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Gary Edwards

Duke Engines' incredibly compact, lightweight valveless axial Engine - 0 views

  • The Duke engine is an axial design, meaning that its five cylinders encircle the drive shaft and run parallel with it. The pistons drive a star-shaped reciprocator, which nutates around the drive shaft, kind of like a spinning coin coming to rest on a table.
  • The reciprocator's center point is used to drive the central drive shaft, which rotates in the opposite direction to the reciprocator. "That counter-rotation keeps it in tidy balance," says Duke co-founder John Garvey. "If you lay your hand on it while it's running, you can barely detect any motion at all, it's quite remarkable." That's borne out by the video below, where the engine revving doesn't even cause enough vibrations to tip a coin off its side.
  • Instead of cam- or pneumatically-operated intake and outlet valves, the cylinders rotate past intake and outlet ports in a stationary head ring. The spark plugs are also mounted in this stationary ring – the cylinders simply slide past each port or plug at the stage of the cycle it's needed for and move on. In this way, Duke eliminates all the complexity of valve operation and manages to run a five-cylinder engine with just three spark plugs and three fuel injectors. The Duke engine ends up delivering as many power strokes per revolution as a six cylinder engine, but with huge weight savings and a vast reduction in the number of engine parts.
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  • The engine has shown excellent resistance to pre-ignition (or detonation) – potentially because its cylinders tend to run cooler than comparable engines. Duke has run compression ratios as high as 14:1 with regular 91-octane gasoline. This suggests that further developments will pull even more power out of a given amount of fuel, increasing the overall efficiency of the unit.
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    Watch the second video! This is extraordinary. "New Zealand's Duke Engines has been busy developing and demonstrating excellent results with a bizarre axial Engine prototype that completely does away with valves, while delivering excellent power and torque from an Engine much smaller, lighter and simpler than the existing technology. We spoke with Duke co-founder John Garvey to find out how the Duke Axial Engine project is going."
Gary Edwards

The Grand Convergence: Web + RIA + Widgets + Client/Server - 0 views

  • he architecture of the Widget engine divides the client technology into two parts, the engine and the widgets. The widget engine is usually a pretty large download.
  • The widget engine is really a wonderful architecture that gives you the power of the desktop (via the widget engine) and the management of the Web (via widget downloads).  Widget engines can out-perform RIA solutions and they can store larger data sets. 
  • Fit Client applications can be centrally managed, yet remain resident on the desktop. They can offer access to standard web content (e.g. HTML) without the need of a browser. Fit Clients can leverage the processing power and disc space of the client machine, but they can also offer more restrictive and secure environments than client/server platforms.
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    Excellent overview of where applications are going. Richard Monson-Haefel, (whom i met at the 2008 Web 2.0 Conference) explains the convergence of four emerging application models: Web Clients (Browsers), RiA Clients, Client/Server, and Widget Engines. He comes up with a convergence point called "Fit Client", offering Adobe Air as the leading example. Richard walks through each application model, discussing limitations and advantages. Good stuff, especially this comment: "The widget Engine is really a wonderful architecture that gives you the power of the desktop (via the widget Engine) and the management of the Web (via widget downloads).  Widget Engines can out-perform RIA solutions and they can store larger data sets.    The limitation of Widget Engines is not in their architecture, it is that they have been designed for applications with fairly weak capabilities compared to client/server. Widgets tend to be single-purpose applications with limited access to the native operating system. That said, the widget architecture itself - the separation of the platform from the applications - is important. It makes it possible to create applications (widgets) that are portable across operating systems and are packaged for easy download and installation. "
Gary Edwards

