Entries Tagged "phones"

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Matthew Weigman

Fascinating story of a 16-year-old blind phone phreaker.

One afternoon, not long after Proulx was swatted, Weigman came home to find his mother talking to what sounded like a middle-aged male. The man introduced himself as Special Agent Allyn Lynd of the FBI’s cyber squad in Dallas, which investigates hacking and other computer crimes. A West Point grad, Lynd had spent 10 years combating phreaks and hackers. Now, with Proulx’s cooperation, he was aiming to take down Stuart Rosoff and the Wrecking Crew—and he wanted Weigman’s help.

Lynd explained that Rosoff, Roberson and other party-liners were being investigated in a swatting conspiracy. Because Weigman was a minor, however, he would not be charged—as long as he cooperated with the authorities. Realizing that this was a chance to turn his life around, Weigman confessed his role in the phone assaults.

Weigman’s auditory skills had always been central to his exploits, the means by which he manipulated the phone system. Now he gave Lynd a first-hand display of his powers. At one point during the visit, Lynd’s cellphone rang. “I can’t talk to you right now,” the agent told the caller. “I’m out doing something.” When he hung up, Weigman turned to him from across the room. “Oh,” the kid asked, “is that Billy Smith from Verizon?”

Lynd was stunned. William Smith was a fraud investigator with Verizon who had been working with him on the swatting case. Weigman not only knew all about the man and his role in the investigation, but he had identified Smith simply by hearing his Southern-accented voice on the cellphone—a sound which would have been inaudible to anyone else in the room. Weigman then shocked Lynd again, rattling off the names of a host of investigators working for other phone companies. Matt, it turned out, had spent weeks identifying phone-company employees, gaining their trust and obtaining confidential information about the FBI investigation against him. Even the phone account in his house, he revealed to Lynd, had been opened under the name of a telephone-company investigator. Lynd had rarely seen anything like it—even from cyber gangs who tried to hack into systems at the White House and the FBI. “Weigman flabbergasted me,” he later testified.

Posted on September 1, 2009 at 6:21 AMView Comments

Building in Surveillance

China is the world’s most successful Internet censor. While the Great Firewall of China isn’t perfect, it effectively limits information flowing in and out of the country. But now the Chinese government is taking things one step further.

Under a requirement taking effect soon, every computer sold in China will have to contain the Green Dam Youth Escort software package. Ostensibly a pornography filter, it is government spyware that will watch every citizen on the Internet.

Green Dam has many uses. It can police a list of forbidden Web sites. It can monitor a user’s reading habits. It can even enlist the computer in some massive botnet attack, as part of a hypothetical future cyberwar.

China’s actions may be extreme, but they’re not unique. Democratic governments around the world—Sweden, Canada and the United Kingdom, for example—are rushing to pass laws giving their police new powers of Internet surveillance, in many cases requiring communications system providers to redesign products and services they sell.

Many are passing data retention laws, forcing companies to keep information on their customers. Just recently, the German government proposed giving itself the power to censor the Internet.

The United States is no exception. The 1994 CALEA law required phone companies to facilitate FBI eavesdropping, and since 2001, the NSA has built substantial eavesdropping systems in the United States. The government has repeatedly proposed Internet data retention laws, allowing surveillance into past activities as well as present.

Systems like this invite criminal appropriation and government abuse. New police powers, enacted to fight terrorism, are already used in situations of normal crime. Internet surveillance and control will be no different.

Official misuses are bad enough, but the unofficial uses worry me more. Any surveillance and control system must itself be secured. An infrastructure conducive to surveillance and control invites surveillance and control, both by the people you expect and by the people you don’t.

China’s government designed Green Dam for its own use, but it’s been subverted. Why does anyone think that criminals won’t be able to use it to steal bank account and credit card information, use it to launch other attacks, or turn it into a massive spam-sending botnet?

Why does anyone think that only authorized law enforcement will mine collected Internet data or eavesdrop on phone and IM conversations?

These risks are not theoretical. After 9/11, the National Security Agency built a surveillance infrastructure to eavesdrop on telephone calls and e-mails within the United States.

Although procedural rules stated that only non-Americans and international phone calls were to be listened to, actual practice didn’t always match those rules. NSA analysts collected more data than they were authorized to, and used the system to spy on wives, girlfriends, and famous people such as President Clinton.

But that’s not the most serious misuse of a telecommunications surveillance infrastructure. In Greece, between June 2004 and March 2005, someone wiretapped more than 100 cell phones belonging to members of the Greek government—the prime minister and the ministers of defense, foreign affairs and justice.

Ericsson built this wiretapping capability into Vodafone’s products, and enabled it only for governments that requested it. Greece wasn’t one of those governments, but someone still unknown—a rival political party? organized crime?—figured out how to surreptitiously turn the feature on.

Researchers have already found security flaws in Green Dam that would allow hackers to take over the computers. Of course there are additional flaws, and criminals are looking for them.

