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Edward Snowden Explains How To Reclaim Your Privacy - 0 views

theintercept.com/...ns-how-to-reclaim-your-privacy surveillance state Snowden operational-security advice must-read
shared by Paul Merrell on 16 Nov 15 - No Cached
  • Micah Lee: What are some operational security practices you think everyone should adopt? Just useful stuff for average people. Edward Snowden: [Opsec] is important even if you’re not worried about the NSA. Because when you think about who the victims of surveillance are, on a day-to-day basis, you’re thinking about people who are in abusive spousal relationships, you’re thinking about people who are concerned about stalkers, you’re thinking about children who are concerned about their parents overhearing things. It’s to reclaim a level of privacy. The first step that anyone could take is to encrypt their phone calls and their text messages. You can do that through the smartphone app Signal, by Open Whisper Systems. It’s free, and you can just download it immediately. And anybody you’re talking to now, their communications, if it’s intercepted, can’t be read by adversaries. [Signal is available for iOS and Android, and, unlike a lot of security tools, is very easy to use.] You should encrypt your hard disk, so that if your computer is stolen the information isn’t obtainable to an adversary — pictures, where you live, where you work, where your kids are, where you go to school. [I’ve written a guide to encrypting your disk on Windows, Mac, and Linux.] Use a password manager. One of the main things that gets people’s private information exposed, not necessarily to the most powerful adversaries, but to the most common ones, are data dumps. Your credentials may be revealed because some service you stopped using in 2007 gets hacked, and your password that you were using for that one site also works for your Gmail account. A password manager allows you to create unique passwords for every site that are unbreakable, but you don’t have the burden of memorizing them. [The password manager KeePassX is free, open source, cross-platform, and never stores anything in the cloud.]
  • The other thing there is two-factor authentication. The value of this is if someone does steal your password, or it’s left or exposed somewhere … [two-factor authentication] allows the provider to send you a secondary means of authentication — a text message or something like that. [If you enable two-factor authentication, an attacker needs both your password as the first factor and a physical device, like your phone, as your second factor, to login to your account. Gmail, Facebook, Twitter, Dropbox, GitHub, Battle.net, and tons of other services all support two-factor authentication.]
  • We should armor ourselves using systems we can rely on every day. This doesn’t need to be an extraordinary lifestyle change. It doesn’t have to be something that is disruptive. It should be invisible, it should be atmospheric, it should be something that happens painlessly, effortlessly. This is why I like apps like Signal, because they’re low friction. It doesn’t require you to re-order your life. It doesn’t require you to change your method of communications. You can use it right now to talk to your friends.
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  • Lee: What do you think about Tor? Do you think that everyone should be familiar with it, or do you think that it’s only a use-it-if-you-need-it thing? Snowden: I think Tor is the most important privacy-enhancing technology project being used today. I use Tor personally all the time. We know it works from at least one anecdotal case that’s fairly familiar to most people at this point. That’s not to say that Tor is bulletproof. What Tor does is it provides a measure of security and allows you to disassociate your physical location. … But the basic idea, the concept of Tor that is so valuable, is that it’s run by volunteers. Anyone can create a new node on the network, whether it’s an entry node, a middle router, or an exit point, on the basis of their willingness to accept some risk. The voluntary nature of this network means that it is survivable, it’s resistant, it’s flexible. [Tor Browser is a great way to selectively use Tor to look something up and not leave a trace that you did it. It can also help bypass censorship when you’re on a network where certain sites are blocked. If you want to get more involved, you can volunteer to run your own Tor node, as I do, and support the diversity of the Tor network.]
