
- the analysis can be based on a look-up table, a neural network analysis, a predetermined event sequence or the like. In general, any method can be used to determine a responsive action based on the verification that the access attempt was unauthorized.
- the intrusion reaction coordination system 1250 in cooperation with the I/O interface 1200 , the controller 1210 , the memory 1220 , and directly, or for example, via link 5 and the network 10 , can simply instruct the intrusion detection system 110 to simply block communications from that originating address(s) and/or communications that match one or more characteristics of the unauthorized access attempt.
- the intrusion reaction coordination system 1250 could optionally log information regarding the unauthorized access attempt to the database 1230 that can be used, for example, in the future, against a hack from the same entity. Furthermore, this information on an attempted access attempt can be forwarded to one or more other network protection systems or, for example, to one or more monitoring centers.
- the intrusion reaction coordination system 1250 determines that the nature of the unauthorized access attempt requires third party intervention, the intrusion reaction coordination system 1250 , directly, or for example, via links 5 and network 10 , can communicate with one or more monitoring centers 140 , for example, by forwarding an alarm indicating an unauthorized access attempt has been received.
- the intrusion reaction coordination system 1250 can coordinate with the monitoring center 140 to determine an appropriate retaliatory or responsive action.
- the monitoring center 140 may desire to engage or further communicate with the hacker 150 to, for example, build a stronger legal case against that entity.
- the monitoring center 140 cooperates with the analysis system 120 and the intrusion detection system 110 such that the analysis system 120 and intrusion detection system 110 act as a conduit for information forwarded from the monitoring center 140 .
- the analysis system 120 and the intrusion detection system 110 can strip away origin information, such as an IP address or the like, from the core information that was forwarded from the monitoring center 140 that is intended to communicate with or otherwise engage the hacker.
- This core information is then forwarded back to the hacker 150 including the origin address of the protected network, or, for example, the address of the target for which the unauthorized access attempt was directed.
- the network protection system can store information about which address the unauthorized access attempt was directed toward that can be used for the reactionary and/or retaliatory response.
- the hacker 150 is under the impression that they are still communicating with the protected network.
- the intrusion detection system 110 and the analysis system 120 act as a conduit for the monitoring center 140 .
- the communications between the protected network and the one or more monitoring centers 140 can occur over a wired or wireless network, a secure network, such as a private network, a direct connection, or could include standard protection techniques such as encryption, secure tunneling, or the like.
- the intrusion detection system 110 and the analysis system 120 can analyze the communication, determine the source information, such as header information, and remove that information from the communication leaving the core information.
- the address information such as header information, can be stored so that in the event communications with the hacker commence, such as a response to a password request, upon receipt of the response information from the hacker, the response information can be forwarded by the intrusion detection system 110 and the analysis system 120 to the appropriate destination, such as the monitoring center 140 .
- the intrusion detection system 110 and the analysis system 120 can work equally well in concealing the identity of one or more third parties, such as the monitoring center(s) 140 , from either an unauthorized access attempt originating from within, or external to, the protected network. Furthermore, since the intrusion detection system 110 and the analysis system 120 are regulating the information passed to the one or more third parties, the underlying content can be screened and, for example, sensitive information removed from the forwarded information thus, for example, preserving the confidentiality of the underlying content.
- a policy file can regulate the screening and removing of sensitive information such that, for example, all “content” or core information is removed or, for example, content having certain words, or originating from a predetermined location is screened and/or modified.
- the intrusion detection system 110 and the analysis system 120 can cooperate with the monitoring centers 140 to aid in unauthorized access attempt detection.
- the monitoring center(s) 140 can forward information regarding hackers to the intrusion detection system 110 and the analysis system 120 .
- the intrusion detection system 110 and the analysis system 120 can analyze access attempts to determine if they match a profile corresponding to one or more known hackers or have characteristics that correspond to one or more known hackers.
- the intrusion detection system 110 and the analysis system 120 can forward information to the monitoring center 140 such that, for example, a central database that maintains hacker information can be updated.
- FIG. 5 illustrates an exemplary method of the operation of an intrusion detection system.
- control begins in step S 100 and continues to step S 110 .
- step S 110 incoming communications are analyzed.
- step S 120 a determination is made whether the incoming communications are unauthorized. If the incoming communications are unauthorized, control continues to step S 130 . Otherwise, control jumps to step S 140 .
- step S 130 the unauthorized communications are redirected to an analysis system. Control then continues to step S 140 .
- step S 140 a determination is made whether the incoming communication has been received from the analysis system. If the incoming communication has been received from the analysis system, control continues to step S 150 . Otherwise, control jumps to step S 190 where the control sequence ends.
- step S 150 a determination is made whether the communication is to be forwarded to one or more particular addresses. If the communication from the analysis system is to be forwarded, control continues to step S 160 . Otherwise, control jumps to step S 170 .
- step S 160 communications are forwarded to the one or more specified destinations and/or modified and forwarded to appear as if the communication is origination from a particular destination. Control then continues to step S 170 .
- step S 170 a determination is made as to whether the operation of the intrusion detection system is to be updated. If the operation is to be updated, control continues to step S 180 . Otherwise, control jumps to step S 190 , where the control sequence ends.
- step S 180 the operation of the intrusion detection system can be updated, for example, by modifying the techniques used to detect unauthorized access, by reconfiguring traffic management, blocking all or a portion of incoming traffic, for example, from one or more addresses, or the like. Control then continues to step S 190 .
