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Outbreak Prevention Policy service, er en tjeneste som aktivt overvåker Internet for utbrudd av virus.

Antivirusselskapene følger hele tiden med på hva som skjer og når noe "er på gang" sendes det meldinger til de kunder, som abonnerer på denne tjenesten. Tjenesten går i sin enkelthet ut på, så tidlig som mulig, å stoppe virus som spres. TrendLabs overvåker hele tiden hva som skjer. Når en trussel oppdages sendes det en informasjon ut, en OPP lages og distribueres til alle de som abonnerer på tjenesten - "outbreak prevention policy" startes og vil være aktiv inntil en ny mønsterfil, som takler denne nye trussel, er klar.


Virusvaskeriene fra ComputerLand abonnerer på denne tjenesten!

Når vi mottar en slik melding vurderer vi risikoen. Finner vi det nødvendig vil vi starte OPP på våre vaskerier. Dette kan medføre at Dere som kunde ikke mottar mail av en bestemt type i en kortere periode.

Skulle dette bli nødvendig vil vi informere om dette via vår hjemmeside, på forsiden under pkt. driftsmeldinger. Vi vil der fortelle om hvilke typer mail som evt. blir stoppet/holdt tilbake i den gjeldende periode, frem til et korrekt antivirusmønster er på plass og vi igjen går tilbake til normal status. Følg derfor alltid med på våre hjemmesider.




 Hva er et virus? (engelsk informasjon fra Trend Micro)

 A computer virus is a program – a piece of executable code – that has the unique ability to replicate. Like biological viruses, computer viruses can spread quickly and are often difficult to eradicate. They can attach themselves to just about any type of file and are spread as files that are copied and sent from individual to individual.
Besides replication, some computer viruses have something else in common: a damage routine that can deliver the virus payload. While payloads may only display messages or images, they can also destroy files, reformat your hard drive, or cause other kinds of damage. If the virus doesn't contain a damage routine, it can still cause trouble by taking up storage space and memory, and downgrading the overall performance of your computer.

Several years ago most viruses spread primarily via floppy disk, but the Internet has introduced new virus distribution mechanisms. With email now used as an important business communication tool, viruses are spreading faster than ever. Viruses attached to email messages can infect an entire enterprise in a matter of minutes, costing companies millions of dollars annually in productivity loss and clean-up expenses.

Viruses won't go away any time soon. More than 10,000 have been identified, and 200 new ones are created every month, according to the International Computer Security Association. With numbers like those, it's safe to say that most organizations will deal regularly with virus outbreaks. No one who uses computers is immune from viruses.

Life Cycle of a Virus
Computer viruses have a life cycle that starts when they're created and ends when they're completely eradicated. The following outline describes each stage.

Creation
Until a few years ago, creating a virus required knowledge of a computer programming language. Today anyone with even a little programming knowledge can create a virus. Usually, though, viruses are created by misguided individuals who wish to cause widespread, random damage to computers.

Replication
Viruses replicate by nature. A well-designed virus will replicate for a long time before it activates, which allows it plenty of time to spread.

Activation
Viruses that have damage routines will activate when certain conditions are met, for example, on a certain date or when a particular action is taken by the user. Viruses without damage routines don't activate, instead causing damage by stealing storage space.

Discovery
This phase doesn't always come after activation, but it usually does. When a virus is detected and isolated, it is sent to the International Computer Security Association in Washington, D.C., to be documented and distributed to antivirus developers. Discovery normally takes place at least a year before the virus might have become a threat to the computing community.

Assimilation
At this point, antivirus developers modify their software so that it can detect the new virus. This can take anywhere from one day to six months, depending on the developer and the virus type.

Eradication
If enough users install up-to-date virus protection software, any virus can be wiped out. So far no viruses have disappeared completely, but some have long ceased to be a major threat.

Virus Types
The majority of viruses fall into four main classes:
Boot sector
File infector
Multi-partite
Macro viruses

Boot Sector Viruses
Until the mid-1990s, boot sector viruses were the most prevalent virus type, spreading primarily in the 16-bit DOS world via floppy disk. Boot sector viruses infect the boot sector on a floppy disk and spread to a user's hard disk, and can also infect the master boot record (MBR) on a user's hard drive. Once the MBR or boot sector on the hard drive is infected, the virus attempts to infect the boot sector of every floppy disk that is inserted into the computer and accessed.

Boot sector viruses work like this: by hiding on the first sector of a disk, the virus is loaded into memory before the system files are loaded. This allows it to gain complete control of DOS interrupts so that it can spread and cause damage.

These viruses often replace the original contents of the MBR or DOS boot sector with their own contents and move the sector to another area on the disk. Cleaning up a boot sector virus can be performed by booting the machine from an uninfected floppy system disk rather than from the hard drive, or by finding the original boot sector and replacing it in the correct location on the disk.

File Infecting Viruses
File infectors, also known as parasitic viruses, operate in memory and usually infect executable files with the following extensions: *.COM, *.EXE, *.DRV, *.DLL, *.BIN, *.OVL, *.SYS. They activate every time the infected file is executed by copying themselves into other executable files and can remain in memory long after the virus has activated.

Thousands of different file infecting viruses exist, but similar to boot sector viruses, the vast majority operate in a DOS 16-bit environment. Some, however, have successfully infected the Microsoft Windows, IBM OS/2, and Apple Computer Macintosh environments.

Multi-Partite Viruses
Multi-partite viruses have characteristics of both boot sector viruses and file infecting viruses.

Macro Viruses
Macro viruses currently account for about 80 percent of all viruses, according to the International Computer Security Association, and are the fastest growing viruses in computer history. Unlike other virus types, macro viruses aren't specific to an operating system and spread with ease via email attachments, floppy disks, Web downloads, file transfers, and cooperative applications.

Macro viruses are, however, application-specific. They infect macro utilities that accompany such applications as Microsoft Word and Excel, which means a Word macro virus cannot infect an Excel document and vice versa. Instead, macro viruses travel between data files in the application and can eventually infect hundreds of files if undeterred.

What You Can Do to Protect Against Viruses
There are many things you can do to protect against viruses. At the top of the list is using a powerful antivirus product, such as Trend Micro's PC-cillin for home users. Corporate users can learn how viruses can infiltrate their networks by viewing our interactive "Trend Enterprise Solution" diagram.