  • Lee: So that is all stuff that everybody should be doing. What about people who have exceptional threat models, like future intelligence-community whistleblowers, and other people who have nation-state adversaries? Maybe journalists, in some cases, or activists, or people like that? Snowden: So the first answer is that you can’t learn this from a single article. The needs of every individual in a high-risk environment are different. And the capabilities of the adversary are constantly improving. The tooling changes as well. What really matters is to be conscious of the principles of compromise. How can the adversary, in general, gain access to information that is sensitive to you? What kinds of things do you need to protect? Because of course you don’t need to hide everything from the adversary. You don’t need to live a paranoid life, off the grid, in hiding, in the woods in Montana. What we do need to protect are the facts of our activities, our beliefs, and our lives that could be used against us in manners that are contrary to our interests. So when we think about this for whistleblowers, for example, if you witnessed some kind of wrongdoing and you need to reveal this information, and you believe there are people that want to interfere with that, you need to think about how to compartmentalize that.
  • Tell no one who doesn’t need to know. [Lindsay Mills, Snowden’s girlfriend of several years, didn’t know that he had been collecting documents to leak to journalists until she heard about it on the news, like everyone else.] When we talk about whistleblowers and what to do, you want to think about tools for protecting your identity, protecting the existence of the relationship from any type of conventional communication system. You want to use something like SecureDrop, over the Tor network, so there is no connection between the computer that you are using at the time — preferably with a non-persistent operating system like Tails, so you’ve left no forensic trace on the machine you’re using, which hopefully is a disposable machine that you can get rid of afterward, that can’t be found in a raid, that can’t be analyzed or anything like that — so that the only outcome of your operational activities are the stories reported by the journalists. [SecureDrop is a whistleblower submission system. Here is a guide to using The Intercept’s SecureDrop server as safely as possible.]
  • And this is to be sure that whoever has been engaging in this wrongdoing cannot distract from the controversy by pointing to your physical identity. Instead they have to deal with the facts of the controversy rather than the actors that are involved in it. Lee: What about for people who are, like, in a repressive regime and are trying to … Snowden: Use Tor. Lee: Use Tor? Snowden: If you’re not using Tor you’re doing it wrong. Now, there is a counterpoint here where the use of privacy-enhancing technologies in certain areas can actually single you out for additional surveillance through the exercise of repressive measures. This is why it’s so critical for developers who are working on security-enhancing tools to not make their protocols stand out.
  • Paul Merrell on 16 Nov 15
     
    Lots more in the interview that I didn't highlight. This is a must-read.
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How Edward Snowden Changed Everything | The Nation - 0 views

www.thenation.com/...ard-snowden-changed-everything surveillance state Snowden Wizner state-of-play civil-liberties must-read
shared by Paul Merrell on 16 Nov 15 - No Cached
  • Ben Wizner, who is perhaps best known as Edward Snowden’s lawyer, directs the American Civil Liberties Union’s Speech, Privacy & Technology Project. Wizner, who joined the ACLU in August 2001, one month before the 9/11 attacks, has been a force in the legal battles against torture, watch lists, and extraordinary rendition since the beginning of the global “war on terror.” Ad Policy On October 15, we met with Wizner in an upstate New York pub to discuss the state of privacy advocacy today. In sometimes sardonic tones, he talked about the transition from litigating on issues of torture to privacy advocacy, differences between corporate and state-sponsored surveillance, recent developments in state legislatures and the federal government, and some of the obstacles impeding civil liberties litigation. The interview has been edited and abridged for publication.
  • en Wizner, who is perhaps best known as Edward Snowden’s lawyer, directs the American Civil Liberties Union’s Speech, Privacy & Technology Project. Wizner, who joined the ACLU in August 2001, one month before the 9/11 attacks, has been a force in the legal battles against torture, watch lists, and extraordinary rendition since the beginning of the global “war on terror.” Ad Policy On October 15, we met with Wizner in an upstate New York pub to discuss the state of privacy advocacy today. In sometimes sardonic tones, he talked about the transition from litigating on issues of torture to privacy advocacy, differences between corporate and state-sponsored surveillance, recent developments in state legislatures and the federal government, and some of the obstacles impeding civil liberties litigation. The interview has been edited and abridged for publication.