- FIG. 6 illustrates an exemplary method of the operation of an analysis system.
- control begins in step S 200 and continues to step S 210 .
- step S 210 an attempt is made to verify that the unauthorized access attempt is in fact unauthorized.
- step S 220 if the access attempt is unauthorized, control continues to step S 230 . Otherwise, control jumps to step S 225 where instructions can be forwarded to the intrusion detection system. Control then continues to step S 290 where the control sequence ends.
- step S 230 logging of all communications with the protected network can optionally begin. Then, in step S 240 a determination is made whether the unauthorized access attempt is originating from within the protected network. If the unauthorized access attempt is originating from within the protected network, control continues to step S 250 . Otherwise, control jumps to step S 270 .
- step S 250 a determination is made whether the internal unauthorized access attempt will be handled internally to the protected network. If the internal unauthorized access attempt will be handled internally, control continues to step S 260 . Otherwise, control jumps to step S 270 .
- step S 260 a response to the internal unauthorized access attempt is initiated.
- the offending employee can be reprimanded, or the like. Control then continues to step S 290 .
- step S 270 information regarding the unauthorized access attempt is forwarded to one or more information centers. Then, in step S 280 , instructions received from the one or more monitoring centers are processed and implemented. Control then continues to step S 290 where the control sequence ends.
- the network protection system can be implemented either on a single programmed general purpose computer or a separate programmed general purpose computer. However, the network protection system can also be implemented on a special purpose computer, a programmed microprocessor or microcontroller and peripheral integrated circuit element, an ASIC or other integrated circuit, a digital signal processor, a hardwired electronic or logic circuit, such as a discrete element circuit, a programmable logic device such as a PLD, PLA, FPGA, PAL, or the like. In general, any device capable of implementing a finite state machine that is in turn capable of implementing the flowcharts in FIGS. 5-6 can be used to implement the network protection system according to this invention.
- the disclosed method may be readily implemented in software using object or object-oriented software development environments that provide portable source code that can be used on a variety of computer or workstation hardware platforms.
- the disclosed distributed network protection system may be implemented partially or fully in hardware using standard logic circuits or VLSI design. Whether hardware or software is used to implement the systems and methods in accordance with this invention is dependent on the speed and/or efficiency requirements of the system, the particular function, and the particular software and/or hardware systems or microprocessor or microcomputer systems being utilized.
- the network protection system illustrated herein can be readily implemented in hardware and/or software using any known or later-developed systems or structures, devices and/or software by those of ordinary skill in the applicable art from the functional description provided herein and with a general basic knowledge of the computer arts.
- the disclosed methods may be readily implemented as software executed on a programmed general purpose computer, a special purpose computer, a microprocessor or the like.
- the methods and systems of this invention can be implemented as a program embedded in a personal computer, a piece of executable code, or the like, such as a Java® or CGI script, as an cookie, as a resource residing on a server or graphics workstation, as a routine embedded in a dedicated network protection system, or the like.
- the network protection system can also be implemented by physically incorporating the systems and methods into a hardware and/or software system, such as the hardware and software systems of a computer or dedicated network protection system.
Abstract
Through the use of an intermediate party, a first party is given the ability to communicate with a second party, with the communication appearing as if it originated with the intermediate party. Specifically, in a protected network system, the protected network is capable of acting as a conduit through which an entity, such as law enforcement, can communicate with an entity attempting an unauthorized access attempt unbeknownst to the entity attempting the unauthorized access attempt. This allows, for example, the detection and identification of the entity attempting the unauthorized access attempt.
Description
- The present invention is a continuation of U.S. patent application Ser. No. 09/925,503, filed Aug. 10, 2001, now allowed, which claims benefit of U.S. Provisional Application Ser. No. 60,226,088 entitled “Cyber Hacking Unauthorized Access Attempt Tracing and Retaliation Methods and Systems,” filed Aug. 18, 2000, and is related to U.S. patent application Ser. No. 09/867,442 entitled “Systems and Methods for Distributed Network Protection,” filed May 31, 2001, now U.S. Pat. No. 7,089,303, the disclosures of which are hereby incorporated by reference herein in their entirety.
- 1. Field of the Invention
- In general, the systems and methods of this invention relate to protecting distributed networks. In particular, the systems and methods of this invention relate to protecting distributed networks through an intrusion detection and analysis system.
- 2. Description of Related Art
- The nation's information infrastructure, based a large part on the Internet, has become an integral part of normal business and is becoming critical to the national security of many countries. The intrusion into public and private networks by unauthorized individuals is a major problem for many entities. Foreign powers, and a variety of hackers, i.e., individuals or entities who attempt to obtain unauthorized access to one or more networks, or portions' of networks, to, for example, obtain information, continue to develop systems and methods that, for example, interrupt communications, damage files, damage computer network systems, gain access to private information, and the like. Many tools, such as firewalls, passwords and network security schemes have been developed in an attempt to provide protection to various aspects of distributed networks.
- The recent increase in frequency, intensity and sophistication of unauthorized access attempts combined with their potential power warrant not only protective efforts, but also implementation of a technology capable of tracing and possible retaliatory responses to such unauthorized access attempts. For example, it becomes a particularly important issue in regard to unauthorized access attempts on military computer systems and systems maintaining sensitive data. The importance of such a technology is amplified by the notion that, for example, the ability to perform tracing and retaliation should become a substantial deterrent for launching the unauthorized access attempts in the first place.
