Studying The Different Types Of Spoofing Computer Science Essay

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Spoofing is sending fake address of a transmission to gain entry which is illegal into a secure system. It is creates fake responses or signals in order to keep the session alive and prevent timeouts. It captures, alters, re-transmits a communication stream that can mislead the recipient. Hackers use it to refer especially to the TCP/IP packets of addresses in order to disguise a trusted machine. The term spoofing has spread all over the world. The term spoofing refers to stealing the passwords and personal information of a particular person from the internet.

The word 'spoof' came into existence by the British comedian Arthur Roberts in 1852.In the 19th century, Arthur Roberts invented the game ''spoof" and thus the name.

This game had the use of tricks and non-sense. The first recorded reference to this game in 1884 refers to its revival. Very soon the word spoof took on the general sense of nonsense and trickery.

The word spoof was first recorded in 1889.[4]


Types of Spoofing covered are as follows:

1. E-Mail Spoofing

2. Caller ID Spoofing

3. SMS Spoofing

4. Website Spoofing

5. DLL Spoofing

6. IP Spoofing

1.1.1 Definitions:

1) E-Mail Spoofing:

Basically email spoofing is of the type in which the sender address and other parts of the email are altered so that it appears as if it is sent from a different source

2) Caller id Spoofing:

Caller id is the way of making fake calls to other people wherein the number of the sender appears as if he/she is calling from another number.

3) SMS Spoofing:

SMS Spoofing allows us to change the name or number of the text messages appear to come from.

4) Website Spoofing:

Website Spoofing is a method of misleading the people or perhaps the readers that the website has been made by some other organization or by some other known person.

5) DLL Spoofing:

DLL code runs in the context of its host program, it inherits the full capabilities of the program's user with spoofing.

6) IP Spoofing:

IP spoofing is the way in which the sender gets unauthorized access to a computer or a network by making it appear that a certain message has come from a trusted machine by "spoofing" the IP address of that machine.




This is considered to be one of the most used techniques of spammers and hackers. They "spoof" their return e-mail addresses. That makes it look as if the mail has come from some other person. This is a form of identity theft, as the person who sends the email acts to be someone else in order to distract the recipient to do something.


The objective of spoofed mail is to hide the real identity of the sender. This can be done because the Simple Mail Transfer Protocol (SMTP) does not require authentication. A sender can use a fictitious return address or a valid address that belongs to someone else.

The mails that are spoofed can be very annoying, irritating and at times dangerous. Having your own address spoofed can be even worse. If the sender or probably the hacker uses our address as the return address, then our inbox may fill with receivers complaints as well as they might report us in the "spammer's" as well. This type of spoofing can be very dangerous.


These might be the possible motives of an attacker:

1. This is spam and the person who sends doesn't want to be subjected to anti-spam laws

2. The e-mail constitutes threatening or harassing or some other violation of laws.

3. The e-mail contains a virus or Trojan and the sender believes you are more likely to open it if it appears to be from someone you know

4. The e-mail requests information that you might be willing to give to the person the sender is pretending to be, as part of a "social engineering".


Phishing is associated with Email spoofing. Phishing is the practice of attempting to obtain users' credit card or online banking information, often incorporates e-mail spoofing. For example, a "phisher" may send e-mail that looks as if it comes from the banks or credit cards administrative department, asking the user to log onto a Web page and enter passwords, account numbers, and other personal information. Thereby obtaining the users confidential information.[2]


This is the most easily detected form, in e-mail spoofing it simply sets the display name or "from" field of outgoing messages to show a name or address other than the actual one from which the message is sent. Most POP e-mail clients allow you to change the text displayed in this field to whatever you want. For example, when you set up a mail account in Outlook Express, you are asked to enter a display name, which can be anything you want, as shown in Figure 2.1.

Fig 2.1: Setting the display name in your e-mail client

The name that we set will be displayed in the recipient's mail program as the person from whom the mail was sent. We can type anything you like in the field on the following page that asks for your e-mail address. These fields are separate from the field where you enter your account name assigned to you by your ISP.

Figure 2.2 shows what the recipient sees in the "From" field of an e-mail client such as Outlook.

Fig.2.2 The recipient sees whatever information you entered

When this simplistic method is used, you can tell where the mail originated (for example that it did not come from by checking the actual mail headers. Many e-mail clients don't show these by default. In Outlook, open the message and then click View | Options to see the headers, as shown in Figure 2.3.

Fig 2.3: Viewing the e-mail headers

In this example, you can see that the message actually originated from a computer

named XDREAM and was sent from the SMTP server.