  • Many of the technologies, both military technologies and surveillance technologies, that are developed for purposes of policing the empire find their way back home and get repurposed. You saw this in Ferguson, where we had military equipment in the streets to police nonviolent civil unrest, and we’re seeing this with surveillance technologies, where things that are deployed for use in war zones are now commonly in the arsenals of local police departments. For example, a cellphone surveillance tool that we call the StingRay—which mimics a cellphone tower and communicates with all the phones around—was really developed as a military technology to help identify targets. Now, because it’s so inexpensive, and because there is a surplus of these things that are being developed, it ends up getting pushed down into local communities without local democratic consent or control.
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  • SG & TP: How do you see the current state of the right to privacy? BW: I joked when I took this job that I was relieved that I was going to be working on the Fourth Amendment, because finally I’d have a chance to win. That was intended as gallows humor; the Fourth Amendment had been a dishrag for the last several decades, largely because of the war on drugs. The joke in civil liberties circles was, “What amendment?” But I was able to make this joke because I was coming to Fourth Amendment litigation from something even worse, which was trying to sue the CIA for torture, or targeted killings, or various things where the invariable outcome was some kind of non-justiciability ruling. We weren’t even reaching the merits at all. It turns out that my gallows humor joke was prescient.
  • The truth is that over the last few years, we’ve seen some of the most important Fourth Amendment decisions from the Supreme Court in perhaps half a century. Certainly, I think the Jones decision in 2012 [U.S. v. Jones], which held that GPS tracking was a Fourth Amendment search, was the most important Fourth Amendment decision since Katz in 1967 [Katz v. United States], in terms of starting a revolution in Fourth Amendment jurisprudence signifying that changes in technology were not just differences in degree, but they were differences in kind, and require the Court to grapple with it in a different way. Just two years later, you saw the Court holding that police can’t search your phone incident to an arrest without getting a warrant [Riley v. California]. Since 2012, at the level of Supreme Court jurisprudence, we’re seeing a recognition that technology has required a rethinking of the Fourth Amendment at the state and local level. We’re seeing a wave of privacy legislation that’s really passing beneath the radar for people who are not paying close attention. It’s not just happening in liberal states like California; it’s happening in red states like Montana, Utah, and Wyoming. And purple states like Colorado and Maine. You see as many libertarians and conservatives pushing these new rules as you see liberals. It really has cut across at least party lines, if not ideologies. My overall point here is that with respect to constraints on government surveillance—I should be more specific—law-enforcement government surveillance—momentum has been on our side in a way that has surprised even me.
  • Do you think that increased privacy protections will happen on the state level before they happen on the federal level? BW: I think so. For example, look at what occurred with the death penalty and the Supreme Court’s recent Eighth Amendment jurisprudence. The question under the Eighth Amendment is, “Is the practice cruel and unusual?” The Court has looked at what it calls “evolving standards of decency” [Trop v. Dulles, 1958]. It matters to the Court, when it’s deciding whether a juvenile can be executed or if a juvenile can get life without parole, what’s going on in the states. It was important to the litigants in those cases to be able to show that even if most states allowed the bad practice, the momentum was in the other direction. The states that were legislating on this most recently were liberalizing their rules, were making it harder to execute people under 18 or to lock them up without the possibility of parole. I think you’re going to see the same thing with Fourth Amendment and privacy jurisprudence, even though the Court doesn’t have a specific doctrine like “evolving standards of decency.” The Court uses this much-maligned test, “Do individuals have a reasonable expectation of privacy?” We’ll advance the argument, I think successfully, that part of what the Court should look at in considering whether an expectation of privacy is reasonable is showing what’s going on in the states. If we can show that a dozen or eighteen state legislatures have enacted a constitutional protection that doesn’t exist in federal constitutional law, I think that that will influence the Supreme Court.
  • The question is will it also influence Congress. I think there the answer is also “yes.” If you’re a member of the House or the Senate from Montana, and you see that your state legislature and your Republican governor have enacted privacy legislation, you’re not going to be worried about voting in that direction. I think this is one of those places where, unlike civil rights, where you saw most of the action at the federal level and then getting forced down to the states, we’re going to see more action at the state level getting funneled up to the federal government.