- Existing systems and methods are not particularly effective to a large extent because of their retrospective nature. In particular, most existing systems and methods employ difficult and labor intensive investigative techniques that provide a history of the unauthorized access attempt. Furthermore, tracing an origin of a an unauthorized access attempt, i.e., a hack, after the attempt has ended becomes difficult with the increasing sophistication of the hackers who employ effective techniques to conceal their identities and camouflage the origin of the unauthorized access attempt.
- One of the exemplary problems associated with finding the hacker is the generally indirect nature of the unauthorized access attempt. Usually a hacker will traverse through several hosts using them as conduits through which unauthorized access attempts are launched. The systems and methods of this invention are capable of detecting an unauthorized access attempt in real-time or near real-time and can then, for example, engage the hacker in a series of transactions through the conduits from the target to the original source of the hacker. Some of the exemplary steps needed for successful identification of the origin of the unauthorized access attempt are the detection, verification and information exchange with the hacker using, for example, embedded flags or a concealed program having a predetermined function.
- As discussed above, the origin of a unauthorized access attempt can be most effectively traced in real-time or near real-time, i.e., during the course of the unauthorized access attempt. While hackers often use various methods to disguise the real origin of the unauthorized access attempt, there is still at least one fundamental requirement for any unauthorized access attempt to succeed that can be used for tracking its origin. Indeed, except for denial of service unauthorized access attempts, hacking by its very nature requires that the target system's response to unauthorized access attempting packets be received by the hacker directly or indirectly. This means that no matter how sophisticated any disguise mechanism is, the hacker has to make itself available to receive such a response. This premise can be used effectively for tracing an unauthorized access attempt.
- Unauthorized access attempt tracing can be performed, for example, autonomously, i.e., by one or more entities without implementing general surveillance over the internet. In this case, when an unauthorized access attempt is detected and confirmed as a hostile act, a concealed program can be embedded in the response to the origin of the unauthorized access attempt. Then, for example, when the hacker receives the target station's response, a concealed program could act as a “worm” within the one or more computers from which the unauthorized access attempt originated. For example, the program, such as a Java© script, or other executable program, could cause the unauthorized access attempting station to validate the hostile attempt and, if the attempt is confirmed, secretly forward the real identification, such as an IP address, to the target station or some other predetermined destination(s).
- In other words, for example, in the case of an HTML page being sent as a response to an unauthorized access attempt, the page can contain an executable program which could be invisible to the hacker. Additionally, a disguised request for confirming hostile intent could be included in such an HTML page. For example, if the target system does not employ a “user ID” feature, a fake request for such a user ID could be made. By the act of attempting to enter a user ID, a hacker confirms they are not familiar with the target system and that they are trying to enter the system in an unauthorized manner. The concealed program could then, for example, be triggered if a hacker enters any user ID. This concealed program could then instruct the hacker's computer, for example, to forward information regarding the hacker to a predetermined destination, such as a pre-programmed IP address. This information could then be forwarded, for example, to a law enforcement or other entity as appropriate.
- In some instances, the autonomous method as described above may not produce the desired result. In such instances, a more complex method, for example, involving cooperative reporting systems can be used. This cooperative reporting system could require full cooperation between, for example, the national information infrastructure systems, and for example, the private and government information technology communities. Using this method, a target station, having confirmed an unauthorized access attempt, can include a flag concealed in the response to the hacker. Then, participating nodes and conduit hosts throughout the distributed network will be supplied and updated with information relating to the unauthorized access attempt so that the participating nodes and conduit hosts can detect the passage of the flag and forward information regarding the passage of the flag to a predetermined destination. This way, even though a hacker may have removed the origin the unauthorized access attempt several steps from the target by using, for example, intermediate computing systems, the hacker still would need to receive the packet. In other words, no matter how many intermediate steps the hacker uses, or what method of communication is used, the flag packet would still reach the hacker and could trigger reporting highlighting the path to the hacker. In fact, the more steps the hacker takes to disguise the origin, the more the hacker increases the chance of detection through exposure at multiple nodes and/or conduits between the target and the origin of the unauthorized access attempt. These two methods, when used in conjunction, can cover a broad spectrum of hacks. The long-range, i.e., multiple node traversed, unauthorized access attempts with many hops are vulnerable to flag detection at intermediate nodes, while closer range unauthorized access attempts are more vulnerable to direct detection. The systems and methods discussed herein at least overcome the need for general surveillance, which could be very difficult to perform and may compromise privacy in that all packets would be scanned. Specifically, a general surveillance system would analyze packets flowing through one or more internet nodes in an effort to detect and track hackers attempting to access restricted portions of the network. Additionally, the systems and methods of this invention help to maintain the privacy of private information since, for example, only information determined about one or more hackers can be forwarded to the appropriate entity such as law enforcement personnel. Thus, the integrity of the underlying data can be maintained.
- In conjunction with determining the origin of the hack, a retaliatory action, or counter “hack” can be implemented if such a retaliatory action is launched in real-time or near real-time. Indeed, if a retaliatory action is launched after the original hack has been completed, the retaliatory action must deal with the defensive posture of the original hacking system. On the other hand, a hacker is most vulnerable to a retaliatory action during the unauthorized access attempt, since during the unauthorized access attempt the hacker has to substantially take down the originating system's defensive mechanisms. It is this weakness that allows a defensive system to perform a retaliatory action.