Surveillance infrastructure can be exported, which also aids totalitarianism around the world. Western companies like Siemens, Nokia, and Secure Computing built Iran’s surveillance infrastructure. U.S. companies helped build China’s electronic police state. Twitter’s anonymity saved the lives of Iranian dissidents—anonymity that many governments want to eliminate.

Every year brings more Internet censorship and control—not just in countries like China and Iran, but in the United States, the United Kingdom, Canada and other free countries.

The control movement is egged on by both law enforcement, trying to catch terrorists, child pornographers and other criminals, and by media companies, trying to stop file sharers.

It’s bad civic hygiene to build technologies that could someday be used to facilitate a police state. No matter what the eavesdroppers and censors say, these systems put us all at greater risk. Communications systems that have no inherent eavesdropping capabilities are more secure than systems with those capabilities built in.

This essay previously appeared—albeit with fewer links—on the Minnesota Public Radio website.

Posted on August 3, 2009 at 6:43 AMView Comments

Defeating Caller ID Blocking

TrapCall is a new service that reveals the caller ID on anonymous or blocked calls:

TrapCall instructs new customers to reprogram their cellphones to send all rejected, missed and unanswered calls to TrapCall’s own toll-free number. If the user sees an incoming call with Caller ID blocked, he just presses the button on the phone that would normally send it to voicemail. The call invisibly loops through TelTech’s system, then back to the user’s phone, this time with the caller’s number displayed as the Caller ID.

There’s more:

In addition to the free service, branded Fly Trap, a $10-per-month upgrade called Mouse Trap provides human-created transcripts of voicemail messages, and in some cases uses text messaging to send you the name of the caller—information not normally available to wireless customers. Mouse Trap will also send you text messages with the numbers of people who call while your phone was powered off, even if they don’t leave a message.

With the $25-a-month Bear Trap upgrade, you can also automatically record your incoming calls, and get text messages with the billing name and street address of some of your callers, which TelTech says is derived from commercial databases.

Posted on February 26, 2009 at 12:53 PMView Comments

Do-Not-Call Lists

Turns out you can add anyone’s number to—or remove anyone’s number from—the Canadian do-not-call list. You can also add (but not remove) numbers to the U.S. do-not-call list, though only up to three at a time, and you have to provide a valid e-mail address to confirm the addition.

Here’s my idea. If you’re a company, add every one of your customers to the list. That way, none of your competitors will be able to cold call them.

Posted on October 7, 2008 at 3:51 PMView Comments

NSA Snooping on Cell Phone Calls

From CNet:

A recent article in the London Review of Books revealed that a number of private companies now sell off-the-shelf data-mining solutions to government spies interested in analyzing mobile-phone calling records and real-time location information. These companies include ThorpeGlen, VASTech, Kommlabs, and Aqsacom—all of which sell “passive probing” data-mining services to governments around the world.

ThorpeGlen, a U.K.-based firm, offers intelligence analysts a graphical interface to the company’s mobile-phone location and call-record data-mining software. Want to determine a suspect’s “community of interest“? Easy. Want to learn if a single person is swapping SIM cards or throwing away phones (yet still hanging out in the same physical location)? No problem.

In a Web demo (PDF) (mirrored here) to potential customers back in May, ThorpeGlen’s vice president of global sales showed off the company’s tools by mining a dataset of a single week’s worth of call data from 50 million users in Indonesia, which it has crunched in order to try and discover small anti-social groups that only call each other.

Posted on September 17, 2008 at 12:49 PMView Comments

Kids with Cell Phones in Emergencies

In the middle of a sensationalist article about risks to children and how giving them cell phones can help, there’s at least one person who gets it.

Since the 1999 Columbine High School shootings and the 9/11 terrorist attacks, many parents feel better having a way to contact their children. But hundreds of students on cell phones during an emergency can cause problems for responders.

“There’s a huge difference between feeling safer and being safer,” says Kenneth Trump, president of National School Safety and Security Services.

According to Trump, students’ cell phone use during emergencies can do three things: increase the spread of rumors about the situation, expedite parental traffic at a scene that needs to be controlled and accelerate the overload of cell-phone systems in the area.

Tom Hautton, an attorney for the National School Board Association, said that cell phones in schools also can lead to classroom distractions, text-message cheating and inappropriate photographs and videos being spread around campus.

We are just naturally inclined to make irrational security decisions when it comes to our children.

Posted on August 14, 2008 at 12:20 PMView Comments

Man-in-the-Middle Attacks

Last week’s dramatic rescue of 15 hostages held by the guerrilla organization FARC was the result of months of intricate deception on the part of the Colombian government. At the center was a classic man-in-the-middle attack.

In a man-in-the-middle attack, the attacker inserts himself between two communicating parties. Both believe they’re talking to each other, and the attacker can delete or modify the communications at will.

The Wall Street Journal reported how this gambit played out in Colombia:

“The plan had a chance of working because, for months, in an operation one army officer likened to a ‘broken telephone,’ military intelligence had been able to convince Ms. Betancourt’s captor, Gerardo Aguilar, a guerrilla known as ‘Cesar,’ that he was communicating with his top bosses in the guerrillas’ seven-man secretariat. Army intelligence convinced top guerrilla leaders that they were talking to Cesar. In reality, both were talking to army intelligence.”