  • Paul Merrell on 16 Nov 15
     
    A must-read. Ben Wizner discusses the current climate in the courts in government surveillance cases and how Edward Snowden's disclosures have affected that, and much more. Wizner is not only Edward Snowden's lawyer, he is also the coordinator of all ACLU litigation on electronic surveillance matters.
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The Latest Rules on How Long NSA Can Keep Americans' Encrypted Data Look Too Familiar |... - 0 views

justsecurity.org/...s-hold-encrypted-data-familiar surveillance state NSA IAA-2015 Sect-309 legislation
shared by Paul Merrell on 26 Jan 15 - No Cached
  • Does the National Security Agency (NSA) have the authority to collect and keep all encrypted Internet traffic for as long as is necessary to decrypt that traffic? That was a question first raised in June 2013, after the minimization procedures governing telephone and Internet records collected under Section 702 of the Foreign Intelligence Surveillance Act were disclosed by Edward Snowden. The issue quickly receded into the background, however, as the world struggled to keep up with the deluge of surveillance disclosures. The Intelligence Authorization Act of 2015, which passed Congress this last December, should bring the question back to the fore. It established retention guidelines for communications collected under Executive Order 12333 and included an exception that allows NSA to keep ‘incidentally’ collected encrypted communications for an indefinite period of time. This creates a massive loophole in the guidelines. NSA’s retention of encrypted communications deserves further consideration today, now that these retention guidelines have been written into law. It has become increasingly clear over the last year that surveillance reform will be driven by technological change—specifically by the growing use of encryption technologies. Therefore, any legislation touching on encryption should receive close scrutiny.
  • Section 309 of the intel authorization bill describes “procedures for the retention of incidentally acquired communications.” It establishes retention guidelines for surveillance programs that are “reasonably anticipated to result in the acquisition of [telephone or electronic communications] to or from a United States person.” Communications to or from a United States person are ‘incidentally’ collected because the U.S. person is not the actual target of the collection. Section 309 states that these incidentally collected communications must be deleted after five years unless they meet a number of exceptions. One of these exceptions is that “the communication is enciphered or reasonably believed to have a secret meaning.” This exception appears to be directly lifted from NSA’s minimization procedures for data collected under Section 702 of FISA, which were declassified in 2013. 
  • While Section 309 specifically applies to collection taking place under E.O. 12333, not FISA, several of the exceptions described in Section 309 closely match exceptions in the FISA minimization procedures. That includes the exception for “enciphered” communications. Those minimization procedures almost certainly served as a model for these retention guidelines and will likely shape how this new language is interpreted by the Executive Branch. Section 309 also asks the heads of each relevant member of the intelligence community to develop procedures to ensure compliance with new retention requirements. I expect those procedures to look a lot like the FISA minimization guidelines.
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  • This language is broad, circular, and technically incoherent, so it takes some effort to parse appropriately. When the minimization procedures were disclosed in 2013, this language was interpreted by outside commentators to mean that NSA may keep all encrypted data that has been incidentally collected under Section 702 for at least as long as is necessary to decrypt that data. Is this the correct interpretation? I think so. It is important to realize that the language above isn’t just broad. It seems purposefully broad. The part regarding relevance seems to mirror the rationale NSA has used to justify its bulk phone records collection program. Under that program, all phone records were relevant because some of those records could be valuable to terrorism investigations and (allegedly) it isn’t possible to collect only those valuable records. This is the “to find a needle a haystack, you first have to have the haystack” argument. The same argument could be applied to encrypted data and might be at play here.
  • This exception doesn’t just apply to encrypted data that might be relevant to a current foreign intelligence investigation. It also applies to cases in which the encrypted data is likely to become relevant to a future intelligence requirement. This is some remarkably generous language. It seems one could justify keeping any type of encrypted data under this exception. Upon close reading, it is difficult to avoid the conclusion that these procedures were written carefully to allow NSA to collect and keep a broad category of encrypted data under the rationale that this data might contain the communications of NSA targets and that it might be decrypted in the future. If NSA isn’t doing this today, then whoever wrote these minimization procedures wanted to at least ensure that NSA has the authority to do this tomorrow.