XML Production Workflows? Start with the Web and XHTML - 0 views

  • Challenges: Some Ugly Truths The challenges of building—and living with—an XML workflow are clear enough. The return on investment is a long-term proposition. Regardless of the benefits XML may provide, the starting reality is that it represents a very different way of doing things than the one we are familiar with. The Word Processing and Desktop Publishing paradigm, based on the promise of onscreen, WYSIWYG layout, is so dominant as to be practically inescapable. It has proven really hard to get from here to there, no matter how attractive XML might be on paper. A considerable amount of organizational effort and labour must be expended up front in order to realize the benefits. This is why XML is often referred to as an “investment”: you sink a bunch of time and money up front, and realize the benefits—greater flexibility, multiple output options, searching and indexing, and general futureproofing—later, over the long haul. It is not a short-term return proposition. And, of course, the returns you are able to realize from your XML investment are commensurate with what you put in up front: fine-grained, semantically rich tagging is going to give you more potential for searchability and recombination than a looser, more general-purpose approach, but it sure costs more. For instance, the Text Encoding Initiative (TEI) is the grand example of pouring enormous amounts of energy into the up-front tagging, with a very open-ended set of possibilities down the line. TEI helpfully defines a level to which most of us do not have to aspire.[5] But understanding this on a theoretical level is only part of the challenge. There are many practical issues that must be addressed. Software and labour are two of the most critical. How do you get the content into XML in the first place? Unfortunately, despite two decades of people doing SGML and XML, this remains an ugly question.
  • Practical Challenges In 2009, there is still no truly likeable—let alone standard—editing and authoring software for XML. For many (myself included), the high-water mark here was Adobe’s FrameMaker, substantially developed by the late 1990s. With no substantial market for it, it is relegated today mostly to the tech writing industry, unavailable for the Mac, and just far enough afield from the kinds of tools we use today that its adoption represents a significant hurdle. And FrameMaker was the best of the breed; most of the other software in decent circulation are programmers’ tools—the sort of things that, as Michael Tamblyn pointed out, encourage editors to drink at their desks. The labour question represents a stumbling block as well. The skill-sets and mind-sets that effective XML editors need have limited overlap with those needed by literary and more traditional production editors. The need to think of documents as machine-readable databases is not something that comes naturally to folks steeped in literary culture. In combination with the sheer time and effort that rich tagging requires, many publishers simply outsource the tagging to India, drawing a division of labour that spans oceans, to put it mildly. Once you have XML content, then what do you do with it? How do you produce books from it? Presumably, you need to be able to produce print output as well as digital formats. But while the latter are new enough to be generally XML-friendly (e-book formats being largely XML based, for instance), there aren’t any straightforward, standard ways of moving XML content into the kind of print production environments we are used to seeing. This isn’t to say that there aren’t ways of getting print—even very high-quality print—output from XML, just that most of them involve replacing your prepress staff with Java programmers.
  • Why does this have to be so hard? It’s not that XML is new, or immature, or untested. Remember that the basics have been around, and in production, since the early 1980s at least. But we have to take account of a substantial and long-running cultural disconnect between traditional editorial and production processes (the ones most of us know intimately) and the ways computing people have approached things. Interestingly, this cultural divide looked rather different in the 1970s, when publishers were looking at how to move to digital typesetting. Back then, printers and software developers could speak the same language. But that was before the ascendancy of the Desktop Publishing paradigm, which computerized the publishing industry while at the same time isolating it culturally. Those of us who learned how to do things the Quark way or the Adobe way had little in common with people who programmed databases or document-management systems. Desktop publishing technology isolated us in a smooth, self-contained universe of toolbars, grid lines, and laser proofs. So, now that the reasons to get with this program, XML, loom large, how can we bridge this long-standing divide?
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  • Using the Web as a Production Platform The answer, I think, is right in front of you. The bridge is the Web, a technology and platform that is fundamentally based on XML, and which many publishers are by now comfortably familiar with. Perhaps not entirely comfortably, but at least most publishers are already working with the Web; they already either know or have on staff people who understand it and can work with it. The foundation of our argument is this: rather than looking at jumping to XML in its full, industrial complexity, which seems to be what the O'Reilly-backed StartWithXML initiative[6] is suggesting, publishers instead leverage existing tools and technologies—starting with the Web—as a means of getting XML workflows in place. This means making small investments and working with known tools rather than spending tens of thousands of dollars on XML software and rarefied consultants. It means re-thinking how the existing pieces of the production toolchain fit together; re-thinking the existing roles of software components already in use. It means, fundamentally, taking the Web seriously as a content platform, rather than thinking of it as something you need to get content out to, somehow. If nothing else, the Web represents an opportunity to think about editorial and production from outside the shrink-wrapped Desktop Publishing paradigm.
  • Is the Web made of Real XML? At this point some predictable objections can be heard: wait a moment, the Web isn’t really made out of XML; the HTML that makes up most of the Web is at best the bastard child of SGML, and it is far too flaky/unstructured/underpowered to be taken seriously. We counter by arguing that although HTML on the Web exists in a staggering array of different incarnations, and that the majority of it is indeed an unstructured mess, this does not undermine the general principle that basic, ubiquitous Web technologies can make a solid platform for content management, editorial process, and production workflow.
  • With the advent of a published XML standard in the late 1990s came the W3C’s adoption of XHTML: the realization of the Web’s native content markup as a proper XML document type. Today, its acceptance is almost ubiquitous, even while the majority of actual content out there may not be strictly conforming. The more important point is that most contemporary Web software, from browsers to authoring tools to content management systems (from blogs to enterprise systems), are capable of working with clean, valid XHTML. Or, to put the argument the other way around, clean, valid XHTML content plays absolutely seamlessly with everything else on the Web.[7]
  • The objection which follows, then, will be that even if we grant that XHTML is a real XML document type, that it is underpowered for “serious” content because it is almost entirely presentation (formatting) oriented; it lacks any semantic depth. In XHTML, a paragraph is a paragraph is a paragraph, as opposed to a section or an epigraph or a summary.
  • n contrast, more “serious” XML document types like DocBook[8] or DITA-derived schemas[9] are capable of making semantic distinctions about content chunks at a fine level of granularity and with a high degree of specificity.
  • So there is an argument for recalling the 80:20 rule here. If XHTML can provide 80% of the value with just 20% of the investment, then what exactly is the business case for spending the other 80% to achieve that last 20% of value? We suspect the ratio is actually quite a bit steeper than 80:20 for most publishers.
  • Furthermore, just to get technical for a moment, XHTML is extensible in a fairly straightforward way, through the common “class” attribute on each element. Web developers have long leveraged this kind of extensibility in the elaboration of “microformats” for semantic-web applications.[10] There is no reason why publishers shouldn’t think to use XHTML’s simple extensibility in a similar way for their own ends.
  • XHTML, on the other hand, is supported by a vast array of quotidian software, starting with the ubiquitous Web browser. For this very reason, XHTML is in fact employed as a component part of several more specialized document types (ONIX and ePub among them).
  • Why re-invent a general-purpose prose representation when XHTML already does the job?
  • It is worth pausing for a moment to consider the role of XHTML in the ePub standard for ebook content. An ePub file is, anatomically, a simply disguised zip archive. Inside the zip archive are a few standard component parts: there are specialized files that declare metadata about the book, and about the format of the book. And then there is the book’s content, represented in XHTML. An ePub book is a Web page in a wrapper.
  • To sum up the general argument: the Web as it already exists presents incredible value to publishers, as a platform for doing XML content management with existing (and often free) tools, and without having to go blindly into the unknown. At this point, we can offer a few design guidelines: prefer existing and/or ubiquitous tools over specialized ones wherever possible; prefer free software over proprietary systems where possible; prefer simple tools controlled and coordinated by human beings over fully automated (and therefore complex) systems; play to our strengths: use Web software for storing and managing content, use layout software for layout, and keep editors and production people in charge of their own domains.
  • Putting the Pieces Together: A Prototype
  • At the SFU Master of Publishing Program, we have been chipping away at this general line of thinking for a few years. Over that time, Web content management systems have been getting more and more sophisticated, all the while getting more streamlined and easier to use. (NB: if you have a blog, you have a Web content management system.) The Web is beginning to be recognized as a writing and editing environment used by millions of people. And the ways in which content is represented, stored, and exchanged online have become increasingly robust and standardized.
  • The missing piece of the puzzle has been print production: how can we move content from its malleable, fluid form on line into the kind of high-quality print production environments we’ve come to expect after two decades of Desktop Publishing?
  • Anyone who has tried to print Web content knows that the existing methods leave much to be desired (hyphenation and justification, for starters). In the absence of decent tools for this, most publishers quite naturally think of producing the print content first, and then think about how to get material onto the Web for various purposes. So we tend to export from Word, or from Adobe, as something of an afterthought.
  • While this sort of works, it isn’t elegant, and it completely ignores the considerable advantages of Web-based content management.
  • Content managed online is stored in one central location, accessible simultaneously to everyone in your firm, available anywhere you have an Internet connection, and usually exists in a much more fluid format than Word files. If only we could manage the editorial flow online, and then go to print formats at the end, instead of the other way around. At SFU, we made several attempts to make this work by way of the supposed “XML import” capabilities of various Desktop Publishing tools, without much success.[12]
  • In the winter of 2009, Adobe solved this part of the problem for us with the introduction of its Creative Suite 4. What CS4 offers is the option of a complete XML representation of an InDesign document: what Adobe calls IDML (InDesign Markup Language).
  • The IDML file format is—like ePub—a simply disguised zip archive that, when unpacked, reveals a cluster of XML files that represent all the different facets of an InDesign document: layout spreads, master pages, defined styles, colours, and of course, the content.