Although legislation may help to deter some spoofing, most agree that it is a technological problem that requires a technological solution. One way to control spoofing is to use a mechanism that will authenticate or verify the origins of each e-mail message.

The Sender Policy Framework (SPF) is an emerging standard by which the owners of domains identify their outgoing mail servers in DNS, and then SMTP servers can check the addresses in the mail headers against that information to determine whether a message contains a spoofed address.

The downside is that mail system administrators have to take specific action to publish SPF records for their domains. Users need to implement Simple Authentication and Security Layer (SASL) SMTP for sending mail. Once this is accomplished, administrators can set their domains so that unauthenticated mail sent from them will fail, and the domain's name can't be forged.




This type of spoofing is all about changing the Caller ID to show any desired unidentifiable number on the person's caller id who receives the call [1].

Caller id spoofing is a way of calling someone without them knowing who actually the person is, by hiding the phone number from their caller id.

It is also known as the practice of causing the telephone network to display a number on the recipient's Caller id display which is not that of the actual originating station. Just as e-mail spoofing can make it appear that a message came from any e-mail address the sender chooses, Caller ID spoofing can make a call appear to have come from any phone number the caller wishes. Because of the high trust people tend to have in the Caller ID system; spoofing can call the system's value into question hence creating problems for various parties associated with it.



Phone Gangster




With the help of the Spoof Card, Stealth Card, TeleSpoof and many more we can make the text show up on the caller id display instead of number. We have to choose some text from the huge list of funny caller id text phrases and that text will be displayed as our phone number. Some texts are shown below in the image.

Fig 3.1 Text that can be shown in the caller-id display

3.3 USES:

Caller-id spoofing can be used in the following places:

Doctor needing to disguise home number so that he doesn't get unwanted calls on his home number

Worried spouse wanting to find the truth

Calling back an unknown number to find out the unknown identity without revealing original number

Hiding your location


Caller ID can be spoofed in many different ways and with different well advanced technologies. The most popular ways of spoofing Caller ID are through the use of VoIP or PRI lines.

Other method is that of coping the Bell 202 FSK signal. This method, called orange boxing, uses software that generates the audio signal which is then coupled to the telephone line during the call. The object is to deceive the called party into thinking that there is an incoming call waiting call from the spoofed number, when in fact there is no new incoming call. This technique often also involves an accomplice who may provide a secondary voice to complete the illusion of a call-waiting call. Because the orange box cannot truly spoof incoming caller ID prior to answer and relies to a certain extent on the guile of the caller, it is considered as much a social engineering technique as a technical hack.


Sometimes, caller-id spoofing may be justified. There are necessary reasons for modifying the caller ID sent with a call. These can be the possible places where caller-ids are spoofed:

Calls that come from a large organization or company, particularly those companies that have many branches, sending the main number is a good option. Consider this example. A hospital might have the primary number 777-2000, and around 250 lines functioning inside the main building, and another 200 at the clinic that is located around 50 miles away. I t may happen that most of the numbers will be in the form of 777-200XX, but it might also happen that many of them have an unrelated and unidentifiable numbers. Therefore if we have all calls come from 777-2000, it lets the call recipients identify that the incoming call is a hospital call.

Most of the calling-card companies display Caller IDs of the calling-card user to the call recipients.

Many Business owners and dealers use Caller ID spoofing to display their business number on the Caller ID display when they are calling from a place outside the office premises (for example, on a mobile phone).

Skype users have an option of assigning a Caller ID number for preventing their outgoing calls from being screened by the called party (Skype Caller ID in the USA is 000123456).

Google application - Google Voice displays its users' Google Voice number when the users make calls from the service using their landline numbers or mobile phones.

Gizmo5 sends the user's Gizmo5 SIP number as outbound Caller ID on all calls. Because Gizmo5 IDs are in the format 747NXXXXXX, it is possible to confuse calls made from Gizmo5 with calls made from area code 747.

Fig 3.2. Software for Caller id Spoofing




SMS Spoofing allows us to change the name or number of the text messages a recipient would appear to receive.

It replaces the number from which the text message is received with alphanumeric text.

This type of spoofing has both legitimate and illegitimate applications. The legitimate manner would be setting your name or company name or the product name for or from which the text message is sent.

So thereby the text message received will display the name or the company name or the product name and the purpose in the case for e.g. a product (publicising it) would thus be served.

The illegitimate way would be when a person or a company would use the name of some other person or name or a product with the intentions of causing losses to the concerned.


