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The International Telecommunication Union (ITU) will hold the World Conference on International Telecommunications (WCIT-12) in December in Dubai, an all-important treaty-writing event where ITU Member States will discuss the proposed revisions to the International Telecommunication Regulations (ITR). The ITU is a United Nations agency responsible for international telecom regulation, a bureaucratic, slow-moving, closed regulatory organization that issues treaty-level provisions for international telecommunication networks and services. The ITR, a legally binding international treaty signed by 178 countries, defines the boundaries of ITU’s regulatory authority and provides "general principles" on international telecommunications. However, media reports indicate that some proposed amendments to the ITR—a negotiation that is already well underway—could potentially expand the ITU’s mandate to encompass the Internet.

The International Telecommunication Union (ITU) will hold the World Conference on International Telecommunications (WCIT-12) in December in Dubai, an all-important treaty-writing event where ITU Member States will discuss the proposed revisions to the International Telecommunication Regulations (ITR). The ITU is a United Nations agency responsible for international telecom regulation, a bureaucratic, slow-moving, closed regulatory organization that issues treaty-level provisions for international telecommunication networks and services. The ITR, a legally binding international treaty signed by 178 countries, defines the boundaries of ITU’s regulatory authority and provides "general principles" on international telecommunications. However, media reports indicate that some proposed amendments to the ITR—a negotiation that is already well underway—could potentially expand the ITU’s mandate to encompass the Internet. In similar fashion to the secrecy surrounding ACTA and TPP, the ITR proposals are being negotiated in secret, with high barriers preventing access to any negotiating document. While aspiring to be a venue for Internet policy-making, the ITU Member States do not appear to be very open to the idea of allowing all stakeholders (including civil society) to participate. The framework under which the ITU operates does not allow for any form of open participation. Mere access to documents and decision-makers is sold by the ITU to corporate “associate” members at prohibitively high rates. Indeed, the ITU’s business model appears to depend on revenue generation from those seeking to ‘participate’ in its policy-making processes. This revenue-based principle of policy-making is deeply troubling in and of itself, as the objective of policy making should be to reach the best possible outcome.

EFF, European Digital Rights, CIPPIC and CDT and a coalition of civil society organizations from around the world are demanding that the ITU Secretary General, the  WCIT-12 Council Working Group, and ITU Member States open up the WCIT-12 and the Council working group negotiations, by immediately releasing all the preparatory materials and Treaty proposals. If it affects the digital rights of citizens across the globe, the public needs to know what is going on and deserves to have a say. The Council Working Group is responsible for the preparatory work towards WCIT-12, setting the agenda for and consolidating input from participating governments and Sector Members. We demand full and meaningful participation for civil society in its own right, and without cost, at the Council Working Group meetings and the WCIT on equal footing with all other stakeholders, including participating governments. A transparent, open process that is inclusive of civil society at every stage is crucial to creating sound policy.

Verizon says it will soon offer customers a way to opt out from having their smartphone and tablet browsing tracked via a hidden un-killable tracking identifier. The decision came after a ProPublica article revealed that an online advertiser, Turn, was exploiting the Verizon identifier to respawn tracking cookies that users had deleted. Two days after the article appeared, Turn said it would suspend the practice of creating so-called "zombie cookies" that couldn't be deleted. But Verizon couldn't assure users that other companies might not also exploit the number - which was transmitted automatically to any website or app a user visited from a Verizon-enabled device - to build dossiers about people's behavior on their mobile devices. Verizon subsequently updated its website to note Turn's decision and declared that it would "work with other partners to ensure that their use of [the undeletable tracking number] is consistent with the purposes we intended." Previously, its website had stated: "It is unlikely that sites and ad entities will attempt to build customer profiles.

However, policing the hundreds of companies in the online tracking business was likely to be a difficult task for Verizon. And so, on Monday, Verizon followed in the footsteps of AT&T, which had already declared in November that it would stop inserting the hidden undeletable number in its users' Web traffic. In a statement emailed to reporters on Friday, Verizon said, "We have begun working to expand the opt-out to include the identifier referred to as the UIDH, and expect that to be available soon." Previously, users who opted out from Verizon's program were told that information about their demographics and Web browsing behavior would no longer be shared with advertisers, but that the tracking number would still be attached to their traffic. For more coverage, read ProPublica's previous reporting on Verizon's indestructible tracking and how one company used the tool to create zombie cookies.

