Group items tagged

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.

BitTorrent today released folder syncing software that replicates files across multiple computers using the same peer-to-peer file sharing technology that powers BitTorrent clients. The free BitTorrent Sync application is labeled as being in the alpha stage, so it's not necessarily ready for prime-time, but it is publicly available for download and working as advertised on my home network. BitTorrent, Inc. (yes, there is a legitimate company behind BitTorrent) took to its blog to announce the move from a pre-alpha, private program to the publicly available alpha. Additions since the private alpha include one-way synchronization, one-time secrets for sharing files with a friend or colleague, and the ability to exclude specific files and directories.

BitTorrent Sync provides "unlimited, secure file-syncing," the company said. "You can use it for remote backup. Or, you can use it to transfer large folders of personal media between users and machines; editors and collaborators. It’s simple. It’s free. It’s the awesome power of P2P, applied to file-syncing." File transfers are encrypted, with private information never being stored on an external server or in the "cloud." "Since Sync is based on P2P and doesn’t require a pit-stop in the cloud, you can transfer files at the maximum speed supported by your network," BitTorrent said. "BitTorrent Sync is specifically designed to handle large files, so you can sync original, high quality, uncompressed files."

The App Runtime for Chrome and Native Client are hugely important projects because they potentially allow Google to push a "universal binary" strategy on developers. "Write your app for Android, and we'll make it run on almost every popular OS! (other than iOS)" Google Play Services support is a major improvement for ARC and signals just how ambitious this project is. Some day it will be a great sales pitch to convince developers to write for Android first, which gives them apps on all these desktop OSes for free.

While there is considerable telecom hubris regarding the 5G rollout and increasing speculation that the next generation of wireless is not yet ready for Prime Time, the industry continues to make promises to Rural America that it has no intention of fulfilling. Decades-long promises to deliver digital Utopia to rural America by T-Mobile, Verizon and AT&T have never materialized.  

In 2017, the USDA reported that 29% of American farms had no internet access. The FCC says that 14 million rural Americans and 1.2 million Americans living on tribal lands do not have 4G LTE on their phones, and that 30 million rural residents do not have broadband service compared to 2% of urban residents.  It’s beginning to sound like a Third World country. Despite an FCC $4.5 billion annual subsidy to carriers to provide broadband service in rural areas, the FCC reports that ‘over 24 million Americans do not have access to high-speed internet service, the bulk of them in rural area”while a  Microsoft Study found that  “162 million people across the US do not have internet service at broadband speeds.” At the same time, only three cable companies have access to 70% of the market in a sweetheart deal to hike rates as they avoid competition and the FCC looks the other way.  The FCC believes that it would cost $40 billion to bring broadband access to 98% of the country with expansion in rural America even more expensive.  While the FCC has pledged a $2 billion, ten year plan to identify rural wireless locations, only 4 million rural American businesses and homes will be targeted, a mere drop in the bucket. Which brings us to rural mapping: Since the advent of the digital age, there have been no accurate maps identifying where broadband service is available in rural America and where it is not available.  The FCC has a long history of promulgating unreliable and unverified carrier-provided numbers as the Commission has repeatedly ‘bungled efforts to produce accurate broadband maps” that would have facilitated rural coverage. During the Senate Commerce Committee hearing on April 10th regarding broadband mapping, critical testimony questioned whether the FCC and/or the telecom industry have either the commitment or the proficiency to provide 5G to rural America.  Members of the Committee shared concerns that 5G might put rural America further behind the curve so as to never catch up with the rest of the country

With his shaggy, sandy blond hair and a 5-o'clock shadow, Mark Rolston, the creative director for Frog Design, has studied technology for the better part of two decades. As he sees it, smartphones are just about out of evolutionary advances. Sure, form factors and materials might alter as manufacturers grasp for differentiating design, but in terms of innovative leaps, Rolston says, "we're at the end of gross innovation for smartphones." That isn't to say smartphones are dead or obsolete. Just the contrary. As Rolston and other future thinkers who study the mobile space conclude, smartphones will become increasingly impactful in interacting with our surrounding world, but more as one smaller piece of a much large, interconnected puzzle abuzz with data transfer and information. We'll certainly see more crazy camera software and NFC features everywhere, but there's much, much more to look forward to besides.

You may have never given two thoughts to the sensors that come on you smartphone. They don't mind. They're still there anyway, computing data on your phone's movement and speed, rotation, and lighting conditions. These under-appreciated components -- the gyroscope, accelerometer, magnetometer, and so forth -- are starting to get more friends in the neighborhood. Samsung, for instance, slipped pressure, temperature, and humidity sniffers into the Galaxy S4. They may not be the sexiest feature in your phone, but in the future, sensors like accelerometers will be able to collect and report much more detailed information.