SMS Spoofing takes place when the user from sending end changes the address information so as to conceal the original address from reaching the user at the receiver end.

It is done mostly to impersonate a user who has roamed onto a foreign network, needs to be submitting messages to the home network.

Generally these messages are addressed to destinations that are beyond the range of home network - with the home SMSC (short messaging service centre) being "hijacked" hence causing messages to be sent to other network


Following are the impacts of this activity:

1) Due to the hijacking of the home SMSC, The home network can bring in termination charges caused by the delivery of these messages to interconnect partners. This is termed as quantifiable revenue leakage.

2) These messages can be of concern to the partners involved.

3) It is possible that it comes under the notice of the customer that he is spammed and the message sent maybe of personal, financial or political importance to the concerned person. Therefore, there is a risk that the interconnect partners might threaten to stop the home network from functioning until and unless a suitable remedy is found and properly implemented. Hence, the consequence of this would be that the 'Home subscribers' will be unable to send messages into these networks.

4) While fraudsters generally use spoofed-identities to send messages, there is a risk that these identities may match those of real home subscribers. This implies, that genuine subscribers may be billed for roaming messages they did not send and if this situation does arise, the integrity of the home operator's billing will be under scrutiny, with potentially huge impact on the brand itself. This is a major churn risk.

4.4 USES:

A person sends a SMS message from an online computer network for lower more competitive pricing, and for the ease of data entry from a full size console. They must spoof their own number in order to properly identify themselves.

A sender does not have a mobile phone, and they need to send an SMS from a number that they have provided the receiver in advance as a means to activate an account.


An SMS Spoofing attack is often first detected by an increase in the number of SMS errors encountered during a bill-run. These errors are caused by the spoofed subscriber identities. Operators can respond by blocking different source addresses in their Gateway-MSCs, but fraudsters can change addresses easily to by-pass these

measures. If fraudsters move to using source addresses at a major interconnect partner, it may become unfeasible to block these addresses, due to the potential impact on normal interconnect services.

SMS Spoofing is a serious threat to mobile operators on several fronts:

1. Mischarging subscribers.

2. Being charged interconnects fees by the hubs.

3. Blocking legitimate traffic in an effort to stop the spoofing.

4. Assigning highly trained and scarce resources to tackle the problem


Messages sent from Google are sent with the Sender ID "Google".

Skype sends messages from its users with the mobile number they registered with. Note that when a user attempts to "reply" to the SMS, the local system may or may not allow the replying message to be sent through to the spoofed "origin."

A user who does not have a mobile phone attempts to sign up for a Foxy tag account, which requires an SMS from a phone number that the user registers with. A dynamically assigned number from an anonymous SMS service will not work because the user is not given the dynamic number in advance to register with.

Fig 4.1 this picture above shows the process of sms spoofing.




Website spoofing is a type of spoofing which creates a website or web pages that are basically run with the intention to mislead users into believing that the particular website is created by a different group or a different person.

Another form of website spoofing is creating false or fake websites that generally have the same appearance and layout as the original website and tricking people into sharing their personal or confidential information with the false


The fake websites can have a similar URL as well. Another technique associated with false URL is the use of 'Cloaked' URL.This technique uses methods of domain redirection or URL forwarding which convincingly hides the address of the actual website.

Website spoofing is often associated with 'Phishing'. It can also be carried out with the intention of criticizing or making fun of the original website or the website developer or fraud as well.[3]


So we can say that web spoofing basically enables an attacker/spoofer to create a "shadow copy" of the entire World Wide Web.

Accesses to this fake Web are monitored through the attacker's system, which helps the attacker to keep a watch on all of the victim's web-activities. These activities include passwords and personal information (bank account numbers).

It can also happen that in the victim's name, the attacker sends certain information to the web servers or send any kind of information to the victim in the name of any Web server. Basically, the spoofer controls everything

The victim does on the Web.


As the spoofer or the attacker has complete control(observing capability as well as modifying capability) over any data that is transmitting from the victim to the web servers and also all the data transactions from the servers to the victim

, the attacker can misuse this in many ways.

Some of the misusing ways are surveillance and tampering.

5.3.1 Surveillance:

The attacker can conveniently spy on the traffic, registering which pages and sites the victim visits or surfs as well as the content of those pages.

For example, when the victim fills out a particular form on a particular site, the entered details are transmitted to a server. The attacker can record all these details, along with the response sent back by the server.