  • IDML is a well thought-out XML standard that achieves two very different goals simultaneously: it preserves all of the information that InDesign needs to do what it does; and it is broken up in a way that makes it possible for mere mortals (or at least our Master of Publishing students) to work with it.
  • What this represented to us in concrete terms was the ability to take Web-based content and move it into InDesign in a straightforward way, thus bridging Web and print production environments using existing tools and skillsets, with a little added help from free software.
  • We would take clean XHTML content, transform it to IDML-marked content, and merge that with nicely designed templates in InDesign.
  • The result is an almost push-button publication workflow, which results in a nice, familiar InDesign document that fits straight into the way publishers actually do production.
  • Tracing the steps To begin with, we worked backwards, moving the book content back to clean XHTML.
  • The simplest method for this conversion—and if you want to create Web content, this is an excellent route—was to use Adobe’s “Export to Digital Editions” option, which creates an ePub file.
  • Recall that ePub is just XHTML in a wrapper, so within the ePub file was a relatively clean XHTML document. It was somewhat cleaner (that is, the XHTML tagging was simpler and less cluttered) than InDesign’s other Web-oriented exports, possibly because Digital Editions is a well understood target, compared with somebody’s website.
  • In order to achieve our target of clean XHTML, we needed to do some editing; the XHTML produced by InDesign’s “Digital Editions” export was presentation-oriented. For instance, bulleted list items were tagged as paragraphs, with a class attribute identifying them as list items. Using the search-and-replace function, we converted such structures to proper XHTML list and list-item elements. Our guiding principle was to make the XHTML as straightforward as possible, not dependent on any particular software to interpret it.
  • We broke the book’s content into individual chapter files; each chapter could then carry its own basic metadata, and the pages conveniently fit our Web content management system (which is actually just a wiki). We assembled a dynamically generated table of contents for the 12 chapters, and created a cover page. Essentially, the book was entirely Web-based at this point.
  • When the book chapters are viewed online, they are formatted via a CSS2 stylesheet that defines a main column for content as well as dedicating screen real estate for navigational elements. We then created a second template to render the content for exporting; this was essentially a bare-bones version of the book with no navigation and minimal styling. Pages (or even the entire book) can be exported (via the “Save As...” function in a Web browser) for use in either print production or ebook conversion. At this point, we required no skills beyond those of any decent Web designer.
  • Integrating with CS4 for Print Adobe’s IDML language defines elements specific to InDesign; there is nothing in the language that looks remotely like XHTML. So a mechanical transformation step is needed to convert the XHTML content into something InDesign can use. This is not as hard as it might seem.
  • Both XHTML and IDML are composed of straightforward, well-documented structures, and so transformation from one to the other is, as they say, “trivial.” We chose to use XSLT (Extensible Stylesheet Language Transforms) to do the work. XSLT is part of the overall XML specification, and thus is very well supported in a wide variety of tools. Our prototype used a scripting engine called xsltproc, a nearly ubiquitous piece of software that we found already installed as part of Mac OS X (contemporary Linux distributions also have this as a standard tool), though any XSLT processor would work.
  • In other words, we don’t need to buy InCopy, because we just replaced it with the Web. Our wiki is now plugged directly into our InDesign layout. It even automatically updates the InDesign document when the content changes. Credit is due at this point to Adobe: this integration is possible because of the open file format in the Creative Suite 4.
  • We wrote an XSLT transformation script[18] that converted the XHTML content from the Web into an InCopy ICML file. The script itself is less than 500 lines long, and was written and debugged over a period of about a week by amateurs (again, the people named at the start of this article). The script runs in a couple of seconds, and the resulting .icml file can then be “placed” directly into an InDesign template. The ICML file references an InDesign stylesheet, so the template file can be set up with a house-styled layout, master pages, and stylesheet definitions for paragraphs and character ranges.
  • The result is very simple and easy to use. Our demonstration requires that a production editor run the XSLT transformation script manually, but there is no reason why this couldn’t be built directly into the Web content management system so that exporting the content to print ran the transformation automatically. The resulting file would then be “placed” in InDesign and proofed.
  • It should be noted that the Book Publishing 1 proof-of-concept was artificially complex; we began with a book laid out in InDesign and ended up with a look-alike book laid out in InDesign. But next time—for instance, when we publish Book Publishing 2—we can begin the process with the content on the Web, and keep it there throughout the editorial process. The book’s content could potentially be written and edited entirely online, as Web content, and then automatically poured into an InDesign template at proof time. “Just in time,” as they say. This represents an entirely new way of thinking of book production. With a Web-first orientation, it makes little sense to think of the book as “in print” or “out of print”—the book is simply available, in the first place online; in the second place in derivative digital formats; and third, but really not much more difficult, in print-ready format, via the usual InDesign CS print production system publishers are already familiar with.
  • Creating Ebook Files Creating electronic versions from XHTML source is vastly simpler than trying to generate these out of the existing print process. The ePub version is extremely easy to generate; so is online marketing copy or excerpts for the Web, since the content begins life Web-native.
  • Since an ePub file is essentially XHTML content in a special wrapper, all that is required is that we properly “wrap” our XHTML content. Ideally, the content in an ePub file is broken into chapters (as ours was) and a table of contents file is generated in order to allow easy navigation within an ebook reader. We used Julian Smart’s free tool eCub[19] to simply and automatically generate the ePub wrapper and the table of contents. The only custom development we did was to create a CSS stylesheet for the ebook so that headings and paragraph indents looked the way we wanted. Starting with XHTML content, creating ePub is almost too easy.
  • Such a workflow—beginning with the Web and exporting to print—is surely more in line with the way we will do business in the 21st century, where the Web is the default platform for reaching audiences, developing content, and putting the pieces together. It is time, we suggest, for publishers to re-orient their operations and start with the Web.
  • Our project demonstrates that Web technologies are indeed good enough to use in an XML-oriented workflow; more specialized and expensive options are not necessarily required. For massive-scale enterprise publishing, this approach may not offer enough flexibility, and the challenge of adding and extracting extra semantic richness may prove more trouble than it's worth.
  • But for smaller firms who are looking at the straightforward benefits of XML-based processes—single source publishing, online content and workflow management, open and accessible archive formats, greater online discoverability—here is a way forward.
  • Rather than a public-facing website, our system relies on the Web as a content management platform—of course a public face could easily be added.
  • The final piece of our puzzle, the ability to integrate print production, was made possible by Adobe's release of InDesign with an open XML file format. Since the Web's XHTML is also XML, is can be easily and confidently transformed to the InDesign format.
  • today, we are able to put the process together using nothing but standard, relatively ubiquitous Web tools: the Web itself as an editing and content management environment, standard Web scripting tools for the conversion process, and the well-documented IDML file format to integrate the layout tool.
  • Using the Web as a Production Platform
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    I was looking for an answer to a problem Marbux had presented, and found this interesting article.  The issue was that of the upcoming conversion of the Note Case Pro (NCP) layout engine to the WebKit layout engine, and what to do about the NCP document format. My initial reaction was to encode the legacy NCP document format in XML, and run an XSLT to a universal pivot format like TEI-XML.  From there, the TEI-XML community would provide all the XSLT transformation routines for conversion to ODF, OOXML, XHTML, ePUB and HTML/CSS. Researching the problems one might encounter with this approach, I found this article.  Fascinating stuff. My take away is that TEI-XML would not be as effective a "universal pivot point" as XHTML.  Or perhaps, if NCP really wants to get aggressive; IDML - InDesign Markup Language. The important point though is that XHTML is a browser specific version of XML, and compatible with the Web Kit layout engine Miro wants to move NCP to. The concept of encoding an existing application-specific format in XML has been around since 1998, when XML was first introduced as a W3C standard, a "structured" subset of SGML. (HTML is also a subset of SGML). The multiplatform StarOffice productivity suite became "OpenOffice" when Sun purchased the company in 1998, and open sourced the code base. The OpenOffice developer team came out with a XML encoding of their existing document formats in 2000. The application specific encoding became an OASIS document format standard proposal in 2002 - also known as ODF. Microsoft followed OpenOffice with a XML encoding of their application-specific binary document formats, known as OOXML. Encoding the existing NCP format in XML, specifically targeting XHTML as a "universal pivot point", would put the NCP Outliner in the Web editor category, without breaking backwards compatibility. The trick is in the XSLT conversion process. But I think that is something much easier to handle then trying to
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    I was looking for an answer to a problem Marbux had presented, and found this interesting article.  The issue was that of the upcoming conversion of the Note Case Pro (NCP) layout engine to the WebKit layout engine, and what to do about the NCP document format. My initial reaction was to encode the legacy NCP document format in XML, and run an XSLT to a universal pivot format like TEI-XML.  From there, the TEI-XML community would provide all the XSLT transformation routines for conversion to ODF, OOXML, XHTML, ePUB and HTML/CSS. Researching the problems one might encounter with this approach, I found this article.  Fascinating stuff. My take away is that TEI-XML would not be as effective a "universal pivot point" as XHTML.  Or perhaps, if NCP really wants to get aggressive; IDML - InDesign Markup Language. The important point though is that XHTML is a browser specific version of XML, and compatible with the Web Kit layout engine Miro wants to move NCP to. The concept of encoding an existing application-specific format in XML has been around since 1998, when XML was first introduced as a W3C standard, a "structured" subset of SGML. (HTML is also a subset of SGML). The multiplatform StarOffice productivity suite became "OpenOffice" when Sun purchased the company in 1998, and open sourced the code base. The OpenOffice developer team came out with a XML encoding of their existing document formats in 2000. The application specific encoding became an OASIS document format standard proposal in 2002 - also known as ODF. Microsoft followed OpenOffice with a XML encoding of their application-specific binary document formats, known as OOXML. Encoding the existing NCP format in XML, specifically targeting XHTML as a "universal pivot point", would put the NCP Outliner in the Web editor category, without breaking backwards compatibility. The trick is in the XSLT conversion process. But I think that is something much easier to handle then trying to
Paul Merrell

