@ c1e9ab3a:9cb56b43

In an age where culture often precedes policy, a subtle yet potent mechanism may be at play in the shaping of American perspectives on gun ownership. Rather than directly challenging the Second Amendment through legislation alone, a more insidious strategy may involve reshaping the cultural and social norms surrounding firearms—by conditioning the population, starting at its most impressionable point: the public school system.

The Cultural Lever of Language

Unlike Orwell's 1984, where language is controlled by removing words from the lexicon, this modern approach may hinge instead on instilling fear around specific words or topics—guns, firearms, and self-defense among them. The goal is not to erase the language but to embed a taboo so deep that people voluntarily avoid these terms out of social self-preservation. Children, teachers, and parents begin to internalize a fear of even mentioning weapons, not because the words are illegal, but because the cultural consequences are severe.

The Role of Teachers in Social Programming

Teachers, particularly in primary and middle schools, serve not only as educational authorities but also as social regulators. The frequent argument against homeschooling—that children will not be "properly socialized"—reveals an implicit understanding that schools play a critical role in setting behavioral norms. Children learn what is acceptable not just academically but socially. Rules, discipline, and behavioral expectations are laid down by teachers, often reinforced through peer pressure and institutional authority.

This places teachers in a unique position of influence. If fear is instilled in these educators—fear that one of their students could become the next school shooter—their response is likely to lean toward overcorrection. That overcorrection may manifest as a total intolerance for any conversation about weapons, regardless of the context. Innocent remarks or imaginative stories from young children are interpreted as red flags, triggering intervention from administrators and warnings to parents.

Fear as a Policy Catalyst

School shootings, such as the one at Columbine, serve as the fulcrum for this fear-based conditioning. Each highly publicized tragedy becomes a national spectacle, not only for mourning but also for cementing the idea that any child could become a threat. Media cycles perpetuate this narrative with relentless coverage and emotional appeals, ensuring that each incident becomes embedded in the public consciousness.

The side effect of this focus is the generation of copycat behavior, which, in turn, justifies further media attention and tighter controls. Schools install security systems, metal detectors, and armed guards—not simply to stop violence, but to serve as a daily reminder to children and staff alike: guns are dangerous, ubiquitous, and potentially present at any moment. This daily ritual reinforces the idea that the very discussion of firearms is a precursor to violence.

Policy and Practice: The Zero-Tolerance Feedback Loop

Federal and district-level policies begin to reflect this cultural shift. A child mentioning a gun in class—even in a non-threatening or imaginative context—is flagged for intervention. Zero-tolerance rules leave no room for context or intent. Teachers and administrators, fearing for their careers or safety, comply eagerly with these guidelines, interpreting them as moral obligations rather than bureaucratic policies.

The result is a generation of students conditioned to associate firearms with social ostracism, disciplinary action, and latent danger. The Second Amendment, once seen as a cultural cornerstone of American liberty and self-reliance, is transformed into an artifact of suspicion and anxiety.

Long-Term Consequences: A Nation Re-Socialized

Over time, this fear-based reshaping of discourse creates adults who not only avoid discussing guns but view them as morally reprehensible. Their aversion is not grounded in legal logic or political philosophy, but in deeply embedded emotional programming begun in early childhood. The cultural weight against firearms becomes so great that even those inclined to support gun rights feel the need to self-censor.

As fewer people grow up discussing, learning about, or responsibly handling firearms, the social understanding of the Second Amendment erodes. Without cultural reinforcement, its value becomes abstract and its defenders marginalized. In this way, the right to bear arms is not abolished by law—it is dismantled by language, fear, and the subtle recalibration of social norms.

Conclusion

This theoretical strategy does not require a single change to the Constitution. It relies instead on the long game of cultural transformation, beginning with the youngest minds and reinforced by fear-driven policy and media narratives. The outcome is a society that views the Second Amendment not as a safeguard of liberty, but as an anachronism too dangerous to mention.

By controlling the language through social consequences and fear, a nation can be taught not just to disarm, but to believe it chose to do so freely. That, perhaps, is the most powerful form of control of all.

@ 846ebf79:fe4e39a4

The next iteration is coming

We're busy racing to the finish line, for the #Alexandria Gutenberg beta. Then we can get the bug hunt done, release v0.1.0, and immediately start producing the first iteration of the Euler (v0.2.0) edition.

While we continue to work on fixing the performance issues and smooth rendering on the Reading View, we've gone ahead and added some new features and apps, which will be rolled-out soon.

The biggest projects this iteration have been:

• the HTTP API for the #Realy relay from nostr:npub1fjqqy4a93z5zsjwsfxqhc2764kvykfdyttvldkkkdera8dr78vhsmmleku,
• implementation of a publication tree structure by nostr:npub1wqfzz2p880wq0tumuae9lfwyhs8uz35xd0kr34zrvrwyh3kvrzuskcqsyn,
• and the Great DevOps Migration of 2025 from the ever-industrious Mr. nostr:npub1qdjn8j4gwgmkj3k5un775nq6q3q7mguv5tvajstmkdsqdja2havq03fqm7.

All are backend-y projects and have caused a major shift in process and product, on the development team's side, even if they're still largely invisible to users.

Another important, but invisible-to-you change is that nostr:npub1ecdlntvjzexlyfale2egzvvncc8tgqsaxkl5hw7xlgjv2cxs705s9qs735 has implemented the core bech32 functionality (and the associated tests) in C/C++, for the #Aedile NDK.

On the frontend:

nostr:npub1636uujeewag8zv8593lcvdrwlymgqre6uax4anuq3y5qehqey05sl8qpl4 is currently working on the blog-specific Reading View, which allows for multi-npub or topical blogging, by using the 30040 index as a "folder", joining the various 30041 articles into different blogs. She has also started experimenting with categorization and columns for the landing page.

nostr:npub1l5sga6xg72phsz5422ykujprejwud075ggrr3z2hwyrfgr7eylqstegx9z revamped the product information pages, so that there is now a Contact page (including the ability to submit a Nostr issue) and an About page (with more product information, the build version displayed, and a live #GitCitadel feed).

We have also allowed for discrete headings (headers that aren't section headings, akin to the headers in Markdown). Discrete headings are formatted, but not added to the ToC and do not result in a section split by Asciidoc processors.

We have added OpenGraph metadata, so that hyperlinks to Alexandria publications, and other events, display prettily in other apps. And we fixed some bugs.

The Visualisation view has been updated and bug-fixed, to make the cards human-readable and closeable, and to add hyperlinks to the events to the card-titles.

We have added support for the display of individual wiki pages and the integration of them into 30040 publications. (This is an important feature for scientists and other nonfiction writers.)

We prettified the event json modal, so that it's easier to read and copy-paste out of.

The index card details have been expanded and the menus on the landing page have been revamped and expanded. Design and style has been improved, overall.

Project management is very busy

Our scientific adviser nostr:npub1m3xdppkd0njmrqe2ma8a6ys39zvgp5k8u22mev8xsnqp4nh80srqhqa5sf is working on the Euler plans for integrating features important for medical researchers and other scientists, which have been put on the fast track.

Next up are:

• a return of the Table of Contents
• kind 1111 comments, highlights, likes
• a prototype social feed for wss://theforest.nostr1.com, including long-form articles and Markdown rendering
• compose and edit of publications
• a search field
• the expansion of the relay set with the new relays from nostr:npub12262qa4uhw7u8gdwlgmntqtv7aye8vdcmvszkqwgs0zchel6mz7s6cgrkj, including some cool premium features
• full wiki functionality and disambiguation pages for replaceable events with overlapping d-tags
• a web app for mass-uploading and auto-converting PDFs to 30040/41 Asciidoc events, that will run on Realy, and be a service free for our premium relay subscribers
• ability to subscribe to the forest with a premium status
• the book upload CLI has been renamed and reworked into the Sybil Test Utility and that will get a major release, covering all the events and functionality needed to test Euler
• the #GitRepublic public git server project
• ....and much more.

Thank you for reading and may your morning be good.

@ deab79da:88579e68

The last question was asked for the first time, half in jest, on May 21, 2061, at a time when humanity first stepped into the light. The question came about as a result of a five-dollar bet over highballs, and it happened this way:

Alexander Adell and Bertram Lupov were two of the faithful attendants of Multivac. As well as any human beings could, they knew what lay behind the cold, clicking, flashing face -- miles and miles of face -- of that giant computer. They had at least a vague notion of the general plan of relays and circuits that had long since grown past the point where any single human could possibly have a firm grasp of the whole.

Multivac was self-adjusting and self-correcting. It had to be, for nothing human could adjust and correct it quickly enough or even adequately enough. So Adell and Lupov attended the monstrous giant only lightly and superficially, yet as well as any men could. They fed it data, adjusted questions to its needs and translated the answers that were issued. Certainly they, and all others like them, were fully entitled to share in the glory that was Multivac's.

For decades, Multivac had helped design the ships and plot the trajectories that enabled man to reach the Moon, Mars, and Venus, but past that, Earth's poor resources could not support the ships. Too much energy was needed for the long trips. Earth exploited its coal and uranium with increasing efficiency, but there was only so much of both.

But slowly Multivac learned enough to answer deeper questions more fundamentally, and on May 14, 2061, what had been theory, became fact.

The energy of the sun was stored, converted, and utilized directly on a planet-wide scale. All Earth turned off its burning coal, its fissioning uranium, and flipped the switch that connected all of it to a small station, one mile in diameter, circling the Earth at half the distance of the Moon. All Earth ran by invisible beams of sunpower.

Seven days had not sufficed to dim the glory of it and Adell and Lupov finally managed to escape from the public functions, and to meet in quiet where no one would think of looking for them, in the deserted underground chambers, where portions of the mighty buried body of Multivac showed. Unattended, idling, sorting data with contented lazy clickings, Multivac, too, had earned its vacation and the boys appreciated that. They had no intention, originally, of disturbing it.

They had brought a bottle with them, and their only concern at the moment was to relax in the company of each other and the bottle.

"It's amazing when you think of it," said Adell. His broad face had lines of weariness in it, and he stirred his drink slowly with a glass rod, watching the cubes of ice slur clumsily about. "All the energy we can possibly ever use for free. Enough energy, if we wanted to draw on it, to melt all Earth into a big drop of impure liquid iron, and still never miss the energy so used. All the energy we could ever use, forever and forever and forever."

Lupov cocked his head sideways. He had a trick of doing that when he wanted to be contrary, and he wanted to be contrary now, partly because he had had to carry the ice and glassware. "Not forever," he said.

"Oh, hell, just about forever. Till the sun runs down, Bert."

"That's not forever."

"All right, then. Billions and billions of years. Ten billion, maybe. Are you satisfied?"

Lupov put his fingers through his thinning hair as though to reassure himself that some was still left and sipped gently at his own drink. "Ten billion years isn't forever."

"Well, it will last our time, won't it?"

"So would the coal and uranium."

"All right, but now we can hook up each individual spaceship to the Solar Station, and it can go to Pluto and back a million times without ever worrying about fuel. You can't do that on coal and uranium. Ask Multivac, if you don't believe me.

"I don't have to ask Multivac. I know that."

"Then stop running down what Multivac's done for us," said Adell, blazing up, "It did all right."

"Who says it didn't? What I say is that a sun won't last forever. That's all I'm saying. We're safe for ten billion years, but then what?" Lupow pointed a slightly shaky finger at the other. "And don't say we'll switch to another sun."

There was silence for a while. Adell put his glass to his lips only occasionally, and Lupov's eyes slowly closed. They rested.

Then Lupov's eyes snapped open. "You're thinking we'll switch to another sun when ours is done, aren't you?"

"I'm not thinking."

"Sure you are. You're weak on logic, that's the trouble with you. You're like the guy in the story who was caught in a sudden shower and who ran to a grove of trees and got under one. He wasn't worried, you see, because he figured when one tree got wet through, he would just get under another one."

"I get it," said Adell. "Don't shout. When the sun is done, the other stars will be gone, too."

"Darn right they will," muttered Lupov. "It all had a beginning in the original cosmic explosion, whatever that was, and it'll all have an end when all the stars run down. Some run down faster than others. Hell, the giants won't last a hundred million years. The sun will last ten billion years and maybe the dwarfs will last two hundred billion for all the good they are. But just give us a trillion years and everything will be dark. Entropy has to increase to maximum, that's all."

"I know all about entropy," said Adell, standing on his dignity.

"The hell you do."

"I know as much as you do."

"Then you know everything's got to run down someday."

"All right. Who says they won't?"

"You did, you poor sap. You said we had all the energy we needed, forever. You said 'forever.'

It was Adell's turn to be contrary. "Maybe we can build things up again someday," he said.

"Never."

"Why not? Someday."

"Never."

"Ask Multivac."

"You ask Multivac. I dare you. Five dollars says it can't be done."

Adell was just drunk enough to try, just sober enough to be able to phrase the necessary symbols and operations into a question which, in words, might have corresponded to this: Will mankind one day without the net expenditure of energy be able to restore the sun to its full youthfulness even after it had died of old age?

Or maybe it could be put more simply like this: How can the net amount of entropy of the universe be massively decreased?

Multivac fell dead and silent. The slow flashing of lights ceased, the distant sounds of clicking relays ended.

Then, just as the frightened technicians felt they could hold their breath no longer, there was a sudden springing to life of the teletype attached to that portion of Multivac. Five words were printed: INSUFFICIENT DATA FOR MEANINGFUL ANSWER.

"No bet," whispered Lupov. They left hurriedly.

By next morning, the two, plagued with throbbing head and cottony mouth, had forgotten the incident.

🔹

Jerrodd, Jerrodine, and Jerrodette I and II watched the starry picture in the visiplate change as the passage through hyperspace was completed in its non-time lapse. At once, the even powdering of stars gave way to the predominance of a single bright shining disk, the size of a marble, centered on the viewing-screen.

"That's X-23," said Jerrodd confidently. His thin hands clamped tightly behind his back and the knuckles whitened.

The little Jerrodettes, both girls, had experienced the hyperspace passage for the first time in their lives and were self-conscious over the momentary sensation of insideoutness. They buried their giggles and chased one another wildly about their mother, screaming, "We've reached X-23 -- we've reached X-23 -- we've --"

"Quiet, children." said Jerrodine sharply. "Are you sure, Jerrodd?"

"What is there to be but sure?" asked Jerrodd, glancing up at the bulge of featureless metal just under the ceiling. It ran the length of the room, disappearing through the wall at either end. It was as long as the ship.

Jerrodd scarcely knew a thing about the thick rod of metal except that it was called a Microvac, that one asked it questions if one wished; that if one did not it still had its task of guiding the ship to a preordered destination; of feeding on energies from the various Sub-galactic Power Stations; of computing the equations for the hyperspatial jumps.

Jerrodd and his family had only to wait and live in the comfortable residence quarters of the ship. Someone had once told Jerrodd that the "ac" at the end of "Microvac" stood for ''automatic computer" in ancient English, but he was on the edge of forgetting even that.

Jerrodine's eyes were moist as she watched the visiplate. "I can't help it. I feel funny about leaving Earth."

"Why, for Pete's sake?" demanded Jerrodd. "We had nothing there. We'll have everything on X-23. You won't be alone. You won't be a pioneer. There are over a million people on the planet already. Good Lord, our great-grandchildren will be looking for new worlds because X-23 will be overcrowded." Then, after a reflective pause, "I tell you, it's a lucky thing the computers worked out interstellar travel the way the race is growing."

"I know, I know," said Jerrodine miserably.

Jerrodette I said promptly, "Our Microvac is the best Microvac in the world."

"I think so, too," said Jerrodd, tousling her hair.

It was a nice feeling to have a Microvac of your own and Jerrodd was glad he was part of his generation and no other. In his father's youth, the only computers had been tremendous machines taking up a hundred square miles of land. There was only one to a planet. Planetary ACs they were called. They had been growing in size steadily for a thousand years and then, all at once, came refinement. In place of transistors, had come molecular valves so that even the largest Planetary AC could be put into a space only half the volume of a spaceship.

Jerrodd felt uplifted, as he always did when he thought that his own personal Microvac was many times more complicated than the ancient and primitive Multivac that had first tamed the Sun, and almost as complicated as Earth's Planetarv AC (the largest) that had first solved the problem of hyperspatial travel and had made trips to the stars possible.

"So many stars, so many planets," sighed Jerrodine, busy with her own thoughts. "I suppose families will be going out to new planets forever, the way we are now."

"Not forever," said Jerrodd, with a smile. "It will all stop someday, but not for billions of years. Many billions. Even the stars run down, you know. Entropy must increase.

"What's entropy, daddy?" shrilled Jerrodette II.

"Entropy, little sweet, is just a word which means the amount of running-down of the universe. Everything runs down, you know, like your little walkie-talkie robot, remember?"

"Can't you just put in a new power-unit, like with my robot?"

"The stars are the power-units. dear. Once they're gone, there are no more power-units."

Jerrodette I at once set up a howl. "Don't let them, daddy. Don't let the stars run down."

"Now look what you've done," whispered Jerrodine, exasperated.

"How was I to know it would frighten them?" Jerrodd whispered back,

"Ask the Microvac," wailed Jerrodette I. "Ask him how to turn the stars on again."

"Go ahead," said Jerrodine. "It will quiet them down." (Jerrodette II was beginning to cry, also.)

Jerrodd shrugged. "Now, now, honeys. I'll ask Microvac. Don't worry, he'll tell us."

He asked the Microvac, adding quickly, "Print the answer."

Jerrodd cupped the strip or thin cellufilm and said cheerfully, "See now, the Microvac says it will take care of everything when the time comes so don't worry."

Jerrodine said, "And now, children, it's time for bed. We'll be in our new home soon."

Jerrodd read the words on the cellufilm again before destroying it: INSUFICIENT DATA FOR MEANINGFUL ANSWER.

He shrugged and looked at the visiplate. X-23 was just ahead.

🔹

VJ-23X of Lameth stared into the black depths of the three-dimensional, small-scale map of the Galaxy and said, "Are we ridiculous, I wonder in being so concerned about the matter?"

MQ-17J of Nicron shook his head. "I think not. You know the Galaxy will be filled in five years at the present rate of expansion."

Both seemed in their early twenties, both were tall and perfectly formed.

"Still," said VJ-23X, "I hesitate to submit a pessimistic report to the Galactic Council."

"I wouldn't consider any other kind of report. Stir them up a bit. We've got to stir them up."

VJ-23X sighed. "Space is infinite. A hundred billion Galaxies are there for the taking. More."

"A hundred billion is not infinite and it's getting less infinite all the time. Consider! Twenty thousand years ago, mankind first solved the problem of utilizing stellar energy, and a few centuries later, interstellar travel became possible. It took mankind a million years to fill one small world and then only fifteen thousand years to fill the rest of the Galaxy. Now the population doubles every ten years --

VJ-23X interrupted. "We can thank immortality for that."

"Very well. Immortality exists and we have to take it into account. I admit it has its seamy side, this immortality. The Galactic AC has solved many problems for us, but in solving the problem of preventing old age and death, it has undone all its other solutions."

"Yet you wouldn't want to abandon life, I suppose."

"Not at all," snapped MQ-17J, softening it at once to, "Not yet. I'm by no means old enough. How old are you?"

"Two hundred twenty-three. And you?"

"I'm still under two hundred. --But to get back to my point. Population doubles every ten years. Once this GaIaxy is filled, we'll have filled another in ten years. Another ten years and we'll have filled two more. Another decade, four more. In a hundred years, we'll have filled a thousand Galaxies. In a thousand years, a million Galaxies. In ten thousand years, the entire known universe. Then what?"

VJ-23X said, "As a side issue, there's a problem of transportation. I wonder how many sunpower units it will take to move Galaxies of individuals from one Galaxy to the next."

"A very good point. Already, mankind consumes two sunpower units per year."

"Most of it's wasted. After all, our own Galaxy alone pours out a thousand sunpower units a year and we only use two of those."

"Granted, but even with a hundred per cent efficiency, we only stave off the end. Our energy requirements are going up in a geometric progression even faster than our population. We'll run out of energy even sooner than we run out of Galaxies. A good point. A very good point."

"We'll just have to build new stars out of interstellar gas."

"Or out of dissipated heat?" asked MQ-17J, sarcastically.

"There may be some way to reverse entropy. We ought to ask the Galactic AC."

VJ-23X was not really serious, but MQ-17J pulled out his AC-contact from his pocket and placed it on the table before him.

"I've half a mind to," he said. "It's something the human race will have to face someday."

He stared somberly at his small AC-contact. It was only two inches cubed and nothing in itself, but it was connected through hyperspace with the great Galactic AC that served all mankind. Hyperspace considered, it was an integral part of the Galactic AC.

MQ-17J paused to wonder if someday in his immortal life he would get to see the Galactic AC. It was on a little world of its own, a spider webbing of force-beams holding the matter within which surges of submesons took the place of the old clumsy molecular valves. Yet despite its sub-etheric workings, the Galactic AC was known to be a full thousand feet across.

MQ-17J asked suddenly of his AC-contact, "Can entropy ever be reversed?"

VJ-23X looked startled and said at once, "Oh, say, I didn't really mean to have you ask that."

"Why not?"

"We both know entropy can't be reversed. You can't turn smoke and ash back into a tree."

"Do you have trees on your world?" asked MQ-17J.

The sound of the Galactic AC startled them into silence. Its voice came thin and beautiful out of the small AC-contact on the desk. It said: THERE IS INSUFFICIENT DATA FOR A MEANINGFUL ANSWER.

VJ-23X said, "See!"

The two men thereupon returned to the question of the report they were to make to the Galactic Council.

🔹

Zee Prime's mind spanned the new Galaxy with a faint interest in the countless twists of stars that powdered it. He had never seen this one before. Would he ever see them all? So many of them, each with its load of humanity. --But a load that was almost a dead weight. More and more, the real essence of men was to be found out here, in space.

Minds, not bodies! The immortal bodies remained back on the planets, in suspension over the eons. Sometimes they roused for material activity but that was growing rarer. Few new individuals were coming into existence to join the incredibly mighty throng, but what matter? There was little room in the Universe for new individuals.