And as we know, most of the on-line commerce is done using forms; this information can also give the attacker -the account passwords and other valuable data of the victim. This is highly dangerous. Surveillance can be carried out by the spoofer even if the victim has a so called "secure" connection to the web-server. So basically, even if the victim's browser shows the secure-connection icon (usually an image of a lock or a key) . It can be possible that the attacker is still successful in his 'Surveillance'.

5.3.2 Tampering:

Surveillance is basically just observing and registering confidential data of the victim.

The spoofer can also MODIFY any of the data that may be travelling in either direction between the victim and the servers. This is called 'Tampering'.

If there are any forms submitted by the victim to the web servers, the attacker can bring about changes in the data entered. For example, if a person is purchasing a certain product on-line, the spoofer can change the product details, product number, shipping address etc.

The attacker can also change the data returned by a Web server, for example by inserting misleadingoffensive material to trick the victim or to cause problems between the victim and the server. Misleadingoffensive material to trick the victim or to cause problems between the victim and the server.

5.3.3 Using the Web:

It is not really difficult to spoof the entire World Wide Web, even though it might seem to be difficult. The attacker does not really have to store all the contents of the Web.

The Web in its entirety is available on-line; so the spoofer's server just has to fetch the required page or pages from the real Web whenever it needs to provide a copy of that page on the false Web.

5.4 Working of the attack:

For this attack to work, the main duty of the attacker is to sit between the victim and the rest of the Web. This arrangement of sitting between the victim and the web is called a "man in the middle attack".

5.5 Method:

One of the most frequently used methods for web spoofing is URL Rewriting.

5.5.1 Url Rewriting

Once the attacker fetches the real document, the attacker rewrites all of the URLs in the document into the same special form by same spoofing technique.

Then the attacker's server provides the rewritten page to the victim's browser. This is how URL rewriting is used for spoofing.

5.6 Protection:

Web spoofing is one of the most dangerous and undetectable security attacks that can be carried out in the web-world today. But of course, there are certain preventive measures that can be taken:

5.6.1 Short-term protection:

These are the steps to follow for short term protection:

a) Disable JavaScript in your browser so the spoofer won't be able to hide the evidence of the attack;

b) Your browser's location line should always be visible;

c) Observe URLs displayed on your browser's location line, and make sure that the URLs always point to the server you think you're connected to.

5.6.2 Long-term protection:

There is no fully satisfactory long-term solution to this problem. But few things that can be done:

a) Changing browsers can help, so they always display the location line. But the users have to know how to recognise the correct URLs.

b) Using improved Secured-connection indicators.

Fig 5.1.The picture above gives an idea of how web spoofing is done



Dynamic Link Libraries or DLL are software object modules, or libraries, linked into a program while it is running DLL's are a feature that allows programs to share common codes so as to help developers to make programs easily and efficiently.DLL's are extensively used in newer versions of Windows.

Fig 6.1.This picture above is hardware id DLL


DLL code runs in the context of its host program, it inherits the full capabilities of the program's user with spoofing. The DLL spoof causes a legitimate program to load a DLL with a Trojan horse instead of legitimate DLL.

DLL spoofing can occur even if the legitimate DLL is beyond the attackers reach. Since when a program loads DLL's it searches through a sequence of directories looking for the required DLL.

Spoofing occurs when the attacker succeeds in inserting the infected DLL-file in one of those directory in such a way that program finds it before it finds the legitimate DLL of the same name. Hence even if the file is write-protected or the attacker doesn't have access to the directory which contains the legitimate DLL then also he can attack the program.

Whenever a user runs a program there occurs a linking algorithm which is used to find the file that holds the DLL. Usually it is the one with DLL suffix.

Linking algorithm searches through three different categories:

1. Program's directory: It is the directory which holds program's file.

2. System directory: Contains a series of entries.

As we have discussed earlier to spoof the user only needs to insert an infected or malicious DLL file into the working directory. If the infected DLL file has the same name as the legitimate DLL then the algorithm will link the fake DLL file to the otherwise trusted program. The infected DLL can then create a new process. It runs in the full capabilities of the user who runs the, it perform the task and request the original DLL file as asked by the user so as not to arouse suspicion. With the help of fake DLL the attacker can now do whatever task he want which is under the capabilities of the fake DLL.

Among the three above mentioned directories, the program directory and the system directory are most vulnerable as the location is predefined. But in the case of working directory this task is hard to perform as the directory is set by the program only and hence its directory is unknown to the user.

Fig 6.2 dependency walker


This is where the social engineering skills come into play. The attacker tries to convince the user to open a simple file. This simple file can be a image too and can be located at any remote place like "http://".

