Resident Viruses
1. Resident VirusesThis type of virus is a permanent which dwells in the RAM memory. From there it can overcome and interrupt all of the operations executed by the system: corrupting files and programs that are opened, closed, copied, renamed etc.Examples include: Randex, CMJ, Meve, and MrKlunky.
2. Multipartite VirusesMultipartite viruses are distributed through infected media and usually hide in the memory.Gradually, the virus moves to the boot sector of the hard drive and infects executable files on the hard drive and later across the computer system.
3. Direct Action VirusesThe main purpose of this virus is to replicate and take action when it is executed. When a specific condition is met, the virus will go into action and infect files in the directory or folderthat it is in and in directories that are specifiedin the AUTOEXEC.BAT file PATH. This batch file is always located in the root directory of the hard disk and carries out certain operations when the computer is booted.
4. Overwrite VirusesVirus of this kind is characterized by the fact that it deletes the information contained in thefiles that it infects, rendering them partially or totally useless once they have been infected.The only way to clean a file infected by an overwrite virus is to delete the file completely, thus losing the original content.Examples of this virus include: Way, Trj.Reboot, Trivial.88.D.
5. Boot VirusThis type of virus affects the boot sector of a floppy or hard disk. This is a crucial part of a disk, in which information on the disk itself is stored together with a program that makes it possible to boot (start) the computer from the disk.The best way of avoiding boot viruses is to ensure that floppy disks are write-protected and never start your computer with an unknown floppy disk in the disk drive.Examples of boot viruses include: Polyboot.B, AntiEXE.
6. Macro VirusMacro viruses infect files that are created using certain applications or programs that contain macros. These mini-programs make it possible to automate series of operations so that they are performed as a single action, thereby saving the user from having to carry them out one by one.Examples of macro viruses: Relax, Melissa.A, Bablas, O97M/Y2K.
7. Directory VirusDirectory viruses change the paths that indicate the location of a file. By executing a program (file with the extension .EXE or.COM) which has been infected by a virus, you are unknowingly running the virus program, while the original file and program have been previously moved by the virus.Once infected it becomes impossible to locate the original files.
8. Polymorphic VirusPolymorphic viruses encrypt or encode themselves in a different way (using different algorithms and encryption keys) every time they infect a system.This makes it impossible for anti-viruses to find them using string or signature searches (because they are different in each encryption) and also enables them to create a large number of copies of themselves.Examples include: Elkern, Marburg, Satan Bug,and Tuareg.
9. File InfectorsThis type of virus infects programs or executable files (files with an .EXE or .COM extension). When one of these programs is run, directly or indirectly, the virus is activated, producing the damaging effects it is programmed to carry out. The majority of existing viruses belongs to this category, and can be classified depending on the actions thatthey carry out.
10. Encrypted VirusesThis type of viruses consists of encrypted malicious code, decrypted module. The viruses use encrypted code technique which make antivirus software hardly to detect them. The antivirus program usually can detect this type of viruses when they try spread by decrypted themselves.
11. Companion VirusesCompanion viruses can be considered file infector viruses like resident or direct action types. They are known as companion viruses because once they get into the system they"accompany" the other files that already exist. In other words, in order to carry out their infection routines, companion viruses can wait in memory until a program is run (resident viruses) or act immediately by making copies ofthemselves (direct action viruses).Some examples include: Stator, Asimov.1539, and Terrax.1069
12. Network VirusNetwork viruses rapidly spread through a LocalNetwork Area (LAN), and sometimes throughout the internet. Generally, network viruses multiply through shared resources, i.e.,shared drives and folders. When the virus infects a computer, it searches through the network to attack its new potential prey. When the virus finishes infecting that computer, it moves on to the next and the cycle repeats itself.The most dangerous network viruses are Nimda and SQLSlammer.
13. Nonresident VirusesThis type of viruses is similar to Resident Viruses by using replication of module. Besides that, Nonresident Viruses role as finder module which can infect to files when it found one (it will select one or more files to infect each time the module is executed).