Popular Security Software Came Under Relentless NSA and GCHQ Attacks - The Intercept - 0 views

  • 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
Gonzalo San Gil, PhD.

Invisible Web: What it is, Why it exists, How to find it, and Its inherent ambiguity - 1 views

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    [What is the "Invisible Web", a.k.a. the "Deep Web"? The "visible web" is what you can find using general web search engines. It's also what you see in almost all subject directories. The "invisible web" is what you cannot find using these types of tools. The first version of this web page was written in 2000, when this topic was new and baffling to many web searchers. Since then, search engines' crawlers and indexing programs have overcome many of the technical barriers that made it impossible for them to find "invisible" web pages. These types of pages used to be invisible but can now be found in most search engine results: Pages in non-HTML formats (pdf, Word, Excel, PowerPoint), now converted into HTML. Script-based pages, whose URLs contain a ? or other script coding. Pages generated dynamically by other types of database software (e.g., Active Server Pages, Cold Fusion). These can be indexed if there is a stable URL somewhere that search engine crawlers can find. ]
Gary Edwards

Google on Google Chrome - comic book - 0 views

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    Google Chrome is Google's browser project based on the extraordinary WebKit portable layout engine. Yes, Google has written their own open source browser. The reasons for Google taking this unusual step are very compelling - as this excellent presentation explains. I also think Chrome will be a game changer. The WebKit engine shows up in Adobe's Apollo RiA and, Apple's SproutCore-Cocoa RiA model. Microsoft of course offers the OOXML-XAML-Silverlight RiA that is based on .NET-WPF proprietary formats, protocols and interfaces. These are RiA efforts can be used as either browser plug-ins or stand alone runtimes. Now Google has entered the RiA fray with both feet coming down hard on a browser based runtime engine. Google RiA isn't a "Plug-in". It's the browser as both a browser and RiA runtime engine. Very cool. Let the battle begin!
Gary Edwards

Is Google Chrome a dud? Or the second coming? | Google Finally Advertising The Dud Known As "Chrome" - Henry Blodget - 0 views

  •  
    Gary Edwards (URL) said: Mar. 05, 8:17 PM +1 Chrome! It's excellent, but not for the reasons most would insist are important. Neither is Chrome a disruptive technology. It's not. The real revolution is underneath Chrome in the open source WebKit engine. An engine shared with iPhone, Android, Safari, Palm Pre, Nokia, Iris, RiMM 's Blackberry Storm and KDE. Crossplatform WebKit IDE's now include QT, 280Atlas and Eclipse. It is the Apple iPhone that put WebKit on the map, demonstrating a revolutionary document/application model capable of leveraging and pushing the Open Web to be competitive with proprietary initiatives from Adobe and Microsoft. The WebKit engine is driving most of the smart devices at the edge of the Web, providing a consistent document rendering and application runtime layer that is highly visual, multi-dimensionally interactive, and fully competitive with the proprietary rich interactive application engines (RiA) provided by Adobe and Microsoft. Near 80% of these edge of the Web devices are based on WebKit.
Gonzalo San Gil, PhD.

