Malicious Life
Malicious Life
Oct 22, 2020
Election Hacking, Part 1
37 min

In this episode we’re talking about just one state. One which, depending on which way it leans, might bring the entire electoral college with it. One which, as of this writing, is absolutely, positively, neck and neck. Dead heat. A few votes one way or the other could swing it. In other words: this is the kind of state that cannot afford to be hacked. But might be.

The post Election Hacking, Part 1 appeared first on Malicious Life.

EFF's How to Fix the Internet
EFF's How to Fix the Internet
Electronic Frontier Foundation
Control Over Users, Competitors, and Critics | 004
Cory Doctorow joins EFF hosts Cindy Cohn and Danny O’Brien as they discuss how large, established tech companies like Apple, Google, and Facebook can block interoperability in order to squelch competition and control their users, and how we can fix this by taking away big companies' legal right to block new tools that connect to their platforms – tools that would let users control their digital lives. In this episode you’ll learn about: * How the power to leave a platform is one of the most fundamental checks users have on abusive practices by tech companies—and how tech companies have made it harder for their users to leave their services while still participating in our increasingly digital society; * How the lack of interoperability in modern tech platforms is often a set of technical choices that are backed by a legal infrastructure for enforcement, including the Digital Millennium Copyright Act (DMCA) and the Computer Fraud and Abuse Act (CFAA). This means that attempting to overcome interoperability barriers can come with legal risks as well as financial risks, making it especially unlikely for new entrants to attempt interoperating with existing technology; * How online platforms block interoperability in order to silence their critics, which can have real free speech implications; * The “kill zone” that exists around existing tech products, where investors will not back tech startups challenging existing tech monopolies, and even startups that can get a foothold may find themselves bought out by companies like Facebook and Google; * How we can fix it: The role of “competitive compatibility,” also known as “adversarial interoperability” in reviving stagnant tech marketplaces; * How we can fix it by amending or interpreting the DMCA, CFAA and contract law to support interoperability rather than threaten it. * How we can fix it by supporting the role of free and open source communities as champions of interoperability and offering alternatives to existing technical giants. Cory Doctorow (craphound.com) is a science fiction author, activist and journalist. He is the author of many books, most recently ATTACK SURFACE, RADICALIZED and WALKAWAY, science fiction for adults, IN REAL LIFE, a graphic novel; INFORMATION DOESN’T WANT TO BE FREE, a book about earning a living in the Internet age, and HOMELAND, a YA sequel to LITTLE BROTHER. His latest book is POESY THE MONSTER SLAYER, a picture book for young readers. Cory maintains a daily blog at Pluralistic.net. He works for the Electronic Frontier Foundation, is a MIT Media Lab Research Affiliate, is a Visiting Professor of Computer Science at Open University, a Visiting Professor of Practice at the University of North Carolina’s School of Library and Information Science and co-founded the UK Open Rights Group. Born in Toronto, Canada, he now lives in Los Angeles. You can find Cory on Twitter at @doctorow. Please subscribe to How to Fix the Internet via RSS, Stitcher, TuneIn, Apple Podcasts, Google Podcasts, Spotify or your podcast player of choice. You can also find the Mp3 of this episode on the Internet Archive. If you have any feedback on this episode, please email podcast@eff.org. A transcript of the episode, as well as legal resources – including links to important cases, books, and briefs discussed in the podcast – is available at https://www.eff.org/deeplinks/2020/11/podcast-episode-control-over-users-competitors-and-critics. Audio editing for this episode by Stuga Studios: https://www.stugastudios.com. Music by Nat Keefe: https://natkeefe.com/
52 min
The History of Computing
The History of Computing
Charles Edge
The Evolution and Spread of Science and Philosophy from the Classical Age to the Age of Science
