Abstract:
The installation of a computer program, such as a malware scanner, may be checked to determine whether or not it has not been tampered with using an installation checking computer program to gather characteristics of the installation of the target computer program after the installation checking computer program has first been validated by a separate further computer. The installation characteristics may include operating system registry entries, installed files list, file sizes and file checksums.

Description:
BACKGROUND OF THE INVENTION 
     1. Field of the Invention 
     This invention relates to the field of data processing systems. More particularly, this invention relates to the validation of the installation of a computer program on a computer. 
     2. Background of the Invention 
     It is known to provide computer programs, such as malware scanners, that serve to protect a computer from various security threats, such as computer viruses, worms, Trojans, etc. A problem with such malware scanners is that for various reasons, such as maintenance or diagnostics, they may be temporarily disabled and in this state may themselves be subject to malicious alteration by malware. Furthermore, as new types of malware are released into the wild, some of these may be capable of maliciously altering the malware scanner even whilst it is enabled until the malware scanner is updated to include appropriate counter-measures. If the malware scanner itself becomes infected with malware, this can be a significant problem as the malware scanner typically has high level access within the system and may be capable of spreading a malware infection widely throughout an entire computer system. For this reason, it is strongly desirable to have a mechanism which counters the malicious alteration of a malware scanner. 
     It is known to provide a malware scanner that checks its own executable file for modification before it runs. However, such protection relies upon the executable file only being modified rather than replaced and is vulnerable to various types of malware attack. 
     Measures which can enhance security against the malicious alteration of an installed computer program are strongly desirable. 
     SUMMARY OF THE INVENTION 
     Viewed from one aspect the present invention provides a computer program product for validating an installation of a target computer program on a target computer, said computer program product comprising:
         installation checking code validated with a further computer connected by a network link to said target computer and operable to execute upon said target computer to gather characteristics of said installation of said target computer program upon said target computer;   comparing code operable to comparing said gathered characteristics with predetermined valid characteristics;   response code operable if said gathered characteristics match said predetermined valid characteristics to trigger an installation valid response and operable if said gathered characteristics do not match said predetermined valid characteristics to trigger an installation invalid response.       

     The invention recognises that an increased degree of security may be achieved by providing an installation checking mechanism that gathers installation characteristics and compares these with known valid installation characteristics. It is likely that a malicious alteration to an installed computer program will change these characteristics in order that a match will no longer be achieved with known valid characteristics and accordingly an appropriate invalid installation response triggered, such as issuing a warning, disabling the computer program which has been tampered with etc. Furthermore, the installation checking mechanism is itself validated using a further computer connected by a network link to the target computer. The further computer can be provided with a high level of security and tamper resistance that would not be appropriate on the target computer and yet the target computer can benefit from this since the further computer will validate the installation checking mechanism to resist attempts to circumvent this installation checking protection. 
     One preferred technique for validating the installation checking code is to store this code on the further computer and transfer the code to the target computer for execution on the target computer as it is required. Execution at the target computer has the advantage that the installation checking code has direct access to the characteristics which it is seeking to check making it more difficult for these to be masked or spoofed. 
     A further preferred technique for validating the installation checking code is to have this installed upon the target computer but validated by exchange of a secure key with the further computer prior to use. 
     The validation technique for the target computer program could be initiated in various different ways. One preferred technique is to require user input to trigger the check, such as user input when the user observes unusual or in appropriate behaviour of the target computer program and suspects that it may have been subject to tampering. 
     A further preferred technique for initiating the installation checking is to have this triggered whenever the target computer connects to a network. A particularly convenient way of doing this is to use the login script for the target computer to start execution of the installation checking code. 
     It will be appreciated that the characteristics of the installation of the target computer program that are gathered could take a wide variety of different forms. However, particularly preferred characteristics are operating system registry entries for the target computer program, lists of files stored in the program file directory of the target computer program and file sizes and checksums (e.g. MD5 checksums) associated with the files of the target computer program. 
     Whilst the technique of validating the installation of a computer program to check it for tampering may be applied to a wide variety of different types of computer program, it is particularly applicable to the protection of malware scanners. Malware scanners check for malicious alteration of other computer files, but may themselves be subject to malicious alteration and find it difficult to check themselves. Accordingly, this present technique enables a degree of security to be achieved for the malware scanner itself. 
     Malware scanners typically scan to detect one or more of computer viruses, worms, Trojans, banned files, banned words, banned images etc. 