Disney Patents a Piracy Free Search Engine | TorrentFreak - 0 views

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    " Ernesto on October 31, 2014 C: 56 News Disney has just obtained a patent for a search engine that ranks sites based on various "authenticity" factors. One of the goals of the technology is to filter pirated material from search results while boosting the profile of copyright and trademark holders' websites." [# ! #Imagine... # ! ... this kind of '#artifacts' mandatory to the computer # ! manufacturers... [# Additional #WARNING: #Disney to #Decide the "#Authenticity" of web #contents... what's next?]]
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    " Ernesto on October 31, 2014 C: 56 News Disney has just obtained a patent for a search engine that ranks sites based on various "authenticity" factors. One of the goals of the technology is to filter pirated material from search results while boosting the profile of copyright and trademark holders' websites."
Gonzalo San Gil, PhD.

CompletePlanet - Discover over 70,000+ databases and specially search engines - 2 views

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    Node Level All Topics >> Agriculture Games & Hobbies Military Religion Arts & Design Government Music Science Business Health News Search Engines Computing & Internet Home & Garden Newspapers Shopping Education Humanities People Social Sciences Energy Jobs & Careers Places Sports Engineering Law Politics Transportation Environment Literature Products & Technology Travel Family Living things Recreation Weather Finance & Economics Magazines & Journals References Food & Drink Media & Entertainment Regional
Paul Merrell

Carakan - By Opera Core Concerns - 0 views

  • Over the past few months, a small team of developers and testers have been working on implementing a new ECMAScript/JavaScript engine for Opera. When Opera's current ECMAScript engine, called Futhark, was first released in a public version, it was the fastest engine on the market. That engine was developed to minimize code footprint and memory usage, rather than to achieve maximum execution speed. This has traditionally been a correct trade-off on many of the platforms Opera runs on. The Web is a changing environment however, and tomorrow's advanced web applications will require faster ECMAScript execution, so we have now taken on the challenge to once again develop the fastest ECMAScript engine on the market.
  • So how fast is Carakan? Using a regular cross-platform switch dispatch mechanism (without any generated native code) Carakan is currently about two and a half times faster at the SunSpider benchmark than the ECMAScript engine in Presto 2.2 (Opera 10 Alpha). Since Opera is ported to many different hardware architectures, this cross-platform improvement is on its own very important. The native code generation in Carakan is not yet ready for full-scale testing, but the few individual benchmark tests that it is already compatible with runs between 5 and 50 times faster, so it is looking promising so far.
Gary Edwards

Why Mozilla is committed to Gecko as WebKit popularity grows: Page 1 - 0 views

  • One of the primary reasons for the enormous complexity of the Gecko code base is that it aims to provide much more than just an HTML renderer. Mozilla's early goals were extremely ambitious—the original Mozilla application suite included a browser, a complete mail and newsgroup program, a web design tool, and an IRC client. In addition to rendering HTML, Gecko also provides a versatile XML-based user interface rendering framework called XUL that was used extensively in those applications. XUL is still used today to create the Firefox user interface, and it facilitates that browser's support for extensions, which are regarded by many enthusiasts as one of the most valuable features offered by Firefox.
  • XPCOM, a powerful component system
  • Gecko 1.9 uses the cross-platform Cairo rendering framework.
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  • reflow algorithm
  • Firefox 4 and replaces XPCOM reference counting with real garbage collection
  • support for some CSS 3 features that are implemented in WebKit.
  • TraceMonkey engine landed in recent nightly builds and will likely be included in 3.1; it massively boosts JavaScript performance
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    The consensus of the developers who are using WebKit is clear: it's an outstanding rendering engine that lends itself to an extremely diverse assortment of practical uses. It is everywhere, and it is gaining traction at a very impressive rate. That traction is causing some developers to question whether Mozilla's Gecko rendering engine is still relevant.
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    Historical walkthrough comparing two great rendering engines (layout); Mozilla Gecko and WebKit.
Scott Hale

Ask MAMA what the Web is - 0 views

  • Opera Software has led a first-of-its- kind project to create a search engine that tracks how Web pages are structured on the World Wide Web. When released publicly in the coming months, this engine will help browser makers and standards bodies work towards a more standards-driven and compatible Web.Opera today announced results from its MAMA (Metadata Analysis and Mining Application) search engine, a brainchild of Opera engineers that indexes the markup, style, scripting and the technology used while creating Web pages. From the beginning, Opera has been a leading innovator and MAMA is proof of the company’s deep understanding of the Web.The MAMA search engine scours 3.5 million Web pages, and the resulting data can answer questions such as "can I get a sampling of Web pages that have more than 100 hyperlinks?" or "what does an average Web page look like?"—a dream come true for Web developers.
    • Scott Hale
       
      This is a great way to analyize general development trends on the web, etc. but will this really lead to a "search engine"?
  • For more information on Opera’s MAMA project, please visit: dev.opera.com/articles/view/mama/
Gonzalo San Gil, PhD.

DuckDuckGo may be the next big thing in search engines | ITworld - 1 views

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    "In today's open source roundup: DuckDuckGo may eventually give Google a run for its money. Plus: A screenshot tour of Peppermint Five, and helpful tools for new Linux engineers"
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    "In today's open source roundup: DuckDuckGo may eventually give Google a run for its money. Plus: A screenshot tour of Peppermint Five, and helpful tools for new Linux engineers"
Gonzalo San Gil, PhD.