14. Stealth VirusesStealth Viruses is some sort of viruses which try to trick anti-virus software by intercepting its requests to the operating system. It has ability to hide itself from some antivirus software programs. Therefore, some antivirus program cannot detect them.
15. Sparse InfectorsIn order to spread widely, a virus must attemptto avoid detection. To minimize the probability of its being discovered a virus could use any number of different techniques. It might, for example, only infect every 20th time a file is executed; it might only infect files whose lengths are within narrowly defined ranges or whose names begin with letters in a certain range of the alphabet. There are many other possibilities.
16. Spacefiller (Cavity) VirusesMany viruses take the easy way out when infecting files; they simply attach themselves to the end of the file and then change the start of the program so that it first points to the virus and then to the actual program code. Many viruses that do this also implement some stealth techniques so you don't see the increase in file length when the virus is active in memory.A spacefiller (cavity) virus, on the other hand,attempts to be clever. Some program files, for avariety of reasons, have empty space inside of them. This empty space can be used to house virus code. A spacefiller virus attempts to install itself in this empty space while not damaging the actual program itself. An advantage of this is that the virus then does not increase the length of the program and canavoid the need for some stealth techniques. The Lehigh virus was an early example of a spacefiller virus.
17. FAT VirusThe file allocation table or FAT is the part of a disk used to connect information and is a vital part of the normal functioning of the computer.This type of virus attack can be especially dangerous, by preventing access to certain sections of the disk where important files are stored. Damage caused can result in information losses from individual files or even entire directories.
18. WormsA worm is technically not a virus, but a program very similar to a virus; it has the ability to self-replicate, and can lead to negative effects on your system and most importantly they are detected and eliminated by antiviruses.Examples of worms include: PSWBugbear.B, Lovgate.F, Trile.C, Sobig.D, Mapson.
19. Trojans or Trojan HorsesAnother unsavory breed of malicious code (not a virus as well) are Trojans or Trojan horses, which unlike viruses do not reproduce by infecting other files, nor do they self-replicate like worms.
20. Logic BombsThey are not considered viruses because they do not replicate. They are not even programs in their own right but rather camouflaged segments of other programs.Their objective is to destroy data on the computer once certain conditions have been met. Logic bombs go undetected until launched,and the results can be destructive.
2. Multipartite VirusesMultipartite viruses are distributed through infected media and usually hide in the memory.Gradually, the virus moves to the boot sector of the hard drive and infects executable files on the hard drive and later across the computer system.
3. Direct Action VirusesThe main purpose of this virus is to replicate and take action when it is executed. When a specific condition is met, the virus will go into action and infect files in the directory or folderthat it is in and in directories that are specifiedin the AUTOEXEC.BAT file PATH. This batch file is always located in the root directory of the hard disk and carries out certain operations when the computer is booted.
4. Overwrite VirusesVirus of this kind is characterized by the fact that it deletes the information contained in thefiles that it infects, rendering them partially or totally useless once they have been infected.The only way to clean a file infected by an overwrite virus is to delete the file completely, thus losing the original content.Examples of this virus include: Way, Trj.Reboot, Trivial.88.D.
5. Boot VirusThis type of virus affects the boot sector of a floppy or hard disk. This is a crucial part of a disk, in which information on the disk itself is stored together with a program that makes it possible to boot (start) the computer from the disk.The best way of avoiding boot viruses is to ensure that floppy disks are write-protected and never start your computer with an unknown floppy disk in the disk drive.Examples of boot viruses include: Polyboot.B, AntiEXE.
6. Macro VirusMacro viruses infect files that are created using certain applications or programs that contain macros. These mini-programs make it possible to automate series of operations so that they are performed as a single action, thereby saving the user from having to carry them out one by one.Examples of macro viruses: Relax, Melissa.A, Bablas, O97M/Y2K.
7. Directory VirusDirectory viruses change the paths that indicate the location of a file. By executing a program (file with the extension .EXE or.COM) which has been infected by a virus, you are unknowingly running the virus program, while the original file and program have been previously moved by the virus.Once infected it becomes impossible to locate the original files.