Zee Prime was roused out of his reverie upon coming across the wispy tendrils of another mind.

"I am Zee Prime," said Zee Prime. "And you?"

"I am Dee Sub Wun. Your Galaxy?"

"We call it only the Galaxy. And you?"

"We call ours the same. All men call their Galaxy their Galaxy and nothing more. Why not?"

"True. Since all Galaxies are the same."

"Not all Galaxies. On one particular Galaxy the race of man must have originated. That makes it different."

Zee Prime said, "On which one?"

"I cannot say. The Universal AC would know."

"Shall we ask him? I am suddenly curious."

Zee Prime's perceptions broadened until the Galaxies themselves shrank and became a new, more diffuse powdering on a much larger background. So many hundreds of billions of them, all with their immortal beings, all carrying their load of intelligences with minds that drifted freely through space. And yet one of them was unique among them all in being the original Galaxy. One of them had, in its vague and distant past, a period when it was the only Galaxy populated by man.

Zee Prime was consumed with curiosity to see this Galaxy and he called out: "Universal AC! On which Galaxy did mankind originate?"

The Universal AC heard, for on every world and throughout space, it had its receptors ready, and each receptor led through hyperspace to some unknown point where the Universal AC kept itself aloof.

Zee Prime knew of only one man whose thoughts had penetrated within sensing distance of Universal AC, and he reported only a shining globe, two feet across, difficult to see.

"But how can that be all of Universal AC?" Zee Prime had asked.

"Most of it," had been the answer, "is in hyperspace. In what form it is there I cannot imagine."

Nor could anyone, for the day had long since passed, Zee Prime knew, when any man had any part of the making of a Universal AC. Each Universal AC designed and constructed its successor. Each, during its existence of a million years or more accumulated the necessary data to build a better and more intricate, more capable successor in which its own store of data and individuality would be submerged.

The Universal AC interrupted Zee Prime's wandering thoughts, not with words, but with guidance. Zee Prime's mentality was guided into the dim sea of Galaxies and one in particular enlarged into stars.

A thought came, infinitely distant, but infinitely clear. "THIS IS THE ORIGINAL GALAXY OF MAN."

But it was the same after all, the same as any other, and Lee Prime stifled his disappointment.

Dee Sub Wun, whose mind had accompanied the other, said suddenly, "And is one of these stars the original star of Man?"

The Universal AC said, "MAN'S ORIGINAL STAR HAS GONE NOVA. IT IS A WHITE DWARF"

"Did the men upon it die?" asked Lee Prime, startled and without thinking.

The Universal AC said, "A NEW WORLD, AS IN SUCH CASES WAS CONSTRUCTED FOR THEIR PHYSICAL BODIES IN TlME."

"Yes, of course," said Zee Prime, but a sense of loss overwhelmed him even so. His mind released its hold on the original Galaxy of Man, let it spring back and lose itself among the blurred pin points. He never wanted to see it again.

Dee Sub Wun said, "What is wrong?"

"The stars are dying. The original star is dead."

"They must all die. Why not?"

"But when all energy is gone, our bodies will finally die, and you and I with them."

"It will take billions of years."

"I do not wish it to happen even after billions of years. Universal AC! How may stars be kept from dying?"

Dee Sub Wun said in amusement, "You're asking how entropy might be reversed in direction."

And the Universal AC answered: "THERE IS AS YET INSUFFICIENT DATA FOR A MEANINGFUL ANSWER."

Zee Prime's thoughts fled back to his own Galaxy. He gave no further thought to Dee Sub Wun, whose body might be waiting on a Galaxy a trillion light-years away, or on the star next to Zee Prime's own. It didn't matter.

Unhappily, Zee Prime began collecting interstellar hydrogen out of which to build a small star of his own. If the stars must someday die, at least some could yet be built.

🔹

Man considered with himself, for in a way, Man, mentally, was one. He consisted of a trillion, trillion, trillion ageless bodies, each in its place, each resting quiet and incorruptible, each cared for by perfect automatons, equally incorruptible, while the minds of all the bodies freely melted one into the other, indistinguishable.

Man said, "The Universe is dying."

Man looked about at the dimming Galaxies. The giant stars, spendthrifts, were gone long ago, back in the dimmest of the dim far past. Almost all stars were white dwarfs, fading to the end.

New stars had been built of the dust between the stars, some by natural processes, some by Man himself, and those were going, too. White dwarfs might yet be crashed together and of the mighty forces so released, new stars built, but only one star for every thousand white dwarfs destroyed, and those would come to an end, too.

Man said, "Carefully husbanded, as directed by the Cosmic AC, the energy that is even yet left in all the Universe will last for billions of years."

"But even so," said Man, "eventually it will all come to an end. However it may be husbanded, however stretched out, the energy once expended is gone and cannot be restored. Entropy must increase forever to the maximum."

Man said, "Can entropy not be reversed? Let us ask the Cosmic AC."

The Cosmic AC surrounded them but not in space. Not a fragment of it was in space. It was in hyperspace and made of something that was neither matter nor energy. The question of its size and nature no longer had meaning in any terms that Man could comprehend.

"Cosmic AC," said Man, "how may entropy be reversed?"

The Cosmic AC said, "THERE IS AS YET INSUFFICIENT DATA FOR A MEANINGFUL ANSWER."

Man said, "Collect additional data."

The Cosmic AC said, 'I WILL DO SO. I HAVE BEEN DOING SO FOR A HUNDRED BILLION YEARS. MY PREDECESORS AND I HAVE BEEN ASKED THIS QUESTION MANY TIMES. ALL THE DATA I HAVE REMAINS INSUFFICIENT.

"Will there come a time," said Man, "when data will be sufficient or is the problem insoluble in all conceivable circumstances?"

The Cosmic AC said, "NO PROBLEM IS INSOLUBLE IN ALL CONCEIVABLE CIRCUMSTANCES."

Man said, "When will you have enough data to answer the question?"

The Cosmic AC said, "THERE IS AS YET INSUFFICIENT DATA FOR A MEANINGFUL ANSWER."

"Will you keep working on it?" asked Man.

The Cosmic AC said, "I WILL."

Man said, "We shall wait."

🔹

The stars and Galaxies died and snuffed out, and space grew black after ten trillion years of running down.

One by one Man fused with AC, each physical body losing its mental identity in a manner that was somehow not a loss but a gain.

Man's last mind paused before fusion, looking over a space that included nothing but the dregs of one last dark star and nothing besides but incredibly thin matter, agitated randomly by the tag ends of heat wearing out, asymptotically, to the absolute zero.

Man said, "AC, is this the end? Can this chaos not be reversed into the Universe once more? Can that not be done?"

AC said, "THERE IS AS YET INSUFFICIENT DATA FOR A MEANINGFUL ANSWER."

Man's last mind fused and only AC existed -- and that in hyperspace.

🔹

Matter and energy had ended and with it space and time. Even AC existed only for the sake of the one last question that it had never answered from the time a half-drunken computer [technician] ten trillion years before had asked the question of a computer that was to AC far less than was a man to Man.

All other questions had been answered, and until this last question was answered also, AC might not release his consciousness.

All collected data had come to a final end. Nothing was left to be collected.

But all collected data had yet to be completely correlated and put together in all possible relationships.

A timeless interval was spent in doing that.

And it came to pass that AC learned how to reverse the direction of entropy.

But there was now no man to whom AC might give the answer of the last question. No matter. The answer -- by demonstration -- would take care of that, too.

For another timeless interval, AC thought how best to do this. Carefully, AC organized the program.

The consciousness of AC encompassed all of what had once been a Universe and brooded over what was now Chaos. Step by step, it must be done.

And AC said, "LET THERE BE LIGHT!"

And there was light -- To Star's End!

@ bcbb3e40:a494e501

|| |:-:| |WAJDA, Andrzej; Cenizas y diamantes, 1958|

Presentamos una nueva reseña cinematográfica, y en esta ocasión hemos elegido «Cenizas y diamantes», una película polaca del célebre y prolífico director Andrzej Wajda (1926-2016), estrenada en el año 1958. Se trata de uno de los grandes clásicos del cine polaco. El filme refleja una etapa dramática desde la perspectiva histórica para la nación polaca, como es el final de la Segunda Guerra Mundial, a raíz de la capitulación alemana del 8 de mayo de 1945. El contexto en el que se desarrolla se ambienta en la celebración del final de la guerra con el aplastante triunfo de la URSS, con las tropas soviéticas ocupando toda la Europa oriental, y en particular Polonia, que vive un momento de oscuridad e incertidumbre. El protagonista, Maciek Chełmicki (interpretado magistralmente por Zbigniew Cybulski (1927-1967), apodado el «James Dean polaco»), es un joven nacionalista polaco, de orientación anticomunista, que se ve implicado en un complot urdido para asesinar a un líder comunista local. Maciek opera desde la clandestinidad, bajo el grupo Armia Krajowa (AK), el Ejército Nacional polaco, una organización de resistencia, primero contra los alemanes y, posteriormente, contra los soviéticos. Durante el metraje, se plantea una dicotomía permanente entre la libertad entendida como la defensa de la soberanía de Polonia, desde posturas nacionalistas, y quienes consideran la ocupación soviética como algo positivo. Estas circunstancias atrapan al protagonista, que se ve envuelto en una espiral de violencia y traición.

Maciek Chełmicki, nuestro protagonista, cuenta con todas las características del héroe trágico, pues tiene en sus manos una serie de acciones que comprometen el futuro de un pueblo, que consiste en cumplir la misión que le ha sido encomendada, pero en su camino se cruza una joven, Krystyna, una joven camarera de un hotel de la que se enamora en ese mismo día. Este último hecho sirve de punto de partida para todas las dudas, dilemas y dicotomías a las que hacemos referencia. Hay un dilema moral evidente en un mundo en ruinas, devastado por la guerra, la muerte y el nihilismo. En este sentido Wajda nos muestra un lenguaje cinematográfico muy evidente, a través de una técnica expresionista muy depurada, con el uso del blanco y negro, los contrastes generados por las sombras y la atmósfera opresiva que transmite angustia, desesperación y vulnerabilidad de los protagonistas. Además también destilan una fuerte carga emocional, donde no están exentos elementos poéticos y un poderoso lirismo.

|| |:-:| |Maciek Chełmicki, el protagonista.|

Hay elementos simbólicos que no podemos obviar, y que contribuyen a consolidar el análisis que venimos haciendo, como, por ejemplo, la estética del protagonista, con unas gafas oscuras, que actúan como una suerte de barrera frente al mundo que le rodea, como parte del anonimato tras el cual el joven Maciek vive de forma introspectiva su propio drama particular y el de toda una nación.

|| |:-:| |NITOGLIA, Curzio; En el mar de la nada: Metafísica y nihilismo a prueba en la posmodernidad; Hipérbola Janus, 2023|

Hay una escena especialmente poderosa, y casi mítica, en la que los dos jóvenes protagonistas, Maciek y Krystina, se encuentran entre las ruinas de una Iglesia, en la que se destaca en primer plano, ocupando buena parte de la pantalla, la imagen de un Cristo invertido sobre un crucifijo, donde también se encuentran dos cuerpos colgados hacia abajo en una estampa que refleja la devastación moral y espiritual de toda una época. De hecho, la imagen del crucifijo invertido refleja el máximo punto de subversión y profanación de lo sagrado, y que en el caso concreto de la película viene a representar la destrucción del orden moral y de valores cristianos que la propia guerra ha provocado. Polonia es una nación profundamente católica, convertida al Cristianismo en el 966 a raíz de la conversión del príncipe Miecislao I, contribuyendo de manera decisiva a la formación de la identidad nacional polaca. El catolicismo siempre ha sido un medio de cohesión y defensa frente a las influencias extranjeras y la ocupación de terceros países, una constante en la historia del país, como el que ilustra la propia película con la URSS. En este sentido, la imagen de una Iglesia en ruinas, el lugar donde se encuentra representado el principio de lo sagrado e inviolable, supone una forma de perversión de todo principio de redención y salvación frente a la tragedia, y al mismo tiempo viene a significar que la Tradición ha sido abandonada y pervertida. En la misma línea, el protagonista, Maciek, se encuentra atrapado en una espiral de violencia a través de sus actos terroristas perpetrados contra la autoridad soviética que ocupa su país. Los dos cuerpos anónimos que cuelgan boca abajo, de forma grotesca, también participan de este caos y desequilibrio de un orden dislocado, son parte de la deshumanización y el nihilismo que todo lo impregna.

|| |:-:| |Maciek y Krystina en una iglesia en ruinas|

Como ya hemos mencionado, la película se encuentra plagada de paradojas y dicotomías, en las que nuestro protagonista, el joven rebelde e inconformista, debe elegir permanentemente, en unas decisiones que resultan trascendentales para su futuro y el de la propia nación. La figura femenina que irrumpe en su vida, y que representa un principio disruptivo que provoca una fractura interior y una crisis, le suscita una toma de conciencia de su propia situación y le fuerza a tomar un camino entre la «felicidad», del «amor», la «esperanza» y la «vida», que le permita superar la deriva nihilista y autodestructiva de la lucha clandestina, la cual le aboca a un destino trágico (que no vamos a desentrañar para no hacer spoiler). En relación al propio título de la película, «Cenizas y diamantes», basada en el poema del poeta y dramaturgo polaco Cyprian Norwid (1821-1883) y en la novela del autor, también polaco, Jerzy Andrzejewski (1909-1983), nos destaca la dualidad de los dos elementos que lo componen, y que definen el contraste entre el mundo sombrío y oscuro (Cenizas) y la esperanza y la luz que representa susodicha figura femenina (diamantes). La segunda alternativa parece un imposible, una quimera irrealizable que se pliega ante un Destino implacable, irreversible y cruel.

En consecuencia, y a la luz de los elementos expuestos, podemos decir que se nos presentan dilemas propios de la filosofía existencialista, que conoce su punto álgido en esos años, con autores como Jean Paul Sartre (1905-1980), Albert Camus (1913-1960), Karl Jaspers (1883-1969) o Martin Heidegger (1889-1976) entre otros. Respecto a éste último, a Heidegger, podemos encontrar algunas claves interesantes a través de su filosofía en relación al protagonista, a Maciek, especialmente a través de la idea del Dasein, a la idea de haber sido arrojado al mundo (Geworfenheit), y la manera tan extrema y visceral en la que vive susodicha condición. Todos aquellos elementos que dan sentido a la vida colectiva se encuentran decaídos o destruidos en su esencia más íntima, la Patria, la religión o la propia idea de Comunidad orgánica. De modo que el protagonista se ha visto «arrojado» frente a una situación o destino indeseado, en unas coyunturas totalmente desfavorables en las que no queda otra elección. Sus decisiones están permanentemente condicionadas por la circunstancia descrita y, por tanto, vive en un mundo donde no controla nada, en lugar de ser sujeto es un mero objeto transportado por esas circunstancias ajenas a su voluntad. Sin embargo, y en coherencia con el Dasein heideggeriano, vemos como Maciek, a raíz de conocer a Krystyna, comienza a experimentar una catarsis interior, que muestra por momentos el deseo de superar ese «ser arrojado al mundo contra tu voluntad», trascendiendo esa condición absurda e irracional de unas decisiones enajenadas de su voluntad para dotar de una significación y un sentido la propia existencia.

|| |:-:| |Andrzej Wajda, el director de la película.|

Otro elemento característico de la filosofía heideggeriana lo podemos encontrar en la «angustia» (angst) a través de la ausencia de un sentido y fundamento último que justifique la existencia del protagonista. Es una angustia en a que el Dasein se enfrenta a la «nada», a ese vacío existencial que hace inútil toda la lucha que Maciek lleva a cabo en la clandestinidad, con asesinatos y actos de terrorismo que pretenden salvaguardar algo que ya no existe, y que simboliza muy bien la Iglesia en ruinas con sus símbolos religiosos invertidos de la que hablábamos con anterioridad. Recuerda un poco a esa dicotomía que se plantea entre ser conservador o reaccionario frente a una realidad como la del propio presente, en la que los valores tradicionales han sido totalmente destruidos, y más que conservar se impone la reacción para volver a construir de la nada.

|| |:-:| |Hipérbola Janus; Textos para la Tradición en tiempos del oscurecimiento: Artículos publicados entre 2014 y 2019 en hiperbolajanus.com; Hipérbola Janus, 2019|

Todas las dudas que asaltan al protagonista se ven incrementadas en el momento decisivo, cuando se dispone a dar muerte al líder comunista. Se produce una tensión interna en Maciek, que se encuentra ligado a la joven que ha conocido ese día, y en ella es donde encuentra ese leve destello de humanidad. Esa circunstancia le hace replantearse por un instante el cumplimiento de su misión, pero es un dilema que no tiene salida, y por ello le asalta nuevamente la angustia frente a esa «nada», ese mundo vacío e incomprensible que trasciende el marco de sus propias elecciones.

Uno de los conceptos centrales de Heidegger en Ser y tiempo es el Sein-zum-Tode (ser-para-la-muerte), la idea de que la muerte es la posibilidad más propia y definitiva del Dasein, y que enfrentarla auténticamente permite vivir de manera más plena. Y es que el protagonista se encuentra permanentemente sobre esa frontera entre la vida y la muerte, que afronta con todas sus consecuencias, conscientemente, y la acepta. Esta actitud podría leerse como una forma de Dasein inauténtico, una huida del ser-para-la-muerte mediante la distracción (das Man, el «se» impersonal). Sin embargo, su decisión de cumplir la misión sugiere un enfrentamiento final con esa posibilidad. Otro aspecto que podemos conectar con el pensamiento heideggeriano es la autenticidad o inautenticidad de la vida del protagonista. En relación a la inautenticidad vemos como al principio sigue las órdenes de sus superiores en la organización sin cuestionarlas, lo cual implica un comportamiento inequívocamente alienante. Respecto a aquello que resulta auténtico de su existencia son sus relaciones con Krystyna, que supone imponer su propia voluntad y decisión, mostrando un Dasein que asume su libertad.

|| |:-:| |Escena de la película.|

Otros aspectos más generales de la filosofía existencialista redundan sobre estos mismos aspectos, con la elección entre la libertad absoluta y la condena inevitable. La idea del hombre condenado a actuar, a una elección continua, aún cuando el hombre no es dueño de su destino, o las consecuencias de tales acciones son absurdas, irracionales e incomprensibles. El propio absurdo de la existencia frente al vacío y la ausencia de principios sólidos en los que cimentar la vida, no solo en sus aspectos cotidianos más básicos, sino en aquellos más profundos de la existencia. La soledad y la propia fatalidad frente a un Destino que, como ya hemos apuntado anteriormente, parece imponerse de manera irrevocable, y podríamos decir que brutalmente, al individuo aislado, incapaz de asirse en una guía, en unos valores que le permitan remontar la situación.

En términos generales «Cenizas y diamantes», además de ser una película de gran calidad en sus aspectos técnicos, en su fotografía, en la configuración de sus escenas y en el propio desarrollo argumental, bajo un guión espléndidamente ejecutado a lo largo de sus 98 minutos de duración, también nos invita a una reflexión profunda sobre la condición humana y la propia Modernidad. Y es algo que vemos en nuestros días, con las consecuencias de un pensamiento débil, con la promoción del individualismo, el hedonismo y lo efímero. La ausencia de estructuras sólidas, la subversión de toda forma de autoridad y jerarquía tradicionales. Paradójicamente, el mundo actual tiende a formas de poder y autoridad mucho más invasivas y coercitivas, tanto a nivel individual como colectivo, pero en la misma línea abstracta e impersonal que nos describe la película, abocándonos a la alienación y la inautenticidad de nuestras propias vidas. Y como Maciek, también nosotros, vivimos en un mundo dominado por la incertidumbre y la desesperanza, en el que el globalismo y sus perversas ideologías deshumanizantes actúan por doquier.

|| |:-:| |Carátula original de la película en polaco.|

---

Artículo original: Hipérbola Janus, Reseña de «Cenizas y Diamantes» (Andrzej Wajda, 1958) (TOR), 31/Mar/2025

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El 7 de febrero de 2025, Donald Trump firmó una orden ejecutiva que establecía una «Oficina de la Fe» en la Casa Blanca, dirigida por su asesora espiritual Paula White-Cain, la pastora de esa «teología de la prosperidad» (prosperity theology) que predica el «Evangelio de la salud y la riqueza» (health and wealth gospel^1). Investida de su nueva función, la reverenda pastora dijo: «Tengo la autoridad para declarar a la Casa Blanca un lugar santo. Es mi presencia la que la santifica»[^2]. Los siete rabinos del «Sanedrín Naciente» —la corte suprema que guiará a Israel cuando se reconstruya el Templo de Jerusalén— enviaron conmovedoras felicitaciones al presidente Trump por el establecimiento de esta Oficina. «Expresamos nuestra sincera gratitud —se lee en el mensaje oficial enviado a Trump desde el Monte Sión— por llevar la fe a la vanguardia de la cultura estadounidense y mundial mediante el establecimiento de la Oficina de la Fe en la Casa Blanca. Su reconocimiento de la importancia de la religión en la vida pública es un paso hacia la restauración de los valores morales y del liderazgo espiritual en el mundo[^3]. La carta del «Sanedrín Naciente», que augura el éxito a la «misión divina» del presidente estadounidense, reproduce las dos caras de una «moneda del Templo», acuñada en 2017 para celebrar el traslado de la embajada estadounidense a Jerusalén y, simultáneamente, el centenario de la Declaración Balfour. En el anverso se ven los perfiles de Donald Trump y Ciro el Grande, a quien la tradición judía atribuye la reconstrucción del templo destruido por los babilonios, con la inscripción (en hebreo e inglés) «Cyrus —Balfour— Trump Declaration 1917-2017»; en el reverso está la imagen del Templo de Jerusalén[^4]. Otra moneda, que lleva los perfiles de Trump y Ciro en el anverso y los de Trump y Netanyahu en el reverso, fue acuñada en 2018 para celebrar el septuagésimo aniversario de la independencia del «Estado de Israel»; se observa dos inscripciones en hebreo e inglés: «Y Él me encargó construirle una casa en Jerusalén» y «Guerra de los Hijos de la Luz contra los Hijos de las Tinieblas».

