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How to fight the malware pandemic

If malware were biological, the world would be in the grip of the worst pandemic in history. In 2009, more than 25 million different unique malware programs were identified, more than all the malware programs ever created in all previous years (see the annual report from Panda Labs).

That’s a pretty incredible statistic. Malicious programs now outnumber legitimate ones by many orders of magnitude.

The world’s largest cloud computing user? Not Microsoft, not Google, not Amazon.com. The ringleaders of the Conficker botnet, with more than 4.6 million infected computers under their control, win by a mile. Some antimalware vendors report that 48 percent of the computers they scan are infected (see page 10 of the APWG Phishing Activity Trends Report) with some sort of malware. Trojan horse programs make up 66 percent of all threats (see page 4 of the annual report from Panda Labs).

No one need wonder what malware is trying to do: It’s trying to steal money, whether it’s through data theft, bank transfers, stolen passwords, or swiped identities. Each day, tens of millions of dollars are stolen from innocent Internet victims. And yet many computer defenders can’t tell you what the biggest threat is to their environment. If you don’t know the biggest threats, how can you defend against them properly?

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Today’s malware differs dramatically from the threats we faced just 10 years ago, when most malicious programs were written by young men looking to earn cyber bragging rights. Most malware made the user aware of its existence through a displayed message, music (as in the Yankee Doodle Dandy virus family), or some other sort of harmless mischief. Those were the days.

Thoroughly modern malware

Today’s malware is written by professional criminals. In most cases, users are unwittingly tricked into executing a malicious program in the form of a Trojan horse. Users think they are installing needed software, often “recommended” by a site they trust. In fact those sites are recommending nothing of the kind. Malware producers routinely break into legitimate websites using found vulnerabilities and modify existing Web pages to include malicious JavaScript redirects. Or the malicious code is hidden inside a banner ad on a website, supplied by legitimate ad services.

Either way, when the user surfs to the legitimate website, the malicious JavaScript is loaded, and it either prompts the user to install a program or redirects the unknowing user to another website where they are told to install a program.

Trojans lead the pack

Trojans typically camouflage themselves as downloadable antivirus scanners, “needed” patches, malformed PDF files, or add-on video codecs required to display an exciting video. Most of the fake programs have the clean look and feel of a real app. Even career antimalware defenders find it hard to tell the difference between what is real and what is fake.

Fake programs are even more successful at duping victims when they appear to come from popular, well-known websites that a user has trusted and visited, without incident, for years. Or they launch from one of the popular social networks, like Facebook and Twitter, which are all the rage among the least savvy computer users. Some malware programs scan the user’s computer for vulnerable software that lacks security patches, but typically, users cause infections themselves by installing apps they should not.

This is not to rule out the obvious impact of spam, phishing, adware, or other attack methods. It’s just that computer worms, viruses, and the other methods for exploiting computers, added up all together, don’t equal the threat of the socially engineered Trojan — even though some multivector worm programs, like Conficker, have victim figures that number in the millions.

In a common scenario, the first malicious program installed is called a downloader. A downloader’s goal is to be installed on the victim’s PC and then to “phone home” to the “mothership” Web server for more instructions. The downloader often has instructions to contact a dynamic DNS server to get the mothership Web server’s current location.

The dynamic DNS server is just another Trojan-infected computer installed on an innocent user’s desktop. The DNS address record received by the downloader has an address that is good for only a short time — sometimes as little as 3 minutes. These “fast flux” techniques complicate efforts to investigate or eradicate malware. The downloader will eventually be redirected to another server (which is, of course, just another compromised host) and download a new program or receive instructions. This sequence of finding and downloading new programs and instructions can go on for dozens of cycles.

Eventually, the final program and instructions will be installed on the victim’s computer, with a handful of command-and-control servers under the direction of the botnet owners. Botnets can be used by the owners themselves to steal money, to conduct distributed denial of service (DDoS) attacks, or to break into other computers.

Often the botnet owner will rent the botnet to other criminals who then use them to do their bidding. A good example of a common bot and botnet is Mariposa. At one point, it controlled more than 13 million PCs in 190-plus countries. The masterminds of Mariposa were not ultraskilled malware writing geniuses — they were three guys who bought a botnet “kit” on the Internet for $300.

DIY kits: Tools of the trade

Do-it-yourself malware kits have been around for two decades, but now they are soup-to-nuts efficient. The typical kit can spit out (currently) undetectable malware to do the customized bidding of its owner. Using these kits is as easy as clicking a few check boxes.

The resulting malware will break into websites to start infecting innocent visitors, generate enticing spam and phishing e-mails, and do everything it takes to create the botnet — including bots, dynamic DNS servers, roving mothership Web servers, and the command-and control servers.

Many of the kits are directed toward bypassing particular types of authentication and focus on particular financial institutions. The better bot kits include a sophisticated administrative back end so that the hackers can read statistics on total infections, OS versions exploited, and tricks used. For another $30, the kit creators will include 24/7 tech support.

These kits aren’t hidden. With just a little bit of searching, you can find them on the open market, often marked as “experimental” or “test-only” products. And there are plenty of “service providers” willing to help malware hackers turn their ill-gotten gains into hard cash.

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