× Few antiviral products inadequately detect 3proxy as Trojan.Daemonize, Backdoor.Daemonize, etc and many detect 3proxy as a PUA (potentially unwanted program). It may cause browser warning on download page. 3proxy is not trojan or backdoor and contains no functionality except described in documentation. Clear explanation of this fact is given, for example, in Microsoft's article.

Title:        Microsoft Visual C++ 8.0 standard library time functions
              invalid assertion DoS (Problem 3000).
Product:      Visual Studio 2005
Vendor:       Microsoft
class:        Denial of Service
Remote:       application dependant, remote vector is possible
CVE:          CVE-2007-0842
Author:       3APA3A, http://SecurityVulns.com
Advisory URL: http://SecurityVulns.com/advisories/year3000.asp


Since Microsoft Visual Studio 5.0 Visual C compiler defaults time_t type
to 64 bit integer and time functions to their 64-bit variants.


64-bit versions of time  functions:




and  may  others incorrectly behave for a time_t argument larger than or
equal  to  _MAX__TIME64_T (representing January, 1 3000). According MSDN
documentation,  time  functions  must  indicate  error by returning NULL
pointer  or  EINVAL  and  must not invoke any invalid parameter handler.
Instead,   time   function  calls  invalid  parameter  assertion  macro,
terminating   calling   application   and  creating  Denial  of  Service

An example is within localtime_s function (loctim64.c):

         * Check for illegal __time64_t value
        _VALIDATE_RETURN_ERRCODE( (*ptime <= _MAX__TIME64_T), EINVAL);

Last       string       initiates      assertion,      it's      invalid
_VALIDATE_RETURN_ERRCODE_NOEXC  must  be  used  for  both  negative  and
oversized value. Valid code is:

         * Check for illegal __time64_t value

Who is vulnerable?

Any  application  compiled  with  Microsoft Visual C++ 8.0 compiler with
either  static  or  dynamic  libraries  is vulnerable, if it uses one of
named  functions  with user-controlled data.

Possible attack vectors:

1.  Network protocols and applications where time_t value is used and/or
transmitted  as  8-octets (64 bit) in seconds or milliseconds and can be
behind January, 1, 3000. En example: different SQL databases.

2.  Windows  applications  where  time_t  is  result  of conversion from
FILETIME   or   SYSTEMTIME  structures.  E.  g.  GetFileTime/SetFileTime
functions  can  be  used  to  get/set  NTFS  file  time to values behind
January, 1, 3000. You can try to exploit different applications by using
this trick. This is also true for Java and JavaScript timestamps.

3.  Application where date_t is calculated as a result from user input +
some  offset  (e.g.  timezone  conversions  for  date  December, 29 2999
23:01). An example: e-mail messages, HTTP requests, etc.

4. Applications where large value is added to recevied 32 bit time_t.

Developer can use one if this workarounds:

1.  Define  _USE_32BIT_TIME_T  to use 32-bit functions (not available on
    64-bit platforms).
2.  Explicitly  check  'time'  argument  of  named functions to be below
    _MAX__TIME64_T.  It  should  be  noted,  that this workaround is not
    reliable,  because  greater  value  can be calculated as a result of
    some arithmetic operation.


23.08.2006    Initial vendor notification through [email protected]
25.08.2006    Second vendor notification
25.08.2006    Initial vendor reply
30.08.2006    Vendor asks for additional details
31.08.2006    Additional  details  with example of crashing application
              are sent to vendor
12.09.2006    Additional details are sent again because of no response
11.10.2006    Vendor response:

"We  believe  this  is  not  a  security  vulnerability  but  in  fact a
deliberate  security  feature  to  mitigate  problems  with invalid data
propagating through the system".