Netflix Disappears From MPAA's 'Legal' Movie Search Engine - TorrentFreak - 1 views

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    By Ernesto on April 10, 2016 Less than two years ago the MPAA launched its search engine WhereToWatch, offering viewers a database of alternatives to piracy. However, those who try the search engine today will notice that results for Netflix, the largest entertainment platform in the United States, are no longer listed. Is there a feud going on behind the scenes?
Paul Merrell

From Radio to Porn, British Spies Track Web Users' Online Identities - 1 views

  • HERE WAS A SIMPLE AIM at the heart of the top-secret program: Record the website browsing habits of “every visible user on the Internet.” Before long, billions of digital records about ordinary people’s online activities were being stored every day. Among them were details cataloging visits to porn, social media and news websites, search engines, chat forums, and blogs. The mass surveillance operation — code-named KARMA POLICE — was launched by British spies about seven years ago without any public debate or scrutiny. It was just one part of a giant global Internet spying apparatus built by the United Kingdom’s electronic eavesdropping agency, Government Communications Headquarters, or GCHQ. The revelations about the scope of the British agency’s surveillance are contained in documents obtained by The Intercept from National Security Agency whistleblower Edward Snowden. Previous reports based on the leaked files have exposed how GCHQ taps into Internet cables to monitor communications on a vast scale, but many details about what happens to the data after it has been vacuumed up have remained unclear.
  • Amid a renewed push from the U.K. government for more surveillance powers, more than two dozen documents being disclosed today by The Intercept reveal for the first time several major strands of GCHQ’s existing electronic eavesdropping capabilities.
  • The surveillance is underpinned by an opaque legal regime that has authorized GCHQ to sift through huge archives of metadata about the private phone calls, emails and Internet browsing logs of Brits, Americans, and any other citizens — all without a court order or judicial warrant
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  • A huge volume of the Internet data GCHQ collects flows directly into a massive repository named Black Hole, which is at the core of the agency’s online spying operations, storing raw logs of intercepted material before it has been subject to analysis. Black Hole contains data collected by GCHQ as part of bulk “unselected” surveillance, meaning it is not focused on particular “selected” targets and instead includes troves of data indiscriminately swept up about ordinary people’s online activities. Between August 2007 and March 2009, GCHQ documents say that Black Hole was used to store more than 1.1 trillion “events” — a term the agency uses to refer to metadata records — with about 10 billion new entries added every day. As of March 2009, the largest slice of data Black Hole held — 41 percent — was about people’s Internet browsing histories. The rest included a combination of email and instant messenger records, details about search engine queries, information about social media activity, logs related to hacking operations, and data on people’s use of tools to browse the Internet anonymously.
  • Throughout this period, as smartphone sales started to boom, the frequency of people’s Internet use was steadily increasing. In tandem, British spies were working frantically to bolster their spying capabilities, with plans afoot to expand the size of Black Hole and other repositories to handle an avalanche of new data. By 2010, according to the documents, GCHQ was logging 30 billion metadata records per day. By 2012, collection had increased to 50 billion per day, and work was underway to double capacity to 100 billion. The agency was developing “unprecedented” techniques to perform what it called “population-scale” data mining, monitoring all communications across entire countries in an effort to detect patterns or behaviors deemed suspicious. It was creating what it said would be, by 2013, “the world’s biggest” surveillance engine “to run cyber operations and to access better, more valued data for customers to make a real world difference.”
  • A document from the GCHQ target analysis center (GTAC) shows the Black Hole repository’s structure.
  • The data is searched by GCHQ analysts in a hunt for behavior online that could be connected to terrorism or other criminal activity. But it has also served a broader and more controversial purpose — helping the agency hack into European companies’ computer networks. In the lead up to its secret mission targeting Netherlands-based Gemalto, the largest SIM card manufacturer in the world, GCHQ used MUTANT BROTH in an effort to identify the company’s employees so it could hack into their computers. The system helped the agency analyze intercepted Facebook cookies it believed were associated with Gemalto staff located at offices in France and Poland. GCHQ later successfully infiltrated Gemalto’s internal networks, stealing encryption keys produced by the company that protect the privacy of cell phone communications.
  • Similarly, MUTANT BROTH proved integral to GCHQ’s hack of Belgian telecommunications provider Belgacom. The agency entered IP addresses associated with Belgacom into MUTANT BROTH to uncover information about the company’s employees. Cookies associated with the IPs revealed the Google, Yahoo, and LinkedIn accounts of three Belgacom engineers, whose computers were then targeted by the agency and infected with malware. The hacking operation resulted in GCHQ gaining deep access into the most sensitive parts of Belgacom’s internal systems, granting British spies the ability to intercept communications passing through the company’s networks.
  • In March, a U.K. parliamentary committee published the findings of an 18-month review of GCHQ’s operations and called for an overhaul of the laws that regulate the spying. The committee raised concerns about the agency gathering what it described as “bulk personal datasets” being held about “a wide range of people.” However, it censored the section of the report describing what these “datasets” contained, despite acknowledging that they “may be highly intrusive.” The Snowden documents shine light on some of the core GCHQ bulk data-gathering programs that the committee was likely referring to — pulling back the veil of secrecy that has shielded some of the agency’s most controversial surveillance operations from public scrutiny. KARMA POLICE and MUTANT BROTH are among the key bulk collection systems. But they do not operate in isolation — and the scope of GCHQ’s spying extends far beyond them.
  • The agency operates a bewildering array of other eavesdropping systems, each serving its own specific purpose and designated a unique code name, such as: SOCIAL ANTHROPOID, which is used to analyze metadata on emails, instant messenger chats, social media connections and conversations, plus “telephony” metadata about phone calls, cell phone locations, text and multimedia messages; MEMORY HOLE, which logs queries entered into search engines and associates each search with an IP address; MARBLED GECKO, which sifts through details about searches people have entered into Google Maps and Google Earth; and INFINITE MONKEYS, which analyzes data about the usage of online bulletin boards and forums. GCHQ has other programs that it uses to analyze the content of intercepted communications, such as the full written body of emails and the audio of phone calls. One of the most important content collection capabilities is TEMPORA, which mines vast amounts of emails, instant messages, voice calls and other communications and makes them accessible through a Google-style search tool named XKEYSCORE.
  • As of September 2012, TEMPORA was collecting “more than 40 billion pieces of content a day” and it was being used to spy on people across Europe, the Middle East, and North Africa, according to a top-secret memo outlining the scope of the program. The existence of TEMPORA was first revealed by The Guardian in June 2013. To analyze all of the communications it intercepts and to build a profile of the individuals it is monitoring, GCHQ uses a variety of different tools that can pull together all of the relevant information and make it accessible through a single interface. SAMUEL PEPYS is one such tool, built by the British spies to analyze both the content and metadata of emails, browsing sessions, and instant messages as they are being intercepted in real time. One screenshot of SAMUEL PEPYS in action shows the agency using it to monitor an individual in Sweden who visited a page about GCHQ on the U.S.-based anti-secrecy website Cryptome.
