isp

New Zealand’s new copyright law

From Mark Gibbs’ “New Zealand gets insane copyright law” (Network World: 20 February 2009):

A law was recently passed in New Zealand that has created what many consider to be the world’s harshest copyright enforcement law. This insanity, found in Sections 92A and C of New Zealand’s Copyright Amendment Act 2008 establishes – and I am not making this up – a guilt upon accusation principle!

Yep, you read that right. This means that anyone accused of “copyright infringement” will get his Internet connection cut off; and treated as guilty until proven innocent.

And if that weren’t enough, this crazy legislation defines anyone providing Internet access as an ISP and makes them responsible for monitoring and cutting off Internet access for anyone who uses their services and is accused of copyright violations. Thus libraries, schools, coffee shops, cafes – anyone offering any kind of Internet access – will be considered ISPs and become responsible and potentially liable.

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The end of Storm

From Brian Krebs’ “Atrivo Shutdown Hastened Demise of Storm Worm” (The Washington Post: 17 October 2008):

The infamous Storm worm, which powered a network of thousands of compromised PCs once responsible for sending more than 20 percent of all spam, appears to have died off. Security experts say Storm’s death knell was sounded by the recent shutdown of Atrivo, a California based ISP that was home to a number of criminal cyber crime operations, including at least three of the master servers used to control the Storm network.

Three out of four of [Storm’s] control servers were located at Atrivo, a.k.a. Intercage, said Joe Stewart, a senior security researcher with Atlanta based SecureWorks who helped unlock the secrets of the complex Storm network. The fourth server, he said, operated out of Hosting.ua, an Internet provider based in the Ukraine.

Stewart said the final spam run blasted out by Storm was on Sept. 18.Three days later, Atrivo was forced off the Internet after its sole remaining upstream provider — Pacific Internet Exchange (PIE) — decided to stop routing for the troubled ISP. In the weeks leading up to that disconnection, four other upstream providers severed connectivity to Atrivo, following detailed reports from Security Fix and Host Exploit that pointed to a massive amount of spam, malicious software and a host of other cyber criminal operations emanating from it.

Stewart said spam sent by the Storm network had been steadily decreasing throughout 2008, aided in large part by the inclusion of the malware in Microsoft’s malicious software removal tool, which has scrubbed Storm from hundreds of thousands of PCs since last fall. Stewart said it’s impossible to tell whether the Storm worm was disrupted by the Atrivo shutdown or if the worm’s authors pulled the plug themselves and decided to move on. But at least 30,000 systems remain infected with the Storm malware.

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Three top botnets

From Kelly Jackson Higgins’ “The World’s Biggest Botnets” (Dark Reading: 9 November 2007):

You know about the Storm Trojan, which is spread by the world’s largest botnet. But what you may not know is there’s now a new peer-to-peer based botnet emerging that could blow Storm away.

“We’re investigating a new peer-to-peer botnet that may wind up rivaling Storm in size and sophistication,” says Tripp Cox, vice president of engineering for startup Damballa, which tracks botnet command and control infrastructures. “We can’t say much more about it, but we can tell it’s distinct from Storm.”

Researchers estimate that there are thousands of botnets in operation today, but only a handful stand out by their sheer size and pervasiveness. Although size gives a botnet muscle and breadth, it can also make it too conspicuous, which is why botnets like Storm fluctuate in size and are constantly finding new ways to cover their tracks to avoid detection. Researchers have different head counts for different botnets, with Storm by far the largest (for now, anyway).

Damballa says its top three botnets are Storm, with 230,000 active members per 24 hour period; Rbot, an IRC-based botnet with 40,000 active members per 24 hour period; and Bobax, an HTTP-based botnet with 24,000 active members per 24 hour period, according to the company.

1. Storm

Size: 230,000 active members per 24 hour period

Type: peer-to-peer

Purpose: Spam, DDOS

Malware: Trojan.Peacomm (aka Nuwar)

Few researchers can agree on Storm’s actual size — while Damballa says its over 200,000 bots, Trend Micro says its more like 40,000 to 100,000 today. But all researchers say that Storm is a whole new brand of botnet. First, it uses encrypted decentralized, peer-to-peer communication, unlike the traditional centralized IRC model. That makes it tough to kill because you can’t necessarily shut down its command and control machines. And intercepting Storm’s traffic requires cracking the encrypted data.