     The predetermined characteristics of the installation may be coded into the installation checking code with appropriate algorithms. Alternatively, an increased degree of flexibility and improved security may be achieved when the predetermined characteristics are themselves stored on the further computer which is used to validate the installation checking code. In some preferred embodiments the predetermined characteristics may be individual to a particular computer, for example, using the MAC address of the computer to uniquely identify the computer and index the storage of individual installation characteristics for the target computer program for that computer. 
     Other aspects of the present invention provide a method for validating installation of a target computer program and an apparatus for validating installation of a target computer program. 
     The above, and other objects, features and advantages of this invention will be apparent from the following detailed description of illustrative embodiments which is to be read in connection with the accompanying drawings. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  schematically illustrates characteristics of the installation of a malware scanner; 
         FIG. 2  schematically illustrates one mechanism for installation checking using two different trigger techniques; 
         FIG. 3  illustrates a further technique for installation checking; 
         FIG. 4  is a flow diagram schematically illustrating the processing to validate an installation in accordance with a first example embodiment; 
         FIG. 5  is a flow diagram schematically illustrating the processing to validate an installation in accordance with a second example embodiment; 
         FIG. 6  is a flow diagram schematically illustrating the processing to validate an installation in accordance with a third example embodiment; and 
         FIG. 7  schematically illustrates the architecture of a general purpose computer that may be used to implement the above described techniques. 
     
    
    
     DETAILED DESCRIPTION 
       FIG. 1  illustrates installation characteristics of a target computer program labeled “AV”. More particularly, the operating system registry  2  will contain within it settings and parameters specific to the target computer program in question. These registry settings may for example include the paths to executable files, the version identifiers of the files concerned, e.g. for a malware scanner the scanner engine and malware definition data versions, as well as other parameters associated with the installation of the target computer program. 
     The non-volatile storage such as disk storage  4  where the computer program files associated with the target computer program are stored will have installation characteristics such as a specific collection of files stored within a subdirectory associated with the target computer program. This set of computer files will itself be a characteristic of the installation and a further characteristic may be the individual sizes of those files, or at least critical ones of those files that are normally invariant, or checksums (e.g. MD5 checksums) calculated from one or more of the computer files associated with the target computer program. 
       FIG. 2  illustrates a first technique for checking installation of a target computer program. A client computer  6  is connected via a network link to a server computer  8 . The installation checking may be triggered by the network login of the client computer  6  to the server computer  8 . This login initiates execution of a login script which specifies an installation checking computer program to be executed upon the client computer  6 . Alternatively, a user may trigger an on-demand check of the installation if they notice suspicious behaviour of their computer or the target computer program in particular, or as a regular, possibly scheduled, event. 
     As illustrated in  FIG. 2  the installation checking computer program is stored by the server computer  8  on the server computer&#39;s storage medium  10 . This known valid installation checking computer program is transferred from the server computer  8  to the client computer  6  and then executes on the client computer  6  to gather installation characteristics of the target computer program in question. The server computer  8  also stores a database of valid characteristics that may be associated with the installation of the target computer program. In some embodiments these may be specific to individual client computers (having been previously gathered when the target computer program was in a known clean state) and may be referenced by their MAC address or some unique identifier. Other embodiments may have a collection of known valid characteristics for the particular network concerned as set up by a system administrator or the like. These valid installation characteristics are transferred from the server computer  8  to the client computer  6  and are used by the installation checking computer program to compare with the just gathered characteristics to trigger either an installation valid or an installation invalid response. The installation valid response may be to simply proceed with the login and allow the target computer program to execute as required. The installation invalid response could disable the target computer program and issue an appropriate alert message to the user or system administrator. 
       FIG. 3  illustrates a further embodiment in which a client computer  12  is connected via a network link to a server computer  14  that is running a security management program such as ePolicyOrchestrator produced by Network Associates, Inc. In this arrangement the client computer  12  normally runs an agent computer program which is responsible for reporting configuration information of the client computer  12  to the server computer  14 . This communication between the client computer  12  and the server computer  14  is secured by the exchange of secure keys, such as PGP keys. Having established this secure link, the server  14  may validate the agent computer program on the client computer to ensure that it has not been subject to tampering. Thus, the agent computer program may as part of its functionality provide the installation checking of one or more target computer programs using valid characteristic data held at the client computer  12 . The server computer  14  may periodically trigger the agent computer program to perform such installation checking or may alternatively utilise the login of the client computer  12  or an on-demand user initiated event to trigger the installation checking of the target computer program. 