  • There are a few additional observations that are worth making regarding these nominally new retention guidelines and Section 702 collection. First, the concept of incidental collection as it has typically been used makes very little sense when applied to encrypted data. The way that NSA’s Section 702 upstream “about” collection is understood to work is that technology installed on the network does some sort of pattern match on Internet traffic; say that an NSA target uses example@gmail.com to communicate. NSA would then search content of emails for references to example@gmail.com. This could notionally result in a lot of incidental collection of U.S. persons’ communications whenever the email that references example@gmail.com is somehow mixed together with emails that have nothing to do with the target. This type of incidental collection isn’t possible when the data is encrypted because it won’t be possible to search and find example@gmail.com in the body of an email. Instead, example@gmail.com will have been turned into some alternative, indecipherable string of bits on the network. Incidental collection shouldn’t occur because the pattern match can’t occur in the first place. This demonstrates that, when communications are encrypted, it will be much harder for NSA to search Internet traffic for a unique ID associated with a specific target.
  • This lends further credence to the conclusion above: rather than doing targeted collection against specific individuals, NSA is collecting, or plans to collect, a broad class of data that is encrypted. For example, NSA might collect all PGP encrypted emails or all Tor traffic. In those cases, NSA could search Internet traffic for patterns associated with specific types of communications, rather than specific individuals’ communications. This would technically meet the definition of incidental collection because such activity would result in the collection of communications of U.S. persons who aren’t the actual targets of surveillance. Collection of all Tor traffic would entail a lot of this “incidental” collection because the communications of NSA targets would be mixed with the communications of a large number of non-target U.S. persons. However, this “incidental” collection is inconsistent with how the term is typically used, which is to refer to over-collection resulting from targeted surveillance programs. If NSA were collecting all Tor traffic, that activity wouldn’t actually be targeted, and so any resulting over-collection wouldn’t actually be incidental. Moreover, greater use of encryption by the general public would result in an ever-growing amount of this type of incidental collection.
  • This type of collection would also be inconsistent with representations of Section 702 upstream collection that have been made to the public and to Congress. Intelligence officials have repeatedly suggested that search terms used as part of this program have a high degree of specificity. They have also argued that the program is an example of targeted rather than bulk collection. ODNI General Counsel Robert Litt, in a March 2014 meeting before the Privacy and Civil Liberties Oversight Board, stated that “there is either a misconception or a mischaracterization commonly repeated that Section 702 is a form of bulk collection. It is not bulk collection. It is targeted collection based on selectors such as telephone numbers or email addresses where there’s reason to believe that the selector is relevant to a foreign intelligence purpose.” The collection of Internet traffic based on patterns associated with types of communications would be bulk collection; more akin to NSA’s collection of phone records en mass than it is to targeted collection focused on specific individuals. Moreover, this type of collection would certainly fall within the definition of bulk collection provided just last week by the National Academy of Sciences: “collection in which a significant portion of the retained data pertains to identifiers that are not targets at the time of collection.”
  • The Section 702 minimization procedures, which will serve as a template for any new retention guidelines established for E.O. 12333 collection, create a large loophole for encrypted communications. With everything from email to Internet browsing to real-time communications moving to encrypted formats, an ever-growing amount of Internet traffic will fall within this loophole.