If you've made it here, you'll start seeing a general theme: in the forward-looking smartphone environment of our future, our devices are anything but isolated. Instead, smartphones will come with more components and communications tools to interact more than ever before with people and other devices. We already see some communication with Wi-Fi Direct, Bluetooth, and NFC communications protocols, plus newcomers like the Miracast standard. In short, the kind of innovation we see in the mobile space may have more to do with getting your smartphone to communicate with other computing devices in the ecosystem than it will have with how many megapixels or ultrapixels your camera lens possesses or what kind of leather was used to finish the chassis.

Some time on Tuesday afternoon, about 50,000 Comcast Internet customers in Houston will become part of a massive public Wi-Fi hotspot network, a number that will swell to 150,000 by the end of June. Comcast will begin activating a feature in its Arris Touchstone Telephony Wireless Gateway Modems that sets up a public Wi-Fi hotspot alongside a residential Internet customer’s private home network. Other Comcast customers will be able to log in to the hotspots for free using a computer, smartphone or other mobile device. And once they log into one, they’ll be automatically logged in to others when their devices “see” them. Comcast says the hotspot – which appears as “xfinitywifi” to those searching for a Wi-Fi connection – is completely separate from the home network. Someone accessing the Net through the hotspot can’t get to the computers, printers, mobile devices, streaming boxes and more sitting on the host network. Comcast officials also say that people using the Internet via the hotspot won’t slow down Internet access on the home network. Additional capacity is allotted to handle the bandwidth. You can read more about Comcast’s reason for doing this in my report on HoustonChronicle.com.

What’s interesting about this move is that, by default, the feature is being turned on without its subscribers’ prior consent. It’s an opt-out system – you have to take action to not participate. Comcast spokesman Michael Bybee said on Monday that notices about the hotspot feature were mailed to customers a few weeks ago, and email notifications will go out after it’s turned on. But it’s a good bet that this will take many Comcast customers by surprise. If you have one of these routers and don’t want to host a public Wi-Fi hotspot, here’s how to turn it off.

The additional capacity for public hotspot users is provided through a separate channel on the modem called a “service flow,” according to Comcast. But the speed of the connection reflects the tier of the subscriber hosting the hotspot. For example, if you connect to a hotspot hosted by a home user with a 25-Mbps connection, it will be slower than if you connect to a host system on the 50-Mbps tier.

Back in 2011, Julian Assange met up with Eric Schmidt for an interview that he considers the best he’s ever given. That doesn’t change, however, the opinion he now has about Schmidt and the company he represents, Google.In fact, the WikiLeaks leader doesn’t believe in the famous “Don’t Be Evil” mantra that Google has been preaching for years.Assange thinks both Schmidt and Google are at the exact opposite spectrum.“Nobody wants to acknowledge that Google has grown big and bad. But it has. Schmidt’s tenure as CEO saw Google integrate with the shadiest of US power structures as it expanded into a geographically invasive megacorporation. But Google has always been comfortable with this proximity,” Assange writes in an opinion piece for Newsweek.

“Long before company founders Larry Page and Sergey Brin hired Schmidt in 2001, their initial research upon which Google was based had been partly funded by the Defense Advanced Research Projects Agency (DARPA). And even as Schmidt’s Google developed an image as the overly friendly giant of global tech, it was building a close relationship with the intelligence community,” Assange continues.Throughout the lengthy article, Assange goes on to explain how the 2011 meeting came to be and talks about the people the Google executive chairman brought along - Lisa Shields, then vice president of the Council on Foreign Relationship, Jared Cohen, who would later become the director of Google Ideas, and Scott Malcomson, the book’s editor, who would later become the speechwriter and principal advisor to Susan Rice.“At this point, the delegation was one part Google, three parts US foreign-policy establishment, but I was still none the wiser.” Assange goes on to explain the work Cohen was doing for the government prior to his appointment at Google and just how Schmidt himself plays a bigger role than previously thought.In fact, he says that his original image of Schmidt, as a politically unambitious Silicon Valley engineer, “a relic of the good old days of computer science graduate culture on the West Coast,” was wrong.

However, Assange concedes that that is not the sort of person who attends Bilderberg conferences, who regularly visits the White House, and who delivers speeches at the Davos Economic Forum.He claims that Schmidt’s emergence as Google’s “foreign minister” did not come out of nowhere, but it was “presaged by years of assimilation within US establishment networks of reputation and influence.” Assange makes further accusations that, well before Prism had even been dreamed of, the NSA was already systematically violating the Foreign Intelligence Surveillance Act under its director at the time, Michael Hayden. He states, however, that during the same period, namely around 2003, Google was accepting NSA money to provide the agency with search tools for its rapidly-growing database of information.Assange continues by saying that in 2008, Google helped launch the NGA spy satellite, the GeoEye-1, into space and that the search giant shares the photographs from the satellite with the US military and intelligence communities. Later on, 2010, after the Chinese government was accused of hacking Google, the company entered into a “formal information-sharing” relationship with the NSA, which would allow the NSA’s experts to evaluate the vulnerabilities in Google’s hardware and software.