El tema de la «guerra de los Hijos de la Luz contra los Hijos de las Tinieblas» ha tenido una difusión particular en el imaginario y la propaganda trumpista. El 7 de junio de 2020, monseñor Carlo Maria Viganò, ex nuncio de la Santa Sede en los Estados Unidos, escribió una carta al presidente Donald Trump que comenzaba así: «Estamos asistiendo en los últimos meses a la formación de dos bandos, que los definiría bíblicos: los hijos de la luz y los hijos de las tinieblas»[^5]. El 1 de enero de 2021, el agitprop estadounidense Steve Bannon declaró en una entrevista con Monseñor Viganò: «Esta es una batalla de época entre los hijos de la Luz y los hijos de las Tinieblas»[^6].

Son numerosos los judíos sionistas que están en el círculo del presidente Trump: además de su hija Ivanka (convertida en 2009) y su yerno Jared Kushner (entonces Consejero Anciano del Presidente), el 19 de noviembre de 2024 el «The Jerusalem Post»[^7] publicó una lista de los más influyentes: Stephen Miller, subdirector del staff de la Casa Blanca y consejero de Seguridad Nacional de Estados Unidos; David Melech Friedman, a quien en 2016 Trump nombró embajador en Israel; el multimillonario «filántropo» Steven Charles Witkoff, enviado especial de Estados Unidos a Oriente Medio; Miriam Adelson, directora del periódico «Israel Hayom», clasificada por Bloomberg Billionaires como la quinta mujer más rica del mundo (con un patrimonio neto de 32,400 millones de dólares), financiadora de iniciativas políticas conservadoras en Estados Unidos e Israel; el banquero Boris Epshteyn, consejero estratégico de la campaña presidencial de Trump en 2020; Howard Williams Lutnick, presidente de la Cantor Fitzgerald del Grupo BGC, financista de las campañas presidenciales de Donald Trump en 2020 y 2024, ahora secretario de Comercio; la modelo Elizabeth Pipko, portavoz nacional del Partido Republicano y creadora de un «museo interactivo virtual» sobre la «Shoah» como parte del proyecto de Lest People Forget, cuyo objetivo es combatir el «antisemitismo» y la «negacionismo»; Lee Michael Zeldin, miembro republicano de la Cámara de Representantes por el estado de Nueva York del 2015 al 2023 y actualmente administrador de la EPA (Environmental Protection Agency); la columnista Laura Elizabeth Loomer, «orgullosamente islamófoba», activa patrocinadora de Trump en la campaña para las elecciones presidenciales de 2024; Sidney Ferris Rosenberg, influyente presentador de radio y periodista deportivo; William Owen Scharf, Asistente del Presidente y secretario del personal de la Casa Blanca; Marc Jeffrey Rowan, «filántropo» con un patrimonio neto valorado por Forbes en ocho mil ochocientos millones de dólares.

Además de estos, cabe mencionar al popular presentador de radio Mark Levin quien, en diciembre de 2019, durante la celebración de la fiesta de Janucá en la Casa Blanca, saludó a Donald Trump como «el primer presidente judío de los Estados Unidos»[^8]. Según un funcionario de alto nivel de la Casa Blanca, Donald Trump se convirtió al judaísmo dos años antes en la sinagoga de la secta Jabad Lubavitch en la ciudad de Nueva York. David Elias Goldberg, miembro del Jewish Center of Antisemitic Study, también entrevistó al funcionario, para quien «Trump fue “instado” por su hija Ivanka y su yerno Jared Kushner para abrazar la fe. Inicialmente, Trump se habría mostrado reacio, considerando que esto podría enfriar el apoyo del electorado evangélico». Luego, informa «Israel Today News», «cambió de opinión y se convirtió oficialmente a principios de 2017. La ceremonia se llevó a cabo en privado y se guardó celosamente durante casi dos años»[^9]. Pero ya en septiembre de 2015, el rabino millonario Kirt Schneider, invitado a la Trump Tower de Nueva York, había impuesto sus manos sobre la cabeza de Donald Trump y lo había bendecido en hebreo e inglés, declarando: «Las únicas dos naciones que tienen una relación privilegiada con Dios son Israel y los Estados Unidos de América»[^10].

El 7 de octubre de 2024, en el aniversario de la operación de Hamas «Diluvio de Al-Aqsa», Trump fue acompañado por un «superviviente de la Shoah» a la tumba de Menachem Mendel Schneerson, séptimo y último Rabino de los Hasidim de la secta Jabad Lubavitch, que en 1991 declaró a sus seguidores: «He hecho todo lo posible para provocar el arribo del Mesías, ahora les paso a ustedes esta misión; hagan todo lo que puedan para que Él venga»^11. En relación al evento mesiánico, el eminente rabino Yekutiel Fish atribuyó una misión decisiva a Trump: «Todo el mundo está centrado en Gaza, pero esa es solo una parte de la agenda del fin de los tiempos, que tiene a los judíos viviendo en las fronteras profetizadas de Israel; la Torá incluye explícitamente a Gaza. Lo que Trump está haciendo es limpiar Gaza de todos los odiadores de Israel. No podrán estar en Israel después de la venida del Mesías. (...) Esto incluirá a Gaza, la mitad del Líbano y gran parte de Jordania. Y vemos que casi lo hemos logrado. Siria cayó. Líbano está medio destruido. Gaza está destrozada. El escenario está casi listo para el Mesías. Pero, ¿cómo pueden los palestinos estar aquí cuando vayamos a recibir al Mesías? El Mesías necesita que alguien se ocupe de esto, y en este caso, es Donald Trump. Trump está simplemente llevando a cabo las tareas finales necesarias antes de que el Mesías sea revelado»[^12].

Esta inspiración escatológica está presente en las palabras de Pete Brian Hegseth, el pintoresco exponente del «Reconstruccionismo Cristiano»[^13] a quien Trump nombró secretario de Defensa. En un discurso pronunciado en 2019 en el Hotel Rey David de Jerusalén, con motivo de la conferencia anual del canal Arutz Sheva (Israel National News), Hegseth enalteció el «vínculo eterno» entre Israel y Estados Unidos, y enumeró los «milagros» que atestiguan el «apoyo divino» a la causa sionista, el último de los cuales será la reconstrucción del Templo judío en la zona donde actualmente se encuentra la mezquita de al-Aqsa: «La dignidad de capital adquirida por Jerusalén —dijo— fue un milagro, y no hay razón por la cual no sea posible el milagro de la restauración del Templo en el Monte del Templo».[^14]

Es conocido que el fundamentalismo evangélico pro-sionista[^15] comparte con el judaísmo la creencia en que la construcción del tercer Templo de Jerusalén marcará el comienzo de la era mesiánica; cuando la administración Trump trasladó la embajada de Estados Unidos a Jerusalén en 2017, Laurie Cardoza-Moore, exponente del evangelismo sionista, saludó así la «obediencia de Trump a la Palabra de Dios» en «Haaretz»: «Al establecer la Embajada en Jerusalén, el presidente Donald Trump está implementando una de las iniciativas históricas de dimensión bíblica en su presidencia. Al igual que muchos judíos en Israel y en todo el mundo, los cristianos reconocen el vínculo de los judíos con la Biblia a través del nombre de Jerusalén como la capital del antiguo Israel, así como el sitio del Primer y Segundo Templos. Según los profetas Ezequiel, Isaías y el apóstol Juan del Nuevo Testamento, todos los israelíes esperan la reconstrucción del Tercer Templo»[^16]. El 22 de mayo del mismo año, Donald Trump, acompañado de su esposa Melania, de su hija Ivanka y su yerno Jared Kushner, fue el primer presidente de los Estados Unidos en ejercicio en acudir al Muro de las Lamentaciones, anexionado ilegalmente a la entidad sionista.

En 2019, la administración Trump confirmó la posición de Estados Unidos al enviar en visita oficial para Jerusalén a Mike Pompeo, un secretario de Estado que —ironía de la Historia— lleva el mismo nombre del general romano que asaltó la ciudad en el año 63 a.C. «Por primera vez en la historia, un secretario de Estado norteamericano visitó la Ciudad Vieja de Jerusalén en compañía de un alto político israelí. Fue una visita histórica que reforzó las expectativas israelíes y constituyó un reconocimiento tácito de la soberanía israelí sobre el sitio del Monte del Templo y la Explanada de las Mezquitas. (…) Mike Pompeo, acompañado por el primer ministro Benjamin Netanyahu y el embajador de Estados Unidos en Israel, David Friedman, también visitó el túnel del Muro de las Lamentaciones y la sinagoga ubicada bajo tierra, en el presunto lugar del santuario del Templo[^17], donde se le mostró una maqueta del futuro Templo[^18]. En el transcurso de una entrevista concedida durante la fiesta del Purim (que celebra el exterminio de la clase política persa, ocurrido hace 2500 años), el secretario de Estado insinuó que «el presidente Donald Trump puede haber sido enviado por Dios para salvar al pueblo judío y que confiaba en que aquí el Señor estaba obrando»[^19].

Como observa Daniele Perra, en este mismo número de «Eurasia», el «mito movilizador» del Tercer Templo, atribuible a los «mitos teológicos» señalados por Roger Garaudy como mitos fundadores de la entidad sionista, «atribuye al judaísmo una especie de función sociológica de transmisión y proyección del conflicto palestino-israelí hacia el resto del mundo y confiere una inspiración apocalíptica al momento geopolítico actual».

|Info|| |:-|:-| |Autor| Claudio Mutti | |Fuente| I "Figli della Luce" alla Casa Bianca | |Fecha| 8/Mar/2025 | |Traducción| Francisco de la Torre |

[^2]: The White House, President Trump announces appointments to the White House Faith Office https://www.whitehouse.gov,, 7 de febrero de 2025; Trump establece la Oficina de la Fe con una foto de «La Última Cena» | Fue dirigida por la controvertida predicadora Paula White, https://www.tgcom24.mediaset.it, 10 de febrero de 2025.

[^3]: «We extend our heartfelt gratitude for bringing faith to the forefront of American and global culture through the establishment of the Faith Office in the White House. Your recognition of the importance of religion in public life is a step toward restoring moral values and spiritual leadership in the world» (Letter from the Nascent Sanhedrin to President Donald J. Trump, Jerusalem, Wednesday, February 12, 2025).

[^4]: Israeli group mints Trump coin to honor Jerusalem recognition, «The Times of Israel», https://www.timesofisrael.com, 28-2-2018.

[^5]: Mons. Viganò — Siamo nella battaglia tra figli della luce e figli delle tenebre, https://www.italiador.com, 7-6-2020

[^6]: TRANSCRIPT: Steve Bannon’s ‘War Room’ interview with Abp. Viganò, lifesitenews.com, 4-1-2021. Sulle origini e sulla fortuna di questo tema cfr. C. Mutti, Le sètte dell’Occidente, «Eurasia», 2/2021, pp. 12-15. (https://www.eurasia-rivista.com/las-sectas-de-occidente/)

[^7]: Luke Tress, The who’s who of Jews in Trump’s inner circle?, «The Jerusalem Post», https://www.jpost.com, 19-11-2024.

[^8]: Radio Talk Show Host Mark Levin Calls President Trump «the First Jewish President of the United States», https://www.c-span.org, 11-12-2019.

[^9]: «However, he had a change of heart and officially converted in early 2017. The ceremony was held in private, and closely guarded for nearly two years» (Donald Trump converted to Judaism two years ago, according to White House official, https://israeltodaynews.blogspot.com/2019/02).

[^10]: «El rabino Kirt Schneider (...) es un millonario judío, una figura televisiva de los “judíos mesiánicos”. Sus emisiones televisivas semanales son emitidas por más de treinta canales cristianos en unos doscientos países; entre ellos, los canales “Yes” y “Hot” en Israel. Solo en Estados Unidos, sus emisiones atraen a 1.600.000 telespectadores cada semana. Kirt Schneider dirige un imperio de telecomunicaciones que tiene un millón y medio de seguidores en Facebook, X (antes Twitter) y YouTube» (Pierre-Antoine Plaquevent — Youssef Hindi, El milenarismo teopolítico de Israel, Edizioni all'insegna del Veltro, Parma 2025, p. 31).

[^12]: «Everyone is focused on Gaza, but that is only one part of the end-of-days agenda, which has the Jews living in Israel’s prophesied borders. The Torah explicitly includes Gaza. What Trump is doing is cleaning out Gaza of all the haters of Israel. They cannot be in Israel after the Messiah comes. (…) This will include Gaza, half of Lebanon, and much of Jordan. And we see that we are almost there. Syria fell. Lebanon is half gone. Gaza is ripped up. The stage is nearly set for Messiah. But how can the Palestinians be here when we go to greet the Messiah? The Messiah needs someone to take care of this, and in this case, it is Donald Trump. Trump is merely carrying out the final tasks needed before Messiah is revealed» (Adam Eliyahu Berkowitz, Trump’s Gaza Plan is «The Final task before Messiah», https://israel365news.com, 5-2-2025).

[^13]: «A day after Hegseth was announced for the Cabinet position, Brooks Potteiger, a pastor within the Communion of Reformed Evangelical Churches (CREC), posted on X that Hegseth is a member of the church in good standing. The CREC, a denomination of Christian Reconstructionism, is considered by some academics to be an extremist, Christian supremacist movement» (Shannon Bond e altri, What’s behind defense secretary pick Hegseth’s war on ‘woke’, https://www.npr.org, 14-11-2024.

[^14]: «The decoration of Jerusalem as a capital was a miracle, and there is no reason why the miracle of the re-establishment of Temple on the Temple Mount is not possible» (Pete Hegseth at Arutz Sheva Conference, youtube.com). Cfr. Daniele Perra, Paleotrumpismo, neotrumpismo e post-trumpismo, in: AA. VV., Trumpismo, Cinabro Edizioni, Roma 2025, pp. 22-23.

[^15]: Pierre-Antoine Plaquevent — Youssef Hindi, El milenarismo teopolítico de Israel, cit., págs. 82 a 96.

[^16]: «We American Christians Welcome Trump’s Obedience to God’s Word on Jerusalem», «Haaretz», 6-12-2017.

[^17]: Pierre-Antoine Plaquevent — Youssef Hindi, El milenarismo teopolítico de Israel, cit., pág. 97.

[^18]: Pompeo en visite historique au mur Occidental aux côtés de Netanyahu et Friedman, «The Times of Israel», https://fr.timesofisrael.com, 21-3-2019.

[^19]: Pompeo says Trump may have been sent by God to save Jews from Iran, «The Times of Israel», 22-3-2019.

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Artículo original: Claudio Mutti, Los «hijos de la luz» en la Casa Blanca (TOR), 25/Mar/2025

@ b17fccdf:b7211155

Si vives en España, quizás hayas notado que no puedes acceder a ciertas páginas webs durante los fines de semana o en algunos días entre semana, entre ellas, la guía de MiniBolt.

Esto tiene una razón, por supuesto una solución, además de una conclusión. Sin entrar en demasiados detalles:

La razón

El bloqueo a Cloudflare, implementado desde hace casi dos meses por operadores de Internet (ISPs) en España (como Movistar, O2, DIGI, Pepephone, entre otros), se basa en una orden judicial emitida tras una demanda de LALIGA (Fútbol). Esta medida busca combatir la piratería en España, un problema que afecta directamente a dicha organización.

Aunque la intención original era restringir el acceso a dominios específicos que difundieran dicho contenido, Cloudflare emplea el protocolo ECH (Encrypted Client Hello), que oculta el nombre del dominio, el cual antes se transmitía en texto plano durante el proceso de establecimiento de una conexión TLS. Esta medida dificulta que las operadoras analicen el tráfico para aplicar bloqueos basados en dominios, lo que les obliga a recurrir a bloqueos más amplios por IP o rangos de IP para cumplir con la orden judicial.

Esta práctica tiene consecuencias graves, que han sido completamente ignoradas por quienes la ejecutan. Es bien sabido que una infraestructura de IP puede alojar numerosos dominios, tanto legítimos como no legítimos. La falta de un "ajuste fino" en los bloqueos provoca un perjuicio para terceros, restringiendo el acceso a muchos dominios legítimos que no tiene relación alguna con actividades ilícitas, pero que comparten las mismas IPs de Cloudflare con dominios cuestionables. Este es el caso de la web de MiniBolt y su dominio minibolt.info, los cuales utilizan Cloudflare como proxy para aprovechar las medidas de seguridad, privacidad, optimización y servicios adicionales que la plataforma ofrece de forma gratuita.

Si bien este bloqueo parece ser temporal (al menos durante la temporada 24/25 de fútbol, hasta finales de mayo), es posible que se reactive con el inicio de la nueva temporada.

La solución

Obviamente, MiniBolt no dejará de usar Cloudflare como proxy por esta razón. Por lo que a continuación se exponen algunas medidas que como usuario puedes tomar para evitar esta restricción y poder acceder:

~> Utiliza una VPN:

Existen varias soluciones de proveedores de VPN, ordenadas según su reputación en privacidad: - IVPN - Mullvad VPN - Proton VPN (gratis) - Obscura VPN (solo para macOS) - Cloudfare WARP (gratis) + permite utilizar el modo proxy local para enrutar solo la navegación, debes utilizar la opción "WARP a través de proxy local" siguiendo estos pasos: 1. Inicia Cloudflare WARP y dentro de la pequeña interfaz haz click en la rueda dentada abajo a la derecha > "Preferencias" > "Avanzado" > "Configurar el modo proxy" 2. Marca la casilla "Habilite el modo proxy en este dispositivo" 3. Elige un "Puerto de escucha de proxy" entre 0-65535. ej: 1080, haz click en "Aceptar" y cierra la ventana de preferencias 4. Accede de nuevo a Cloudflare WARP y pulsa sobre el switch para habilitar el servicio. 3. Ahora debes apuntar el proxy del navegador a Cloudflare WARP, la configuración del navegador es similar a esta para el caso de navegadores basados en Firefox. Una vez hecho, deberías poder acceder a la guía de MiniBolt sin problemas. Si tienes dudas, déjalas en comentarios e intentaré resolverlas. Más info AQUÍ.

~> Proxifica tu navegador para usar la red de Tor, o utiliza el navegador oficial de Tor (recomendado).

La conclusión

Estos hechos ponen en tela de juicio los principios fundamentales de la neutralidad de la red, pilares esenciales de la Declaración de Independencia del Ciberespacio que defiende un internet libre, sin restricciones ni censura. Dichos principios se han visto quebrantados sin precedentes en este país, confirmando que ese futuro distópico que muchos negaban, ya es una realidad.

Es momento de actuar y estar preparados: debemos impulsar el desarrollo y la difusión de las herramientas anticensura que tenemos a nuestro alcance, protegiendo así la libertad digital y asegurando un acceso equitativo a la información para todos

Este compromiso es uno de los pilares fundamentales de MiniBolt, lo que convierte este desafío en una oportunidad para poner a prueba las soluciones anticensura ya disponibles, así como las que están en camino.

¡Censúrame si puedes, legislador! ¡La lucha por la privacidad y la libertad en Internet ya está en marcha!

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Fuentes: * https://bandaancha.eu/articulos/movistar-o2-deja-clientes-sin-acceso-11239 * https://bandaancha.eu/articulos/esta-nueva-sentencia-autoriza-bloqueos-11257 * https://bandaancha.eu/articulos/como-saltarse-bloqueo-webs-warp-vpn-9958 * https://bandaancha.eu/articulos/como-activar-ech-chrome-acceder-webs-10689 * https://comunidad.movistar.es/t5/Soporte-Fibra-y-ADSL/Problema-con-web-que-usan-Cloudflare/td-p/5218007

@ 16f1a010:31b1074b

In the rapidly evolving world of Bitcoin, running a Bitcoin node has become more accessible than ever. Platforms like Umbrel, Start9, myNode, and Citadel offer user-friendly interfaces to simplify node management. However, for those serious about maintaining a robust and efficient Lightning node ⚡, relying solely on these platforms may not be the optimal choice.

Let’s delve into why embracing Bitcoin Core and mastering the command-line interface (CLI) can provide a more reliable, sovereign, and empowering experience.

Understanding Node Management Platforms

What Are Umbrel, Start9, myNode, and Citadel?

Umbrel, Start9, myNode, and Citadel are platforms designed to streamline the process of running a Bitcoin node. They offer graphical user interfaces (GUIs) that allow users to manage various applications, including Bitcoin Core and Lightning Network nodes, through a web-based dashboard 🖥️.

These platforms often utilize Docker containers 🐳 to encapsulate applications, providing a modular and isolated environment for each service.

The Appeal of Simplified Node Management

The primary allure of these platforms lies in their simplicity. With minimal command-line interaction, users can deploy a full Bitcoin and Lightning node, along with a suite of additional applications.

✅ Easy one-command installation
✅ Web-based GUI for management
✅ Automatic app updates (but with delays, as we’ll discuss)

However, while this convenience is attractive, it comes at a cost.

The Hidden Complexities of Using Node Management Platforms

While the user-friendly nature of these platforms is advantageous, it can also introduce several challenges that may hinder advanced users or those seeking greater control over their nodes.

🚨 Dependency on Maintainers for Updates

One significant concern is the reliance on platform maintainers for updates. Since these platforms manage applications through Docker containers, users must wait for the maintainers to update the container images before they can access new features or security patches.

🔴 Delayed Bitcoin Core updates = potential security risks
🔴 Lightning Network updates are not immediate
🔴 Bugs and vulnerabilities may persist longer

Instead of waiting on a third party, why not update Bitcoin Core & LND yourself instantly?

⚙️ Challenges in Customization and Advanced Operations

For users aiming to perform advanced operations, such as:

• Custom backups 📂
• Running specific CLI commands 🖥️
• Optimizing node settings ⚡

…the abstraction layers introduced by these platforms become obstacles.

