The 10 Most Destructive PC Viruses Of All Time
Causing close to 100 billion dollars in damage to businesses worldwide, PC viruses have brought the world a massive headache. We name the 10 most destructive of the past 20
July 6, 2006
Originally Published on Techweb
Computer viruses are like real-life viruses: When they're flying around infecting every PC (or person) in sight, they're scary. But after the fact...well, they're rather interesting, albeit in a gory kind of way. With this in mind, we shamelessly present, in chronological order, the 10 most destructive viruses of all time.
20 Years Of PC Viruses |
---|
Introduction A Brief History Of Viral TimeThe 10 Most Destructive Viruses |
• CIH |
• Melissa |
• ILOVEYOU |
• Code Red |
• SQL Slammer |
Early Days On The Antivirus FrontWhat To Do In A Malware Attack |
Virus Image GalleryVirus Timeline |
CIH (1998)
Estimated Damage: 20 to 80 million dollars worldwide, countless amounts of PC data destroyed
Unleashed from Taiwan in June of 1998, CIH is recognized as one of the most dangerous and destructive viruses ever. The virus infected Windows 95, 98, and ME executable files and was able to remain resident in a PC's memory, where it continued to infect other executables.
What made CIH so dangerous is that, shortly after activated, it would overwrite data on the host PC's hard drive, rendering it inoperable. It was also capable of overwriting the BIOS of the host, preventing boot-up. Because it infected executable files, CIH wound up being distributed by numerous software distributors, including a demo version of an Activision game named Sin.
CIH is also known as the Chernobyl virus because the trigger date of certain strains of the virus coincides with the date of the Chernobyl nuclear reactor accident. The virus is not a serious threat today, thanks to increased awareness and the widespread migration to Windows 2000, XP, and NT, none of which are vulnerable to CIH.
Melissa (1999)
Estimated Damage: 300 to 600 million dollars
On Friday, March 26, 1999, W97M/Melissa became front-page news across the globe. Estimates have indicated that this Word macro script infected 15 to 20 percent of all business PCs. The virus spread so rapidly that Intel, Microsoft, and a number of other companies that used Outlook were forced to shut down their entire e-mail systems in order to contain the damage.
The virus used Microsoft Outlook to e-mail itself to 50 names on a user's contact list. The e-mail message contained the sentence, "Here is that document you asked for...don't show anyone else. ;-)," with an attached Word document. Clicking open the .DOC file -- and thousands of unsuspecting users did so -- allowed the virus to infect the host and repeat the replication. Adding insult to injury, when activated, this virus modified users' Word documents with quotes from the animated TV show "The Simpsons."
ILOVEYOU (2000)
Estimated Damage: 10 to 15 billion dollars
Also known as Loveletter and The Love Bug, this was a Visual Basic script with an ingenious and irresistible hook: the promise of love. On May 3, 2000, the ILOVEYOU worm was first detected in Hong Kong. The bug was transmitted via e-mail with the subject line "ILOVEYOU" and an attachment, Love-Letter-For-You.TXT.vbs. Similar to Melissa, the virus mailed itself to all Microsoft Outlook contacts.
The virus also took the liberty of overwriting music files, image files, and others with a copy of itself. More disturbingly, it searched out user IDs and passwords on infected machines and e-mailed them to its author.
An interesting footnote: Because the Philippines had no laws against virus-writing at the time, the author of ILOVEYOU was not charged for this crime.
Code Red (2001)
Estimated Damage: 2.6 billion dollars
Code Red was a computer worm that was unleashed on network servers on July 13, 2001. It was a particularly virulent bug because of its target: computers running Microsoft's Internet Information Server (IIS) Web server. The worm was able to exploit a specific vulnerability in the IIS operating system. Ironically, Microsoft had released a patch addressing this hole in mid-June.
Also known as Bady, Code Red was designed for maximum damage. Upon infection, the Web site controlled by the affected server would display the message, "HELLO! Welcome to http://www.worm.com! Hacked By Chinese!" Then the virus would actively seek other vulnerable servers and infect them. This would go on for approximately 20 days, and then it would launch denial of service attacks on certain IP addresses, including the White House Web server. In less than a week, this virus infected almost 400,000 servers, and it's estimated that one million total computers were infected.
SQL Slammer (2003)
Estimated Damage: Because SQL Slammer erupted on a Saturday, the damage was low in dollars and cents. However, it hit 500,000 servers worldwide, and actually shut down South Korea's online capacity for 12 hours.