- For example, when a decision to retaliate, such as a “counter hack,” has been approved by the appropriate entity, such as law enforcement personnel, the retaliatory action could be performed in the following exemplary manner. Similar to the process described above, an executable program could be embedded into a response returned to the hacker. For example, the executable program could be a JAVA® program embedded into an HTML page. However, in general, the information returned to the hacker could be any information that is capable of determining, identifying or obtaining information about the origin of the unauthorized access attempt. The executable program could contain, for example, codes similar to that found in a virus. The triggering mechanism could be, for example, based on one or more levels of verification to ensure the hostile intent of a hacker. For example, a false request for a password can be made while the target system does not employ password-based security features. By entering any password, or otherwise responding to a request, the hacker would have confirmed that they are not familiar with the protocols for the target system and therefore their access to it could be deemed unauthorized. Simultaneously, for example, responding to a password request could trigger the executable program which could, for example, alter the operation of one or more of the hacker's computer(s), query and forward information about the hacker's computers, or the like.
- Accordingly, aspects of the present invention relate to a protection system for a portion of a distributed network. In particular, an exemplary embodiment of the invention provides systems and methods for determining the origin of an unauthorized access attempt.
- A further aspect of the invention relates to determining an action responsive to an unauthorized access attempt.
- An additional aspect of the invention relates to providing a conduit through which a third party can communicate with an entity originating an unauthorized access attempt.
- An additional aspect of the invention relates to determining information forwarded to a hacker based on information associated with the intended target.
- An additional aspect of the invention relates to providing a communications link between a third party and a hacker while concealing the identity of the third party.
- An additional aspect of the invention relates to providing a restricted tunnel between a monitoring center and a hacker while concealing the identity of the monitoring center.
- These and other features and advantages of this invention are described in or are apparent from the following detailed description of the embodiments.
- The embodiments of the invention will be described in detail, with reference to the following figures wherein:
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FIG. 1 illustrates an exemplary embodiment of the network protection system according to this invention; -
FIG. 2 illustrates a second exemplary embodiment of the network protection system according to this invention; -
FIG. 3 is a functional block diagram illustrating an exemplary intrusion detection system according to this invention; -
FIG. 4 is a functional block diagram illustrating an exemplary analysis system according to this invention; -
FIG. 5 is a flowchart outlining an exemplary method of protecting a distributed network according to this invention; and -
FIG. 6 is a flowchart outlining a second exemplary method for protecting a distributed network according to this invention. - The systems and methods of this invention, for example, deter unauthorized access attempts, i.e., hacks, by providing a method and infrastructure for determining the origin of the unauthorized access attempt, and having determined the origin, the ability to perform retaliatory actions. For example, an intrusion detection system monitors information flow to one or more portions of a protected network. Upon detection of an unauthorized access attempt, an intrusion detection system can forward information regarding the intrusion attempt to an analysis system. The analysis system can verify that the unauthorized access attempt is a bona fide attempt and, if so, perform a number of tracing and/or retaliatory actions. For example, the analysis system can initiate a tracing procedure where an attempt is made to determine the origin of the unauthorized access attempt. Alternatively, for example, the analysis system can forward information regarding the unauthorized access attempt to, for example, law enforcement personnel. Then, acting as a conduit, the network protection system, according to an exemplary embodiment of the systems and methods of this invention, can act as a conduit allowing the law enforcement personnel to further communicate with the hacker via the targeted system. Thus, from the hacker's perspective, it appears that they are continuing to communicate with the target system, while in actuality, they are communicating with a third party, such as the FBI.
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FIG. 1 illustrates an exemplarynetwork protection system 100. Thenetwork protection system 100 comprises anintrusion detection system 110, ananalysis system 120, one ormore targets 130, amonitoring center 140 and one ormore hackers 150, all interconnected by one ormore networks 10 andlinks 5. Thenetwork protection system 100 can also be connected to one or more other distributed network protection systems and is scalable depending on the particular implementation. Additionally, while thehacker 150 is illustrated as a single entity, it should be appreciated that thehacker 150 can be one or more devices, computers or entities, and can be located at one or more geographic or virtual locations on a distributed network. - While the exemplary embodiments illustrated in
FIG. 1 , and inFIG. 2 below, show thenetwork protection systems FIGS. 1 and 2 . However, any of the functional components illustrated inFIG. 1 or 2 can be combined without affecting the operation of the system. It will be appreciated from the following description, and for reasons of computational efficiency, the components of the network protection system can be arranged at any location within a distributed network without affecting the operation of the system. - Furthermore, the
links 5 can be a wired or wireless link or any other known or later developed element(s) that is capable of supplying and communicating electronic data to and from the connected elements. - Additionally, the network protection system can comprise one or more input devices (not shown) that can include, for example, a keyboard, a mouse, a speech to text converter, a stylus or the like. In general, the input device can be any device capable of communicating information to the network protection system. Furthermore, the network protection system can comprise one or more display devices (not shown) such as a computer monitor, a display on a PDA, or any other device capable of displaying information to one or more users.