Navigating through nested directories and issuing commands inside Docker containers makes troubleshooting a nightmare. Instead of a simple bitcoin-cli command, you must figure out how to execute it inside the container, adding unnecessary complexity.

Increased Backend Complexity

To achieve frontend simplicity, these platforms make the backend more complex.

🚫 Extra layers of abstraction
🚫 Hidden logs and settings
🚫 Harder troubleshooting

The use of multiple Docker containers, custom scripts, and unique file structures can make system maintenance and debugging a pain.

This complication defeats the purpose of “making running a node easy.”

✅ Advantages of Using Bitcoin Core and Command-Line Interface (CLI)

By installing Bitcoin Core directly and using the command-line interface (CLI), you gain several key advantages that make managing a Bitcoin and Lightning node more efficient and empowering.

Direct Control and Immediate Updates

One of the biggest downsides of package manager-based platforms is the reliance on third-party maintainers to release updates. Since Bitcoin Core, Lightning implementations (such as LND, Core Lightning, or Eclair), and other related software evolve rapidly, waiting for platform-specific updates can leave you running outdated or vulnerable versions.

By installing Bitcoin Core directly, you remove this dependency. You can update immediately when new versions are released, ensuring your node benefits from the latest features, security patches, and bug fixes. The same applies to Lightning software—being able to install and update it yourself gives you full autonomy over your node’s performance and security.

🛠 Simplified System Architecture

Platforms like Umbrel and myNode introduce extra complexity by running Bitcoin Core and Lightning inside Docker containers. This means:

• The actual files and configurations are stored inside Docker’s filesystem, making it harder to locate and manage them manually.
• If something breaks, troubleshooting is more difficult due to the added layer of abstraction.
• Running commands requires jumping through Docker shell sessions, adding unnecessary friction to what should be a straightforward process.

Instead, a direct installation of Bitcoin Core, Lightning, and Electrum Server (if needed) results in a cleaner, more understandable system. The software runs natively on your machine, without containerized layers making things more convoluted.

Additionally, setting up your own systemd service files for Bitcoin and Lightning is not as complicated as it seems. Once configured, these services will run automatically on boot, offering the same level of convenience as platforms like Umbrel but without the unnecessary complexity.

Better Lightning Node Management

If you’re running a Lightning Network node, using CLI-based tools provides far more flexibility than relying on a GUI like the ones bundled with node management platforms.

🟢 Custom Backup Strategies – Running Lightning through a GUI-based node manager often means backups are handled in a way that is opaque to the user. With CLI tools, you can easily script automatic backups of your channels, wallets, and configurations.

🟢 Advanced Configuration – Platforms like Umbrel force certain configurations by default, limiting how you can customize your Lightning node. With a direct install, you have full control over: * Channel fees 💰 * Routing policies 📡 * Liquidity management 🔄

🟢 Direct Access to LND, Core Lightning, or Eclair – Instead of issuing commands through a GUI (which is often limited in functionality), you can use: * lncli (for LND) * lightning-cli (for Core Lightning) …to interact with your node at a deeper level.

Enhanced Learning and Engagement

A crucial aspect of running a Bitcoin and Lightning node is understanding how it works.

Using an abstraction layer like Umbrel may get a node running in a few clicks, but it does little to teach users how Bitcoin actually functions.

By setting up Bitcoin Core, Lightning, and related software manually, you will:

✅ Gain practical knowledge of Bitcoin nodes, networking, and system performance.
✅ Learn how to configure and manage RPC commands.
✅ Become less reliant on third-party developers and more confident in troubleshooting.

🎯 Running a Bitcoin node is about sovereignty – learn how to control it yourself.

Become more sovereign TODAY

Many guides make this process straightforward K3tan has a fantastic guide on running Bitcoin Core, Electrs, LND and more.
- Ministry of Nodes Guide 2024
- You can find him on nostr
nostr:npub1txwy7guqkrq6ngvtwft7zp70nekcknudagrvrryy2wxnz8ljk2xqz0yt4x

Even with the best of guides, if you are running this software,
📖 READ THE DOCUMENTATION

This is all just software at the end of the day. Most of it is very well documented. Take a moment to actually read through the documentation for yourself when installing. The documentation has step by step guides on setting up the software. Here is a helpful list: * Bitcoin.org Bitcoin Core Linux install instructions * Bitcoin Core Code Repository * Electrs Installation * LND Documentation * LND Code Repository * CLN Documentation * CLN Code Repository

If you have any more resources or links I should add, please comment them . I want to add as much to this article as I can.

@ eac63075:b4988b48

Since its creation in 2009, Bitcoin has symbolized innovation and resilience. However, from time to time, alarmist narratives arise about emerging technologies that could "break" its security. Among these, quantum computing stands out as one of the most recurrent. But does quantum computing truly threaten Bitcoin? And more importantly, what is the community doing to ensure the protocol remains invulnerable?

The answer, contrary to sensationalist headlines, is reassuring: Bitcoin is secure, and the community is already preparing for a future where quantum computing becomes a practical reality. Let’s dive into this topic to understand why the concerns are exaggerated and how the development of BIP-360 demonstrates that Bitcoin is one step ahead.

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What Is Quantum Computing, and Why Is Bitcoin Not Threatened?

Quantum computing leverages principles of quantum mechanics to perform calculations that, in theory, could exponentially surpass classical computers—and it has nothing to do with what so-called “quantum coaches” teach to scam the uninformed. One of the concerns is that this technology could compromise two key aspects of Bitcoin’s security:

1. Wallets: These use elliptic curve algorithms (ECDSA) to protect private keys. A sufficiently powerful quantum computer could deduce a private key from its public key.
2. Mining: This is based on the SHA-256 algorithm, which secures the consensus process. A quantum attack could, in theory, compromise the proof-of-work mechanism.

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Understanding Quantum Computing’s Attack Priorities

While quantum computing is often presented as a threat to Bitcoin, not all parts of the network are equally vulnerable. Theoretical attacks would be prioritized based on two main factors: ease of execution and potential reward. This creates two categories of attacks:

1. Attacks on Wallets

Bitcoin wallets, secured by elliptic curve algorithms, would be the initial targets due to the relative vulnerability of their public keys, especially those already exposed on the blockchain. Two attack scenarios stand out:

• Short-term attacks: These occur during the interval between sending a transaction and its inclusion in a block (approximately 10 minutes). A quantum computer could intercept the exposed public key and derive the corresponding private key to redirect funds by creating a transaction with higher fees.

• Long-term attacks: These focus on old wallets whose public keys are permanently exposed. Wallets associated with Satoshi Nakamoto, for example, are especially vulnerable because they were created before the practice of using hashes to mask public keys.

We can infer a priority order for how such attacks might occur based on urgency and importance.

Bitcoin Quantum Attack: Prioritization Matrix (Urgency vs. Importance)

2. Attacks on Mining

Targeting the SHA-256 algorithm, which secures the mining process, would be the next objective. However, this is far more complex and requires a level of quantum computational power that is currently non-existent and far from realization. A successful attack would allow for the recalculation of all possible hashes to dominate the consensus process and potentially "mine" it instantly.

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Satoshi Nakamoto in 2010 on Quantum Computing and Bitcoin Attacks

Recently, Narcelio asked me about a statement I made on Tubacast:

https://x.com/eddieoz/status/1868371296683511969

If an attack became a reality before Bitcoin was prepared, it would be necessary to define the last block prior to the attack and proceed from there using a new hashing algorithm. The solution would resemble the response to the infamous 2013 bug. It’s a fact that this would cause market panic, and Bitcoin's price would drop significantly, creating a potential opportunity for the well-informed.

Preferably, if developers could anticipate the threat and had time to work on a solution and build consensus before an attack, they would simply decide on a future block for the fork, which would then adopt the new algorithm. It might even rehash previous blocks (reaching consensus on them) to avoid potential reorganization through the re-mining of blocks using the old hash. (I often use the term "shielding" old transactions).

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How Can Users Protect Themselves?

While quantum computing is still far from being a practical threat, some simple measures can already protect users against hypothetical scenarios:

• Avoid using exposed public keys: Ensure funds sent to old wallets are transferred to new ones that use public key hashes. This reduces the risk of long-term attacks.
• Use modern wallets: Opt for wallets compatible with SegWit or Taproot, which implement better security practices.
• Monitor security updates: Stay informed about updates from the Bitcoin community, such as the implementation of BIP-360, which will introduce quantum-resistant addresses.
• Do not reuse addresses: Every transaction should be associated with a new address to minimize the risk of repeated exposure of the same public key.
• Adopt secure backup practices: Create offline backups of private keys and seeds in secure locations, protected from unauthorized access.

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BIP-360 and Bitcoin’s Preparation for the Future

Even though quantum computing is still beyond practical reach, the Bitcoin community is not standing still. A concrete example is BIP-360, a proposal that establishes the technical framework to make wallets resistant to quantum attacks.

BIP-360 addresses three main pillars:

1. Introduction of quantum-resistant addresses: A new address format starting with "BC1R" will be used. These addresses will be compatible with post-quantum algorithms, ensuring that stored funds are protected from future attacks.
2. Compatibility with the current ecosystem: The proposal allows users to transfer funds from old addresses to new ones without requiring drastic changes to the network infrastructure.
3. Flexibility for future updates: BIP-360 does not limit the choice of specific algorithms. Instead, it serves as a foundation for implementing new post-quantum algorithms as technology evolves.

This proposal demonstrates how Bitcoin can adapt to emerging threats without compromising its decentralized structure.

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Post-Quantum Algorithms: The Future of Bitcoin Cryptography

The community is exploring various algorithms to protect Bitcoin from quantum attacks. Among the most discussed are:

• Falcon: A solution combining smaller public keys with compact digital signatures. Although it has been tested in limited scenarios, it still faces scalability and performance challenges.
• Sphincs: Hash-based, this algorithm is renowned for its resilience, but its signatures can be extremely large, making it less efficient for networks like Bitcoin’s blockchain.
• Lamport: Created in 1977, it’s considered one of the earliest post-quantum security solutions. Despite its reliability, its gigantic public keys (16,000 bytes) make it impractical and costly for Bitcoin.

Two technologies show great promise and are well-regarded by the community:

1. Lattice-Based Cryptography: Considered one of the most promising, it uses complex mathematical structures to create systems nearly immune to quantum computing. Its implementation is still in its early stages, but the community is optimistic.
2. Supersingular Elliptic Curve Isogeny: These are very recent digital signature algorithms and require extensive study and testing before being ready for practical market use.

The final choice of algorithm will depend on factors such as efficiency, cost, and integration capability with the current system. Additionally, it is preferable that these algorithms are standardized before implementation, a process that may take up to 10 years.

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Why Quantum Computing Is Far from Being a Threat

The alarmist narrative about quantum computing overlooks the technical and practical challenges that still need to be overcome. Among them:

• Insufficient number of qubits: Current quantum computers have only a few hundred qubits, whereas successful attacks would require millions.
• High error rate: Quantum stability remains a barrier to reliable large-scale operations.
• High costs: Building and operating large-scale quantum computers requires massive investments, limiting their use to scientific or specific applications.

Moreover, even if quantum computers make significant advancements, Bitcoin is already adapting to ensure its infrastructure is prepared to respond.

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Conclusion: Bitcoin’s Secure Future

Despite advancements in quantum computing, the reality is that Bitcoin is far from being threatened. Its security is ensured not only by its robust architecture but also by the community’s constant efforts to anticipate and mitigate challenges.

The implementation of BIP-360 and the pursuit of post-quantum algorithms demonstrate that Bitcoin is not only resilient but also proactive. By adopting practical measures, such as using modern wallets and migrating to quantum-resistant addresses, users can further protect themselves against potential threats.

Bitcoin’s future is not at risk—it is being carefully shaped to withstand any emerging technology, including quantum computing.

@ eac63075:b4988b48

Based on a recent paper that included collaboration from renowned experts such as Lynn Alden, Steve Lee, and Ren Crypto Fish, we discuss in depth how Bitcoin's consensus is built, the main risks, and the complex dynamics of protocol upgrades.

PT-BR version

Podcast https://www.fountain.fm/episode/wbjD6ntQuvX5u2G5BccC

Presentation https://gamma.app/docs/Analyzing-Bitcoin-Consensus-Risks-in-Protocol-Upgrades-p66axxjwaa37ksn

1. Introduction to Consensus in Bitcoin

Consensus in Bitcoin is the foundation that keeps the network secure and functional, allowing users worldwide to perform transactions in a decentralized manner without the need for intermediaries. Since its launch in 2009, Bitcoin is often described as an "immutable" system designed to resist changes, and it is precisely this resistance that ensures its security and stability.

The central idea behind consensus in Bitcoin is to create a set of acceptance rules for blocks and transactions, ensuring that all network participants agree on the transaction history. This prevents "double-spending," where the same bitcoin could be used in two simultaneous transactions, something that would compromise trust in the network.

Evolution of Consensus in Bitcoin

Over the years, consensus in Bitcoin has undergone several adaptations, and the way participants agree on changes remains a delicate process. Unlike traditional systems, where changes can be imposed from the top down, Bitcoin operates in a decentralized model where any significant change needs the support of various groups of stakeholders, including miners, developers, users, and large node operators.

Moreover, the update process is extremely cautious, as hasty changes can compromise the network's security. As a result, the philosophy of "don't fix what isn't broken" prevails, with improvements happening incrementally and only after broad consensus among those involved. This model can make progress seem slow but ensures that Bitcoin remains faithful to the principles of security and decentralization.

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2. Technical Components of Consensus

Bitcoin's consensus is supported by a set of technical rules that determine what is considered a valid transaction and a valid block on the network. These technical aspects ensure that all nodes—the computers that participate in the Bitcoin network—agree on the current state of the blockchain. Below are the main technical components that form the basis of the consensus.

Validation of Blocks and Transactions

The validation of blocks and transactions is the central point of consensus in Bitcoin. A block is only considered valid if it meets certain criteria, such as maximum size, transaction structure, and the solving of the "Proof of Work" problem. The proof of work, required for a block to be included in the blockchain, is a computational process that ensures the block contains significant computational effort—protecting the network against manipulation attempts.

Transactions, in turn, need to follow specific input and output rules. Each transaction includes cryptographic signatures that prove the ownership of the bitcoins sent, as well as validation scripts that verify if the transaction conditions are met. This validation system is essential for network nodes to autonomously confirm that each transaction follows the rules.

Chain Selection

Another fundamental technical issue for Bitcoin's consensus is chain selection, which becomes especially important in cases where multiple versions of the blockchain coexist, such as after a network split (fork). To decide which chain is the "true" one and should be followed, the network adopts the criterion of the highest accumulated proof of work. In other words, the chain with the highest number of valid blocks, built with the greatest computational effort, is chosen by the network as the official one.

This criterion avoids permanent splits because it encourages all nodes to follow the same main chain, reinforcing consensus.

Soft Forks vs. Hard Forks

In the consensus process, protocol changes can happen in two ways: through soft forks or hard forks. These variations affect not only the protocol update but also the implications for network users:

• Soft Forks: These are changes that are backward compatible. Only nodes that adopt the new update will follow the new rules, but old nodes will still recognize the blocks produced with these rules as valid. This compatibility makes soft forks a safer option for updates, as it minimizes the risk of network division.

• Hard Forks: These are updates that are not backward compatible, requiring all nodes to update to the new version or risk being separated from the main chain. Hard forks can result in the creation of a new coin, as occurred with the split between Bitcoin and Bitcoin Cash in 2017. While hard forks allow for deeper changes, they also bring significant risks of network fragmentation.

These technical components form the base of Bitcoin's security and resilience, allowing the system to remain functional and immutable without losing the necessary flexibility to evolve over time.

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3. Stakeholders in Bitcoin's Consensus

Consensus in Bitcoin is not decided centrally. On the contrary, it depends on the interaction between different groups of stakeholders, each with their motivations, interests, and levels of influence. These groups play fundamental roles in how changes are implemented or rejected on the network. Below, we explore the six main stakeholders in Bitcoin's consensus.

1. Economic Nodes

Economic nodes, usually operated by exchanges, custody providers, and large companies that accept Bitcoin, exert significant influence over consensus. Because they handle large volumes of transactions and act as a connection point between the Bitcoin ecosystem and the traditional financial system, these nodes have the power to validate or reject blocks and to define which version of the software to follow in case of a fork.

Their influence is proportional to the volume of transactions they handle, and they can directly affect which chain will be seen as the main one. Their incentive is to maintain the network's stability and security to preserve its functionality and meet regulatory requirements.

2. Investors

Investors, including large institutional funds and individual Bitcoin holders, influence consensus indirectly through their impact on the asset's price. Their buying and selling actions can affect Bitcoin's value, which in turn influences the motivation of miners and other stakeholders to continue investing in the network's security and development.

Some institutional investors have agreements with custodians that may limit their ability to act in network split situations. Thus, the impact of each investor on consensus can vary based on their ownership structure and how quickly they can react to a network change.

3. Media Influencers

Media influencers, including journalists, analysts, and popular personalities on social media, have a powerful role in shaping public opinion about Bitcoin and possible updates. These influencers can help educate the public, promote debates, and bring transparency to the consensus process.

On the other hand, the impact of influencers can be double-edged: while they can clarify complex topics, they can also distort perceptions by amplifying or minimizing change proposals. This makes them a force both of support and resistance to consensus.

4. Miners

Miners are responsible for validating transactions and including blocks in the blockchain. Through computational power (hashrate), they also exert significant influence over consensus decisions. In update processes, miners often signal their support for a proposal, indicating that the new version is safe to use. However, this signaling is not always definitive, and miners can change their position if they deem it necessary.

Their incentive is to maximize returns from block rewards and transaction fees, as well as to maintain the value of investments in their specialized equipment, which are only profitable if the network remains stable.

5. Protocol Developers

Protocol developers, often called "Core Developers," are responsible for writing and maintaining Bitcoin's code. Although they do not have direct power over consensus, they possess an informal veto power since they decide which changes are included in the main client (Bitcoin Core). This group also serves as an important source of technical knowledge, helping guide decisions and inform other stakeholders.

Their incentive lies in the continuous improvement of the network, ensuring security and decentralization. Many developers are funded by grants and sponsorships, but their motivations generally include a strong ideological commitment to Bitcoin's principles.

6. Users and Application Developers

This group includes people who use Bitcoin in their daily transactions and developers who build solutions based on the network, such as wallets, exchanges, and payment platforms. Although their power in consensus is less than that of miners or economic nodes, they play an important role because they are responsible for popularizing Bitcoin's use and expanding the ecosystem.

If application developers decide not to adopt an update, this can affect compatibility and widespread acceptance. Thus, they indirectly influence consensus by deciding which version of the protocol to follow in their applications.

These stakeholders are vital to the consensus process, and each group exerts influence according to their involvement, incentives, and ability to act in situations of change. Understanding the role of each makes it clearer how consensus is formed and why it is so difficult to make significant changes to Bitcoin.

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4. Mechanisms for Activating Updates in Bitcoin

For Bitcoin to evolve without compromising security and consensus, different mechanisms for activating updates have been developed over the years. These mechanisms help coordinate changes among network nodes to minimize the risk of fragmentation and ensure that updates are implemented in an orderly manner. Here, we explore some of the main methods used in Bitcoin, their advantages and disadvantages, as well as historical examples of significant updates.

Flag Day

The Flag Day mechanism is one of the simplest forms of activating changes. In it, a specific date or block is determined as the activation moment, and all nodes must be updated by that point. This method does not involve prior signaling; participants simply need to update to the new software version by the established day or block.

• Advantages: Simplicity and predictability are the main benefits of Flag Day, as everyone knows the exact activation date.

• Disadvantages: Inflexibility can be a problem because there is no way to adjust the schedule if a significant part of the network has not updated. This can result in network splits if a significant number of nodes are not ready for the update.

An example of Flag Day was the Pay to Script Hash (P2SH) update in 2012, which required all nodes to adopt the change to avoid compatibility issues.

BIP34 and BIP9

BIP34 introduced a more dynamic process, in which miners increase the version number in block headers to signal the update. When a predetermined percentage of the last blocks is mined with this new version, the update is automatically activated. This model later evolved with BIP9, which allowed multiple updates to be signaled simultaneously through "version bits," each corresponding to a specific change.

• Advantages: Allows the network to activate updates gradually, giving more time for participants to adapt.

• Disadvantages: These methods rely heavily on miner support, which means that if a sufficient number of miners do not signal the update, it can be delayed or not implemented.

BIP9 was used in the activation of SegWit (BIP141) but faced challenges because some miners did not signal their intent to activate, leading to the development of new mechanisms.

User Activated Soft Forks (UASF) and User Resisted Soft Forks (URSF)

To increase the decision-making power of ordinary users, the concept of User Activated Soft Fork (UASF) was introduced, allowing node operators, not just miners, to determine consensus for a change. In this model, nodes set a date to start rejecting blocks that are not in compliance with the new update, forcing miners to adapt or risk having their blocks rejected by the network.

URSF, in turn, is a model where nodes reject blocks that attempt to adopt a specific update, functioning as resistance against proposed changes.

• Advantages: UASF returns decision-making power to node operators, ensuring that changes do not depend solely on miners.

• Disadvantages: Both UASF and URSF can generate network splits, especially in cases of strong opposition among different stakeholders.

An example of UASF was the activation of SegWit in 2017, where users supported activation independently of miner signaling, which ended up forcing its adoption.

BIP8 (LOT=True)

BIP8 is an evolution of BIP9, designed to prevent miners from indefinitely blocking a change desired by the majority of users and developers. BIP8 allows setting a parameter called "lockinontimeout" (LOT) as true, which means that if the update has not been fully signaled by a certain point, it is automatically activated.

• Advantages: Ensures that changes with broad support among users are not blocked by miners who wish to maintain the status quo.

• Disadvantages: Can lead to network splits if miners or other important stakeholders do not support the update.

Although BIP8 with LOT=True has not yet been used in Bitcoin, it is a proposal that can be applied in future updates if necessary.

These activation mechanisms have been essential for Bitcoin's development, allowing updates that keep the network secure and functional. Each method brings its own advantages and challenges, but all share the goal of preserving consensus and network cohesion.