       FIG. 4  is a flow diagram schematically illustrating the processing performed to check the installation of a target computer program. At step  16  a client computer logs on to a network. At step  18  the login script for the client computer is fetched from the server and executed by the client computer. At step  20  a portion of the login script specifies that an installation checking computer program should be fetched from the server computer. At step  22  this installation checking computer program is run on the client computer. At step  24  the installation checking computer program gathers characteristics of a malware scanning computer program installed on the client computer. These characteristics indicate how the malware scanner is installed and provide an indication if that installation has been altered. The execution of the installation checking computer program upon the client computer itself allows it to directly gather these installation characteristics in a manner which makes these characteristics more difficult to mask or spoof. The installation characteristics gathered may include those illustrated in connection with  FIG. 1  as well as further characteristics as desired. The malware scanner may typically provide the functionality of scanning for one or more of computer viruses, worms, Trojans, banned files, banned words, banned images etc. 
     At step  26  a set of predetermined valid characteristics are fetched from the server to the client computer. At step  28  these predetermined valid installation characteristics are compared with the gathered characteristics collected at step  24 . Step  30  determines whether the collected installation characteristics and the predetermined valid installation characteristics match. If there is a match, then the installation is determined not to have been tampered with and the processing terminates. If the characteristics do not match, then step  32  triggers an invalid installation series of actions, such as disabling the malware scanner, issuing user and system administrator alerts, reinstalling a known clean copy of the malware scanner etc. 
       FIG. 5  is a flow diagram illustrating an alternative embodiment. This embodiment shares the majority of the processing steps of the process illustrated in  FIG. 4  but is triggered in a different way. More particularly, step  34  serves to trigger the installation checking of the target computer program in response to a user input. This may be a purely manual user input or a scheduled event. The remaining processing in  FIG. 5  follows that of  FIG. 4 . 
       FIG. 6  is a flow diagram schematically illustrating processing in accordance with a third embodiment corresponding to the system discussed in relation to  FIG. 3 . At step  36  the security managing server initiates a timed installation check upon the malware scanner. As an alternative, such an installation check could be triggered when the client computer in question logged onto the network. 
     At step  38  the agent computer program on the client computer is authenticated using a PGP signature associated with that agent computer program. Step  40  determines whether this authentication is passed. If the authentication is not passed, then step  42  triggers an invalid agent response, which may for example include refusing the client computer access to the network and issuing a user and/or administrator warning messages. If the authentication is passed, then processing proceeds to step  44  where the agent computer program serves to execute installation checking code as part of its own agent main routine. This installation checking code collects/gathers characteristics of the malware scanner installation on the client computer. At step  46  these gathered characteristics are compared with predetermined valid characteristics stored by the agent computer program. Step  48  responds to the comparison indicating that they do not match by triggering an invalid installation response at step  50 , such as disabling the malware scanner, issuing appropriate alert messages to a user or administrator, installing a clean copy of the malware scanner etc. If the characteristics gathered and the predetermined valid characteristics do match, then step  48  will merely terminate the installation check as its valid installation response. 
       FIG. 7  schematically illustrates a general purpose computer  200  of the type that may be used to implement the above described techniques. The general purpose computer  200  includes a central processing unit  202 , a random access memory  204 , a read only memory  206 , a network interface card  208 , a hard disk drive  210 , a display driver  212  and monitor  214  and a user input/output circuit  216  with a keyboard  218  and mouse  220  all connected via a common bus  222 . In operation the central processing unit  202  will execute computer program instructions that may be stored in one or more of the random access memory  204 , the read only memory  206  and the hard disk drive  210  or dynamically downloaded via the network interface card  208 . The results of the processing performed may be displayed to a user via the display driver  212  and the monitor  214 . User inputs for controlling the operation of the general purpose computer  200  may be received via the user input output circuit  216  from the keyboard  218  or the mouse  220 . It will be appreciated that the computer program could be written in a variety of different computer languages. The computer program may be stored and distributed on a recording medium or dynamically downloaded to the general purpose computer  200 . When operating under control of an appropriate computer program, the general purpose computer  200  can perform the above described techniques and can be considered to form an apparatus for performing the above described technique. The architecture of the general purpose computer  200  could vary considerably and  FIG. 7  is only one example. 
     Although illustrative embodiments of the invention have been described in detail herein with reference to the accompanying drawings, it is to be understood that the invention is not limited to those precise embodiments, and that various changes and modifications can be effected therein by one skilled in the art without departing from the scope and spirit of the invention as defined by the appended claims.