- In operation, the
intrusion detection system 110 monitors communications to the one or morepotential targets 130. For example, theintrusion detection system 110 can implement the systems and methods described in co-pending patent application Ser. No. 09,571,377 entitled “Method of Communications and Communication Network Intrusion Protection Method and Intrusion Attempt Detection System” filed May 15, 2000 and incorporated herein by reference in its entirety. However, in general, theintrusion detection system 110 can use any method of monitoring communications to one or more portions of a protected network for detecting an unauthorized access attempt. - Upon detection of an unauthorized access attempt, for example, by the
hacker 150 initiating an intrusion attempt to one ormore targets 130, theintrusion detection system 110 forwards information regarding the unauthorized access attempt to theanalysis system 120. Theanalysis system 120 can, optionally, commence logging of all communications with thehacker 150 and determine a responsive action. For example, theanalysis system 120 can forward information regarding the unauthorized access attempt to one or more monitoring centers, such as those described in co-pending Ser. No. 09/867,442 as discussed above. Then, for example, based on instructions received from one ormore monitoring centers 140, theanalysis system 120, in cooperation with theintrusion detection system 110, can engage thehacker 150 in an attempt to determine the origin of the unauthorized access attempt. For example, theanalysis system 120, in cooperation with theintrusion detection system 110, can receive one or more of instructions, or other information aimed at communicating with or engaging thehacker 150 in an attempt to determine the location or origin of the unauthorized access attempt. For example, themonitoring center 140 can covertly send information to theanalysis system 120 which could, for example, remove the origin information of themonitoring center 140, and forward the information, which would include the origin information of the original target, back to thehacker 150. Thus, to thehacker 150, it would appear as if communications were continuing with the one or moreintended targets 130. -
FIG. 2 illustrates a second exemplary embodiment of the network protection system. In particular, the system ofFIG. 2 includes comparable components to those discussed above, in relation toFIG. 1 , and additionally a secondintrusion detection system 170 that is capable of monitoring unauthorized access attempts that may occur within the protected network itself. However, while theintrusion detection systems hacker 160 may be internal to the protected network, such as a disgruntled employee, or other entity that may legitimately have access to other portions of the protected network. - In this exemplary embodiment, upon detection of an unauthorized access attempt from the
internal hacker 160, theintrusion detection system 170 can forward information regarding the unauthorized access attempt to theanalysis system 120. Similar to the embodiment described above, theanalysis system 120 can perform an evaluation of the unauthorized access attempt and determine the validity of the unauthorized access attempt, and whether any retaliatory action need be taken. Since the location of theinternal hacker 160 is probably known, theanalysis system 120 can make a determination whether the nature of the unauthorized access attempt can be handled internally, or should be forwarded to, for example, themonitoring center 140, such as a law enforcement entity, for further action. Then, comparable to the system described above in conjunction withFIG. 1 , themonitoring center 140 could commence communications with theinternal hacker 160, via theanalysis system 120 and theintrusion detection system 170, such that theinternal hacker 160 is unaware that they are communicating with, for example, a law enforcement entity as opposed to one or more of thetargets 130. -
FIG. 3 illustrates an exemplaryintrusion detection system 110. Theintrusion detection system 110 comprises an I/O interface 1100, acontroller 1110, amemory 1120, anintrusion detection module 1130, and acommunications management system 1140, all interconnected bylink 5. - Thus, upon receipt of one or more communications via the
network 10 andlink 5, theintrusion detection module 1130, in cooperation with the I/O interface 1100, thecontroller 1110 and thememory 1120 determines the nature of the communication. If the communication is authorized, theintrusion detection system 1130 forwards the communication to its intended destination. However, if theintrusion detection system 1130 determines that the communication is an unauthorized access attempt, or appears to be an unauthorized access attempt, theintrusion detection module 1130, in cooperation with the I/O interface 1100, thecontroller 1110 and thememory 1120, forwards, with the aid of thecommunications management system 1140, the apparently unauthorized access attempt to theanalysis system 1120. - Additionally, the
communications management system 1140 cooperates with theanalysis system 1120, as described hereinafter, to facilitate acting as a conduit between the one or more external monitoring centers 140 and a hacker. Thus,communications management system 1140 is capable of forwarding modified information from one or more entities back to the apparent origin of the unauthorized access attempt. -
FIG. 4 illustrates anexemplary analysis system 120. Theanalysis system 120 comprises an I/O interface 1200, acontroller 1210, amemory 1220, adatabase 1230, anintrusion analysis module 1240 and an intrusionreaction coordination system 1250, all interconnected bylink 5. Additionally, theanalysis system 120 can be connected to one or more distributednetworks 10 which can, for example, be connected to one or more monitoring centers 140. - In operation, the
analysis system 120 receives information forwarded by theintrusion detection system 110 that has been determined to possibly be an unauthorized access attempt. Theintrusion analysis system 1240, in cooperation with the I/O interface 1200, thecontroller 1210, thememory 1220, and optionally using hacker information stored indatabase 1230, determines the authenticity of the unauthorized access attempt. For example, thedatabase 1230 can contain profiles of information related to one or more hackers, unauthorized access attempt origin information, or in general any information that can aid theintrusion analysis system 1240 in determining the accuracy of the detected unauthorized access attempt. Similarly, theintrusion analysis module 1240 can querydatabase 1230 to determine if perhaps the apparent unauthorized access attempt was simply an error in communications, such as a bit error, which may in actuality be an authorized user of the protected network. If theintrusion analysis system 1240 determines that the access attempt is legitimate, the intrusion analysis system can forward, directly, or for example, vialink 5 andnetwork 10, an instruction to theintrusion detection module 1130, with cooperation of thecommunications management system 1140, that the user is authorized and to forward information from that user to the one or more intended destinations. - Alternatively, if the
