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Pharming -- a new technique for Internet fraud
Hackers appear to have an increasing interest in reaping
financial reward from their actions and creations. If,
until now, phishing -- using e-mails to lure users into
entering data into spoofed online banking Web sites -- was
one of the most widespread fraud techniques, 'pharming' now
poses an even greater threat.
Basically, pharming involves interfering with the name
resolution process on the Internet. When a user enters an
address (such as www.pandasoftware.com) this needs to be
converted into a numeric IP address as 62.14.63.187. This
is known as name resolution, and the task is performed by
DNS (Domain Name System) servers. These servers store
tables with the IP address of each domain name. On a
smaller scale, in each computer connected to the Internet
there is a file that stores a table with the names of
servers and IP addresses so that it is not necessary to
access the DNS servers for certain server names.
Pharming consists in the name resolution system
modification, so that when a user thinks he or she is
accessing to bank's Web page, he or she is actually
accessing the IP of a spoofed site.
Phishing owed its success to social engineering techniques,
but since not all users take the phishing bait, its success
was limited. Also, each phishing attack was aimed at one
specific type of banking service, further reducing the
chances of success. Pharming on the other hand, can affect
a far greater number of online banking users.
In addition, pharming isn't just a one-off attack, as is
the case with phishing e-mails, but remains present on the
computer waiting for the user to access the banking
services.
The solution against this new kind of fraud lies, as ever,
in anti-virus security solutions. Pharming attacks depend
on an application in the compromised system (this could be
an exe file, a script, etc). But before this application
can run, obviously it needs to reach the operating system.
Code can enter the system through numerous channels; in
fact, in as many ways as information can enter the system:
via e-mail (the most frequent), Internet downloads, copied
directly from CD or floppy, etc. In each of these
information entry points, the anti-virus has to detect the
file with the malicious code and eliminate it, provided it
is registered as a dangerous application in the anti- virus
signature file.
Unfortunately, the propagation speed of malware today is
head-spinning, and there are more malicious creators
offering their source code to the rest of the hacker
community to create new variants and propagate even more
attacks. The virus laboratories don't have enough time to
prepare the malware detection and elimination routines for
new malicious code before they start spreading to PCs.
Despite the efforts and improvements from virus labs, it is
physically impossible for them to prepare an adequate
solution in time against some of these threats that can
spread in just a few minutes.
The solution against these kinds of threats should not,
therefore, depend, at least not in the front line of
protection, on a reactive solution based on viral
identifier files but rather systems that detect the actions
that theses threats carry out. In this way, every time
there is an attempted attack on the computer's DNS system (
as in the case of pharming applications), the attack is
recognized and blocked along with the program carrying out
the attack.
However, there is an added danger with pharming, which lies
in anonymous proxy servers. Many users want to hide their
identity (their IP address) when using the Internet and use
online proxy servers so that the connection is made under
the server IP and not the client IP. In a worst case
scenario, one of these proxy servers could have its name
resolution system poisoned so that users trying to access
their bank Web site, could actually be viewing a spoofed
site, even though their local name resolution system is
operating perfectly.
In any event, the threat that pharming poses is a serious
one, although one that is easily resolved. Only with
systems that can detect and block changes in IP address
resolution systems in computers can we hope to prevent the
avalanche of malicious code that will soon be upon us.
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High achievement always takes place in the framework of high expectation.
Jack Kinder
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