8. Polymorphic VirusPolymorphic viruses encrypt or encode themselves in a different way (using different algorithms and encryption keys) every time they infect a system.This makes it impossible for anti-viruses to find them using string or signature searches (because they are different in each encryption) and also enables them to create a large number of copies of themselves.Examples include: Elkern, Marburg, Satan Bug,and Tuareg.
9. File InfectorsThis type of virus infects programs or executable files (files with an .EXE or .COM extension). When one of these programs is run, directly or indirectly, the virus is activated, producing the damaging effects it is programmed to carry out. The majority of existing viruses belongs to this category, and can be classified depending on the actions thatthey carry out.
10. Encrypted VirusesThis type of viruses consists of encrypted malicious code, decrypted module. The viruses use encrypted code technique which make antivirus software hardly to detect them. The antivirus program usually can detect this type of viruses when they try spread by decrypted themselves.
11. Companion VirusesCompanion viruses can be considered file infector viruses like resident or direct action types. They are known as companion viruses because once they get into the system they"accompany" the other files that already exist. In other words, in order to carry out their infection routines, companion viruses can wait in memory until a program is run (resident viruses) or act immediately by making copies ofthemselves (direct action viruses).Some examples include: Stator, Asimov.1539, and Terrax.1069
12. Network VirusNetwork viruses rapidly spread through a LocalNetwork Area (LAN), and sometimes throughout the internet. Generally, network viruses multiply through shared resources, i.e.,shared drives and folders. When the virus infects a computer, it searches through the network to attack its new potential prey. When the virus finishes infecting that computer, it moves on to the next and the cycle repeats itself.The most dangerous network viruses are Nimda and SQLSlammer.
13. Nonresident VirusesThis type of viruses is similar to Resident Viruses by using replication of module. Besides that, Nonresident Viruses role as finder module which can infect to files when it found one (it will select one or more files to infect each time the module is executed).
14. Stealth VirusesStealth Viruses is some sort of viruses which try to trick anti-virus software by intercepting its requests to the operating system. It has ability to hide itself from some antivirus software programs. Therefore, some antivirus program cannot detect them.
15. Sparse InfectorsIn order to spread widely, a virus must attemptto avoid detection. To minimize the probability of its being discovered a virus could use any number of different techniques. It might, for example, only infect every 20th time a file is executed; it might only infect files whose lengths are within narrowly defined ranges or whose names begin with letters in a certain range of the alphabet. There are many other possibilities.
16. Spacefiller (Cavity) VirusesMany viruses take the easy way out when infecting files; they simply attach themselves to the end of the file and then change the start of the program so that it first points to the virus and then to the actual program code. Many viruses that do this also implement some stealth techniques so you don't see the increase in file length when the virus is active in memory.A spacefiller (cavity) virus, on the other hand,attempts to be clever. Some program files, for avariety of reasons, have empty space inside of them. This empty space can be used to house virus code. A spacefiller virus attempts to install itself in this empty space while not damaging the actual program itself. An advantage of this is that the virus then does not increase the length of the program and canavoid the need for some stealth techniques. The Lehigh virus was an early example of a spacefiller virus.
17. FAT VirusThe file allocation table or FAT is the part of a disk used to connect information and is a vital part of the normal functioning of the computer.This type of virus attack can be especially dangerous, by preventing access to certain sections of the disk where important files are stored. Damage caused can result in information losses from individual files or even entire directories.
18. WormsA worm is technically not a virus, but a program very similar to a virus; it has the ability to self-replicate, and can lead to negative effects on your system and most importantly they are detected and eliminated by antiviruses.Examples of worms include: PSWBugbear.B, Lovgate.F, Trile.C, Sobig.D, Mapson.
19. Trojans or Trojan HorsesAnother unsavory breed of malicious code (not a virus as well) are Trojans or Trojan horses, which unlike viruses do not reproduce by infecting other files, nor do they self-replicate like worms.
20. Logic BombsThey are not considered viruses because they do not replicate. They are not even programs in their own right but rather camouflaged segments of other programs.Their objective is to destroy data on the computer once certain conditions have been met. Logic bombs go undetected until launched,and the results can be destructive.
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