  • Paul Merrell on 26 Jan 15
     
    Tucked into a budget authorization act in December without press notice. Section 309 (the Act is linked from the article) appears to be very broad authority for the NSA to intercept any form of telephone or other electronic information in bulk. There are far more exceptions from the five-year retention limitation than the encrypted information exception. When reading this, keep in mind that the U.S. intelligence community plays semantic games to obfuscate what it does. One of its word plays is that communications are not "collected" until an analyst looks at or listens to partiuclar data, even though the data will be searched to find information countless times before it becomes "collected." That searching was the major basis for a decision by the U.S. District Court in Washington, D.C. that bulk collection of telephone communications was unconstitutional: Under the Fourth Amendment, a "search" or "seizure" requiring a judicial warrant occurs no later than when the information is intercepted. That case is on appeal, has been briefed and argued, and a decision could come any time now. Similar cases are pending in two other courts of appeals. Also, an important definition from the new Intelligence Authorization Act: "(a) DEFINITIONS.-In this section: (1) COVERED COMMUNICATION.-The term ''covered communication'' means any nonpublic telephone or electronic communication acquired without the consent of a person who is a party to the communication, including communications in electronic storage."       
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Popular Security Software Came Under Relentless NSA and GCHQ Attacks - The Intercept - 0 views

firstlook.org/...nsa-gchq-targeted-kaspersky surveillance state NSA GCHQ anti-virus-software
shared by Paul Merrell on 23 Jun 15 - No Cached
  • The National Security Agency and its British counterpart, Government Communications Headquarters, have worked to subvert anti-virus and other security software in order to track users and infiltrate networks, according to documents from NSA whistleblower Edward Snowden. The spy agencies have reverse engineered software products, sometimes under questionable legal authority, and monitored web and email traffic in order to discreetly thwart anti-virus software and obtain intelligence from companies about security software and users of such software. One security software maker repeatedly singled out in the documents is Moscow-based Kaspersky Lab, which has a holding registered in the U.K., claims more than 270,000 corporate clients, and says it protects more than 400 million people with its products. British spies aimed to thwart Kaspersky software in part through a technique known as software reverse engineering, or SRE, according to a top-secret warrant renewal request. The NSA has also studied Kaspersky Lab’s software for weaknesses, obtaining sensitive customer information by monitoring communications between the software and Kaspersky servers, according to a draft top-secret report. The U.S. spy agency also appears to have examined emails inbound to security software companies flagging new viruses and vulnerabilities.
  • The efforts to compromise security software were of particular importance because such software is relied upon to defend against an array of digital threats and is typically more trusted by the operating system than other applications, running with elevated privileges that allow more vectors for surveillance and attack. Spy agencies seem to be engaged in a digital game of cat and mouse with anti-virus software companies; the U.S. and U.K. have aggressively probed for weaknesses in software deployed by the companies, which have themselves exposed sophisticated state-sponsored malware.
  • The requested warrant, provided under Section 5 of the U.K.’s 1994 Intelligence Services Act, must be renewed by a government minister every six months. The document published today is a renewal request for a warrant valid from July 7, 2008 until January 7, 2009. The request seeks authorization for GCHQ activities that “involve modifying commercially available software to enable interception, decryption and other related tasks, or ‘reverse engineering’ software.”
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  • The NSA, like GCHQ, has studied Kaspersky Lab’s software for weaknesses. In 2008, an NSA research team discovered that Kaspersky software was transmitting sensitive user information back to the company’s servers, which could easily be intercepted and employed to track users, according to a draft of a top-secret report. The information was embedded in “User-Agent” strings included in the headers of Hypertext Transfer Protocol, or HTTP, requests. Such headers are typically sent at the beginning of a web request to identify the type of software and computer issuing the request.
  • According to the draft report, NSA researchers found that the strings could be used to uniquely identify the computing devices belonging to Kaspersky customers. They determined that “Kaspersky User-Agent strings contain encoded versions of the Kaspersky serial numbers and that part of the User-Agent string can be used as a machine identifier.” They also noted that the “User-Agent” strings may contain “information about services contracted for or configurations.” Such data could be used to passively track a computer to determine if a target is running Kaspersky software and thus potentially susceptible to a particular attack without risking detection.