Now the victim (in this case our user) tries to open that file (in this case the image) through a preinstalled software on his machine like a image viewer. Now this image viewer is vulnerable by the binary planting attack.

Now the image viewer may require a DLL file to load dynamically. As the full path name gas not been specified before hand, image viewer will give instructions to Microsoft Windows to search for the required DLL file in a particular order.

Directories in order:

Working directory

The system directory

The 16-bit system directory

Windows directory

Current directory

Directories which are listed in PATH environment variables

Usually "Current directory" is the directory in which the image viewer file is stored.

Now the attacker has control over one of the directories which windows search for, and hence he will be able to place a malicious copy of the dll in that directory.

In such a case the application will load and run the malicious DLL without verification. And now the attacker has gained full control of the affected machine, and now he will be able to perform all the unwanted actions on the machine such as hack into the existing account, create a new account, access important files on specific directories and more.

In such a case web securities like firewall has become an essential instrument to block and prevent the downloading of such malicious files from a remote network location.


The easiest and the most obvious targets for DLL spoofing are the machines running on windows. As here the registry has not been properly updated with a safe-search order for loading DLL's. The safe-search order is not an issue for the PCs running on XP as there are few infectious program and registries which point to fake DLL's or the DLL's which do not even exist. Such program or entries are the real cause of spoofing in the case of XP. Trojans, web caches and email are some of the ways in which codes are placed in the file system. Since obviously having a misconfigured programs or the search path does not mean that the machine will start running malicious code.

As we know this breach is more harmful then the DLL spoof as ordinary user can easily place malicious file in the current folder like in 'Shared Documents'. So when another user with privileged rights opens the document in the same directory, then this directory will become the 'Current Directory' for the machine it will search for the DLL's before the system directory and hence allowing the ordinary user to operate the machine with privileged rights.

Now one may ask that simply placing the DLL in the shared directory or a web cache will not allow it to be loaded, for the DLL's to be loaded they must be kept in either of system directory, the application directory or a path provided by the application that tries to load the DLL.

So the answer is that being able to write to system and application file space already implies administrator privileges so there would be no need for DLL spoofing. Hence it arises the need of online security against the spoofing and accessing to administrator privileges. Now one may ask that simply placing the DLL in the shared directory or a web cache will not allow it to be loaded, for the DLL's to be loaded they must be kept in either of system directory, the application directory or a path provided by the application

that tries to load the DLL. So the answer is that being able to write to system and application file space already implies administrator privileges so there would be no need for DLL spoofing.

Hence arises the need of online security against the spoofing and accessing to administrator privileges.


Microsoft Windows install auxiliary services like FTP server, telnet and web server which are not critical. If those services which are not needed by the administrator are removed then the threat is reduced at once. Microsoft, which we already know seems to have greatest problem with spoofing, tries to solve this problem using their Microsoft Authenticode Certificates.

Well Microsoft needs to update DLL's continuously as outdated DLL could be dangerous in this world of hackers.Now the question arises that how we know that this DLL's are updated. Microsoft solved this problem with Microsoft 2000, by digitally signing the drivers by Windows Hardware Quality Lab(WHQL) tests. The drivers that passed were given a Microsoft digital signature.

As mentioned earlier, in the present time this signing is done with Microsoft Authenticode Certificates. An authorized signer is used for these purpose which is known as thwarted. In present time many designers came up with a variety of tamper resistance. They concluded that even though a particular approach may seem effective, only Microsoft would have the resources, scope and platform control to make it practical .

Here are two concepts which contain handling of drivers:

Protected Path: Specifically known as PVP (Protected Video Path) and PUMA (Protected User Mode Audio). These are the mechanism used to support DRM (Digital Rights Management) rules about safe content presentations.

Protected Environment: It is a kernel mechanism to ensure that kernel-mode drivers are safe for protected contents. These drivers should be signed by Microsoft and must implement specific security functions. All the kernel-mode drivers should be signed to ensure there safe origin and also that they are not tampered with. New mechanisms like OCP (Output Content Protection) are used in the versions after Windows Vista.

Though at higher level OCP's Protected Path and Protected Environment make sense but it includes great complexity, management process and supporting infrastructure. Also implementation of OCP means device drivers get numerous new security responsibilities.

Going back to DLL, a new complexity is revocation.