intrusion analysis module 1240 determines, based on, for example, historical profiles, previous unauthorized access attempts, or the like, that the access attempt is unauthorized, theintrusion analysis module 1240 cooperates with the intrusionreaction coordination system 1250 to determine an appropriate response and/or retaliatory action. For example, based on the number of previous unauthorized access attempts from this hacker, the nature of the unauthorized access attempt, such as destructiveness of the received packets, or the like, the intrusion reaction coordination system can determine whether forwarding information about the unauthorized access attempt to an outside entity, such as themonitoring center 140 is required. For example, an analysis can be performed that weighs the information received by the intrusion detection system, historical information, source or destination port and/or IP address information, information received from, for example, a central repository that catalogs information related to unauthorized access attempts from one or more other protected networks, or the like, to determine whether a reaction is needed. For example, the analysis can be based on a look-up table, a neural network analysis, a predetermined event sequence or the like. In general, any method can be used to determine a responsive action based on the verification that the access attempt was unauthorized. - If it is determined that a responsive or retaliatory action is not required, the intrusion
reaction coordination system 1250, in cooperation with the I/O interface 1200, thecontroller 1210, thememory 1220, and directly, or for example, vialink 5 and thenetwork 10, can simply instruct theintrusion detection system 110 to simply block communications from that originating address(s) and/or communications that match one or more characteristics of the unauthorized access attempt. The intrusionreaction coordination system 1250 could optionally log information regarding the unauthorized access attempt to thedatabase 1230 that can be used, for example, in the future, against a hack from the same entity. Furthermore, this information on an attempted access attempt can be forwarded to one or more other network protection systems or, for example, to one or more monitoring centers. - Alternatively, if the intrusion
reaction coordination system 1250 determines that the nature of the unauthorized access attempt requires third party intervention, the intrusionreaction coordination system 1250, directly, or for example, vialinks 5 andnetwork 10, can communicate with one ormore monitoring centers 140, for example, by forwarding an alarm indicating an unauthorized access attempt has been received. - Then, for example, the intrusion
reaction coordination system 1250 can coordinate with themonitoring center 140 to determine an appropriate retaliatory or responsive action. For example, as discussed above, themonitoring center 140 may desire to engage or further communicate with thehacker 150 to, for example, build a stronger legal case against that entity. In this instance, themonitoring center 140, cooperates with theanalysis system 120 and theintrusion detection system 110 such that theanalysis system 120 andintrusion detection system 110 act as a conduit for information forwarded from themonitoring center 140. For example, theanalysis system 120 and theintrusion detection system 110 can strip away origin information, such as an IP address or the like, from the core information that was forwarded from themonitoring center 140 that is intended to communicate with or otherwise engage the hacker. This core information is then forwarded back to thehacker 150 including the origin address of the protected network, or, for example, the address of the target for which the unauthorized access attempt was directed. For example, the network protection system can store information about which address the unauthorized access attempt was directed toward that can be used for the reactionary and/or retaliatory response. Thus, thehacker 150 is under the impression that they are still communicating with the protected network. In this exemplary embodiment, theintrusion detection system 110 and theanalysis system 120 act as a conduit for themonitoring center 140. Nevertheless, it is to be appreciated that the communications between the protected network and the one ormore monitoring centers 140 can occur over a wired or wireless network, a secure network, such as a private network, a direct connection, or could include standard protection techniques such as encryption, secure tunneling, or the like. - For example, upon receipt of a communication from, for example, the
monitoring center 140, theintrusion detection system 110 and theanalysis system 120 can analyze the communication, determine the source information, such as header information, and remove that information from the communication leaving the core information. The address information, such as header information, can be stored so that in the event communications with the hacker commence, such as a response to a password request, upon receipt of the response information from the hacker, the response information can be forwarded by theintrusion detection system 110 and theanalysis system 120 to the appropriate destination, such as themonitoring center 140. - Thus, the
intrusion detection system 110 and theanalysis system 120 can work equally well in concealing the identity of one or more third parties, such as the monitoring center(s) 140, from either an unauthorized access attempt originating from within, or external to, the protected network. Furthermore, since theintrusion detection system 110 and theanalysis system 120 are regulating the information passed to the one or more third parties, the underlying content can be screened and, for example, sensitive information removed from the forwarded information thus, for example, preserving the confidentiality of the underlying content. For example, a policy file can regulate the screening and removing of sensitive information such that, for example, all “content” or core information is removed or, for example, content having certain words, or originating from a predetermined location is screened and/or modified. - Additionally, the
intrusion detection system 110 and theanalysis system 120 can cooperate with the monitoring centers 140 to aid in unauthorized access attempt detection. For example, the monitoring center(s) 140 can forward information regarding hackers to theintrusion detection system 110 and theanalysis system 120. Thus, similar to a virus detection program that analyzes files for viruses, theintrusion detection system 110 and theanalysis system 120 can analyze access attempts to determine if they match a profile corresponding to one or more known hackers or have characteristics that correspond to one or more known hackers. Furthermore, upon detection of an unauthorized access attempt, theintrusion detection system 110 and theanalysis system 120 can forward information to themonitoring center 140 such that, for example, a central database that maintains hacker information can be updated. -
FIG. 5 illustrates an exemplary method of the operation of an intrusion detection system. In particular, control begins in step S100 and continues to step S110. In step S110, incoming communications are analyzed. Next, in step S120, a determination is made whether the incoming communications are unauthorized. If the incoming communications are unauthorized, control continues to step S130. Otherwise, control jumps to step S140. - In step S130, the unauthorized communications are redirected to an analysis system. Control then continues to step S140.