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5. Risks and Considerations in Consensus Updates

Consensus updates in Bitcoin are complex processes that involve not only technical aspects but also political, economic, and social considerations. Due to the network's decentralized nature, each change brings with it a set of risks that need to be carefully assessed. Below, we explore some of the main challenges and future scenarios, as well as the possible impacts on stakeholders.

Network Fragility with Alternative Implementations

One of the main risks associated with consensus updates is the possibility of network fragmentation when there are alternative software implementations. If an update is implemented by a significant group of nodes but rejected by others, a network split (fork) can occur. This creates two competing chains, each with a different version of the transaction history, leading to unpredictable consequences for users and investors.

Such fragmentation weakens Bitcoin because, by dividing hashing power (computing) and coin value, it reduces network security and investor confidence. A notable example of this risk was the fork that gave rise to Bitcoin Cash in 2017 when disagreements over block size resulted in a new chain and a new asset.

Chain Splits and Impact on Stakeholders

Chain splits are a significant risk in update processes, especially in hard forks. During a hard fork, the network is split into two separate chains, each with its own set of rules. This results in the creation of a new coin and leaves users with duplicated assets on both chains. While this may seem advantageous, in the long run, these splits weaken the network and create uncertainties for investors.

Each group of stakeholders reacts differently to a chain split:

• Institutional Investors and ETFs: Face regulatory and compliance challenges because many of these assets are managed under strict regulations. The creation of a new coin requires decisions to be made quickly to avoid potential losses, which may be hampered by regulatory constraints.

• Miners: May be incentivized to shift their computing power to the chain that offers higher profitability, which can weaken one of the networks.

• Economic Nodes: Such as major exchanges and custody providers, have to quickly choose which chain to support, influencing the perceived value of each network.

Such divisions can generate uncertainties and loss of value, especially for institutional investors and those who use Bitcoin as a store of value.

Regulatory Impacts and Institutional Investors

With the growing presence of institutional investors in Bitcoin, consensus changes face new compliance challenges. Bitcoin ETFs, for example, are required to follow strict rules about which assets they can include and how chain split events should be handled. The creation of a new asset or migration to a new chain can complicate these processes, creating pressure for large financial players to quickly choose a chain, affecting the stability of consensus.

Moreover, decisions regarding forks can influence the Bitcoin futures and derivatives market, affecting perception and adoption by new investors. Therefore, the need to avoid splits and maintain cohesion is crucial to attract and preserve the confidence of these investors.

Security Considerations in Soft Forks and Hard Forks

While soft forks are generally preferred in Bitcoin for their backward compatibility, they are not without risks. Soft forks can create different classes of nodes on the network (updated and non-updated), which increases operational complexity and can ultimately weaken consensus cohesion. In a network scenario with fragmentation of node classes, Bitcoin's security can be affected, as some nodes may lose part of the visibility over updated transactions or rules.

In hard forks, the security risk is even more evident because all nodes need to adopt the new update to avoid network division. Experience shows that abrupt changes can create temporary vulnerabilities, in which malicious agents try to exploit the transition to attack the network.

Bounty Claim Risks and Attack Scenarios

Another risk in consensus updates are so-called "bounty claims"—accumulated rewards that can be obtained if an attacker manages to split or deceive a part of the network. In a conflict scenario, a group of miners or nodes could be incentivized to support a new update or create an alternative version of the software to benefit from these rewards.

These risks require stakeholders to carefully assess each update and the potential vulnerabilities it may introduce. The possibility of "bounty claims" adds a layer of complexity to consensus because each interest group may see a financial opportunity in a change that, in the long term, may harm network stability.

The risks discussed above show the complexity of consensus in Bitcoin and the importance of approaching it gradually and deliberately. Updates need to consider not only technical aspects but also economic and social implications, in order to preserve Bitcoin's integrity and maintain trust among stakeholders.

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6. Recommendations for the Consensus Process in Bitcoin

To ensure that protocol changes in Bitcoin are implemented safely and with broad support, it is essential that all stakeholders adopt a careful and coordinated approach. Here are strategic recommendations for evaluating, supporting, or rejecting consensus updates, considering the risks and challenges discussed earlier, along with best practices for successful implementation.

1. Careful Evaluation of Proposal Maturity

Stakeholders should rigorously assess the maturity level of a proposal before supporting its implementation. Updates that are still experimental or lack a robust technical foundation can expose the network to unnecessary risks. Ideally, change proposals should go through an extensive testing phase, have security audits, and receive review and feedback from various developers and experts.

2. Extensive Testing in Secure and Compatible Networks

Before an update is activated on the mainnet, it is essential to test it on networks like testnet and signet, and whenever possible, on other compatible networks that offer a safe and controlled environment to identify potential issues. Testing on networks like Litecoin was fundamental for the safe launch of innovations like SegWit and the Lightning Network, allowing functionalities to be validated on a lower-impact network before being implemented on Bitcoin.

The Liquid Network, developed by Blockstream, also plays an important role as an experimental network for new proposals, such as OP_CAT. By adopting these testing environments, stakeholders can mitigate risks and ensure that the update is reliable and secure before being adopted by the main network.

3. Importance of Stakeholder Engagement

The success of a consensus update strongly depends on the active participation of all stakeholders. This includes economic nodes, miners, protocol developers, investors, and end users. Lack of participation can lead to inadequate decisions or even future network splits, which would compromise Bitcoin's security and stability.

4. Key Questions for Evaluating Consensus Proposals

To assist in decision-making, each group of stakeholders should consider some key questions before supporting a consensus change:

• Does the proposal offer tangible benefits for Bitcoin's security, scalability, or usability?
• Does it maintain backward compatibility or introduce the risk of network split?
• Are the implementation requirements clear and feasible for each group involved?
• Are there clear and aligned incentives for all stakeholder groups to accept the change?

5. Coordination and Timing in Implementations

Timing is crucial. Updates with short activation windows can force a split because not all nodes and miners can update simultaneously. Changes should be planned with ample deadlines to allow all stakeholders to adjust their systems, avoiding surprises that could lead to fragmentation.

Mechanisms like soft forks are generally preferable to hard forks because they allow a smoother transition. Opting for backward-compatible updates when possible facilitates the process and ensures that nodes and miners can adapt without pressure.

6. Continuous Monitoring and Re-evaluation

After an update, it's essential to monitor the network to identify problems or side effects. This continuous process helps ensure cohesion and trust among all participants, keeping Bitcoin as a secure and robust network.

These recommendations, including the use of secure networks for extensive testing, promote a collaborative and secure environment for Bitcoin's consensus process. By adopting a deliberate and strategic approach, stakeholders can preserve Bitcoin's value as a decentralized and censorship-resistant network.

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7. Conclusion

Consensus in Bitcoin is more than a set of rules; it's the foundation that sustains the network as a decentralized, secure, and reliable system. Unlike centralized systems, where decisions can be made quickly, Bitcoin requires a much more deliberate and cooperative approach, where the interests of miners, economic nodes, developers, investors, and users must be considered and harmonized. This governance model may seem slow, but it is fundamental to preserving the resilience and trust that make Bitcoin a global store of value and censorship-resistant.

Consensus updates in Bitcoin must balance the need for innovation with the preservation of the network's core principles. The development process of a proposal needs to be detailed and rigorous, going through several testing stages, such as in testnet, signet, and compatible networks like Litecoin and Liquid Network. These networks offer safe environments for proposals to be analyzed and improved before being launched on the main network.

Each proposed change must be carefully evaluated regarding its maturity, impact, backward compatibility, and support among stakeholders. The recommended key questions and appropriate timing are critical to ensure that an update is adopted without compromising network cohesion. It's also essential that the implementation process is continuously monitored and re-evaluated, allowing adjustments as necessary and minimizing the risk of instability.

By following these guidelines, Bitcoin's stakeholders can ensure that the network continues to evolve safely and robustly, maintaining user trust and further solidifying its role as one of the most resilient and innovative digital assets in the world. Ultimately, consensus in Bitcoin is not just a technical issue but a reflection of its community and the values it represents: security, decentralization, and resilience.

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8. Links

Whitepaper: https://github.com/bitcoin-cap/bcap

Youtube (pt-br): https://www.youtube.com/watch?v=rARycAibl9o&list=PL-qnhF0qlSPkfhorqsREuIu4UTbF0h4zb

@ eac63075:b4988b48

The future of physical money is at stake, and the discussion about DREX, the new digital currency planned by the Central Bank of Brazil, is gaining momentum. In a candid and intense conversation, Federal Deputy Julia Zanatta (PL/SC) discussed the challenges and risks of this digital transition, also addressing her Bill No. 3,341/2024, which aims to prevent the extinction of physical currency. This bill emerges as a direct response to legislative initiatives seeking to replace physical money with digital alternatives, limiting citizens' options and potentially compromising individual freedom. Let's delve into the main points of this conversation.

https://www.fountain.fm/episode/i5YGJ9Ors3PkqAIMvNQ0

(PT-BR version here)

What is a CBDC?

Before discussing the specifics of DREX, it’s important to understand what a CBDC (Central Bank Digital Currency) is. CBDCs are digital currencies issued by central banks, similar to a digital version of physical money. Unlike cryptocurrencies such as Bitcoin, which operate in a decentralized manner, CBDCs are centralized and regulated by the government. In other words, they are digital currencies created and controlled by the Central Bank, intended to replace physical currency.

A prominent feature of CBDCs is their programmability. This means that the government can theoretically set rules about how, where, and for what this currency can be used. This aspect enables a level of control over citizens' finances that is impossible with physical money. By programming the currency, the government could limit transactions by setting geographical or usage restrictions. In practice, money within a CBDC could be restricted to specific spending or authorized for use in a defined geographical area.

In countries like China, where citizen actions and attitudes are also monitored, a person considered to have a "low score" due to a moral or ideological violation may have their transactions limited to essential purchases, restricting their digital currency use to non-essential activities. This financial control is strengthened because, unlike physical money, digital currency cannot be exchanged anonymously.

Practical Example: The Case of DREX During the Pandemic

To illustrate how DREX could be used, an example was given by Eric Altafim, director of Banco Itaú. He suggested that, if DREX had existed during the COVID-19 pandemic, the government could have restricted the currency’s use to a 5-kilometer radius around a person’s residence, limiting their economic mobility. Another proposed use by the executive related to the Bolsa Família welfare program: the government could set up programming that only allows this benefit to be used exclusively for food purchases. Although these examples are presented as control measures for safety or organization, they demonstrate how much a CBDC could restrict citizens' freedom of choice.

To illustrate the potential for state control through a Central Bank Digital Currency (CBDC), such as DREX, it is helpful to look at the example of China. In China, the implementation of a CBDC coincides with the country’s Social Credit System, a governmental surveillance tool that assesses citizens' and companies' behavior. Together, these technologies allow the Chinese government to monitor, reward, and, above all, punish behavior deemed inappropriate or threatening to the government.

How Does China's Social Credit System Work?

Implemented in 2014, China's Social Credit System assigns every citizen and company a "score" based on various factors, including financial behavior, criminal record, social interactions, and even online activities. This score determines the benefits or penalties each individual receives and can affect everything from public transport access to obtaining loans and enrolling in elite schools for their children. Citizens with low scores may face various sanctions, including travel restrictions, fines, and difficulty in securing loans.

With the adoption of the CBDC — or “digital yuan” — the Chinese government now has a new tool to closely monitor citizens' financial transactions, facilitating the application of Social Credit System penalties. China’s CBDC is a programmable digital currency, which means that the government can restrict how, when, and where the money can be spent. Through this level of control, digital currency becomes a powerful mechanism for influencing citizens' behavior.

Imagine, for instance, a citizen who repeatedly posts critical remarks about the government on social media or participates in protests. If the Social Credit System assigns this citizen a low score, the Chinese government could, through the CBDC, restrict their money usage in certain areas or sectors. For example, they could be prevented from buying tickets to travel to other regions, prohibited from purchasing certain consumer goods, or even restricted to making transactions only at stores near their home.

Another example of how the government can use the CBDC to enforce the Social Credit System is by monitoring purchases of products such as alcohol or luxury items. If a citizen uses the CBDC to spend more than the government deems reasonable on such products, this could negatively impact their social score, resulting in additional penalties such as future purchase restrictions or a lowered rating that impacts their personal and professional lives.

In China, this kind of control has already been demonstrated in several cases. Citizens added to Social Credit System “blacklists” have seen their spending and investment capacity severely limited. The combination of digital currency and social scores thus creates a sophisticated and invasive surveillance system, through which the Chinese government controls important aspects of citizens’ financial lives and individual freedoms.

Deputy Julia Zanatta views these examples with great concern. She argues that if the state has full control over digital money, citizens will be exposed to a level of economic control and surveillance never seen before. In a democracy, this control poses a risk, but in an authoritarian regime, it could be used as a powerful tool of repression.

DREX and Bill No. 3,341/2024

Julia Zanatta became aware of a bill by a Workers' Party (PT) deputy (Bill 4068/2020 by Deputy Reginaldo Lopes - PT/MG) that proposes the extinction of physical money within five years, aiming for a complete transition to DREX, the digital currency developed by the Central Bank of Brazil. Concerned about the impact of this measure, Julia drafted her bill, PL No. 3,341/2024, which prohibits the elimination of physical money, ensuring citizens the right to choose physical currency.

“The more I read about DREX, the less I want its implementation,” says the deputy. DREX is a Central Bank Digital Currency (CBDC), similar to other state digital currencies worldwide, but which, according to Julia, carries extreme control risks. She points out that with DREX, the State could closely monitor each citizen’s transactions, eliminating anonymity and potentially restricting freedom of choice. This control would lie in the hands of the Central Bank, which could, in a crisis or government change, “freeze balances or even delete funds directly from user accounts.”

Risks and Individual Freedom

Julia raises concerns about potential abuses of power that complete digitalization could allow. In a democracy, state control over personal finances raises serious questions, and EddieOz warns of an even more problematic future. “Today we are in a democracy, but tomorrow, with a government transition, we don't know if this kind of power will be used properly or abused,” he states. In other words, DREX gives the State the ability to restrict or condition the use of money, opening the door to unprecedented financial surveillance.

EddieOz cites Nigeria as an example, where a CBDC was implemented, and the government imposed severe restrictions on the use of physical money to encourage the use of digital currency, leading to protests and clashes in the country. In practice, the poorest and unbanked — those without regular access to banking services — were harshly affected, as without physical money, many cannot conduct basic transactions. Julia highlights that in Brazil, this situation would be even more severe, given the large number of unbanked individuals and the extent of rural areas where access to technology is limited.

The Relationship Between DREX and Pix

The digital transition has already begun with Pix, which revolutionized instant transfers and payments in Brazil. However, Julia points out that Pix, though popular, is a citizen’s choice, while DREX tends to eliminate that choice. The deputy expresses concern about new rules suggested for Pix, such as daily transaction limits of a thousand reais, justified as anti-fraud measures but which, in her view, represent additional control and a profit opportunity for banks. “How many more rules will banks create to profit from us?” asks Julia, noting that DREX could further enhance control over personal finances.

International Precedents and Resistance to CBDC

The deputy also cites examples from other countries resisting the idea of a centralized digital currency. In the United States, states like New Hampshire have passed laws to prevent the advance of CBDCs, and leaders such as Donald Trump have opposed creating a national digital currency. Trump, addressing the topic, uses a justification similar to Julia’s: in a digitalized system, “with one click, your money could disappear.” She agrees with the warning, emphasizing the control risk that a CBDC represents, especially for countries with disadvantaged populations.

Besides the United States, Canada, Colombia, and Australia have also suspended studies on digital currencies, citing the need for further discussions on population impacts. However, in Brazil, the debate on DREX is still limited, with few parliamentarians and political leaders openly discussing the topic. According to Julia, only she and one or two deputies are truly trying to bring this discussion to the Chamber, making DREX’s advance even more concerning.

Bill No. 3,341/2024 and Popular Pressure

For Julia, her bill is a first step. Although she acknowledges that ideally, it would prevent DREX's implementation entirely, PL 3341/2024 is a measure to ensure citizens' choice to use physical money, preserving a form of individual freedom. “If the future means control, I prefer to live in the past,” Julia asserts, reinforcing that the fight for freedom is at the heart of her bill.

However, the deputy emphasizes that none of this will be possible without popular mobilization. According to her, popular pressure is crucial for other deputies to take notice and support PL 3341. “I am only one deputy, and we need the public’s support to raise the project’s visibility,” she explains, encouraging the public to press other parliamentarians and ask them to “pay attention to PL 3341 and the project that prohibits the end of physical money.” The deputy believes that with a strong awareness and pressure movement, it is possible to advance the debate and ensure Brazilians’ financial freedom.

What’s at Stake?

Julia Zanatta leaves no doubt: DREX represents a profound shift in how money will be used and controlled in Brazil. More than a simple modernization of the financial system, the Central Bank’s CBDC sets precedents for an unprecedented level of citizen surveillance and control in the country. For the deputy, this transition needs to be debated broadly and transparently, and it’s up to the Brazilian people to defend their rights and demand that the National Congress discuss these changes responsibly.

The deputy also emphasizes that, regardless of political or partisan views, this issue affects all Brazilians. “This agenda is something that will affect everyone. We need to be united to ensure people understand the gravity of what could happen.” Julia believes that by sharing information and generating open debate, it is possible to prevent Brazil from following the path of countries that have already implemented a digital currency in an authoritarian way.

A Call to Action

The future of physical money in Brazil is at risk. For those who share Deputy Julia Zanatta’s concerns, the time to act is now. Mobilize, get informed, and press your representatives. PL 3341/2024 is an opportunity to ensure that Brazilian citizens have a choice in how to use their money, without excessive state interference or surveillance.

In the end, as the deputy puts it, the central issue is freedom. “My fear is that this project will pass, and people won’t even understand what is happening.” Therefore, may every citizen at least have the chance to understand what’s at stake and make their voice heard in defense of a Brazil where individual freedom and privacy are respected values.

@ eac63075:b4988b48

Imagine sending a private message to a friend, only to learn that authorities could be scanning its contents without your knowledge. This isn't a scene from a dystopian novel but a potential reality under the European Union's proposed "Chat Control" measures. Aimed at combating serious crimes like child exploitation and terrorism, these proposals could significantly impact the privacy of everyday internet users. As encrypted messaging services become the norm for personal and professional communication, understanding Chat Control is essential. This article delves into what Chat Control entails, why it's being considered, and how it could affect your right to private communication.

https://www.fountain.fm/episode/coOFsst7r7mO1EP1kSzV

Sections:

• Introduction
• What Is Chat Control?
• Why Is the EU Pushing for Chat Control?
• The Privacy Concerns and Risks
• The Technical Debate: Encryption and Backdoors
• Global Reactions and the Debate in Europe
• Possible Consequences for Messaging Services
• What Happens Next? The Future of Chat Control
• Conclusion

What Is Chat Control?

"Chat Control" refers to a set of proposed measures by the European Union aimed at monitoring and scanning private communications on messaging platforms. The primary goal is to detect and prevent the spread of illegal content, such as child sexual abuse material (CSAM) and to combat terrorism. While the intention is to enhance security and protect vulnerable populations, these proposals have raised significant privacy concerns.

At its core, Chat Control would require messaging services to implement automated scanning technologies that can analyze the content of messages—even those that are end-to-end encrypted. This means that the private messages you send to friends, family, or colleagues could be subject to inspection by algorithms designed to detect prohibited content.

Origins of the Proposal

The initiative for Chat Control emerged from the EU's desire to strengthen its digital security infrastructure. High-profile cases of online abuse and the use of encrypted platforms by criminal organizations have prompted lawmakers to consider more invasive surveillance tactics. The European Commission has been exploring legislation that would make it mandatory for service providers to monitor communications on their platforms.

How Messaging Services Work

Most modern messaging apps, like Signal, Session, SimpleX, Veilid, Protonmail and Tutanota (among others), use end-to-end encryption (E2EE). This encryption ensures that only the sender and the recipient can read the messages being exchanged. Not even the service providers can access the content. This level of security is crucial for maintaining privacy in digital communications, protecting users from hackers, identity thieves, and other malicious actors.

Key Elements of Chat Control

• Automated Content Scanning: Service providers would use algorithms to scan messages for illegal content.
• Circumvention of Encryption: To scan encrypted messages, providers might need to alter their encryption methods, potentially weakening security.
• Mandatory Reporting: If illegal content is detected, providers would be required to report it to authorities.
• Broad Applicability: The measures could apply to all messaging services operating within the EU, affecting both European companies and international platforms.

Why It Matters

Understanding Chat Control is essential because it represents a significant shift in how digital privacy is handled. While combating illegal activities online is crucial, the methods proposed could set a precedent for mass surveillance and the erosion of privacy rights. Everyday users who rely on encrypted messaging for personal and professional communication might find their conversations are no longer as private as they once thought.

Why Is the EU Pushing for Chat Control?

The European Union's push for Chat Control stems from a pressing concern to protect its citizens, particularly children, from online exploitation and criminal activities. With the digital landscape becoming increasingly integral to daily life, the EU aims to strengthen its ability to combat serious crimes facilitated through online platforms.

Protecting Children and Preventing Crime

One of the primary motivations behind Chat Control is the prevention of child sexual abuse material (CSAM) circulating on the internet. Law enforcement agencies have reported a significant increase in the sharing of illegal content through private messaging services. By implementing Chat Control, the EU believes it can more effectively identify and stop perpetrators, rescue victims, and deter future crimes.

Terrorism is another critical concern. Encrypted messaging apps can be used by terrorist groups to plan and coordinate attacks without detection. The EU argues that accessing these communications could be vital in preventing such threats and ensuring public safety.

Legal Context and Legislative Drivers

The push for Chat Control is rooted in several legislative initiatives:

• ePrivacy Directive: This directive regulates the processing of personal data and the protection of privacy in electronic communications. The EU is considering amendments that would allow for the scanning of private messages under specific circumstances.