The Roman Empire grew. Philosophy and the practical applications derived from great thinkers were no longer just to impress peers or mystify the commoners into passivity but to help humans do more. The focus on practical applications was clear. This isn’t to say there weren’t great Romans. We got Seneca, Pliny the Elder, Plutarch, Tacitus, Lucretius, Plotinus, Marcus Aurelius, one of my favorite Hypatia, and as Christianity spread we got the Cristian Philosophers in Rome such as Saint Augustine. The Romans reached into new lands and those lands reached back, with attacks coming by the Goths, Germanic tribes, Vandals, and finally resulting in the sack of Rome. They had been weakened by an overreliance on slaves, overspending on military to fuel the constant expansion, government corruption due to a lack of control given the sheer size of the empire, and the need to outsource the military due to the fact that Roman citizens needed to run the empire. Rome would split in 285 and by the fourth century fell. Again, as empires fall new ones emerge. As the Classical Period ended in each area with the decline of the Roman Empire, we were plunged into the Middle Ages, which I was taught was the Dark Ages in school. But they weren’t dark. Byzantine, the Eastern Roman Empire survived. The Franks founded Francia in northern Gaul. The Celtic Britons emerged. The Visigoths setup shop in Northern Spain. The Lombards in Northern Italy. The Slavs spread through Central and Eastern Europe and the Latin language splintered into the Romance languages. And that spread involved Christianity, whose doctrine often classed with the ancient philosophies. And great thinkers weren’t valued. Or so it seemed when I was taught about the Dark Ages. But words matter. The Prophet Muhammad was born in this period and Islamic doctrine spread rapidly throughout the Middle East. He united the tribes of Medina and established a Constitution in the sixth century. After years of war with Mecca, he later seized the land. He then went on to conquer the Arabian Peninsula, up into the lands of the Byzantines and Persians. With the tribes of Arabia united, Muslims would conquer the last remains of Byzantine Egypt, Syria, Mesopotamia and take large areas of Persia. This rapid expansion, as it had with the Greeks and Romans, led to new trade routes, and new ideas finding their way to the emerging Islamic empire. In the beginning they destroyed pagan idols but over time adapted Greek and Roman technology and thinking into their culture. They Brough maps, medicine, calculations, and agricultural implants. They learned paper making from the Chinese and built paper mills allowing for an explosion in books. Muslim scholars in Baghdad, often referred to as New Babylon given that it’s only 60 miles away. They began translating some of the most important works from Greek and Latin and Islamic teachings encouraged the pursuit of knowledge at the time. Many a great work from the Greeks and Romans is preserved because of those translations. And as with each empire before them, the Islamic philosophers and engineers built on the learning of the past. They used astrolabes in navigation, chemistry in ceramics and dyes, researched acids and alkalis. They brought knowledge from Pythagoras and Babylonians and studied lines and spaces and geometry and trigonometry, integrating them into art and architecture. Because Islamic law forbade dissections, they used the Greek texts to study medicine. The technology and ideas of their predecessors helped them retain control throughout the Islamic Golden Age. The various Islamic empires spread East into China, down the African coast, into Russia, into parts of Greece, and even North into Spain where they ruled for 800 years. Some grew to control over 10 million square miles. They built fantastic clockworks, documented by al-Jazari in the waning days of the golden age. And the writings included references to influences in Greece and Rome, including the Book of Optics by Ibn Al-Haytham in the ninth century, which is heavily influenced by Ptolemy’s book, Optics. But over time, empires weaken. Throughout the Middle Ages, monarchs began to be deposed by rising merchant classes, or oligarchs. What the framers of the US Constitution sought to block with the way the government is structured. You can see this in the way the House of Lords had such power in England even after the move to a constitutional monarchy. And after the fall of the Soviet Union, Russia has moved more and more towards a rule by oligarchs first under Yeltsin and then under Putin. Because you see, we continue to re-learn the lessons learned by the Greeks. But differently. Kinda’ like bell bottoms are different than all the other times they were cool each time they come back. The names of European empires began to resemble what we know today: Wales, England, Scotland, Italy, Croatia, Serbia, Sweden, Denmark, Portugal, Germany, and