Storm also uses fast-flux, a round-robin method where infected bot machines (typically home computers) serve as proxies or hosts for malicious Websites. These are constantly rotated, changing their DNS records to prevent their discovery by researchers, ISPs, or law enforcement. And researchers say it’s tough to tell how the command and control communication structure is set up behind the P2P botnet. “Nobody knows how the mother ships are generating their C&C,” Trend Micro’s Ferguson says.

Storm uses a complex combination of malware called Peacomm that includes a worm, rootkit, spam relay, and Trojan.

But researchers don’t know — or can’t say — who exactly is behind Storm, except that it’s likely a fairly small, tightly knit group with a clear business plan. “All roads lead back to Russia,” Trend Micro’s Ferguson says.

“Storm is only thing now that keeps me awake at night and busy,” he says. “It’s professionalized crimeware… They have young, talented programmers apparently. And they write tools to do administrative [tracking], as well as writing cryptographic routines… and another will handle social engineering, and another will write the Trojan downloader, and another is writing the rootkit.”

Rbot

Size: 40,000 active members per 24 hour period

Type: IRC

Purpose: DDOS, spam, malicious operations

Malware: Windows worm

Rbot is basically an old-school IRC botnet that uses the Rbot malware kit. It isn’t likely to ever reach Storm size because IRC botnets just can’t scale accordingly. “An IRC server has to be a beefy machine to support anything anywhere close to the size of Peacomm/Storm,” Damballa’s Cox says.

It can disable antivirus software, too. Rbot’s underlying malware uses a backdoor to gain control of the infected machine, installing keyloggers, viruses, and even stealing files from the machine, as well as the usual spam and DDOS attacks.

Bobax

Size: 24,000 active members per 24 hour period

Type: HTTP

Purpose: Spam

Malware: Mass-mailing worm

Bobax is specifically for spamming, Cox says, and uses the stealthier HTTP for sending instructions to its bots on who and what to spam. …

According to Symantec, Bobax bores open a back door and downloads files onto the infected machine, and lowers its security settings. It spreads via a buffer overflow vulnerability in Windows, and inserts the spam code into the IE browser so that each time the browser runs, the virus is activated. And Bobax also does some reconnaissance to ensure that its spam runs are efficient: It can do bandwidth and network analysis to determine just how much spam it can send, according to Damballa. “Thus [they] are able to tailor their spamming so as not to tax the network, which helps them avoid detection,” according to company research.

Even more frightening, though, is that some Bobax variants can block access to antivirus and security vendor Websites, a new trend in Website exploitation.

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The future of security

From Bruce Schneier’s “Security in Ten Years” (Crypto-Gram: 15 December 2007):

Bruce Schneier: … The nature of the attacks will be different: the targets, tactics and results. Security is both a trade-off and an arms race, a balance between attacker and defender, and changes in technology upset that balance. Technology might make one particular tactic more effective, or one particular security technology cheaper and more ubiquitous. Or a new emergent application might become a favored target.

By 2017, people and organizations won’t be buying computers and connectivity the way they are today. The world will be dominated by telcos, large ISPs and systems integration companies, and computing will look a lot like a utility. Companies will be selling services, not products: email services, application services, entertainment services. We’re starting to see this trend today, and it’s going to take off in the next 10 years. Where this affects security is that by 2017, people and organizations won’t have a lot of control over their security. Everything will be handled at the ISPs and in the backbone. The free-wheeling days of general-use PCs will be largely over. Think of the iPhone model: You get what Apple decides to give you, and if you try to hack your phone, they can disable it remotely. We techie geeks won’t like it, but it’s the future. The Internet is all about commerce, and commerce won’t survive any other way.

Marcus Ranum: … Another trend I see getting worse is government IT know-how. At the rate outsourcing has been brain-draining the federal workforce, by 2017 there won’t be a single government employee who knows how to do anything with a computer except run PowerPoint and Web surf. Joking aside, the result is that the government’s critical infrastructure will be almost entirely managed from the outside. The strategic implications of such a shift have scared me for a long time; it amounts to a loss of control over data, resources and communications.

Bruce Schneier: … I’m reminded of the post-9/11 anti-terrorist hysteria — we’ve confused security with control, and instead of building systems for real security, we’re building systems of control. Think of ID checks everywhere, the no-fly list, warrantless eavesdropping, broad surveillance, data mining, and all the systems to check up on scuba divers, private pilots, peace activists and other groups of people. These give us negligible security, but put a whole lot of control in the government’s hands.