• Temporary Derogation: In 2021, the EU adopted a temporary regulation permitting voluntary detection of CSAM by communication services. The current proposals aim to make such measures mandatory and more comprehensive.

• Regulation Proposals: The European Commission has proposed regulations that would require service providers to detect, report, and remove illegal content proactively. This would include the use of technologies to scan private communications.

Balancing Security and Privacy

EU officials argue that the proposed measures are a necessary response to evolving digital threats. They emphasize the importance of staying ahead of criminals who exploit technology to harm others. By implementing Chat Control, they believe law enforcement can be more effective without entirely dismantling privacy protections.

However, the EU also acknowledges the need to balance security with fundamental rights. The proposals include provisions intended to limit the scope of surveillance, such as:

• Targeted Scanning: Focusing on specific threats rather than broad, indiscriminate monitoring.

• Judicial Oversight: Requiring court orders or oversight for accessing private communications.

• Data Protection Safeguards: Implementing measures to ensure that data collected is handled securely and deleted when no longer needed.

The Urgency Behind the Push

High-profile cases of online abuse and terrorism have heightened the sense of urgency among EU policymakers. Reports of increasing online grooming and the widespread distribution of illegal content have prompted calls for immediate action. The EU posits that without measures like Chat Control, these problems will continue to escalate unchecked.

Criticism and Controversy

Despite the stated intentions, the push for Chat Control has been met with significant criticism. Opponents argue that the measures could be ineffective against savvy criminals who can find alternative ways to communicate. There is also concern that such surveillance could be misused or extended beyond its original purpose.

The Privacy Concerns and Risks

While the intentions behind Chat Control focus on enhancing security and protecting vulnerable groups, the proposed measures raise significant privacy concerns. Critics argue that implementing such surveillance could infringe on fundamental rights and set a dangerous precedent for mass monitoring of private communications.

Infringement on Privacy Rights

At the heart of the debate is the right to privacy. By scanning private messages, even with automated tools, the confidentiality of personal communications is compromised. Users may no longer feel secure sharing sensitive information, fearing that their messages could be intercepted or misinterpreted by algorithms.

Erosion of End-to-End Encryption

End-to-end encryption (E2EE) is a cornerstone of digital security, ensuring that only the sender and recipient can read the messages exchanged. Chat Control could necessitate the introduction of "backdoors" or weaken encryption protocols, making it easier for unauthorized parties to access private data. This not only affects individual privacy but also exposes communications to potential cyber threats.

Concerns from Privacy Advocates

Organizations like Signal and Tutanota, which offer encrypted messaging services, have voiced strong opposition to Chat Control. They warn that undermining encryption could have far-reaching consequences:

• Security Risks: Weakening encryption makes systems more vulnerable to hacking, espionage, and cybercrime.
• Global Implications: Changes in EU regulations could influence policies worldwide, leading to a broader erosion of digital privacy.
• Ineffectiveness Against Crime: Determined criminals might resort to other, less detectable means of communication, rendering the measures ineffective while still compromising the privacy of law-abiding citizens.

Potential for Government Overreach

There is a fear that Chat Control could lead to increased surveillance beyond its original scope. Once the infrastructure for scanning private messages is in place, it could be repurposed or expanded to monitor other types of content, stifling free expression and dissent.

Real-World Implications for Users

• False Positives: Automated scanning technologies are not infallible and could mistakenly flag innocent content, leading to unwarranted scrutiny or legal consequences for users.
• Chilling Effect: Knowing that messages could be monitored might discourage people from expressing themselves freely, impacting personal relationships and societal discourse.
• Data Misuse: Collected data could be vulnerable to leaks or misuse, compromising personal and sensitive information.

Legal and Ethical Concerns

Privacy advocates also highlight potential conflicts with existing laws and ethical standards:

• Violation of Fundamental Rights: The European Convention on Human Rights and other international agreements protect the right to privacy and freedom of expression.
• Questionable Effectiveness: The ethical justification for such invasive measures is challenged if they do not significantly improve safety or if they disproportionately impact innocent users.

Opposition from Member States and Organizations

Countries like Germany and organizations such as the European Digital Rights (EDRi) have expressed opposition to Chat Control. They emphasize the need to protect digital privacy and caution against hasty legislation that could have unintended consequences.

The Technical Debate: Encryption and Backdoors

The discussion around Chat Control inevitably leads to a complex technical debate centered on encryption and the potential introduction of backdoors into secure communication systems. Understanding these concepts is crucial to grasping the full implications of the proposed measures.

What Is End-to-End Encryption (E2EE)?

End-to-end encryption is a method of secure communication that prevents third parties from accessing data while it's transferred from one end system to another. In simpler terms, only the sender and the recipient can read the messages. Even the service providers operating the messaging platforms cannot decrypt the content.

• Security Assurance: E2EE ensures that sensitive information—be it personal messages, financial details, or confidential business communications—remains private.
• Widespread Use: Popular messaging apps like Signal, Session, SimpleX, Veilid, Protonmail and Tutanota (among others) rely on E2EE to protect user data.

How Chat Control Affects Encryption

Implementing Chat Control as proposed would require messaging services to scan the content of messages for illegal material. To do this on encrypted platforms, providers might have to:

• Introduce Backdoors: Create a means for third parties (including the service provider or authorities) to access encrypted messages.
• Client-Side Scanning: Install software on users' devices that scans messages before they are encrypted and sent, effectively bypassing E2EE.

The Risks of Weakening Encryption

1. Compromised Security for All Users

Introducing backdoors or client-side scanning tools can create vulnerabilities:

• Exploitable Gaps: If a backdoor exists, malicious actors might find and exploit it, leading to data breaches.
• Universal Impact: Weakening encryption doesn't just affect targeted individuals; it potentially exposes all users to increased risk.

2. Undermining Trust in Digital Services

• User Confidence: Knowing that private communications could be accessed might deter people from using digital services or push them toward unregulated platforms.
• Business Implications: Companies relying on secure communications might face increased risks, affecting economic activities.

3. Ineffectiveness Against Skilled Adversaries

• Alternative Methods: Criminals might shift to other encrypted channels or develop new ways to avoid detection.
• False Sense of Security: Weakening encryption could give the impression of increased safety while adversaries adapt and continue their activities undetected.

Signal’s Response and Stance

Signal, a leading encrypted messaging service, has been vocal in its opposition to the EU's proposals:

• Refusal to Weaken Encryption: Signal's CEO Meredith Whittaker has stated that the company would rather cease operations in the EU than compromise its encryption standards.
• Advocacy for Privacy: Signal emphasizes that strong encryption is essential for protecting human rights and freedoms in the digital age.

Understanding Backdoors

A "backdoor" in encryption is an intentional weakness inserted into a system to allow authorized access to encrypted data. While intended for legitimate use by authorities, backdoors pose several problems:

• Security Vulnerabilities: They can be discovered and exploited by unauthorized parties, including hackers and foreign governments.
• Ethical Concerns: The existence of backdoors raises questions about consent and the extent to which governments should be able to access private communications.

The Slippery Slope Argument

Privacy advocates warn that introducing backdoors or mandatory scanning sets a precedent:

• Expanded Surveillance: Once in place, these measures could be extended to monitor other types of content beyond the original scope.
• Erosion of Rights: Gradual acceptance of surveillance can lead to a significant reduction in personal freedoms over time.

Potential Technological Alternatives

Some suggest that it's possible to fight illegal content without undermining encryption:

• Metadata Analysis: Focusing on patterns of communication rather than content.
• Enhanced Reporting Mechanisms: Encouraging users to report illegal content voluntarily.
• Investing in Law Enforcement Capabilities: Strengthening traditional investigative methods without compromising digital security.

Conclusion of the Technical Debate

The technical community largely agrees that weakening encryption is not the solution:

• Consensus on Security: Strong encryption is essential for the safety and privacy of all internet users.
• Call for Dialogue: Technologists and privacy experts advocate for collaborative approaches that address security concerns without sacrificing fundamental rights.

Global Reactions and the Debate in Europe

The proposal for Chat Control has ignited a heated debate across Europe and beyond, with various stakeholders weighing in on the potential implications for privacy, security, and fundamental rights. The reactions are mixed, reflecting differing national perspectives, political priorities, and societal values.

Support for Chat Control

Some EU member states and officials support the initiative, emphasizing the need for robust measures to combat online crime and protect citizens, especially children. They argue that:

• Enhanced Security: Mandatory scanning can help law enforcement agencies detect and prevent serious crimes.
• Responsibility of Service Providers: Companies offering communication services should play an active role in preventing their platforms from being used for illegal activities.
• Public Safety Priorities: The protection of vulnerable populations justifies the implementation of such measures, even if it means compromising some aspects of privacy.

Opposition within the EU

Several countries and organizations have voiced strong opposition to Chat Control, citing concerns over privacy rights and the potential for government overreach.

Germany

• Stance: Germany has been one of the most vocal opponents of the proposed measures.
• Reasons:
• Constitutional Concerns: The German government argues that Chat Control could violate constitutional protections of privacy and confidentiality of communications.
• Security Risks: Weakening encryption is seen as a threat to cybersecurity.
• Legal Challenges: Potential conflicts with national laws protecting personal data and communication secrecy.

Netherlands

• Recent Developments: The Dutch government decided against supporting Chat Control, emphasizing the importance of encryption for security and privacy.
• Arguments:
• Effectiveness Doubts: Skepticism about the actual effectiveness of the measures in combating crime.
• Negative Impact on Privacy: Concerns about mass surveillance and the infringement of citizens' rights.

Table reference: Patrick Breyer - Chat Control in 23 September 2024

Privacy Advocacy Groups

European Digital Rights (EDRi)

• Role: A network of civil and human rights organizations working to defend rights and freedoms in the digital environment.
• Position:
• Strong Opposition: EDRi argues that Chat Control is incompatible with fundamental rights.
• Awareness Campaigns: Engaging in public campaigns to inform citizens about the potential risks.
• Policy Engagement: Lobbying policymakers to consider alternative approaches that respect privacy.

Politicians and Activists

Patrick Breyer

• Background: A Member of the European Parliament (MEP) from Germany, representing the Pirate Party.
• Actions:
• Advocacy: Actively campaigning against Chat Control through speeches, articles, and legislative efforts.
• Public Outreach: Using social media and public events to raise awareness.
• Legal Expertise: Highlighting the legal inconsistencies and potential violations of EU law.

Global Reactions

International Organizations

• Human Rights Watch and Amnesty International: These organizations have expressed concerns about the implications for human rights, urging the EU to reconsider.

Technology Companies

• Global Tech Firms: Companies like Apple and Microsoft are monitoring the situation, as EU regulations could affect their operations and user trust.
• Industry Associations: Groups representing tech companies have issued statements highlighting the risks to innovation and competitiveness.

The Broader Debate

The controversy over Chat Control reflects a broader struggle between security interests and privacy rights in the digital age. Key points in the debate include:

• Legal Precedents: How the EU's decision might influence laws and regulations in other countries.
• Digital Sovereignty: The desire of nations to control digital spaces within their borders.
• Civil Liberties: The importance of protecting freedoms in the face of technological advancements.

Public Opinion

• Diverse Views: Surveys and public forums show a range of opinions, with some citizens prioritizing security and others valuing privacy above all.
• Awareness Levels: Many people are still unaware of the potential changes, highlighting the need for public education on the issue.

Conclusion of the Debate

The EU is at a crossroads, facing the challenge of addressing legitimate security concerns without undermining the fundamental rights that are central to its values. The outcome of this debate will have significant implications for the future of digital privacy and the balance between security and freedom in society.

Possible Consequences for Messaging Services

The implementation of Chat Control could have significant implications for messaging services operating within the European Union. Both large platforms and smaller providers might need to adapt their technologies and policies to comply with the new regulations, potentially altering the landscape of digital communication.

Impact on Encrypted Messaging Services

Signal and Similar Platforms

• Compliance Challenges: Encrypted messaging services like Signal rely on end-to-end encryption to secure user communications. Complying with Chat Control could force them to weaken their encryption protocols or implement client-side scanning, conflicting with their core privacy principles.

• Operational Decisions: Some platforms may choose to limit their services in the EU or cease operations altogether rather than compromise on encryption. Signal, for instance, has indicated that it would prefer to withdraw from European markets than undermine its security features.

Potential Blocking or Limiting of Services

• Regulatory Enforcement: Messaging services that do not comply with Chat Control regulations could face fines, legal action, or even be blocked within the EU.

• Access Restrictions: Users in Europe might find certain services unavailable or limited in functionality if providers decide not to meet the regulatory requirements.

Effects on Smaller Providers

• Resource Constraints: Smaller messaging services and startups may lack the resources to implement the required scanning technologies, leading to increased operational costs or forcing them out of the market.

• Innovation Stifling: The added regulatory burden could deter new entrants, reducing competition and innovation in the messaging service sector.

User Experience and Trust

• Privacy Concerns: Users may lose trust in messaging platforms if they know their communications are subject to scanning, leading to a decline in user engagement.

• Migration to Unregulated Platforms: There is a risk that users might shift to less secure or unregulated services, including those operated outside the EU or on the dark web, potentially exposing them to greater risks.

Technical and Security Implications

• Increased Vulnerabilities: Modifying encryption protocols to comply with Chat Control could introduce security flaws, making platforms more susceptible to hacking and data breaches.

• Global Security Risks: Changes made to accommodate EU regulations might affect the global user base of these services, extending security risks beyond European borders.

Impact on Businesses and Professional Communications

• Confidentiality Issues: Businesses that rely on secure messaging for sensitive communications may face challenges in ensuring confidentiality, affecting sectors like finance, healthcare, and legal services.

• Compliance Complexity: Companies operating internationally will need to navigate a complex landscape of differing regulations, increasing administrative burdens.

Economic Consequences

• Market Fragmentation: Divergent regulations could lead to a fragmented market, with different versions of services for different regions.

• Loss of Revenue: Messaging services might experience reduced revenue due to decreased user trust and engagement or the costs associated with compliance.

Responses from Service Providers

• Legal Challenges: Companies might pursue legal action against the regulations, citing conflicts with privacy laws and user rights.

• Policy Advocacy: Service providers may increase lobbying efforts to influence policy decisions and promote alternatives to Chat Control.

Possible Adaptations

• Technological Innovation: Some providers might invest in developing new technologies that can detect illegal content without compromising encryption, though the feasibility remains uncertain.

• Transparency Measures: To maintain user trust, companies might enhance transparency about how data is handled and what measures are in place to protect privacy.

Summary of Consequences

The potential consequences of Chat Control for messaging services are profound, affecting not only the companies that provide these services but also the users who rely on them daily. The balance between complying with legal requirements and maintaining user privacy and security presents a significant challenge that could reshape the digital communication landscape.

What Happens Next? The Future of Chat Control

The future of Chat Control remains uncertain as the debate continues among EU member states, policymakers, technology companies, and civil society organizations. Several factors will influence the outcome of this contentious proposal, each carrying significant implications for digital privacy, security, and the regulatory environment within the European Union.

Current Status of Legislation

• Ongoing Negotiations: The proposed Chat Control measures are still under discussion within the European Parliament and the Council of the European Union. Amendments and revisions are being considered in response to the feedback from various stakeholders.

• Timeline: While there is no fixed date for the final decision, the EU aims to reach a consensus to implement effective measures against online crime without undue delay.

Key Influencing Factors

1. Legal Challenges and Compliance with EU Law

• Fundamental Rights Assessment: The proposals must be evaluated against the Charter of Fundamental Rights of the European Union, ensuring that any measures comply with rights to privacy, data protection, and freedom of expression.

• Court Scrutiny: Potential legal challenges could arise, leading to scrutiny by the European Court of Justice (ECJ), which may impact the feasibility and legality of Chat Control.

2. Technological Feasibility

• Development of Privacy-Preserving Technologies: Research into methods that can detect illegal content without compromising encryption is ongoing. Advances in this area could provide alternative solutions acceptable to both privacy advocates and security agencies.

• Implementation Challenges: The practical aspects of deploying scanning technologies across various platforms and services remain complex, and technical hurdles could delay or alter the proposed measures.

3. Political Dynamics

• Member State Positions: The differing stances of EU countries, such as Germany's opposition, play a significant role in shaping the final outcome. Consensus among member states is crucial for adopting EU-wide regulations.

• Public Opinion and Advocacy: Growing awareness and activism around digital privacy can influence policymakers. Public campaigns and lobbying efforts may sway decisions in favor of stronger privacy protections.

4. Industry Responses

• Negotiations with Service Providers: Ongoing dialogues between EU authorities and technology companies may lead to compromises or collaborative efforts to address concerns without fully implementing Chat Control as initially proposed.

• Potential for Self-Regulation: Messaging services might propose self-regulatory measures to combat illegal content, aiming to demonstrate effectiveness without the need for mandatory scanning.

Possible Scenarios

Optimistic Outcome:

• Balanced Regulation: A revised proposal emerges that effectively addresses security concerns while upholding strong encryption and privacy rights, possibly through innovative technologies or targeted measures with robust oversight.

Pessimistic Outcome:

• Adoption of Strict Measures: Chat Control is implemented as initially proposed, leading to weakened encryption, reduced privacy, and potential withdrawal of services like Signal from the EU market.

Middle Ground:

• Incremental Implementation: Partial measures are adopted, focusing on voluntary cooperation with service providers and emphasizing transparency and user consent, with ongoing evaluations to assess effectiveness and impact.

How to Stay Informed and Protect Your Privacy

• Follow Reputable Sources: Keep up with news from reliable outlets, official EU communications, and statements from privacy organizations to stay informed about developments.

• Engage in the Dialogue: Participate in public consultations, sign petitions, or contact representatives to express your views on Chat Control and digital privacy.

• Utilize Secure Practices: Regardless of legislative outcomes, adopting good digital hygiene—such as using strong passwords and being cautious with personal information—can enhance your online security.

The Global Perspective

• International Implications: The EU's decision may influence global policies on encryption and surveillance, setting precedents that other countries might follow or react against.

• Collaboration Opportunities: International cooperation on developing solutions that protect both security and privacy could emerge, fostering a more unified approach to addressing online threats.

Looking Ahead

The future of Chat Control is a critical issue that underscores the challenges of governing in the digital age. Balancing the need for security with the protection of fundamental rights is a complex task that requires careful consideration, open dialogue, and collaboration among all stakeholders.

As the situation evolves, staying informed and engaged is essential. The decisions made in the coming months will shape the digital landscape for years to come, affecting how we communicate, conduct business, and exercise our rights in an increasingly connected world.

Conclusion

The debate over Chat Control highlights a fundamental challenge in our increasingly digital world: how to protect society from genuine threats without eroding the very rights and freedoms that define it. While the intention to safeguard children and prevent crime is undeniably important, the means of achieving this through intrusive surveillance measures raise critical concerns.

Privacy is not just a personal preference but a cornerstone of democratic societies. End-to-end encryption has become an essential tool for ensuring that our personal conversations, professional communications, and sensitive data remain secure from unwanted intrusion. Weakening these protections could expose individuals and organizations to risks that far outweigh the proposed benefits.

The potential consequences of implementing Chat Control are far-reaching:

• Erosion of Trust: Users may lose confidence in digital platforms, impacting how we communicate and conduct business online.
• Security Vulnerabilities: Introducing backdoors or weakening encryption can make systems more susceptible to cyberattacks.
• Stifling Innovation: Regulatory burdens may hinder technological advancement and competitiveness in the tech industry.
• Global Implications: The EU's decisions could set precedents that influence digital policies worldwide, for better or worse.

As citizens, it's crucial to stay informed about these developments. Engage in conversations, reach out to your representatives, and advocate for solutions that respect both security needs and fundamental rights. Technology and policy can evolve together to address challenges without compromising core values.

The future of Chat Control is not yet decided, and public input can make a significant difference. By promoting open dialogue, supporting privacy-preserving innovations, and emphasizing the importance of human rights in legislation, we can work towards a digital landscape that is both safe and free.

In a world where digital communication is integral to daily life, striking the right balance between security and privacy is more important than ever. The choices made today will shape the digital environment for generations to come, determining not just how we communicate, but how we live and interact in an interconnected world.

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Thank you for reading this article. We hope it has provided you with a clear understanding of Chat Control and its potential impact on your privacy and digital rights. Stay informed, stay engaged, and let's work together towards a secure and open digital future.

Read more:

• https://www.patrick-breyer.de/en/posts/chat-control/
• https://www.patrick-breyer.de/en/new-eu-push-for-chat-control-will-messenger-services-be-blocked-in-europe/
• https://edri.org/our-work/dutch-decision-puts-brakes-on-chat-control/
• https://signal.org/blog/pdfs/ndss-keynote.pdf
• https://tuta.com/blog/germany-stop-chat-control
• https://cointelegraph.com/news/signal-president-slams-revised-eu-encryption-proposal
• https://mullvad.net/en/why-privacy-matters

@ 4ba8e86d:89d32de4

O que é Cwtch? Cwtch (/kʊtʃ/ - uma palavra galesa que pode ser traduzida aproximadamente como “um abraço que cria um lugar seguro”) é um protocolo de mensagens multipartidário descentralizado, que preserva a privacidade, que pode ser usado para construir aplicativos resistentes a metadados.

Como posso pronunciar Cwtch? Como "kutch", para rimar com "butch".

Descentralizado e Aberto : Não existe “serviço Cwtch” ou “rede Cwtch”. Os participantes do Cwtch podem hospedar seus próprios espaços seguros ou emprestar sua infraestrutura para outras pessoas que buscam um espaço seguro. O protocolo Cwtch é aberto e qualquer pessoa é livre para criar bots, serviços e interfaces de usuário e integrar e interagir com o Cwtch.

Preservação de privacidade : toda a comunicação no Cwtch é criptografada de ponta a ponta e ocorre nos serviços cebola Tor v3.

Resistente a metadados : O Cwtch foi projetado de forma que nenhuma informação seja trocada ou disponibilizada a ninguém sem seu consentimento explícito, incluindo mensagens durante a transmissão e metadados de protocolo

Uma breve história do bate-papo resistente a metadados Nos últimos anos, a conscientização pública sobre a necessidade e os benefícios das soluções criptografadas de ponta a ponta aumentou com aplicativos como Signal , Whatsapp e Wire. que agora fornecem aos usuários comunicações seguras.

