ITD 2323Lesson 3 – Viruses and other Malicious
CodesPrepared by
Izwan Suhadak Ishak
Lecturer
FITM, UNISEL
Introduction Programs are seldom security threats Programs operate on data, taking actions
only when data and state changes trigger Program are invisible, even what they are
doing Malicious people make programs serve as
vehicle to access and change data
Why worry about this? We don’t like the unexpected Malicious codes (programs) behave in
unexpected ways INSTALL or SETUP command in a
software does a lot of things: create files, delete files, rename files – hopefully they are doing the ‘right’ things
Malicious codes do much HARM! What can they do?
Write a message on the screen Stop a running program Generate a sound Erase a file… and many others
Oh, and they can just WAIT! Planted to lie dormant (at first!) Undetected, UNTIL some event triggers
…continued Triggering factors:
Time, date, interval Event, condition, count, combination or random
Runs under user’s authority – without our knowledge!
Types of Malicious Program
Malicious Program
Needs hosts program Independent
Trapdoor Logic Bombs Trojan Horse Virus Zombie Worms
REPLICATE
Kinds of Malicious Code Malicious code or rogue program
General name of unanticipated or undesired effects in programs or parts, caused by an agent intent on damage
Eliminates unintentional errors Excludes coincidence
Agent: writer of program or person who causes its distribution
…continued… Virus: program than can pass on malicious
code to other nonmalicious programs by modifying them Can be transient or resident
Transient: virus has a life that depends on host, start and ends when the host is running
Resident: locates itself in memory – can remain active or be activated as a stand-alone program
…continued… Trojan Horse: keeps some information for later
malicious use Logic Bomb: ‘detonates’ or goes off when a
specified condition occurs Time Bomb: logic bomb whose trigger is date or time
Trapdoor (aka Backdoor): a feature in a program where someone can access the program other than by the normal direct call. Could be done intentionally or for maintenance purpose
…continued Worm: spread copies of itself through
network Spread copies as a stand-alone program
Rabbit: self-replicates without bound Intention is to exhaust computing resources
In short…Code Type Characteristics
Virus Attaches itself to program and propagates copies of itself to other programs
Trojan Horse Contains unexpected, additional functionality
Logic Bomb Triggers action when condition occurs
Time Bomb Triggers action when specified time occurs
Trapdoor Allows unauthorized access to functionality
Worm Propagates copies of itself through network
Rabbit Replicates itself without limit to exhaust resource
How Viruses Attach? Virus will start doing its dirty work or
activated by being executed E.g. during installation, virus could install
itself on a harddisk, and also in any and all executing programs in memory
That’s the only time a virus needs human intervention, the rest, it can do it on its own
…continued A more common mean of activation is as
an attachment to an email message Attachments usually have .exe, therefore
NEVER NEVER NEVER EVER open up an attachment of an email from unknown senders!!!! (or even known, you can never know..)
Logic Bomb Also called: Slag Code A programming code, inserted/embedded intentionally in
a legitimate program, and it is set to execute (or ‘explode’) when certain conditions are met
Triggers action when specified time occurs ‘Explosion’, may be designed to erase files, delete files,
shut down system, display messages, etc. Example:
“Friday the 13th” – duplicated itself every Friday and 13th of the month to cause system shutdown
Millennium Time Bomb – design to take advantage of concern over Y2K
Trojan Horse A hidden code that performs unexpected or
unauthorized actions Main difference between trojan horse and virus is
the inability of trojan horse to replicate itself Example:
Change protection code of other user’s files Used in a compiler to insert codes when certain programs
are compiled, this is hard to detect Collect passwords of a user
Zombie A program secretly takes over another Internet-attached
computer and then uses that computer to launch attacks that are difficult to trace the zombie’s creator
Used in DoS (denial-of-service) attacks, typically against targeted websites
Planted on hundreds of computers belonging to unsuspecting third parties. They are used to overload target by launching a lot of network traffic
E.g.: Trinoo is an attack tool released in late Dec ’99 that performs a distributed DoS attack
Appended to program
OriginalProgram + =
OriginalProgram
VirusCode
VirusCode
Virus Surrounding a Program
OriginalProgram
VirusCode
Physically
OriginalProgram
VirusCode (Pt A)
VirusCode (Pt B)
Integrated Viruses
ModifiedProgram
OriginalProgram + =
VirusCode
Home for viruses Virus writer find these qualities appealing
It is hard to detect It is not easily destroyed or deactivated It spreads infection widely It can reinfect its home program or other
programs It is easy to create It is machine independent and operating system
independent
Boot Sector Virus Formerly a fairly popular type Control begins when computer is started Virus breaks the chain in the bootstrap
loader and usually before any detection tools are active to avoid detection
Memory-Resident Virus Happens after booting is done Happens usually when routine codes are
executed, like interpreting keys pressed, codes that handle error condition, etc.