Less than a week after the attacks in Paris — while the public and policymakers were still reeling, and the investigation had barely gotten off the ground — Cy Vance, Manhattan’s District Attorney, released a policy paper calling for legislation requiring companies to provide the government with backdoor access to their smartphones and other mobile devices. This is the first concrete proposal of this type since September 2014, when FBI Director James Comey reignited the “Crypto Wars” in response to Apple’s and Google’s decisions to use default encryption on their smartphones. Though Comey seized on Apple’s and Google’s decisions to encrypt their devices by default, his concerns are primarily related to end-to-end encryption, which protects communications that are in transit. Vance’s proposal, on the other hand, is only concerned with device encryption, which protects data stored on phones. It is still unclear whether encryption played any role in the Paris attacks, though we do know that the attackers were using unencrypted SMS text messages on the night of the attack, and that some of them were even known to intelligence agencies and had previously been under surveillance. But regardless of whether encryption was used at some point during the planning of the attacks, as I lay out below, prohibiting companies from selling encrypted devices would not prevent criminals or terrorists from being able to access unbreakable encryption. Vance’s primary complaint is that Apple’s and Google’s decisions to provide their customers with more secure devices through encryption interferes with criminal investigations. He claims encryption prevents law enforcement from accessing stored data like iMessages, photos and videos, Internet search histories, and third party app data. He makes several arguments to justify his proposal to build backdoors into encrypted smartphones, but none of them hold water.

Before addressing the major privacy, security, and implementation concerns that his proposal raises, it is worth noting that while an increase in use of fully encrypted devices could interfere with some law enforcement investigations, it will help prevent far more crimes — especially smartphone theft, and the consequent potential for identity theft. According to Consumer Reports, in 2014 there were more than two million victims of smartphone theft, and nearly two-thirds of all smartphone users either took no steps to secure their phones or their data or failed to implement passcode access for their phones. Default encryption could reduce instances of theft because perpetrators would no longer be able to break into the phone to steal the data.

Vance argues that creating a weakness in encryption to allow law enforcement to access data stored on devices does not raise serious concerns for security and privacy, since in order to exploit the vulnerability one would need access to the actual device. He considers this an acceptable risk, claiming it would not be the same as creating a widespread vulnerability in encryption protecting communications in transit (like emails), and that it would be cheap and easy for companies to implement. But Vance seems to be underestimating the risks involved with his plan. It is increasingly important that smartphones and other devices are protected by the strongest encryption possible. Our devices and the apps on them contain astonishing amounts of personal information, so much that an unprecedented level of harm could be caused if a smartphone or device with an exploitable vulnerability is stolen, not least in the forms of identity fraud and credit card theft. We bank on our phones, and have access to credit card payments with services like Apple Pay. Our contact lists are stored on our phones, including phone numbers, emails, social media accounts, and addresses. Passwords are often stored on people’s phones. And phones and apps are often full of personal details about their lives, from food diaries to logs of favorite places to personal photographs. Symantec conducted a study, where the company spread 50 “lost” phones in public to see what people who picked up the phones would do with them. The company found that 95 percent of those people tried to access the phone, and while nearly 90 percent tried to access private information stored on the phone or in other private accounts such as banking services and email, only 50 percent attempted contacting the owner.

HISTORY IS OUR FUTURE And we've been trashing our history Archive Team is a loose collective of rogue archivists, programmers, writers and loudmouths dedicated to saving our digital heritage. Since 2009 this variant force of nature has caught wind of shutdowns, shutoffs, mergers, and plain old deletions - and done our best to save the history before it's lost forever. Along the way, we've gotten attention, resistance, press and discussion, but most importantly, we've gotten the message out: IT DOESN'T HAVE TO BE THIS WAY. This website is intended to be an offloading point and information depot for a number of archiving projects, all related to saving websites or data that is in danger of being lost. Besides serving as a hub for team-based pulling down and mirroring of data, this site will provide advice on managing your own data and rescuing it from the brink of destruction. Currently Active Projects (Get Involved Here!) Archive Team recruiting Want to code for Archive Team? Here's a starting point.