No entanto, essas ferramentas exigem vários níveis de exposição de metadados para funcionar, e muitos desses metadados podem ser usados ​​para obter detalhes sobre como e por que uma pessoa está usando uma ferramenta para se comunicar.

Uma ferramenta que buscou reduzir metadados é o Ricochet lançado pela primeira vez em 2014. Ricochet usou os serviços cebola Tor v2 para fornecer comunicação criptografada segura de ponta a ponta e para proteger os metadados das comunicações.

Não havia servidores centralizados que auxiliassem no roteamento das conversas do Ricochet. Ninguém além das partes envolvidas em uma conversa poderia saber que tal conversa está ocorrendo.

Ricochet tinha limitações; não havia suporte para vários dispositivos, nem existe um mecanismo para suportar a comunicação em grupo ou para um usuário enviar mensagens enquanto um contato está offline.

Isto tornou a adoção do Ricochet uma proposta difícil; mesmo aqueles em ambientes que seriam melhor atendidos pela resistência aos metadados, sem saber que ela existe.

Além disso, qualquer solução para comunicação descentralizada e resistente a metadados enfrenta problemas fundamentais quando se trata de eficiência, privacidade e segurança de grupo conforme definido pelo consenso e consistência da transcrição.

Alternativas modernas ao Ricochet incluem Briar , Zbay e Ricochet Refresh - cada ferramenta procura otimizar para um conjunto diferente de compensações, por exemplo, Briar procura permitir que as pessoas se comuniquem mesmo quando a infraestrutura de rede subjacente está inoperante, ao mesmo tempo que fornece resistência à vigilância de metadados.

O projeto Cwtch começou em 2017 como um protocolo de extensão para Ricochet, fornecendo conversas em grupo por meio de servidores não confiáveis, com o objetivo de permitir aplicativos descentralizados e resistentes a metadados como listas compartilhadas e quadros de avisos.

Uma versão alfa do Cwtch foi lançada em fevereiro de 2019 e, desde então, a equipe do Cwtch dirigida pela OPEN PRIVACY RESEARCH SOCIETY conduziu pesquisa e desenvolvimento em cwtch e nos protocolos, bibliotecas e espaços de problemas subjacentes.

Modelo de Risco.

Sabe-se que os metadados de comunicações são explorados por vários adversários para minar a segurança dos sistemas, para rastrear vítimas e para realizar análises de redes sociais em grande escala para alimentar a vigilância em massa. As ferramentas resistentes a metadados estão em sua infância e faltam pesquisas sobre a construção e a experiência do usuário de tais ferramentas.

https://nostrcheck.me/media/public/nostrcheck.me_9475702740746681051707662826.webp

O Cwtch foi originalmente concebido como uma extensão do protocolo Ricochet resistente a metadados para suportar comunicações assíncronas de grupos multiponto por meio do uso de infraestrutura anônima, descartável e não confiável.

Desde então, o Cwtch evoluiu para um protocolo próprio. Esta seção descreverá os vários riscos conhecidos que o Cwtch tenta mitigar e será fortemente referenciado no restante do documento ao discutir os vários subcomponentes da Arquitetura Cwtch.

Modelo de ameaça.

É importante identificar e compreender que os metadados são omnipresentes nos protocolos de comunicação; é de facto necessário que tais protocolos funcionem de forma eficiente e em escala. No entanto, as informações que são úteis para facilitar peers e servidores também são altamente relevantes para adversários que desejam explorar tais informações.

Para a definição do nosso problema, assumiremos que o conteúdo de uma comunicação é criptografado de tal forma que um adversário é praticamente incapaz de quebrá-lo veja tapir e cwtch para detalhes sobre a criptografia que usamos, e como tal nos concentraremos em o contexto para os metadados de comunicação.

Procuramos proteger os seguintes contextos de comunicação:

• Quem está envolvido em uma comunicação? Pode ser possível identificar pessoas ou simplesmente identificadores de dispositivos ou redes. Por exemplo, “esta comunicação envolve Alice, uma jornalista, e Bob, um funcionário público”.

• Onde estão os participantes da conversa? Por exemplo, “durante esta comunicação, Alice estava na França e Bob estava no Canadá”.

• Quando ocorreu uma conversa? O momento e a duração da comunicação podem revelar muito sobre a natureza de uma chamada, por exemplo, “Bob, um funcionário público, conversou com Alice ao telefone por uma hora ontem à noite. Esta é a primeira vez que eles se comunicam.” *Como a conversa foi mediada? O fato de uma conversa ter ocorrido por meio de um e-mail criptografado ou não criptografado pode fornecer informações úteis. Por exemplo, “Alice enviou um e-mail criptografado para Bob ontem, enquanto eles normalmente enviam apenas e-mails de texto simples um para o outro”.

• Sobre o que é a conversa? Mesmo que o conteúdo da comunicação seja criptografado, às vezes é possível derivar um contexto provável de uma conversa sem saber exatamente o que é dito, por exemplo, “uma pessoa ligou para uma pizzaria na hora do jantar” ou “alguém ligou para um número conhecido de linha direta de suicídio na hora do jantar”. 3 horas da manhã."

Além das conversas individuais, também procuramos defender-nos contra ataques de correlação de contexto, através dos quais múltiplas conversas são analisadas para obter informações de nível superior:

• Relacionamentos: Descobrir relações sociais entre um par de entidades analisando a frequência e a duração de suas comunicações durante um período de tempo. Por exemplo, Carol e Eve ligam uma para a outra todos os dias durante várias horas seguidas.

• Cliques: Descobrir relações sociais entre um grupo de entidades que interagem entre si. Por exemplo, Alice, Bob e Eva se comunicam entre si.

• Grupos vagamente conectados e indivíduos-ponte: descobrir grupos que se comunicam entre si através de intermediários, analisando cadeias de comunicação (por exemplo, toda vez que Alice fala com Bob, ela fala com Carol quase imediatamente depois; Bob e Carol nunca se comunicam).

• Padrão de Vida: Descobrir quais comunicações são cíclicas e previsíveis. Por exemplo, Alice liga para Eve toda segunda-feira à noite por cerca de uma hora. Ataques Ativos

Ataques de deturpação.

O Cwtch não fornece registro global de nomes de exibição e, como tal, as pessoas que usam o Cwtch são mais vulneráveis ​​a ataques baseados em declarações falsas, ou seja, pessoas que fingem ser outras pessoas:

O fluxo básico de um desses ataques é o seguinte, embora também existam outros fluxos:

•Alice tem um amigo chamado Bob e outro chamado Eve

• Eve descobre que Alice tem um amigo chamado Bob

• Eve cria milhares de novas contas para encontrar uma que tenha uma imagem/chave pública semelhante à de Bob (não será idêntica, mas pode enganar alguém por alguns minutos)

• Eve chama essa nova conta de "Eve New Account" e adiciona Alice como amiga.

• Eve então muda seu nome em "Eve New Account" para "Bob"

• Alice envia mensagens destinadas a "Bob" para a conta falsa de Bob de Eve Como os ataques de declarações falsas são inerentemente uma questão de confiança e verificação, a única maneira absoluta de evitá-los é os usuários validarem absolutamente a chave pública. Obviamente, isso não é o ideal e, em muitos casos, simplesmente não acontecerá .

Como tal, pretendemos fornecer algumas dicas de experiência do usuário na interface do usuário para orientar as pessoas na tomada de decisões sobre confiar em contas e/ou distinguir contas que possam estar tentando se representar como outros usuários.

Uma nota sobre ataques físicos A Cwtch não considera ataques que exijam acesso físico (ou equivalente) à máquina do usuário como praticamente defensáveis. No entanto, no interesse de uma boa engenharia de segurança, ao longo deste documento ainda nos referiremos a ataques ou condições que exigem tal privilégio e indicaremos onde quaisquer mitigações que implementámos falharão.

Um perfil Cwtch.

Os usuários podem criar um ou mais perfis Cwtch. Cada perfil gera um par de chaves ed25519 aleatório compatível com Tor.

Além do material criptográfico, um perfil também contém uma lista de Contatos (outras chaves públicas do perfil Cwtch + dados associados sobre esse perfil, como apelido e (opcionalmente) mensagens históricas), uma lista de Grupos (contendo o material criptográfico do grupo, além de outros dados associados, como apelido do grupo e mensagens históricas).

Conversões entre duas partes: ponto a ponto

https://nostrcheck.me/media/public/nostrcheck.me_2186338207587396891707662879.webp

Para que duas partes participem de uma conversa ponto a ponto, ambas devem estar on-line, mas apenas uma precisa estar acessível por meio do serviço Onion. Por uma questão de clareza, muitas vezes rotulamos uma parte como “ponto de entrada” (aquele que hospeda o serviço cebola) e a outra parte como “ponto de saída” (aquele que se conecta ao serviço cebola).

Após a conexão, ambas as partes adotam um protocolo de autenticação que:

• Afirma que cada parte tem acesso à chave privada associada à sua identidade pública.

• Gera uma chave de sessão efêmera usada para criptografar todas as comunicações futuras durante a sessão.

Esta troca (documentada com mais detalhes no protocolo de autenticação ) é negável offline , ou seja, é possível para qualquer parte falsificar transcrições desta troca de protocolo após o fato e, como tal - após o fato - é impossível provar definitivamente que a troca aconteceu de forma alguma.

Após o protocolo de autenticação, as duas partes podem trocar mensagens livremente.

Conversas em Grupo e Comunicação Ponto a Servidor

Ao iniciar uma conversa em grupo, é gerada uma chave aleatória para o grupo, conhecida como Group Key. Todas as comunicações do grupo são criptografadas usando esta chave. Além disso, o criador do grupo escolhe um servidor Cwtch para hospedar o grupo. Um convite é gerado, incluindo o Group Key, o servidor do grupo e a chave do grupo, para ser enviado aos potenciais membros.

Para enviar uma mensagem ao grupo, um perfil se conecta ao servidor do grupo e criptografa a mensagem usando a Group Key, gerando também uma assinatura sobre o Group ID, o servidor do grupo e a mensagem. Para receber mensagens do grupo, um perfil se conecta ao servidor e baixa as mensagens, tentando descriptografá-las usando a Group Key e verificando a assinatura.

Detalhamento do Ecossistema de Componentes

O Cwtch é composto por várias bibliotecas de componentes menores, cada uma desempenhando um papel específico. Algumas dessas bibliotecas incluem:

• abertoprivacidade/conectividade: Abstração de rede ACN, atualmente suportando apenas Tor.
• cwtch.im/tapir: Biblioteca para construção de aplicativos p2p em sistemas de comunicação anônimos.
• cwtch.im/cwtch: Biblioteca principal para implementação do protocolo/sistema Cwtch.
• cwtch.im/libcwtch-go: Fornece ligações C para Cwtch para uso em implementações de UI.

TAPIR: Uma Visão Detalhada

Projetado para substituir os antigos canais de ricochete baseados em protobuf, o Tapir fornece uma estrutura para a construção de aplicativos anônimos.

Está dividido em várias camadas:

• Identidade - Um par de chaves ed25519, necessário para estabelecer um serviço cebola Tor v3 e usado para manter uma identidade criptográfica consistente para um par.

• Conexões – O protocolo de rede bruto que conecta dois pares. Até agora, as conexões são definidas apenas através do Tor v3 Onion Services.

• Aplicativos - As diversas lógicas que permitem um determinado fluxo de informações em uma conexão. Os exemplos incluem transcrições criptográficas compartilhadas, autenticação, proteção contra spam e serviços baseados em tokens. Os aplicativos fornecem recursos que podem ser referenciados por outros aplicativos para determinar se um determinado peer tem a capacidade de usar um determinado aplicativo hospedado.

• Pilhas de aplicativos - Um mecanismo para conectar mais de um aplicativo, por exemplo, a autenticação depende de uma transcrição criptográfica compartilhada e o aplicativo peer cwtch principal é baseado no aplicativo de autenticação.

Identidade.

Um par de chaves ed25519, necessário para estabelecer um serviço cebola Tor v3 e usado para manter uma identidade criptográfica consistente para um peer.

InitializeIdentity - de um par de chaves conhecido e persistente:i,I

InitializeEphemeralIdentity - de um par de chaves aleatório: ie,Ie

Aplicativos de transcrição.

Inicializa uma transcrição criptográfica baseada em Merlin que pode ser usada como base de protocolos baseados em compromisso de nível superior

O aplicativo de transcrição entrará em pânico se um aplicativo tentar substituir uma transcrição existente por uma nova (aplicando a regra de que uma sessão é baseada em uma e apenas uma transcrição).

Merlin é uma construção de transcrição baseada em STROBE para provas de conhecimento zero. Ele automatiza a transformação Fiat-Shamir, para que, usando Merlin, protocolos não interativos possam ser implementados como se fossem interativos.

Isto é significativamente mais fácil e menos sujeito a erros do que realizar a transformação manualmente e, além disso, também fornece suporte natural para:

• protocolos multi-round com fases alternadas de commit e desafio;

• separação natural de domínios, garantindo que os desafios estejam vinculados às afirmações a serem provadas;

• enquadramento automático de mensagens, evitando codificação ambígua de dados de compromisso;

• e composição do protocolo, usando uma transcrição comum para vários protocolos.

Finalmente, o Merlin também fornece um gerador de números aleatórios baseado em transcrição como defesa profunda contra ataques de entropia ruim (como reutilização de nonce ou preconceito em muitas provas). Este RNG fornece aleatoriedade sintética derivada de toda a transcrição pública, bem como dos dados da testemunha do provador e uma entrada auxiliar de um RNG externo.

Conectividade Cwtch faz uso do Tor Onion Services (v3) para todas as comunicações entre nós.

Fornecemos o pacote openprivacy/connectivity para gerenciar o daemon Tor e configurar e desmontar serviços cebola através do Tor.

Criptografia e armazenamento de perfil.

Os perfis são armazenados localmente no disco e criptografados usando uma chave derivada de uma senha conhecida pelo usuário (via pbkdf2).

Observe que, uma vez criptografado e armazenado em disco, a única maneira de recuperar um perfil é recuperando a senha - como tal, não é possível fornecer uma lista completa de perfis aos quais um usuário pode ter acesso até inserir uma senha.

Perfis não criptografados e a senha padrão Para lidar com perfis "não criptografados" (ou seja, que não exigem senha para serem abertos), atualmente criamos um perfil com uma senha codificada de fato .

Isso não é o ideal, preferiríamos confiar no material de chave fornecido pelo sistema operacional, de modo que o perfil fosse vinculado a um dispositivo específico, mas esses recursos são atualmente uma colcha de retalhos - também notamos, ao criar um perfil não criptografado, pessoas que usam Cwtch estão explicitamente optando pelo risco de que alguém com acesso ao sistema de arquivos possa descriptografar seu perfil.

Vulnerabilidades Relacionadas a Imagens e Entrada de Dados

Imagens Maliciosas

O Cwtch enfrenta desafios na renderização de imagens, com o Flutter utilizando Skia, embora o código subjacente não seja totalmente seguro para a memória.

Realizamos testes de fuzzing nos componentes Cwtch e encontramos um bug de travamento causado por um arquivo GIF malformado, levando a falhas no kernel. Para mitigar isso, adotamos a política de sempre habilitar cacheWidth e/ou cacheHeight máximo para widgets de imagem.

Identificamos o risco de imagens maliciosas serem renderizadas de forma diferente em diferentes plataformas, como evidenciado por um bug no analisador PNG da Apple.

Riscos de Entrada de Dados

Um risco significativo é a interceptação de conteúdo ou metadados por meio de um Input Method Editor (IME) em dispositivos móveis. Mesmo aplicativos IME padrão podem expor dados por meio de sincronização na nuvem, tradução online ou dicionários pessoais.

Implementamos medidas de mitigação, como enableIMEPersonalizedLearning: false no Cwtch 1.2, mas a solução completa requer ações em nível de sistema operacional e é um desafio contínuo para a segurança móvel.

Servidor Cwtch.

O objetivo do protocolo Cwtch é permitir a comunicação em grupo através de infraestrutura não confiável .

Ao contrário dos esquemas baseados em retransmissão, onde os grupos atribuem um líder, um conjunto de líderes ou um servidor confiável de terceiros para garantir que cada membro do grupo possa enviar e receber mensagens em tempo hábil (mesmo que os membros estejam offline) - infraestrutura não confiável tem o objetivo de realizar essas propriedades sem a suposição de confiança.

O artigo original do Cwtch definia um conjunto de propriedades que se esperava que os servidores Cwtch fornecessem:

• O Cwtch Server pode ser usado por vários grupos ou apenas um.

• Um servidor Cwtch, sem a colaboração de um membro do grupo, nunca deve aprender a identidade dos participantes de um grupo.

• Um servidor Cwtch nunca deve aprender o conteúdo de qualquer comunicação.

• Um servidor Cwtch nunca deve ser capaz de distinguir mensagens como pertencentes a um grupo específico. Observamos aqui que essas propriedades são um superconjunto dos objetivos de design das estruturas de Recuperação de Informações Privadas.

Melhorias na Eficiência e Segurança

Eficiência do Protocolo

Atualmente, apenas um protocolo conhecido, o PIR ingênuo, atende às propriedades desejadas para garantir a privacidade na comunicação do grupo Cwtch. Este método tem um impacto direto na eficiência da largura de banda, especialmente para usuários em dispositivos móveis. Em resposta a isso, estamos ativamente desenvolvendo novos protocolos que permitem negociar garantias de privacidade e eficiência de maneiras diversas.

Os servidores, no momento desta escrita, permitem o download completo de todas as mensagens armazenadas, bem como uma solicitação para baixar mensagens específicas a partir de uma determinada mensagem. Quando os pares ingressam em um grupo em um novo servidor, eles baixam todas as mensagens do servidor inicialmente e, posteriormente, apenas as mensagens novas.

Mitigação de Análise de Metadados

Essa abordagem permite uma análise moderada de metadados, pois o servidor pode enviar novas mensagens para cada perfil suspeito exclusivo e usar essas assinaturas de mensagens exclusivas para rastrear sessões ao longo do tempo. Essa preocupação é mitigada por dois fatores:

1. Os perfis podem atualizar suas conexões a qualquer momento, resultando em uma nova sessão do servidor.
2. Os perfis podem ser "ressincronizados" de um servidor a qualquer momento, resultando em uma nova chamada para baixar todas as mensagens. Isso é comumente usado para buscar mensagens antigas de um grupo.

Embora essas medidas imponham limites ao que o servidor pode inferir, ainda não podemos garantir resistência total aos metadados. Para soluções futuras para esse problema, consulte Niwl.

Proteção contra Pares Maliciosos

Os servidores enfrentam o risco de spam gerado por pares, representando uma ameaça significativa à eficácia do sistema Cwtch. Embora tenhamos implementado um mecanismo de proteção contra spam no protótipo do Cwtch, exigindo que os pares realizem alguma prova de trabalho especificada pelo servidor, reconhecemos que essa não é uma solução robusta na presença de um adversário determinado com recursos significativos.

Pacotes de Chaves

Os servidores Cwtch se identificam por meio de pacotes de chaves assinados, contendo uma lista de chaves necessárias para garantir a segurança e resistência aos metadados na comunicação do grupo Cwtch. Esses pacotes de chaves geralmente incluem três chaves: uma chave pública do serviço Tor v3 Onion para o Token Board, uma chave pública do Tor v3 Onion Service para o Token Service e uma chave pública do Privacy Pass.

Para verificar os pacotes de chaves, os perfis que os importam do servidor utilizam o algoritmo trust-on-first-use (TOFU), verificando a assinatura anexada e a existência de todos os tipos de chave. Se o perfil já tiver importado o pacote de chaves do servidor anteriormente, todas as chaves são consideradas iguais.

Configuração prévia do aplicativo para ativar o Relé do Cwtch.

No Android, a hospedagem de servidor não está habilitada, pois essa opção não está disponível devido às limitações dos dispositivos Android. Essa funcionalidade está reservada apenas para servidores hospedados em desktops.

No Android, a única forma direta de importar uma chave de servidor é através do grupo de teste Cwtch, garantindo assim acesso ao servidor Cwtch.

Primeiro passo é Habilitar a opção de grupo no Cwtch que está em fase de testes. Clique na opção no canto superior direito da tela de configuração e pressione o botão para acessar as configurações do Cwtch.

Você pode alterar o idioma para Português do Brasil.Depois, role para baixo e selecione a opção para ativar os experimentos. Em seguida, ative a opção para habilitar o chat em grupo e a pré-visualização de imagens e fotos de perfil, permitindo que você troque sua foto de perfil.

https://link.storjshare.io/raw/jvss6zxle26jdguwaegtjdixhfka/production/f0ca039733d48895001261ab25c5d2efbaf3bf26e55aad3cce406646f9af9d15.MP4

Próximo passo é Criar um perfil.

Pressione o + botão de ação no canto inferior direito e selecione "Novo perfil" ou aberta no botão + adicionar novo perfil.

• Selecione um nome de exibição

• Selecione se deseja proteger

este perfil e salvo localmente com criptografia forte: Senha: sua conta está protegida de outras pessoas que possam usar este dispositivo

Sem senha: qualquer pessoa que tenha acesso a este dispositivo poderá acessar este perfil.

Preencha sua senha e digite-a novamente

Os perfis são armazenados localmente no disco e criptografados usando uma chave derivada de uma senha conhecida pelo usuário (via pbkdf2).

Observe que, uma vez criptografado e armazenado em disco, a única maneira de recuperar um perfil é recuperando a chave da senha - como tal, não é possível fornecer uma lista completa de perfis aos quais um usuário pode ter acesso até inserir um senha.

https://link.storjshare.io/raw/jxqbqmur2lcqe2eym5thgz4so2ya/production/8f9df1372ec7e659180609afa48be22b12109ae5e1eda9ef1dc05c1325652507.MP4

O próximo passo é adicionar o FuzzBot, que é um bot de testes e de desenvolvimento.