  • Another way the NSA targets foreign anti-virus companies appears to be to monitor their email traffic for reports of new vulnerabilities and malware. A 2010 presentation on “Project CAMBERDADA” shows the content of an email flagging a malware file, which was sent to various anti-virus companies by François Picard of the Montréal-based consulting and web hosting company NewRoma. The presentation of the email suggests that the NSA is reading such messages to discover new flaws in anti-virus software. Picard, contacted by The Intercept, was unaware his email had fallen into the hands of the NSA. He said that he regularly sends out notification of new viruses and malware to anti-virus companies, and that he likely sent the email in question to at least two dozen such outfits. He also said he never sends such notifications to government agencies. “It is strange the NSA would show an email like mine in a presentation,” he added.
  • The NSA presentation goes on to state that its signals intelligence yields about 10 new “potentially malicious files per day for malware triage.” This is a tiny fraction of the hostile software that is processed. Kaspersky says it detects 325,000 new malicious files every day, and an internal GCHQ document indicates that its own system “collect[s] around 100,000,000 malware events per day.” After obtaining the files, the NSA analysts “[c]heck Kaspersky AV to see if they continue to let any of these virus files through their Anti-Virus product.” The NSA’s Tailored Access Operations unit “can repurpose the malware,” presumably before the anti-virus software has been updated to defend against the threat.
  • The Project CAMBERDADA presentation lists 23 additional AV companies from all over the world under “More Targets!” Those companies include Check Point software, a pioneering maker of corporate firewalls based Israel, whose government is a U.S. ally. Notably omitted are the American anti-virus brands McAfee and Symantec and the British company Sophos.
  • As government spies have sought to evade anti-virus software, the anti-virus firms themselves have exposed malware created by government spies. Among them, Kaspersky appears to be the sharpest thorn in the side of government hackers. In the past few years, the company has proven to be a prolific hunter of state-sponsored malware, playing a role in the discovery and/or analysis of various pieces of malware reportedly linked to government hackers, including the superviruses Flame, which Kaspersky flagged in 2012; Gauss, also detected in 2012; Stuxnet, discovered by another company in 2010; and Regin, revealed by Symantec. In February, the Russian firm announced its biggest find yet: the “Equation Group,” an organization that has deployed espionage tools widely believed to have been created by the NSA and hidden on hard drives from leading brands, according to Kaspersky. In a report, the company called it “the most advanced threat actor we have seen” and “probably one of the most sophisticated cyber attack groups in the world.”
  • Hacks deployed by the Equation Group operated undetected for as long as 14 to 19 years, burrowing into the hard drive firmware of sensitive computer systems around the world, according to Kaspersky. Governments, militaries, technology companies, nuclear research centers, media outlets and financial institutions in 30 countries were among those reportedly infected. Kaspersky estimates that the Equation Group could have implants in tens of thousands of computers, but documents published last year by The Intercept suggest the NSA was scaling up their implant capabilities to potentially infect millions of computers with malware. Kaspersky’s adversarial relationship with Western intelligence services is sometimes framed in more sinister terms; the firm has been accused of working too closely with the Russian intelligence service FSB. That accusation is partly due to the company’s apparent success in uncovering NSA malware, and partly due to the fact that its founder, Eugene Kaspersky, was educated by a KGB-backed school in the 1980s before working for the Russian military.
  • Kaspersky has repeatedly denied the insinuations and accusations. In a recent blog post, responding to a Bloomberg article, he complained that his company was being subjected to “sensationalist … conspiracy theories,” sarcastically noting that “for some reason they forgot our reports” on an array of malware that trace back to Russian developers. He continued, “It’s very hard for a company with Russian roots to become successful in the U.S., European and other markets. Nobody trusts us — by default.”
  • Documents published with this article: Kaspersky User-Agent Strings — NSA Project CAMBERDADA — NSA NDIST — GCHQ’s Developing Cyber Defence Mission GCHQ Application for Renewal of Warrant GPW/1160 Software Reverse Engineering — GCHQ Reverse Engineering — GCHQ Wiki Malware Analysis & Reverse Engineering — ACNO Skill Levels — GCHQ
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