This ploy worked because Cesar and his guerrilla bosses didn’t know one another well. They didn’t recognize one anothers’ voices, and didn’t have a friendship or shared history that could have tipped them off about the ruse. Man-in-the-middle is defeated by context, and the FARC guerrillas didn’t have any.

And that’s why man-in-the-middle, abbreviated MITM in the computer-security community, is such a problem online: Internet communication is often stripped of any context. There’s no way to recognize someone’s face. There’s no way to recognize someone’s voice. When you receive an e-mail purporting to come from a person or organization, you have no idea who actually sent it. When you visit a website, you have no idea if you’re really visiting that website. We all like to pretend that we know who we’re communicating with—and for the most part, of course, there isn’t any attacker inserting himself into our communications—but in reality, we don’t. And there are lots of hacker tools that exploit this unjustified trust, and implement MITM attacks.

Even with context, it’s still possible for MITM to fool both sides—because electronic communications are often intermittent. Imagine that one of the FARC guerrillas became suspicious about who he was talking to. So he asks a question about their shared history as a test: “What did we have for dinner that time last year?” or something like that. On the telephone, the attacker wouldn’t be able to answer quickly, so his ruse would be discovered. But e-mail conversation isn’t synchronous. The attacker could simply pass that question through to the other end of the communications, and when he got the answer back, he would be able to reply.

This is the way MITM attacks work against web-based financial systems. A bank demands authentication from the user: a password, a one-time code from a token or whatever. The attacker sitting in the middle receives the request from the bank and passes it to the user. The user responds to the attacker, who passes that response to the bank. Now the bank assumes it is talking to the legitimate user, and the attacker is free to send transactions directly to the bank. This kind of attack completely bypasses any two-factor authentication mechanisms, and is becoming a more popular identity-theft tactic.

There are cryptographic solutions to MITM attacks, and there are secure web protocols that implement them. Many of them require shared secrets, though, making them useful only in situations where people already know and trust one another.

The NSA-designed STU-III and STE secure telephones solve the MITM problem by embedding the identity of each phone together with its key. (The NSA creates all keys and is trusted by everyone, so this works.) When two phones talk to each other securely, they exchange keys and display the other phone’s identity on a screen. Because the phone is in a secure location, the user now knows who he is talking to, and if the phone displays another organization—as it would if there were a MITM attack in progress—he should hang up.

Zfone, a secure VoIP system, protects against MITM attacks with a short authentication string. After two Zfone terminals exchange keys, both computers display a four-character string. The users are supposed to manually verify that both strings are the same—”my screen says 5C19; what does yours say?”—to ensure that the phones are communicating directly with each other and not with an MITM. The AT&T TSD-3600 worked similarly.

This sort of protection is embedded in SSL, although no one uses it. As it is normally used, SSL provides an encrypted communications link to whoever is at the other end: bank and phishing site alike. And the better phishing sites create valid SSL connections, so as to more effectively fool users. But if the user wanted to, he could manually check the SSL certificate to see if it was issued to “National Bank of Trustworthiness” or “Two Guys With a Computer in Nigeria.”

No one does, though, because you have to both remember and be willing to do the work. (The browsers could make this easier if they wanted to, but they don’t seem to want to.) In the real world, you can easily tell a branch of your bank from a money changer on a street corner. But on the internet, a phishing site can be easily made to look like your bank’s legitimate website. Any method of telling the two apart takes work. And that’s the first step to fooling you with a MITM attack.

Man-in-the-middle isn’t new, and it doesn’t have to be technological. But the internet makes the attacks easier and more powerful, and that’s not going to change anytime soon.

This essay originally appeared on Wired.com.

Posted on July 15, 2008 at 6:47 AMView Comments

Fourth Undersea Cable Failure in Middle East

The first two affected India, Pakistan, Egypt, Qatar, Saudi Arabia, the United Arab Emirates, Kuwait, and Bahrain. The third one is between the UAE and Oman. The fourth one connected Qatar and the UAE. This one may not have been cut, but taken offline due to power issues.

The first three have been blamed on ships’ anchors, but there is some dispute about that. And that’s two in the Mediterranean and two in the Persian Gulf.

There have been no official reports of malice to me, but it’s an awfully big coincidence. The fact that Iran has lost Internet connectivity only makes this weirder.

EDITED TO ADD (2/5): The International Herald Tribune has more. And a comment below questions whether Iran being offline has anything to do with this.

EDITED TO ADD (2/5): A fifth cut? What the hell is going on out there?

EDITED TO ADD (2/5): More commentary from Steve Bellovin.

EDITED TO ADD (2/5): Just to be clear: Iran is not offline. That was an untrue rumor; it was never true.

Posted on February 5, 2008 at 8:28 PMView Comments

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Sidebar photo of Bruce Schneier by Joe MacInnis.