  • Partly due to the U.K.’s geographic location — situated between the United States and the western edge of continental Europe — a large amount of the world’s Internet traffic passes through its territory across international data cables. In 2010, GCHQ noted that what amounted to “25 percent of all Internet traffic” was transiting the U.K. through some 1,600 different cables. The agency said that it could “survey the majority of the 1,600” and “select the most valuable to switch into our processing systems.”
  • According to Joss Wright, a research fellow at the University of Oxford’s Internet Institute, tapping into the cables allows GCHQ to monitor a large portion of foreign communications. But the cables also transport masses of wholly domestic British emails and online chats, because when anyone in the U.K. sends an email or visits a website, their computer will routinely send and receive data from servers that are located overseas. “I could send a message from my computer here [in England] to my wife’s computer in the next room and on its way it could go through the U.S., France, and other countries,” Wright says. “That’s just the way the Internet is designed.” In other words, Wright adds, that means “a lot” of British data and communications transit across international cables daily, and are liable to be swept into GCHQ’s databases.
  • A map from a classified GCHQ presentation about intercepting communications from undersea cables. GCHQ is authorized to conduct dragnet surveillance of the international data cables through so-called external warrants that are signed off by a government minister. The external warrants permit the agency to monitor communications in foreign countries as well as British citizens’ international calls and emails — for example, a call from Islamabad to London. They prohibit GCHQ from reading or listening to the content of “internal” U.K. to U.K. emails and phone calls, which are supposed to be filtered out from GCHQ’s systems if they are inadvertently intercepted unless additional authorization is granted to scrutinize them. However, the same rules do not apply to metadata. A little-known loophole in the law allows GCHQ to use external warrants to collect and analyze bulk metadata about the emails, phone calls, and Internet browsing activities of British people, citizens of closely allied countries, and others, regardless of whether the data is derived from domestic U.K. to U.K. communications and browsing sessions or otherwise. In March, the existence of this loophole was quietly acknowledged by the U.K. parliamentary committee’s surveillance review, which stated in a section of its report that “special protection and additional safeguards” did not apply to metadata swept up using external warrants and that domestic British metadata could therefore be lawfully “returned as a result of searches” conducted by GCHQ.
  • Perhaps unsurprisingly, GCHQ appears to have readily exploited this obscure legal technicality. Secret policy guidance papers issued to the agency’s analysts instruct them that they can sift through huge troves of indiscriminately collected metadata records to spy on anyone regardless of their nationality. The guidance makes clear that there is no exemption or extra privacy protection for British people or citizens from countries that are members of the Five Eyes, a surveillance alliance that the U.K. is part of alongside the U.S., Canada, Australia, and New Zealand. “If you are searching a purely Events only database such as MUTANT BROTH, the issue of location does not occur,” states one internal GCHQ policy document, which is marked with a “last modified” date of July 2012. The document adds that analysts are free to search the databases for British metadata “without further authorization” by inputing a U.K. “selector,” meaning a unique identifier such as a person’s email or IP address, username, or phone number. Authorization is “not needed for individuals in the U.K.,” another GCHQ document explains, because metadata has been judged “less intrusive than communications content.” All the spies are required to do to mine the metadata troves is write a short “justification” or “reason” for each search they conduct and then click a button on their computer screen.
  • Intelligence GCHQ collects on British persons of interest is shared with domestic security agency MI5, which usually takes the lead on spying operations within the U.K. MI5 conducts its own extensive domestic surveillance as part of a program called DIGINT (digital intelligence).
  • GCHQ’s documents suggest that it typically retains metadata for periods of between 30 days to six months. It stores the content of communications for a shorter period of time, varying between three to 30 days. The retention periods can be extended if deemed necessary for “cyber defense.” One secret policy paper dated from January 2010 lists the wide range of information the agency classes as metadata — including location data that could be used to track your movements, your email, instant messenger, and social networking “buddy lists,” logs showing who you have communicated with by phone or email, the passwords you use to access “communications services” (such as an email account), and information about websites you have viewed.
  • Records showing the full website addresses you have visited — for instance, www.gchq.gov.uk/what_we_do — are treated as content. But the first part of an address you have visited — for instance, www.gchq.gov.uk — is treated as metadata. In isolation, a single metadata record of a phone call, email, or website visit may not reveal much about a person’s private life, according to Ethan Zuckerman, director of Massachusetts Institute of Technology’s Center for Civic Media. But if accumulated and analyzed over a period of weeks or months, these details would be “extremely personal,” he told The Intercept, because they could reveal a person’s movements, habits, religious beliefs, political views, relationships, and even sexual preferences. For Zuckerman, who has studied the social and political ramifications of surveillance, the most concerning aspect of large-scale government data collection is that it can be “corrosive towards democracy” — leading to a chilling effect on freedom of expression and communication. “Once we know there’s a reasonable chance that we are being watched in one fashion or another it’s hard for that not to have a ‘panopticon effect,’” he said, “where we think and behave differently based on the assumption that people may be watching and paying attention to what we are doing.”
  • When compared to surveillance rules in place in the U.S., GCHQ notes in one document that the U.K. has “a light oversight regime.” The more lax British spying regulations are reflected in secret internal rules that highlight greater restrictions on how NSA databases can be accessed. The NSA’s troves can be searched for data on British citizens, one document states, but they cannot be mined for information about Americans or other citizens from countries in the Five Eyes alliance. No such constraints are placed on GCHQ’s own databases, which can be sifted for records on the phone calls, emails, and Internet usage of Brits, Americans, and citizens from any other country. The scope of GCHQ’s surveillance powers explain in part why Snowden told The Guardian in June 2013 that U.K. surveillance is “worse than the U.S.” In an interview with Der Spiegel in July 2013, Snowden added that British Internet cables were “radioactive” and joked: “Even the Queen’s selfies to the pool boy get logged.”
  • In recent years, the biggest barrier to GCHQ’s mass collection of data does not appear to have come in the form of legal or policy restrictions. Rather, it is the increased use of encryption technology that protects the privacy of communications that has posed the biggest potential hindrance to the agency’s activities. “The spread of encryption … threatens our ability to do effective target discovery/development,” says a top-secret report co-authored by an official from the British agency and an NSA employee in 2011. “Pertinent metadata events will be locked within the encrypted channels and difficult, if not impossible, to prise out,” the report says, adding that the agencies were working on a plan that would “(hopefully) allow our Internet Exploitation strategy to prevail.”
Paul Merrell