Archive Team is a loose collective of rogue archivists, programmers, writers and loudmouths dedicated to saving our digital heritage. Since 2009 this variant force of nature has caught wind of shutdowns, shutoffs, mergers, and plain old deletions - and done our best to save the history before it's lost forever. Along the way, we've gotten attention, resistance, press and discussion, but most importantly, we've gotten the message out: IT DOESN'T HAVE TO BE THIS WAY. This website is intended to be an offloading point and information depot for a number of archiving projects, all related to saving websites or data that is in danger of being lost. Besides serving as a hub for team-based pulling down and mirroring of data, this site will provide advice on managing your own data and rescuing it from the brink of destruction.

Who We Are and how you can join our cause! Deathwatch is where we keep track of sites that are sickly, dying or dead. Fire Drill is where we keep track of sites that seem fine but a lot depends on them. Projects is a comprehensive list of AT endeavors. Philosophy describes the ideas underpinning our work. Some Starting Points The Introduction is an overview of basic archiving methods. Why Back Up? Because they don't care about you. Back Up your Facebook Data Learn how to liberate your personal data from Facebook. Software will assist you in regaining control of your data by providing tools for information backup, archiving and distribution. Formats will familiarise you with the various data formats, and how to ensure your files will be readable in the future. Storage Media is about where to get it, what to get, and how to use it. Recommended Reading links to others sites for further information. Frequently Asked Questions is where we answer common questions.

“Is this related to what we talked about before?” Bencsáth said, referring to a previous discussion they’d had about testing new services the company planned to offer customers. “No, something else,” Bartos said. “Can you come now? It’s important. But don’t tell anyone where you’re going.” Bencsáth wolfed down the rest of his lunch and told his colleagues in the lab that he had a “red alert” and had to go. “Don’t ask,” he said as he ran out the door. A while later, he was at Bartos’ office, where a triage team had been assembled to address the problem they wanted to discuss. “We think we’ve been hacked,” Bartos said.

They found a suspicious file on a developer’s machine that had been created late at night when no one was working. The file was encrypted and compressed so they had no idea what was inside, but they suspected it was data the attackers had copied from the machine and planned to retrieve later. A search of the company’s network found a few more machines that had been infected as well. The triage team felt confident they had contained the attack but wanted Bencsáth’s help determining how the intruders had broken in and what they were after. The company had all the right protections in place—firewalls, antivirus, intrusion-detection and -prevention systems—and still the attackers got in.

Bencsáth was a teacher, not a malware hunter, and had never done such forensic work before. At the CrySyS Lab, where he was one of four advisers working with a handful of grad students, he did academic research for the European Union and occasional hands-on consulting work for other clients, but the latter was mostly run-of-the-mill cleanup work—mopping up and restoring systems after random virus infections. He’d never investigated a targeted hack before, let alone one that was still live, and was thrilled to have the chance. The only catch was, he couldn’t tell anyone what he was doing. Bartos’ company depended on the trust of customers, and if word got out that the company had been hacked, they could lose clients. The triage team had taken mirror images of the infected hard drives, so they and Bencsáth spent the rest of the afternoon poring over the copies in search of anything suspicious. By the end of the day, they’d found what they were looking for—an “infostealer” string of code that was designed to record passwords and other keystrokes on infected machines, as well as steal documents and take screenshots. It also catalogued any devices or systems that were connected to the machines so the attackers could build a blueprint of the company’s network architecture. The malware didn’t immediately siphon the stolen data from infected machines but instead stored it in a temporary file, like the one the triage team had found. The file grew fatter each time the infostealer sucked up data, until at some point the attackers would reach out to the machine to retrieve it from a server in India that served as a command-and-control node for the malware.