Authorization is not useful unless it can be revoked when a compromise is discovered. For this Microsoft runs a revocation infrastructure that distributes a Microsoft Global Revocation List to identify no longer authorized driver software. Software revocation is problematic because of potential effect on users who may suddenly be unable to play content through no fault of their own. So revocation is likely to occur well, only after updates are distributed.

So we have seen that after all the measures used by Microsoft, there is a long window of content vulnerability




IP spoofing refers to the creation of Internet Protocol (IP) packets with a forged source IP address, called spoofing, with the purpose of concealing the identity of the sender or impersonating another computing system.

It is a technique used by hackers in which they gain unauthorized access to computers by sending messages from an IP address that would appear to be trusted and also modify the packets so as to make them appear coming from the trusted host.

IP stands for Internet Protocol. The IP Address gives us the identity of our internet service provider (ISP) and the identity of the internet connection.

This address can be viewed very easily whenever we use surf the internet for our purpose.[4]

Fig 7.1 example of IP Spoofing


IP spoofing basically hides your IP Address by creating several other IP Addresses in an attempt to copy some other connection's IP addresses, and also hiding our own IP address.

This type of spoofing is most often used by spammers when they wish to keep the information sent to be discreet.

The Internet Protocol (IP) is used to send data across a network. It is thus used to receive data to all the computers that might be connected to the network.

Every piece of information sent across the network is identified by the IP address which leads to the source of the information sent,

Thus forging the ip address would mean misleading the receiver as to who has sent the information.

When IP spoofing is used the source information is changed. The source of the data is changed and we get a different source to the original.

This is because the source contains a false IP address that convinces the receiver that information sent is from the person from that IP address.

Suppose a need to reply to the information does arise, the information goes to the false IP address.

The hacker can change this and if he wishes, the information will go to a real IP address upon re-directing.[3]


1. Man-in-the-middle: packet sniffs on link between the two endpoints, and can pretend

To be one end of the connection

2. Routing re-direct: redirects routing information form the original host to the

Hacker's host (a variation on the man-in the-middle attack)

3. Source routing: redirects individual packets by the hacker's host

4. Blind spoofing: predicts responses from a host, allowing commands to be sent, but

Does not get immediate feedback

IP Spoofing as a Blind attack:

An IP spoofing attack is made in the "blind", meaning that the attacker will be assuming

The identity of a "trusted" host. From the perspective of the target host, it is simply

Carrying on a "normal" conversation with a trusted host. In truth, they are conversing

With an attacker who is busy forging IP -address packets. [1]


It is basically used for activities against the law over the internet and access unauthorized networks.

Hackers use IP Spoofing so to avoid being caught while spamming.

They also use it to get avoid after service attacks which are basically attacks that send loads of information over the network to computers connected to it.

So that the entire network itself crashes. And the hacker is not caught as the source of the information is altered.

IP spoofing is also used by hackers to breach network security measures by using a false IP address that copies one of the addresses on the network.

Thus making sure the hacker does not need a username and password to log on the network.


One of the possible solutions to protect a network against IP spoofing would be with use of Ingress filtering which uses packets to filter the inbound traffic.

The system has the capability to determine if the packets are coming from within the system or from an outside source.Thereby,making it clear that the packets coming in if spoofed,

Transmission Control Protocols can also be deployed through a number sequence that is used to create a secure connection to other systems.

This method can be enhanced by disconnecting the

Source routing on the network to prevent hackers from exploiting some of the spoofing capabilities.



Nowadays, almost everyone is moving into electronic settings. The commercial, social and governmental activity depends on this new 'Electronic' way of life.

Spoofing is a real threat to the Community as we all are dependent on this electronic way of life. Although in some places its use can be justified, not always does it occur with a 'good' intention. Since many years it has been seen that spoofing attacks are becoming more and more extensive with the difficulty of nailing the spoof attackers increasing as well.

As research in the field of computer science carries on steadily, ways of using and misusing this field carry on as well.

The types mentioned above can be called as the Real-World applications.

Today, nearly everything runs around these few real-world applications. And with the rapid growth of spoofing attacks, it has become even more important to protect ourselves from the attacks or even prevent them from taking place at all.

One of the possible ways to do so might understand the running of spoofing entirely, and then using the understanding to probably make this real-world applicant.









Used to hack emails

Used to hack numbers

Used to hack sms's

Used to hack websites

Used to hack the context of host's program

Used to impersonate computer systems


Can be downloaded for free

Can be downloaded for free

Can be downloaded for free

Can't be downloaded for free

Can be downloaded for free

Can't be downloaded for free








Table 1 : Comparison of various types of spoofing