SQL Slammer, also known as Sapphire, was launched on January 25, 2003. It was a doozy of a worm that had a noticeable negative impact upon global Internet traffic. Interestingly enough, it didn't seek out end users' PCs. Instead, the target was servers. The virus was a single-packet, 376-byte worm that generated random IP addresses and sent itself to those IP addresses. If the IP address was a computer running an unpatched copy of Microsoft's SQL Server Desktop Engine, that computer would immediately begin firing the virus off to random IP addresses as well.
With this remarkably effective way of spreading, Slammer infected 75,000 computers in 10 minutes. The outrageously high amounts of traffic overloaded routers across the globe, which created higher demands on other routers, which shut them down, and so on.
Blaster (2003)
Estimated Damage: 2 to 10 billion dollars, hundreds of thousands of infected PCs
The summer of 2003 was a rough time for businesses running PCs. In rapid succession, IT professionals witnessed the unleashing of both the Blaster and Sobig worms. Blaster, also known as Lovsan or MSBlast, was the first to hit. The virus was detected on August 11 and spread rapidly, peaking in just two days. Transmitted via network and Internet traffic, this worm exploited a vulnerability in Windows 2000 and Windows XP, and when activated, presented the PC user with a menacing dialog box indicating that a system shutdown was imminent.
Hidden in the code of MSBLAST.EXE -- the virus' executable " were these messages: "I just want to say LOVE YOU SAN!!" and "billy gates why do you make this possible? Stop making money and fix your software!!"
The virus also contained code that would trigger a distributed denial of service attack on windowsupdate.com on April 15, but Blaster had already peaked and was mostly contained by then.
Sobig.F (2003)
Estimated Damage: 5 to 10 billion dollars, over 1 million PCs infected
The Sobig worm hit right on the heels of Blaster, making August 2003 a miserable month for corporate and home PC users. The most destructive variant was Sobig.F, which spread so rapidly on August 19 that it set a record (which would later be broken by MyDoom), generating over 1 million copies of itself in its first 24 hours.
The virus infected host computers via innocuously named e-mail attachments such as application.pif and thank_you.pif. When activated, this worm transmitted itself to e-mail addresses discovered on a host of local file types. The end result was massive amounts of Internet traffic.
On September 10, 2003, the virus deactivated itself and is no longer a threat. Microsoft has announced a $250,000 bounty for anyone who identifies Sobig.F's author, but to date, the perpetrator has not been caught.
Bagle (2004)
Estimated Damage: Tens of millions of dollars...and counting
Bagle, a classic but sophisticated worm, made its debut on January 18, 2004. The malicious code infected users' systems via the traditional mechanism -- an e-mail attachment -- and then scoured Windows files for e-mail addresses it could use to replicate itself.
The real danger of Bagle (a.k.a. Beagle) and its 60 to 100 variants is that, when the worm infects a PC, it opens a back door to a TCP port that can be used by remote users and applications to access data -- financial, personal, anything -- on the infected system. According to an April 2005 TechWeb story, the worm is "usually credited with starting the malware-for-profit movement among hackers, who prior to the ground-breaking worm, typically were motivated by notoriety."
The Bagle.B variant was designed to stop spreading after January 28, 2004, but numerous other variants of the virus continue to plague users to this day.
MyDoom (2004)
Estimated Damage: At its peak, slowed global Internet performance by 10 percent and Web load times by up to 50 percent
For a period of a few hours on January 26, 2004, the MyDoom shockwave could be felt around the world as this worm spread at an unprecedented rate across the Internet via e-mail. The worm, also known as Norvarg, spread itself in a particularly devious manner: It transmitted itself as an attachment in what appeared to be an e-mail error message containing the text "Mail Transaction Failed." Clicking on the attachment spammed the worm to e-mail addresses found in address books. MyDoom also attempted to spread via the shared folders of users' Kazaa peer-to-peer networking accounts.
The replication was so successful that computer security experts have speculated that one in every 10 e-mail messages sent during the first hours of infection contained the virus. MyDoom was programmed to stop spreading after February 12, 2004.
Sasser (2004)
Estimated Damage: Tens of millions of dollars
Sasser began spreading on April 30, 2004, and was destructive enough to shut down the satellite communications for some French news agencies. It also resulted in the cancellation of several Delta airline flights and the shutdown of numerous companies' systems worldwide.
Unlike most previous worms, Sasser was not transmitted via e-mail and required no user interaction to spread. Instead the worm exploited a security flaw in non-updated Windows 2000 and Windows XP systems. When successfully replicated, the worm would actively scan for other unprotected systems and transmit itself to them. Infected systems experienced repeated crashes and instability.
Sasser was written by a 17-year-old German high school student, who released the virus on his 18th birthday. Because he wrote the code when he was a minor, a German court found him guilty of computer sabotage but gave him a suspended sentence.
George Jones is a technology writer and computer-games consultant based in San Francisco.
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