France were becoming dominant forces again. The Catholic Church was again on the rise as Rome practiced a new form of conquering the world. Two main religions were coming more and more in conflict for souls: Christianity and Islam. And so began the Crusades of the High Middle Ages. Crusaders brought home trophies. Many were books and scientific instruments. And then came the Great Famine followed quickly by the Black Death, which spread along with trade and science and knowledge along the Silk Road. Climate change and disease might sound familiar today. France and England went to war for a hundred years. Disruption in the global order again allows for new empires. Ghengis Khan built a horde of Mongols that over the next few generations spread through China, Korea, India, Georgia and the Caucasus, Russia, Central Asia and Persia, Hungary, Lithuania, Bulgaria, Vietnam, Baghdad, Syria, Poland, and even Thrace throughout the 11th to 13th centuries. Many great works were lost in the wars, although the Mongols often allowed their subjects to continue life as before, with a hefty tax of course. They would grow to control 24 million square kilometers before the empires became unmanageable. This disruption caused various peoples to move and one was a Turkic tribe fleeing Central Asia that under Osman I in the 13th century. The Ottomon empire he founded would go Islamic and grow to include much of the former Islamic regime as they expanded out of Turkey, including Greece Northern Africa. Over time they would also invade and rule Greece and almost all the way north to Kiev, and south through the lands of the former Mesopotamian empires. While they didn’t conquer the Arabian peninsula, ruled by other Islamic empires, they did conquer all the way to Basra in the South and took Damascus, Medina, and Mecca, and Jerusalem. Still, given the density of population in some cities they couldn’t grow past the same amount of space controlled in the days of Alexander. But again, knowledge was transferred to and from Egypt, Greece, and the former Mesopotamian lands. And with each turnover to a new empire more of the great works were taken from these cradles of civilization but kept alive to evolve further. And one way science and math and philosophy and the understanding of the universe evolved was to influence the coming Renaissance, which began in the late 13th century and spread along with Greek scholars fleeing the Ottoman Turks after the fall of Constantinople throughout the Italian city-states and into England, France, Germany, Poland, Russia, and Spain. Hellenism was on the move again. The works of Aristotle, Ptolemy, Plato, and others heavily influenced the next wave of mathematicians, astronomers, philosophers, and scientists. Copernicus studied Aristotle. Leonardo Da Vinci gave us the Mona Lisa, the Last Supper, the Vitruvian Man, Salvator Mundi, and Virgin of the Rocks. His works are amongst the most recognizable paintings of the Renaissance. But he was also a great inven…
20 min
Talk Python To Me [Full History]
Talk Python To Me [Full History]
Michael Kennedy (@mkennedy)
#292 Pythonic identity (auth in Python ecosystem)
So you're excited about that next app you're about to build. You can visualize the APIs with the smooth scalability taking to the mobile apps. You can see how, finally, this time, you'll get deployment right and it'll be pure continuous delivery out of GitHub with zero downtime. What you're probably not dreaming about is writing yet another password reset form and integrating mail capabilities just for this purpose. Or how you'll securely store user accounts the right way this time. Don't worry, we got you covered. Our guests, Christos Matskas and John Patrick Dandison are here to cover a bunch of different libraries and techniques we can use for adding identity to our Python applications. Links from the show *Christos on Twitter*: @christosmatskas *John Patrick Dandison on Twitter*: @azureandchill *shhgit live*: shhgit.com *Twitch channel for Christos and JP*: twitch.tv/425show *Passlib & Folding*: passlib.readthedocs.io *Microsoft Authentication Library*: github.com/AzureAD *authlib - JavaScript Object Signing and Encryption draft implementation*: github.com *django-allauth - Authentication app for Django that "just works"*: github.com *django-oauth-toolkit - OAuth 2 goodies for Django*: github.com *python-oauth2 - A fully tested, abstract interface to creating OAuth clients and servers*: github.com *python-social-auth - An easy-to-setup social authentication mechanism*: github.com Sponsors Talk Python Training Linode
1 hr 5 min
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