Blink! Google Is Forking WebKit - Slashdot - 0 views

  • "In a blog post titled Blink: A rendering engine for the Chromium project, Google has announced that Chromium (the open source backend for Chrome) will be switching to Blink, a new WebKit-based web rendering engine. Quoting: 'Chromium uses a different multi-process architecture than other WebKit-based browsers, and supporting multiple architectures over the years has led to increasing complexity for both the WebKit and Chromium projects. This has slowed down the collective pace of innovation... This was not an easy decision. We know that the introduction of a new rendering engine can have significant implications for the web. Nevertheless, we believe that having multiple rendering engines—similar to having multiple browsers—will spur innovation and over time improve the health of the entire open web ecosystem. ... In the short term, Blink will bring little change for web developers. The bulk of the initial work will focus on internal architectural improvements and a simplification of the codebase. For example, we anticipate that we’ll be able to remove 7 build systems and delete more than 7,000 files—comprising more than 4.5 million lines—right off the bat. Over the long term a healthier codebase leads to more stability and fewer bugs.'"
Alexandra IcecreamApps

Google Search Alternatives - Icecream Tech Digest - 1 views

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    When it comes to searching for something online, the first website we turn to is Google. This king of the search engines has become so major that plenty of people say "Google it" instead of "Look this up online." However, … Continue reading →
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    When it comes to searching for something online, the first website we turn to is Google. This king of the search engines has become so major that plenty of people say "Google it" instead of "Look this up online." However, … Continue reading →
Gary Edwards

Wolfram Alpha is Coming -- and It Could be as Important as Google | Twine - 0 views

  • The first question was could (or even should) Wolfram Alpha be built using the Semantic Web in some manner, rather than (or as well as) the Mathematica engine it is currently built on. Is anything missed by not building it with Semantic Web's languages (RDF, OWL, Sparql, etc.)? The answer is that there is no reason that one MUST use the Semantic Web stack to build something like Wolfram Alpha. In fact, in my opinion it would be far too difficult to try to explicitly represent everything Wolfram Alpha knows and can compute using OWL ontologies. It is too wide a range of human knowledge and giant OWL ontologies are just too difficult to build and curate.
  • However for the internal knowledge representation and reasoning that takes places in the system, it appears Wolfram has found a pragmatic and efficient representation of his own, and I don't think he needs the Semantic Web at that level. It seems to be doing just fine without it. Wolfram Alpha is built on hand-curated knowledge and expertise. Wolfram and his team have somehow figured out a way to make that practical where all others who have tried this have failed to achieve their goals. The task is gargantuan -- there is just so much diverse knowledge in the world. Representing even a small segment of it formally turns out to be extremely difficult and time-consuming.
  • It has generally not been considered feasible for any one group to hand-curate all knowledge about every subject. This is why the Semantic Web was invented -- by enabling everyone to curate their own knowledge about their own documents and topics in parallel, in principle at least, more knowledge could be represented and shared in less time by more people -- in an interoperable manner. At least that is the vision of the Semantic Web.
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  • Where Google is a system for FINDING things that we as a civilization collectively publish, Wolfram Alpha is for ANSWERING questions about what we as a civilization collectively know. It's the next step in the distribution of knowledge and intelligence around the world -- a new leap in the intelligence of our collective "Global Brain." And like any big next-step, Wolfram Alpha works in a new way -- it computes answers instead of just looking them up.
  •  
    A Computational Knowledge Engine for the Web In a nutshell, Wolfram and his team have built what he calls a "computational knowledge Engine" for the Web. OK, so what does that really mean? Basically it means that you can ask it factual questions and it computes answers for you. It doesn't simply return documents that (might) contain the answers, like Google does, and it isn't just a giant database of knowledge, like the Wikipedia. It doesn't simply parse natural language and then use that to retrieve documents, like Powerset, for example. Instead, Wolfram Alpha actually computes the answers to a wide range of questions -- like questions that have factual answers such as "What country is Timbuktu in?" or "How many protons are in a hydrogen atom?" or "What is the average rainfall in Seattle this month?," "What is the 300th digit of Pi?," "where is the ISS?" or "When was GOOG worth more than $300?" Think about that for a minute. It computes the answers. Wolfram Alpha doesn't simply contain huge amounts of manually entered pairs of questions and answers, nor does it search for answers in a database of facts. Instead, it understands and then computes answers to certain kinds of questions.
Paul Merrell

Hakia Retools Semantic Search Engine to Better Battle Google, Yahoo - 0 views

  • Semantic search engine startup Hakia has retooled its Web site, adding tabs for news, images and "credible" site searches as a way to differentiate between its search approach and what it calls the "10 blue links" approach search incumbents Google, Yahoo and Microsoft have used in the first era of search engines. Hakia employs semantic search technologies, leveraging natural language processing to derive broader meaning from search queries.
  • Hakia began hawking "credible" Web sites, vetted by librarians and informational professionals, in April for health and medical searches drawing from sites examined by the Medical Library Association. These sites have a peer review process or strict editorial controls to ensure the accuracy of the information and zero commercial bias. The idea is to clearly define sites users can trust in an age when do-it-yourself chronicling via Wikipedia and other sites that enable crowdsourcing activities has led to some questionable results.
Gonzalo San Gil, PhD.

GM45 chipsets: remove the ME (manageability engine) - 0 views

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    "This sections relates to disabling and removing the ME (Intel Management Engine) on GM45. This was originally done on the ThinkPad X200, and later adapted for the ThinkPad R400/T400/T500. It can in principle be done on any GM45 or GS45 system. The ME is a blob that typically must be left inside the flash chip (in the ME region, as outlined by the default descriptor). On GM45, it is possible to remove it without any ill effects. All other parts of coreboot on GM45 systems (provided GMA MHD4500 / Intel graphics) can be blob-free, so removing the ME was the last obstacle to make GM45 a feasible target in libreboot (the systems can also work without the microcode blobs). "
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    "This sections relates to disabling and removing the ME (Intel Management Engine) on GM45. This was originally done on the ThinkPad X200, and later adapted for the ThinkPad R400/T400/T500. It can in principle be done on any GM45 or GS45 system. The ME is a blob that typically must be left inside the flash chip (in the ME region, as outlined by the default descriptor). On GM45, it is possible to remove it without any ill effects. All other parts of coreboot on GM45 systems (provided GMA MHD4500 / Intel graphics) can be blob-free, so removing the ME was the last obstacle to make GM45 a feasible target in libreboot (the systems can also work without the microcode blobs). "
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