That’s the problem with any system that relies on control: Once you figure out how to hack the control system, you’re pretty much golden. So instead of a zillion pesky worms, by 2017 we’re going to see fewer but worse super worms that sail past our defenses.

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The NSA and threats to privacy

From James Bamford’s “Big Brother Is Listening” (The Atlantic: April 2006):

This legislation, the 1978 Foreign Intelligence Surveillance Act, established the FISA court—made up of eleven judges handpicked by the chief justice of the United States—as a secret part of the federal judiciary. The court’s job is to decide whether to grant warrants requested by the NSA or the FBI to monitor communications of American citizens and legal residents. The law allows the government up to three days after it starts eavesdropping to ask for a warrant; every violation of FISA carries a penalty of up to five years in prison. Between May 18, 1979, when the court opened for business, until the end of 2004, it granted 18,742 NSA and FBI applications; it turned down only four outright.

Such facts worry Jonathan Turley, a George Washington University law professor who worked for the NSA as an intern while in law school in the 1980s. The FISA “courtroom,” hidden away on the top floor of the Justice Department building (because even its location is supposed to be secret), is actually a heavily protected, windowless, bug-proof installation known as a Sensitive Compartmented Information Facility, or SCIF.

It is true that the court has been getting tougher. From 1979 through 2000, it modified only two out of 13,087 warrant requests. But from the start of the Bush administration, in 2001, the number of modifications increased to 179 out of 5,645 requests. Most of those—173—involved what the court terms “substantive modifications.”

Contrary to popular perception, the NSA does not engage in “wiretapping”; it collects signals intelligence, or “sigint.” In contrast to the image we have from movies and television of an FBI agent placing a listening device on a target’s phone line, the NSA intercepts entire streams of electronic communications containing millions of telephone calls and e-mails. It runs the intercepts through very powerful computers that screen them for particular names, telephone numbers, Internet addresses, and trigger words or phrases. Any communications containing flagged information are forwarded by the computer for further analysis.

Names and information on the watch lists are shared with the FBI, the CIA, the Department of Homeland Security, and foreign intelligence services. Once a person’s name is in the files, even if nothing incriminating ever turns up, it will likely remain there forever. There is no way to request removal, because there is no way to confirm that a name is on the list.

In December of 1997, in a small factory outside the southern French city of Toulouse, a salesman got caught in the NSA’s electronic web. Agents working for the NSA’s British partner, the Government Communications Headquarters, learned of a letter of credit, valued at more than $1.1 million, issued by Iran’s defense ministry to the French company Microturbo. According to NSA documents, both the NSA and the GCHQ concluded that Iran was attempting to secretly buy from Microturbo an engine for the embargoed C-802 anti-ship missile. Faxes zapping back and forth between Toulouse and Tehran were intercepted by the GCHQ, which sent them on not just to the NSA but also to the Canadian and Australian sigint agencies, as well as to Britain’s MI6. The NSA then sent the reports on the salesman making the Iranian deal to a number of CIA stations around the world, including those in Paris and Bonn, and to the U.S. Commerce Department and the Customs Service. Probably several hundred people in at least four countries were reading the company’s communications.

Such events are central to the current debate involving the potential harm caused by the NSA’s warrantless domestic eavesdropping operation. Even though the salesman did nothing wrong, his name made its way into the computers and onto the watch lists of intelligence, customs, and other secret and law-enforcement organizations around the world. Maybe nothing will come of it. Maybe the next time he tries to enter the United States or Britain he will be denied, without explanation. Maybe he will be arrested. As the domestic eavesdropping program continues to grow, such uncertainties may plague innocent Americans whose names are being run through the supercomputers even though the NSA has not met the established legal standard for a search warrant. It is only when such citizens are turned down while applying for a job with the federal government—or refused when seeking a Small Business Administration loan, or turned back by British customs agents when flying to London on vacation, or even placed on a “no-fly” list—that they will realize that something is very wrong. But they will never learn why.

General Michael Hayden, director of the NSA from 1999 to 2005 and now principal deputy director of national intelligence, noted in 2002 that during the 1990s, e-communications “surpassed traditional communications. That is the same decade when mobile cell phones increased from 16 million to 741 million—an increase of nearly 50 times. That is the same decade when Internet users went from about 4 million to 361 million—an increase of over 90 times. Half as many land lines were laid in the last six years of the 1990s as in the whole previous history of the world. In that same decade of the 1990s, international telephone traffic went from 38 billion minutes to over 100 billion. This year, the world’s population will spend over 180 billion minutes on the phone in international calls alone.”