- In step S140 a determination is made whether the incoming communication has been received from the analysis system. If the incoming communication has been received from the analysis system, control continues to step S150. Otherwise, control jumps to step S190 where the control sequence ends.
- In step S150, a determination is made whether the communication is to be forwarded to one or more particular addresses. If the communication from the analysis system is to be forwarded, control continues to step S160. Otherwise, control jumps to step S170.
- In step S160, communications are forwarded to the one or more specified destinations and/or modified and forwarded to appear as if the communication is origination from a particular destination. Control then continues to step S170.
- In step S170, a determination is made as to whether the operation of the intrusion detection system is to be updated. If the operation is to be updated, control continues to step S180. Otherwise, control jumps to step S190, where the control sequence ends.
- In step S180, the operation of the intrusion detection system can be updated, for example, by modifying the techniques used to detect unauthorized access, by reconfiguring traffic management, blocking all or a portion of incoming traffic, for example, from one or more addresses, or the like. Control then continues to step S190.
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FIG. 6 illustrates an exemplary method of the operation of an analysis system. In particular, control begins in step S200 and continues to step S210. In step S210, an attempt is made to verify that the unauthorized access attempt is in fact unauthorized. Next, in step S220, if the access attempt is unauthorized, control continues to step S230. Otherwise, control jumps to step S225 where instructions can be forwarded to the intrusion detection system. Control then continues to step S290 where the control sequence ends. - In step S230, logging of all communications with the protected network can optionally begin. Then, in step S240 a determination is made whether the unauthorized access attempt is originating from within the protected network. If the unauthorized access attempt is originating from within the protected network, control continues to step S250. Otherwise, control jumps to step S270.
- In step S250, a determination is made whether the internal unauthorized access attempt will be handled internally to the protected network. If the internal unauthorized access attempt will be handled internally, control continues to step S260. Otherwise, control jumps to step S270.
- In step S260, a response to the internal unauthorized access attempt is initiated. For example, the offending employee can be reprimanded, or the like. Control then continues to step S290.
- In step S270, information regarding the unauthorized access attempt is forwarded to one or more information centers. Then, in step S280, instructions received from the one or more monitoring centers are processed and implemented. Control then continues to step S290 where the control sequence ends.
- As illustrated in
FIGS. 1-4 , the network protection system can be implemented either on a single programmed general purpose computer or a separate programmed general purpose computer. However, the network protection system can also be implemented on a special purpose computer, a programmed microprocessor or microcontroller and peripheral integrated circuit element, an ASIC or other integrated circuit, a digital signal processor, a hardwired electronic or logic circuit, such as a discrete element circuit, a programmable logic device such as a PLD, PLA, FPGA, PAL, or the like. In general, any device capable of implementing a finite state machine that is in turn capable of implementing the flowcharts inFIGS. 5-6 can be used to implement the network protection system according to this invention. - Furthermore, the disclosed method may be readily implemented in software using object or object-oriented software development environments that provide portable source code that can be used on a variety of computer or workstation hardware platforms. Alternatively, the disclosed distributed network protection system may be implemented partially or fully in hardware using standard logic circuits or VLSI design. Whether hardware or software is used to implement the systems and methods in accordance with this invention is dependent on the speed and/or efficiency requirements of the system, the particular function, and the particular software and/or hardware systems or microprocessor or microcomputer systems being utilized. The network protection system illustrated herein, however, can be readily implemented in hardware and/or software using any known or later-developed systems or structures, devices and/or software by those of ordinary skill in the applicable art from the functional description provided herein and with a general basic knowledge of the computer arts.
- Moreover, the disclosed methods may be readily implemented as software executed on a programmed general purpose computer, a special purpose computer, a microprocessor or the like. In these instances, the methods and systems of this invention can be implemented as a program embedded in a personal computer, a piece of executable code, or the like, such as a Java® or CGI script, as an cookie, as a resource residing on a server or graphics workstation, as a routine embedded in a dedicated network protection system, or the like. The network protection system can also be implemented by physically incorporating the systems and methods into a hardware and/or software system, such as the hardware and software systems of a computer or dedicated network protection system.
- It is, therefore, apparent that there has been provided in accordance with the present invention, systems and methods for network protection. While this invention has been described in conjunction with a number of embodiments, it is evident that many alternatives, modifications and variations would be or are apparent to those of ordinary skill in the applicable art. Accordingly, applicants intend to embrace all such alternatives, modifications, equivalents and variations that are within the spirit and the scope of this invention.
Claims (18)
1. A network protection system, the system comprising:
an external intrusion detection system that detects an external possible unauthorized access attempt into a communications network being protected, and including,
an external intrusion detection module, and
a external communications management module coupled to the external intrusion detection module;
an internal intrusion detection system that detects an internal possible unauthorized access attempt within the communications network being protected, and including,
an internal intrusion detection module, and
an internal communications management module coupled to the internal intrusion detection module; and
an analysis system coupled to the external intrusion detection system and the internal intrusion detection system, and including,
a database for storing at least one of profile of information related to one or more hackers, unauthorized access attempt origin information, information that can aid the intrusion analysis system in determining accuracy of a detected unauthorized access attempt,
an intrusion analysis module coupled to the database, and
an intrusion reaction coordination module coupled to the intrusion analysis module and the database,
wherein the external and internal communications management modules are coupled to the intrusion analysis module and forward to the intrusion analysis module respective information regarding the respective detected possible unauthorized access attempt,
the intrusion analysis module determines based on the respective information regarding the respective detected possible unauthorized access attempt whether or not the respective detected possible unauthorized access attempt is authorized and communicates with the internal and external intrusion detection modules via the external and internal communications management modules whether or not the respective detected possible unauthorized access attempt is authorized, and
the intrusion reaction coordination module determines an appropriate action to take if the intrusion analysis module determines that the respective detected possible unauthorized access attempt is unauthorized.
