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Phreaking

Phreaking is a slang term coined to describe the activity of a subculture of people who study, experiment with, or explore telecommunication systems, like equipment and systems connected to public telephone networks. The term "phreak" is derived from the words "phone" and "freak". It may also refer to the use of various audio frequencies to manipulate a phone system. "Phreak", "phreaker", or "phone phreak" are names used for and by individuals who participate in phreaking. Additionally, it is often associated with computer hacking. This is sometimes called the H/P culture (with H standing for Hacking and P standing for Phreaking). information on this site is for educational purposes only! Wyretap Network ©2007 - 2010

Disclaimer: The information on this site is for educational and entertainment purposes only. It is not intended to encourage or teach you to break the law, that's what TV is for, albeit in a very flawed manner. The owner(s) of this website will not be held liable for anything you choose to do with the information contained on this site. If you want to learn how to rape, murder, loot, and commit acts of terror on a monumental scale, well, you won't find it here. Instead, tune-in to your nightly news and take a lesson from your 'elected' 'leaders'.

Social engineering techniques and terms

All social engineering techniques are based on specific attributes of human decision-making known as cognitive biases.[1] These biases, sometimes called "bugs in the human hardware," are exploited in various combinations to create attack techniques, some of which are listed here:
Pretexting
Pretexting is the act of creating and using an invented scenario (the pretext) to persuade a targeted victim to release information or perform an action and is typically done over the telephone. It is more than a simple lie as it most often involves some prior research or set up and the use of pieces of known information (e.g. for impersonation: date of birth, Social Security Number, last bill amount) to establish legitimacy in the mind of the target. [2]
This technique is often used to trick a business into disclosing customer information, and is used by private investigators to obtain telephone records, utility records, banking records and other information directly from junior company service representatives. The information can then be used to establish even greater legitimacy under tougher questioning with a manager (e.g., to make account changes, get specific balances, etc).
As most U.S. companies still authenticate a client by asking only for a Social Security Number, date of birth, or mother's maiden name, the method is effective in many situations and will likely continue to be a security problem in the future.
Pretexting can also be used to impersonate co-workers, police, bank, tax authorities, or insurance investigators — or any other individual who could have perceived authority or right-to-know in the mind of the targeted victim. The pretexter must simply prepare answers to questions that might be asked by the victim. In some cases all that is needed is a voice that sounds authoritative, an earnest tone, and an ability to think on one's feet.
Phishing
Main article: Phishing
Phishing is a technique of fraudulently obtaining private information. Typically, the phisher sends an e-mail that appears to come from a legitimate business—a bank, or credit card company—requesting "verification" of information and warning of some dire consequence if it is not provided. The e-mail usually contains a link to a fraudulent web page that seems legitimate—with company logos and content—and has a form requesting everything from a home address to an ATM card's PIN.
For example, 2003 saw the proliferation of a phishing scam in which users received e-mails supposedly from eBay claiming that the user’s account was about to be suspended unless a link provided was clicked to update a credit card (information that the genuine eBay already had). Because it is relatively simple to make a Web site resemble a legitimate organization's site by mimicking the HTML code, the scam counted on people being tricked into thinking they were being contacted by eBay and subsequently, were going to eBay’s site to update their account information. By spamming large groups of people, the “phisher” counted on the e-mail being read by a percentage of people who already had listed credit card numbers with eBay legitimately, who might respond.
IVR or phone phishing
This technique uses a rogue Interactive voice response (IVR) system to recreate a legitimate sounding copy of a bank or other institution's IVR system. The victim is prompted (typically via a phishing e-mail) to call in to the "bank" via a (ideally toll free) number provided in order to "verify" information. A typical system will reject log-ins continually, ensuring the victim enters PINs or passwords multiple times, often disclosing several different passwords. More advanced systems transfer the victim to the attacker posing as a customer service agent for further questioning.
One could even record the typical commands ("Press one to change your password, press two to speak to customer service" ...) and play back the direction manually in real time, giving the appearance of being an IVR without the expense.
The technical name for phone phishing, is vishing.
Baiting
Baiting is like the real-world Trojan Horse that uses physical media and relies on the curiosity or greed of the victim.[3]
In this attack, the attacker leaves a malware infected floppy disk, CD ROM, or USB flash drive in a location sure to be found (bathroom, elevator, sidewalk, parking lot), gives it a legitimate looking and curiosity-piquing label, and simply waits for the victim to use the device.
For example, an attacker might create a disk featuring a corporate logo, readily available off the target's web site, and write "Executive Salary Summary Q2 2009" on the front. The attacker would then leave the disk on the floor of an elevator or somewhere in the lobby of the targeted company. An unknowing employee might find it and subsequently insert the disk into a computer to satisfy their curiosity, or a good samaritan might find it and turn it in to the company.
In either case as a consequence of merely inserting the disk into a computer to see the contents, the user would unknowingly install malware on it, likely giving an attacker unfettered access to the victim's PC and perhaps, the targeted company's internal computer network.
Unless computer controls block the infection, PCs set to "auto-run" inserted media may be compromised as soon as a rogue disk is inserted.
Quid pro quo
Quid pro quo means something for something:
An attacker calls random numbers at a company claiming to be calling back from technical support. Eventually they will hit someone with a legitimate problem, grateful that someone is calling back to help them. The attacker will "help" solve the problem and in the process have the user type commands that give the attacker access or launch malware.
In a 2003 information security survey, 90% of office workers gave researchers what they claimed was their password in answer to a survey question in exchange for a cheap pen.[4] Similar surveys in later years obtained similar results using chocolates and other cheap lures, although they made no attempt to validate the passwords.[5]
Other types
Common confidence tricksters or fraudsters also could be considered "social engineers" in the wider sense, in that they deliberately deceive and manipulate people, exploiting human weaknesses to obtain personal benefit. They may, for example, use social engineering techniques as part of an IT fraud.
The latest type of social engineering techniques include spoofing or hacking IDs of people having popular e-mail IDs such as Yahoo!, GMail, Hotmail, etc. Among the many motivations for deception are:
Phishing credit-card account numbers and their passwords.
Hacking private e-mails and chat histories, and manipulating them by using common editing techniques before using them to extort money and creating distrust among individuals.
Hacking websites of companies or organizations and destroying their reputation.