Intercepting communications carried by satellite is fairly simple for the NSA. The key conduits are the thirty Intelsat satellites that ring the Earth, 22,300 miles above the equator. Many communications from Europe, Africa, and the Middle East to the eastern half of the United States, for example, are first uplinked to an Intelsat satellite and then downlinked to AT&T’s ground station in Etam, West Virginia. From there, phone calls, e-mails, and other communications travel on to various parts of the country. To listen in on that rich stream of information, the NSA built a listening post fifty miles away, near Sugar Grove, West Virginia. Consisting of a group of very large parabolic dishes, hidden in a heavily forested valley and surrounded by tall hills, the post can easily intercept the millions of calls and messages flowing every hour into the Etam station. On the West Coast, high on the edge of a bluff overlooking the Okanogan River, near Brewster, Washington, is the major commercial downlink for communications to and from Asia and the Pacific. Consisting of forty parabolic dishes, it is reportedly the largest satellite antenna farm in the Western Hemisphere. A hundred miles to the south, collecting every whisper, is the NSA’s western listening post, hidden away on a 324,000-acre Army base in Yakima, Washington. The NSA posts collect the international traffic beamed down from the Intelsat satellites over the Atlantic and Pacific. But each also has a number of dishes that appear to be directed at domestic telecommunications satellites.

Until recently, most international telecommunications flowing into and out of the United States traveled by satellite. But faster, more reliable undersea fiber-optic cables have taken the lead, and the NSA has adapted. The agency taps into the cables that don’t reach our shores by using specially designed submarines, such as the USS Jimmy Carter, to attach a complex “bug” to the cable itself. This is difficult, however, and undersea taps are short-lived because the batteries last only a limited time. The fiber-optic transmission cables that enter the United States from Europe and Asia can be tapped more easily at the landing stations where they come ashore. With the acquiescence of the telecommunications companies, it is possible for the NSA to attach monitoring equipment inside the landing station and then run a buried encrypted fiber-optic “backhaul” line to NSA headquarters at Fort Meade, Maryland, where the river of data can be analyzed by supercomputers in near real time.

Tapping into the fiber-optic network that carries the nation’s Internet communications is even easier, as much of the information transits through just a few “switches” (similar to the satellite downlinks). Among the busiest are MAE East (Metropolitan Area Ethernet), in Vienna, Virginia, and MAE West, in San Jose, California, both owned by Verizon. By accessing the switch, the NSA can see who’s e-mailing with whom over the Internet cables and can copy entire messages. Last September, the Federal Communications Commission further opened the door for the agency. The 1994 Communications Assistance for Law Enforcement Act required telephone companies to rewire their networks to provide the government with secret access. The FCC has now extended the act to cover “any type of broadband Internet access service” and the new Internet phone services—and ordered company officials never to discuss any aspect of the program.

The National Security Agency was born in absolute secrecy. Unlike the CIA, which was created publicly by a congressional act, the NSA was brought to life by a top-secret memorandum signed by President Truman in 1952, consolidating the country’s various military sigint operations into a single agency. Even its name was secret, and only a few members of Congress were informed of its existence—and they received no information about some of its most important activities. Such secrecy has lent itself to abuse.

During the Vietnam War, for instance, the agency was heavily involved in spying on the domestic opposition to the government. Many of the Americans on the watch lists of that era were there solely for having protested against the war. … Even so much as writing about the NSA could land a person a place on a watch list.

For instance, during World War I, the government read and censored thousands of telegrams—the e-mail of the day—sent hourly by telegraph companies. Though the end of the war brought with it a reversion to the Radio Act of 1912, which guaranteed the secrecy of communications, the State and War Departments nevertheless joined together in May of 1919 to create America’s first civilian eavesdropping and code-breaking agency, nicknamed the Black Chamber. By arrangement, messengers visited the telegraph companies each morning and took bundles of hard-copy telegrams to the agency’s offices across town. These copies were returned before the close of business that day.