2. The system of claim 1 , further comprising a monitoring center coupled to the analysis system via a communications link, wherein the analysis system communicates information regarding an unauthorized access attempt to the monitoring center.
3. The system of claim 2 , wherein the communications link is a secure tunnel.
4. The system of claim 1 , wherein the analysis system enables communication between at least one destination of the protected network and one or more entities attempting the unauthorized access attempt.
5. The system of claim 4 , wherein the one or more entities attempting the unauthorized access attempt are unaware that they are communicating with the at least one destination.
6. The system of claim 5 , wherein communications from the at least one destination are modified to appear as if they have a predetermined origin.
7. A network protection method, the method comprising:
detecting via an external intrusion detection system an external possible unauthorized access attempt into a communications network being protected, the external intrusion detection system including,
an external intrusion detection module, and
a external communications management module coupled to the external intrusion detection module;
detecting via an internal intrusion detection system an internal possible unauthorized access attempt within the communications network being protected, the internal intrusion detection system including,
an internal intrusion detection module, and
an internal communications management module coupled to the internal intrusion detection module;
wherein an analysis system coupled to the external intrusion detection system and the internal intrusion detection system, the analysis system including,
a database for storing at least one of profile of information related to one or more hackers, unauthorized access attempt origin information, information that can aid the intrusion analysis system in determining accuracy of a detected unauthorized access attempt,
an intrusion analysis module coupled to the database, and
an intrusion reaction coordination module coupled to the intrusion analysis module and the database;
forwarding via the external and internal communications management modules coupled to the intrusion analysis module respective information regarding the respective detected possible unauthorized access attempt;
determining via the intrusion analysis module based on the respective information regarding the respective detected possible unauthorized access attempt whether or not the respective detected possible unauthorized access attempt is authorized, and communicating with the internal and external intrusion detection modules via the external and internal communications management modules whether or not the respective detected possible unauthorized access attempt is authorized, and
determining via the intrusion reaction coordination module an appropriate action to take if the intrusion analysis module determines that the respective detected possible unauthorized access attempt is unauthorized.
8. The method of claim 7 , further comprising communicating via the analysis system coupled to a monitoring center via a communications link information regarding an unauthorized access attempt.
9. The method of claim 8 , wherein the communications link is a secure tunnel.
10. The method of claim 7 , further comprising enabling communication via the analysis system between at least one destination of the protected network and one or more entities attempting the unauthorized access attempt.
11. The method of claim 10 , wherein the one or more entities attempting the unauthorized access attempt are unaware that they are communicating with the at least one destination.
12. The method of claim 11 , further comprising modifying the communications from the at least one destination to appear as if they have a predetermined origin.
13. A computer program product for network protection, including one or more computer readable instructions embedded on a computer readable medium and configured to cease one or more computer processors to perform the steps of:
detecting via an external intrusion detection system an external possible unauthorized access attempt into a communications network being protected, the external intrusion detection system including,
an external intrusion detection module, and
a external communications management module coupled to the external intrusion detection module;
detecting via an internal intrusion detection system an internal possible unauthorized access attempt within the communications network being protected, the internal intrusion detection system including,
an internal intrusion detection module, and
an internal communications management module coupled to the internal intrusion detection module;
wherein an analysis system coupled to the external intrusion detection system and the internal intrusion detection system, the analysis system including,
a database for storing at least one of profile of information related to one or more hackers, unauthorized access attempt origin information, information that can aid the intrusion analysis system in determining accuracy of a detected unauthorized access attempt,
an intrusion analysis module coupled to the database, and
an intrusion reaction coordination module coupled to the intrusion analysis module and the database;
forwarding via the external and internal communications management modules coupled to the intrusion analysis module respective information regarding the respective detected possible unauthorized access attempt;
determining via the intrusion analysis module based on the respective information regarding the respective detected possible unauthorized access attempt whether or not the respective detected possible unauthorized access attempt is authorized, and communicating with the internal and external intrusion detection modules via the external and internal communications management modules whether or not the respective detected possible unauthorized access attempt is authorized, and
determining via the intrusion reaction coordination module an appropriate action to take if the intrusion analysis module determines that the respective detected possible unauthorized access attempt is unauthorized.
14. The computer program product of claim 13 , further comprising communicating via the analysis system coupled to a monitoring center via a communications link information regarding an unauthorized access attempt.
15. The computer program product of claim 14 , wherein the communications link is a secure tunnel.
16. The computer program product of claim 13 , further comprising enabling communication via the analysis system between at least one destination of the protected network and one or more entities attempting the unauthorized access attempt.
17. The computer program product of claim 16 , wherein the one or more entities attempting the unauthorized access attempt are unaware that they are communicating with the at least one destination.
18. The computer program product of claim 17 , further comprising modifying the communications from the at least one destination to appear as if they have a predetermined origin.
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AU2001281401A1 (en) | 2002-03-04 |
US20020023227A1 (en) | 2002-02-21 |
US7406713B2 (en) | 2008-07-29 |
WO2002017594A2 (en) | 2002-02-28 |
WO2002017594A3 (en) | 2002-10-03 |
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