The Real ID Coming Soon!!!

The Real ID Coming Soon!!!

Friday, June 18, 2010

Cancer Killer Found In The Ocean

Marine Biotechnologists Treat Cancer With Mud-loving Ocean Bacteria

November 1, 2007 — Biomedicine scientists identified and sequenced the genes of a bacteria called Salinispora tropica. It produces anti-cancer compounds and can be found in ocean sediments off the Bahamas. A product called salinosporamide A has shown promise treating a bone marrow cancer called multiple myeloma, as well as solid tumors.

It's estimated that over 1.4 million Americans will be diagnosed with cancer this year, and for more than 500,000 it will be fatal. But now, scientists have found a new weapon against it. The ocean! You run in it ... play in it ... splash in it ... but what’s found at the bottom of it can kill cancer!

"This bacteria makes a really potent anti cancer agent," Bradley Moore, Ph.D., marine biochemist at Scripps Institution of Oceanography in San Diego, Calf., told Ivanhoe.

The bacterium was discovered in 1991, but just recently researchers at the Scripps Institution of Oceanography unlocked the genomic sequence, revealing this bacteria's cancer fighting potential.

"That’s how new drugs are discovered. We really have to go out there and grow bacteria, look at the genomes," Dr. Moore said. "What we've recently been able to do is take the enzymes out of the cell, put them in a test tube, and then play God and manipulate these enzymes and make new chemistry."

And make new drugs. "There's a major search underway for better drugs to treat cancer and one way to find these new medicines is to look to nature," Paul Jensen, Ph.D., associate research scientist at Scipps Institution of Oceanography, told Ivanhoe.

And unlike most of the drugs used to fight cancer today -- this bacterium is not found on land.

"When you look at a globe ... there's more blue than there is land," said Dr. Moore.

Revealing that our oceans maybe an even more valuable resource than we realize. A clinical trial is already underway. A San Diego pharmaceutical company is using it to treat patients that have a form of bone marrow cancer -- and it could soon be tested to treat other cancers.

The American Geophysical Union and The American Society for Microbiology contributed to the information contained in the TV portion of this report.

BACKGROUND: Researchers at the Scripps Institution of Oceanography have discovered bacteria in mud from the Bahamas with the potential to help fight cancer. Now that the bacteria’s genome has been successfully sequenced, that information is now being used by a pharmaceutical company to treat bone marrow cancer patients.

ABOUT THE BACTERIA: The bacteria known as Salinispora tropica is related to the Streptomyces genus, a land-based group of bacteria considered to be the kinds of antibiotic-producing organisms. First discovered in 1991 in shallow ocean sediment off the Bahamas, it took several years to successfully sequence Salinispora’s genome, revealing that this mud-dwelling bacteria produces natural antibiotics and anti-cancer products. Researchers found that 10% of the bacteria’s genome is dedicated to producing molecules for antibiotics and anti-cancer agents, compared to only 6% to 8% of most organisms’ genomes. The decoding opens the door to a broad range of possibilities for isolating and adapting potent molecules the marine organism naturally employs for chemical defense, scavenging for nutrients, and communication in its ocean environment. One compound, salinosporamide A, is currently in human clinical trials for treating multiple myeloma, a cancer of plasma cells in bone marrow, as well as for treating solid tumors.

SEQUENCING ABCs: Genome sequencing is figuring out the order of DNA nucleotides, or bases, in a genome: the building blocks that make up an organism’s DNA. The entire genome can’t be sequenced at once because DNA sequencing methods can only handle short stretches of DNA at a time. So scientists break the DNA into small pieces, sequence those, and then reassemble the pieces into the proper order to sequence the entire genome. There are two ways of doing this. The "clone-by-clone" approach involves breaking the genome into chunks, called clones, each about 150,000 base pairs long, then using genome mapping techniques to figure where each belongs in the genome. Next they cut the clones into smaller, overlapping pieces of about 500 base pairs each, sequence those pieces, and use the overlaps to reconstruct the sequence of the entire clone.

An alternative strategy, called the "whole-genome shotgun method," involves breaking the genome into small pieces, sequencing them, and then reassembling the pieces into the full genome. The clone-by-clone approach is more reliable, but slow and time-consuming. The shotgun method is faster, but it can be extremely difficult to accurately put together so many tiny pieces of sequence all at once Neither of these approaches proved sufficient to completely solve the Salinispora tropica genomic puzzle, however. Instead, information about the natural chemistry of the organism helped close the sequencing gap.


Note: This story and accompanying video were originally produced for the American Institute of Physics series Discoveries and Breakthroughs in Science by Ivanhoe Broadcast News and are protected by copyright law. All rights reserved.
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