A similar tale followed the end of World War II. In August of 1945, President Truman ordered an end to censorship. That left the Signal Security Agency (the military successor to the Black Chamber, which was shut down in 1929) without its raw intelligence—the telegrams provided by the telegraph companies. The director of the SSA sought access to cable traffic through a secret arrangement with the heads of the three major telegraph companies. The companies agreed to turn all telegrams over to the SSA, under a plan code-named Operation Shamrock. It ran until the government’s domestic spying programs were publicly revealed, in the mid-1970s.

Frank Church, the Idaho Democrat who led the first probe into the National Security Agency, warned in 1975 that the agency’s capabilities

“could be turned around on the American people, and no American would have any privacy left, such [is] the capability to monitor everything: telephone conversations, telegrams, it doesn’t matter. There would be no place to hide. If this government ever became a tyranny, if a dictator ever took charge in this country, the technological capacity that the intelligence community has given the government could enable it to impose total tyranny, and there would be no way to fight back, because the most careful effort to combine together in resistance to the government, no matter how privately it is done, is within the reach of the government to know. Such is the capacity of this technology.”

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The ACLU on monopoly control by ISPs

From the ACLU’s No Competition: How Monopoly Control of the Broadband Internet Threatens Free Speech:

Common carriage policy requires that a network owner – in this case, a telephone company – not discriminate against information by halting, slowing, or otherwise tampering with the transfer of any data. The purpose of common carriage is to prevent a network owner from leveraging its control over the pipeline for communication to gain power or control over the actual information, products and services that flow through it. This is not a new concept; for well over a century it has been applied in ways that have been central to the economic development of our nation, including canal systems, public highways, and the telegraph. And common carriage has been applied to the telephone system since the early 20th century, requiring it to serve all users in an equitable and nondiscriminatory fashion.

2. Cable networks are not open

Unlike phone companies, cable television providers do not have to provide nondiscriminatory access to their TV subscribers, because cable TV is not subject to the common carrier regulatory regime. As a result, the content that cable TV companies deliver is largely under their control. …

3. Cable providers wield total control over Internet use

… Cable providers are under no obligation to remain a neutral pipe for content over an end-to-end Internet – and have many incentives for interfering with that pipe:

Basic control of the service. Providers of course have control over the fundamentals of a customer’s Internet connection. For example, they can restrict the number of computers that a customer connects to the cable modem through a home network. They can control the overall speed and reliability of a customer’s online experie nce. And they can set the price for various levels of high-speed access.

Control over applications. Providers can block their customers from using particular applications, such as video conferencing, Internet telephony, and virtual private networks …

Control over access to content. Even more frightening is the growing ability of cable providers to interfere with content. … That is like the phone company being allowed to own restaurants and then provide good service and clear signals to customers who call Domino’s and frequent busy signals, disconnects and static for those calling Pizza Hut. …

Ability to force-feed content. Cable providers can also use their monopoly power to force-feed content to customers by requiring them to access the Internet through a particular home page containing material selected by the cable company. …

Ability to violate privacy. Finally, a cable provider’s absolute control over its network gives it the technical capacity to record everything its customers do online, down to the smallest mouse click. In February 2002, the nation’s third largest cable company, Comcast, without notification to its customers, began to track their Web browsing. …

According to data provided by the National Cable and Telecommunications Association, the top five cable companies in the United States control 75% of the market; if the proposed merger between Comcast and AT&T is approved, only four companies will control that 75%, with approximately 35% of all cable in the US controlled by Comcast alone. …

The FCC, meanwhile, decided in April 2002 to classify broadband Internet service over cable as an "interstate information service." That technical redefinition would mean that cable broadband could be completely exempt from federal regulation such as interconnection and common carriage requirements, as well as from oversight by local cable franchising authorities. …

In fact, the Internet would never have exploded into American life the way it has without regulations issued by the FCC that curbed the power of the telephone companies in ways that the agency is now refusing to do for cable:

  • In 1975, the FCC issued a landmark regulation preventing telephone companies from blocking their customers from attaching their own equipment to the phone network. If the agency had decided this issue the other way, regular Americans would not have been able to use computer modems, and the Internet as we know it never could have been created.
  • In 1980, the agency set out rules that required telephone companies to offer "data services" through separate affiliates because they would have had both the ability and the incentive to use their control of the telephone network to discriminate against unaffiliated, competing data services.
  • In 1983, the FCC issued a regulation preventing telephone companies from charging ISPs by the minute for their use of the local telephone network; if they had allowed such charges, consumers would have to pay per-minute fees for Internet access. That would have slowed the growth of the Internet, as such fees have done in Europe.

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