Virus writers attach viruses to these routine codes because it can just be done SO MANY TIMES!!!
Other homes Application programs
Usually stored in macros
Libraries A good place to stay ;) Shared by many, can infect many too!
Other transmission media Compilers, loaders, linkers, runtime monitors,
runtime debuggers, even virus control programs!
Prevention Do not share executable code with an infected source Use only commercial software acquired from reliable, well-
established vendors Test all new software on an isolated computer Open attachments only when you know them to be safe Make recoverable system image and store it safely Make and retain backup copies of executable system files Use virus detectors (or virus scanners) regularly and update
them daily
Truths and Misconceptions Viruses can infect only Microsoft Windows
system – FALSE! Viruses can modify ‘hidden’ or ‘read-only’
files – TRUE! Viruses can appear only in data files, or
only in Word documents, or only in programs – FALSE!
…continued… Viruses spread only on disks or only in email –
FALSE! Viruses cannot remain in memory after a
complete power off/power on reboot – TRUE! Viruses cannot infect hardware – TRUE! Viruses can be malevolent (nasty!), benign (not
bad), or benevolent (not bad too) – TRUE!
Targeted Malicious Codes Trapdoor – undocumented entry point to a
module Inserted during code development, maybe to test
on a module, to provide ‘hooks’ by which to connect future modifications or enhancements, or to allow access if module should fail in the future
Verdict: trapdoors allow a programmer access to a program once it is placed in production
Examples of trapdoors Complex computing system are hard to
develop and test Programmers usually test module by module,
called unit testing Then all components are ‘added’ to make an
integration testing Programmers tend to bypass certain processes
and add in additional codes to ‘make life easier’
Causes of trapdoors Developers usually remove trapdoors (or the
‘additional codes’ made during testing phase However, trapdoors can persist in production
programs because programmers: FORGET to remove them Intentionally leave them in the program for testing Intentionally leave them in the program for maintenance of
the finished program, or Intentionally leave them in the program as a covert
(hidden, secret) means of access to the component after it becomes an accepted part of a production system
Additional informationTypes of viruses Boot viruses: These viruses infect floppy disk boot records or
master boot records in hard disks. They replace the boot record program (which is responsible for loading the operating system in memory) copying it elsewhere on the disk or overwriting it. Boot viruses load into memory if the computer tries to read the disk while it is booting.Examples: Form, Disk Killer, Michelangelo, and Stone virus
Program viruses: These infect executable program files, such as those with extensions like .BIN, .COM, .EXE, .OVL, .DRV (driver) and .SYS (device driver). These programs are loaded in memory during execution, taking the virus with them. The virus becomes active in memory, making copies of itself and infecting files on disk.Examples: Sunday, Cascade
…continued… Multipartite viruses: A hybrid of Boot and Program viruses. They
infect program files and when the infected program is executed, these viruses infect the boot record. When you boot the computer next time the virus from the boot record loads in memory and then starts infecting other program files on disk.Examples: Invader, Flip, and Tequila
Stealth viruses: These viruses use certain techniques to avoid detection. They may either redirect the disk head to read another sector instead of the one in which they reside or they may alter the reading of the infected file’s size shown in the directory listing. For instance, the Whale virus adds 9216 bytes to an infected file; then the virus subtracts the same number of bytes (9216) from the size given in the directory.Examples: Frodo, Joshi, Whale
…continued… Polymorphic viruses: A virus that can encrypt its code in different
ways so that it appears differently in each infection. These viruses are more difficult to detect.Examples: Involuntary, Stimulate, Cascade, Phoenix, Evil, Proud, Virus 101
Macro Viruses: A macro virus is a new type of computer virus that infects the macros within a document or template. When you open a word processing or spreadsheet document, the macro virus is activated and it infects the Normal template (Normal.dot)-a general purpose file that stores default document formatting settings. Every document you open refers to the Normal template, and hence gets infected with the macro virus. Since this virus attaches itself to documents, the infection can spread if such documents are opened on other computers.Examples: DMV, Nuclear, Word Concept.
…continued Active X: ActiveX and Java controls will soon be
the scourge of computing. Most people do not know how to control there web browser to enable or disable the various functions like playing sound or video and so, by default, leave a nice big hole in the security by allowing applets free run into there machine. There has been a lot of commotion behind this and with the amount of power that JAVA imparts, things from the security angle seem a bit gloom.
Parting words… Bonne chance dans tes examens la
semaine prochaine Good Luck in your exams next week
A la prochaine foisSee you next time