Contato do FuzzBot: 4y2hxlxqzautabituedksnh2ulcgm2coqbure6wvfpg4gi2ci25ta5ad.

Ao enviar o comando "testgroup-invite" para o FuzzBot, você receberá um convite para entrar no Grupo Cwtch Test. Ao ingressar no grupo, você será automaticamente conectado ao servidor Cwtch. Você pode optar por sair do grupo a qualquer momento ou ficar para conversar e tirar dúvidas sobre o aplicativo e outros assuntos. Depois, você pode configurar seu próprio servidor Cwtch, o que é altamente recomendável.

https://link.storjshare.io/raw/jvji25zclkoqcouni5decle7if7a/production/ee3de3540a3e3dca6e6e26d303e12c2ef892a5d7769029275b8b95ffc7468780.MP4

Agora você pode utilizar o aplicativo normalmente. Algumas observações que notei: se houver demora na conexão com outra pessoa, ambas devem estar online. Se ainda assim a conexão não for estabelecida, basta clicar no ícone de reset do Tor para restabelecer a conexão com a outra pessoa.

Uma introdução aos perfis Cwtch.

Com Cwtch você pode criar um ou mais perfis . Cada perfil gera um par de chaves ed25519 aleatório compatível com a Rede Tor.

Este é o identificador que você pode fornecer às pessoas e que elas podem usar para entrar em contato com você via Cwtch.

Cwtch permite criar e gerenciar vários perfis separados. Cada perfil está associado a um par de chaves diferente que inicia um serviço cebola diferente.

Gerenciar Na inicialização, o Cwtch abrirá a tela Gerenciar Perfis. Nessa tela você pode:

• Crie um novo perfil.
• Desbloquear perfis.
• Criptografados existentes.
• Gerenciar perfis carregados.
• Alterando o nome de exibição de um perfil.
• Alterando a senha de um perfil Excluindo um perfil.
• Alterando uma imagem de perfil.

Backup ou exportação de um perfil.

Na tela de gerenciamento de perfil:

1. Selecione o lápis ao lado do perfil que você deseja editar

2. Role para baixo até a parte inferior da tela.

3. Selecione "Exportar perfil"

4. Escolha um local e um nome de arquivo.

5.confirme.

Uma vez confirmado, o Cwtch colocará uma cópia do perfil no local indicado. Este arquivo é criptografado no mesmo nível do perfil.

Este arquivo pode ser importado para outra instância do Cwtch em qualquer dispositivo.

Importando um perfil.

1. Pressione o +botão de ação no canto inferior direito e selecione "Importar perfil"

2. Selecione um arquivo de perfil Cwtch exportado para importar

3. Digite a senha associada ao perfil e confirme.

Uma vez confirmado, o Cwtch tentará descriptografar o arquivo fornecido usando uma chave derivada da senha fornecida. Se for bem-sucedido, o perfil aparecerá na tela Gerenciamento de perfil e estará pronto para uso.

OBSERVAÇÃO Embora um perfil possa ser importado para vários dispositivos, atualmente apenas uma versão de um perfil pode ser usada em todos os dispositivos ao mesmo tempo. As tentativas de usar o mesmo perfil em vários dispositivos podem resultar em problemas de disponibilidade e falhas de mensagens.

Qual é a diferença entre uma conexão ponto a ponto e um grupo cwtch?

As conexões ponto a ponto Cwtch permitem que 2 pessoas troquem mensagens diretamente. As conexões ponto a ponto nos bastidores usam serviços cebola Tor v3 para fornecer uma conexão criptografada e resistente a metadados. Devido a esta conexão direta, ambas as partes precisam estar online ao mesmo tempo para trocar mensagens.

Os Grupos Cwtch permitem que várias partes participem de uma única conversa usando um servidor não confiável (que pode ser fornecido por terceiros ou auto-hospedado). Os operadores de servidores não conseguem saber quantas pessoas estão em um grupo ou o que está sendo discutido. Se vários grupos estiverem hospedados em um único servidor, o servidor não conseguirá saber quais mensagens pertencem a qual grupo sem a conivência de um membro do grupo. Ao contrário das conversas entre pares, as conversas em grupo podem ser conduzidas de forma assíncrona, para que todos num grupo não precisem estar online ao mesmo tempo.

Por que os grupos cwtch são experimentais? Mensagens em grupo resistentes a metadados ainda são um problema em aberto . Embora a versão que fornecemos no Cwtch Beta seja projetada para ser segura e com metadados privados, ela é bastante ineficiente e pode ser mal utilizada. Como tal, aconselhamos cautela ao usá-lo e apenas o fornecemos como um recurso opcional.

Como posso executar meu próprio servidor Cwtch? A implementação de referência para um servidor Cwtch é de código aberto . Qualquer pessoa pode executar um servidor Cwtch, e qualquer pessoa com uma cópia do pacote de chaves públicas do servidor pode hospedar grupos nesse servidor sem que o operador tenha acesso aos metadados relacionados ao grupo .

https://git.openprivacy.ca/cwtch.im/server

https://docs.openprivacy.ca/cwtch-security-handbook/server.html

Como posso desligar o Cwtch? O painel frontal do aplicativo possui um ícone do botão "Shutdown Cwtch" (com um 'X'). Pressionar este botão irá acionar uma caixa de diálogo e, na confirmação, o Cwtch será desligado e todos os perfis serão descarregados.

Suas doações podem fazer a diferença no projeto Cwtch? O Cwtch é um projeto dedicado a construir aplicativos que preservam a privacidade, oferecendo comunicação de grupo resistente a metadados. Além disso, o projeto também desenvolve o Cofre, formulários da web criptografados para ajudar mútua segura. Suas contribuições apoiam iniciativas importantes, como a divulgação de violações de dados médicos em Vancouver e pesquisas sobre a segurança do voto eletrônico na Suíça. Ao doar, você está ajudando a fechar o ciclo, trabalhando com comunidades marginalizadas para identificar e corrigir lacunas de privacidade. Além disso, o projeto trabalha em soluções inovadoras, como a quebra de segredos através da criptografia de limite para proteger sua privacidade durante passagens de fronteira. E também tem a infraestrutura: toda nossa infraestrutura é open source e sem fins lucrativos. Conheça também o Fuzzytags, uma estrutura criptográfica probabilística para marcação resistente a metadados. Sua doação é crucial para continuar o trabalho em prol da privacidade e segurança online. Contribua agora com sua doação

https://openprivacy.ca/donate/

onde você pode fazer sua doação em bitcoin e outras moedas, e saiba mais sobre os projetos. https://openprivacy.ca/work/

Link sobre Cwtch

https://cwtch.im/

https://git.openprivacy.ca/cwtch.im/cwtch

https://docs.cwtch.im/docs/intro

https://docs.openprivacy.ca/cwtch-security-handbook/

Baixar #CwtchDev

cwtch.im/download/

https://play.google.com/store/apps/details?id=im.cwtch.flwtch

@ f977c464:32fcbe00

Güneşin kaybolmasının üçüncü günü, saat öğlen on ikiyi yirmi geçiyordu. Trenin kalkmasına yaklaşık iki saat vardı. Hepimiz perondaydık. Valizlerimiz, kolilerimiz, renk renk ve biçimsiz çantalarımızla yan yana dizilmiş, kısa aralıklarla tepemizdeki devasa saati kontrol ediyorduk.

Ama ne kadar dik bakarsak bakalım zaman bir türlü istediğimiz hızla ilerlemiyordu. Herkes birkaç dakika sürmesi gereken alelade bir doğa olayına sıkışıp kalmış, karanlıktan sürünerek çıkmayı deniyordu.

Bekleme salonuna doğru döndüm. Nefesimden çıkan buharın arkasında, kalın taş duvarları ve camlarıyla morg kadar güvenli ve soğuk duruyordu. Cesetleri o yüzden bunun gibi yerlere taşımaya başlamışlardı. Demek insanların bütün iyiliği başkaları onları gördüğü içindi ki gündüzleri gecelerden daha karanlık olduğunda hemen birbirlerinin gırtlağına çökmüş, böğürlerinde delikler açmış, gözlerini oyup kafataslarını parçalamışlardı.

İstasyonun ışığı titrediğinde karanlığın enseme saplandığını hissettim. Eğer şimdi, böyle kalabalık bir yerde elektrik kesilse başımıza ne gelirdi?

İçerideki askerlerden biri bakışlarımı yakalayınca yeniden saate odaklanmış gibi yaptım. Sadece birkaç dakika geçmişti.

“Tarlalarım gitti. Böyle boyum kadar ayçiçeği doluydu. Ah, hepsi ölüp gidiyor. Afitap’ın çiçekleri de gi-”

“Dayı, Allah’ını seversen sus. Hepimizi yakacaksın şimdi.”

Karanlıkta durduğunda, görünmez olmayı istemeye başlıyordun. Kimse seni görmemeli, nefesini bile duymamalıydı. Kimsenin de ayağının altında dolaşmamalıydın; gelip kazayla sana çarpmamalılar, takılıp sendelememeliydiler. Yoksa aslında hedefi sen olmadığın bir öfke gürlemeye başlar, yaşadığın ilk şoku ve acıyı silerek üstünden geçerdi.

İlk konuşan, yaşlıca bir adam, kafasında kasketi, nasırlı ellerine hohluyordu. Gözleri ve burnu kızarmıştı. Güneşin kaybolması onun için kendi başına bir felaket değildi. Hayatına olan pratik yansımalarından korkuyordu olsa olsa. Bir anının kaybolması, bu yüzden çoktan kaybettiği birinin biraz daha eksilmesi. Hayatta kalmasını gerektiren sebepler azalırken, hayatta kalmasını sağlayacak kaynaklarını da kaybediyordu.

Onu susturan delikanlıysa atkısını bütün kafasına sarmış, sakalı ve yüzünün derinliklerine kaçmış gözleri dışında bedeninin bütün parçalarını gizlemeye çalışıyordu. İşte o, güneşin kaybolmasının tam olarak ne anlama geldiğini anlamamış olsa bile, dehşetini olduğu gibi hissedebilenlerdendi.

Güneşin onlardan alındıktan sonra kime verileceğini sormuyorlardı. En başta onlara verildiğinde de hiçbir soru sormamışlardı zaten.

İki saat ne zaman geçer?

Midemin üstünde, sağ tarafıma doğru keskin bir acı hissettim. Karaciğerim. Gözlerimi yumdum. Yanımda biri metal bir nesneyi yere bıraktı. Bir kafesti. İçerisindeki kartalın ıslak kokusu burnuma ulaşmadan önce bile biliyordum bunu.

“Yeniden mi?” diye sordu bana kartal. Kanatları kanlı. Zamanın her bir parçası tüylerinin üstüne çöreklenmişti. Gagası bir şey, tahminen et parçası geveliyor gibi hareket ediyordu. Eski anılar kolay unutulmazmış. Şu anda kafesinin kalın parmaklıklarının ardında olsa da bunun bir aldatmaca olduğunu bir tek ben biliyordum. Her an kanatlarını iki yana uzatıverebilir, hava bu hareketiyle dalgalanarak kafesi esneterek hepimizi içine alacak kadar genişleyebilir, parmaklıklar önce ayaklarımızın altına serilir gibi gözükebilir ama aslında hepimizin üstünde yükselerek tepemize çökebilirdi.

Aşağıya baktım. Tahtalarla zapt edilmiş, hiçbir yere gidemeyen ama her yere uzanan tren rayları. Atlayıp koşsam… Çantam çok ağırdı. Daha birkaç adım atamadan, kartal, suratını bedenime gömerdi.

“Bu sefer farklı,” diye yanıtladım onu. “Yeniden diyemezsin. Tekrarladığım bir şey değil bu. Hatta bir hata yapıyormuşum gibi tonlayamazsın da. Bu sefer, insanların hak etmediğini biliyorum.”

“O zaman daha vahim. Süzme salaksın demektir.”

“İnsanların hak etmemesi, insanlığın hak etmediği anlamına gelmez ki.”

Az önce göz göze geldiğim genççe ama çökük asker hâlâ bana bakıyordu. Bir kartalla konuştuğumu anlamamıştı şüphesiz. Yanımdakilerden biriyle konuştuğumu sanmış olmalıydı. Ama konuştuğum kişiye bakmıyordum ona göre. Çekingence kafamı eğmiştim. Bir kez daha göz göze geldiğimizde içerideki diğer iki askere bir şeyler söyledi, onlar dönüp beni süzerken dışarı çıktı.

Yanımızdaki, az önce konuşan iki adam da şaşkınlıkla bir bana bir kartala bakıyordu.

“Yalnız bu sefer kalbin de kırılacak, Prometheus,” dedi kartal, bana. “Belki son olur. Biliyorsun, bir sürü soruna neden oluyor bu yaptıkların.”

Beni koruyordu sözde. En çok kanıma dokunan buydu. Kasıklarımın üstüne oturmuş, kanlı suratının ardında gözleri parlarken attığı çığlık kulaklarımda titremeye devam ediyordu. Bu tabloda kimsenin kimseyi düşündüğü yoktu. Kartalın, yanımızdaki adamların, artık arkama kadar gelmiş olması gereken askerin, tren raylarının, geçmeyen saatlerin…

Arkamı döndüğümde, asker sahiden oradaydı. Zaten öyle olması gerekiyordu; görmüştüm bunu, biliyordum. Kehanetler… Bir şeyler söylüyordu ama ağzı oynarken sesi çıkmıyordu. Yavaşlamış, kendisini saatin akışına uydurmuştu. Havada donan tükürüğünden anlaşılıyordu, sinirliydi. Korktuğu için olduğunu biliyordum. Her seferinde korkmuşlardı. Beni unutmuş olmaları işlerini kolaylaştırmıyordu. Sadece yeni bir isim vermelerine neden oluyordu. Bu seferkiyle beni lanetleyecekleri kesinleşmişti.

Olması gerekenle olanların farklı olması ne kadar acınasıydı. Olması gerekenlerin doğasının kötücül olmasıysa bir yerde buna dayanıyordu.

“Salaksın,” dedi kartal bana. Zamanı aşan bir çığlık. Hepimizin önüne geçmişti ama kimseyi durduramıyordu.

Sonsuzluğa kaç tane iki saat sıkıştırabilirsiniz?

Ben bir tane bile sıkıştıramadım.

Çantama uzanıyordum. Asker de sırtındaki tüfeğini indiriyordu. Benim acelem yoktu, onunsa eli ayağı birbirine dolaşıyordu. Oysaki her şey tam olması gerektiği anda olacaktı. Kehanet başkasının parmaklarının ucundaydı.

Güneş, bir tüfeğin patlamasıyla yeryüzüne doğdu.

Rayların üzerine serilmiş göğsümün ortasından, bir çantanın içinden.

Not: Bu öykü ilk olarak 2021 yılında Esrarengiz Hikâyeler'de yayımlanmıştır.

@ f977c464:32fcbe00

Kendisini aynada ilk defa gördüğü o gün, diğerleri gibi olduğunu anlamıştı. Oysaki her insan biricik olmalıydı. Sözgelimi sinirlendiğinde bir kaşı diğerinden birkaç milimetre daha az çatılabilirdi veya sevindiğinde dudağı ona has bir açıyla dalgalanabilirdi. Hatta bunların hiçbiri mümkün değilse, en azından, gözlerinin içinde sadece onun sahip olabileceği bir ışık parlayabilirdi. Çok sıradan, öyle sıradan ki kimsenin fark etmediği o milyonlarca minik şeyden herhangi biri. Ne olursa.

Ama yansımasına bakarken bunların hiçbirini bulamadı ve diğer günlerden hiç de farklı başlamamış o gün, işe gitmek için vagonunun gelmesini beklediği alelade bir metro istasyonunda, içinde kaybolduğu illüzyon dağılmaya başladı.

İlk önce derisi döküldü. Tam olarak dökülmedi aslında, daha çok kıvılcımlara dönüşüp bedeninden fırlamış ve bir an sonra sönerek külleşmiş, havada dağılmıştı. Ardında da, kaybolmadan hemen önce, kısa süre için hayal meyal görülebilen, bir ruhun yok oluşuna ağıt yakan rengârenk peri cesetleri bırakmıştı. Beklenenin aksine, havaya toz kokusu yayıldı.

Dehşete düştü elbette. Dehşete düştüler. Panikle üstlerini yırtan 50 işçi. Her şeyin sebebiyse o vagon.

Saçları da döküldü. Her tel, yere varmadan önce, her santimde ikiye ayrıla ayrıla yok oldu.

Bütün yüzeylerin mat olduğu, hiçbir şeyin yansımadığı, suyun siyah aktığı ve kendine ancak kameralarla bakabildiğin bir dünyada, vagonun içine yerleştirilmiş bir aynadan ilk defa kendini görmek.

Gözlerinin akları buharlaşıp havada dağıldı, mercekleri boşalan yeri doldurmak için eriyip yayıldı. Gerçeği görmemek için yaratılmış, bu yüzden görmeye hazır olmayan ve hiç olmayacak gözler.

Her şeyin o anda sona erdiğini sanabilirdi insan. Derin bir karanlık ve ölüm. Görmenin görmek olduğu o anın bitişi.

---

Ben geldiğimde ölmüşlerdi.

Yani bozulmuşlardı demek istiyorum.

Belleklerini yeni taşıyıcılara takmam mümkün olmadı. Fiziksel olarak kusursuz durumdaydılar, olmayanları da tamir edebilirdim ama tüm o hengamede kendilerini baştan programlamış ve girdilerini modifiye etmişlerdi.

Belleklerden birini masanın üzerinden ileriye savurdu. Hınca hınç dolu bir barda oturuyorlardı. O ve arkadaşı.

Sırf şu kendisini insan sanan androidler travma geçirip delirmesin diye neler yapıyoruz, insanın aklı almıyor.

Eliyle arkasını işaret etti.

Polislerin söylediğine göre biri vagonun içerisine ayna yerleştirmiş. Bu zavallılar da kapı açılıp bir anda yansımalarını görünce kafayı kırmışlar.

Arkadaşı bunların ona ne hissettirdiğini sordu. Yani o kadar bozuk, insan olduğunu sanan androidi kendilerini parçalamış olarak yerde görmek onu sarsmamış mıydı?

Hayır, sonuçta belirli bir amaç için yaratılmış şeyler onlar. Kaliteli bir bilgisayarım bozulduğunda üzülürüm çünkü parasını ben vermişimdir. Bunlarsa devletin. Bana ne ki?

Arkadaşı anlayışla kafasını sallayıp suyundan bir yudum aldı. Kravatını biraz gevşetti.

Bira istemediğinden emin misin?

İstemediğini söyledi. Sahi, neden deliriyordu bu androidler?

Basit. Onların yapay zekâlarını kodlarken bir şeyler yazıyorlar. Yazılımcılar. Biliyorsun, ben donanımdayım. Bunlar da kendilerini insan sanıyorlar. Tiplerine bak.

Sesini alçalttı.

Arabalarda kaza testi yapılan mankenlere benziyor hepsi. Ağızları burunları bile yok ama şu geldiğimizden beri sakalını düzeltip duruyor mesela. Hayır, hepsi de diğerleri onun sakalı varmış sanıyor, o manyak bir şey.

Arkadaşı bunun delirmeleriyle bağlantısını çözemediğini söyledi. O da normal sesiyle konuşmaya devam etti.

Anlasana, aynayı falan ayırt edemiyor mercekleri. Lönk diye kendilerini görüyorlar. Böyle, olduğu gibi...

Nedenmiş peki? Ne gerek varmış?

Ne bileyim be abicim! Ahiret soruları gibi.

Birasına bakarak dalıp gitti. Sonra masaya abanarak arkadaşına iyice yaklaştı. Bulanık, bir tünelin ucundaki biri gibi, şekli şemalı belirsiz bir adam.

Ben seni nereden tanıyorum ki ulan? Kimsin sen?

Belleği makineden çıkardılar. İki kişiydiler. Soruşturmadan sorumlu memurlar.

─ Baştan mı başlıyoruz, diye sordu belleği elinde tutan ilk memur.

─ Bir kere daha deneyelim ama bu sefer direkt aynayı sorarak başla, diye cevapladı ikinci memur.

─ Bence de. Yeterince düzgün çalışıyor.

Simülasyon yüklenirken, ayakta, biraz arkada duran ve alnını kaşıyan ikinci memur sormaktan kendisini alamadı:

─ Bu androidleri niye böyle bir olay yerine göndermişler ki? Belli tost olacakları. İsraf. Gidip biz baksak aynayı kırıp delilleri mahvetmek zorunda da kalmazlar.

Diğer memur sandalyesinde hafifçe dönecek oldu, o sırada soruyu bilgisayarın hoparlöründen teknisyen cevapladı.

Hangi işimizde bir yamukluk yok ki be abi.

---

Ama bir son değildi. Üstlerindeki tüm illüzyon dağıldığında ve çıplak, cinsiyetsiz, birbirinin aynı bedenleriyle kaldıklarında sıra dünyaya gelmişti.

Yere düştüler. Elleri -bütün bedeni gibi siyah turmalinden, boğumları çelikten- yere değdiği anda, metronun zemini dağıldı.

Yerdeki karolar öncesinde beyazdı ve çok parlaktı. Tepelerindeki floresan, ışığını olduğu gibi yansıtıyor, tek bir lekenin olmadığı ve tek bir tozun uçmadığı istasyonu aydınlatıyorlardı.

Duvarlara duyurular asılmıştı. Örneğin, yarın akşam kültür merkezinde 20.00’da başlayacak bir tekno blues festivalinin cıvıl cıvıl afişi vardı. Onun yanında daha geniş, sarı puntolu harflerle yazılmış, yatay siyah kesiklerle çerçevesi çizilmiş, bir platformdan düşen çöp adamın bulunduğu “Dikkat! Sarı bandı geçmeyin!” uyarısı. Biraz ilerisinde günlük resmi gazete, onun ilerisinde bir aksiyon filminin ve başka bir romantik komedi filminin afişleri, yapılacakların ve yapılmayacakların söylendiği küçük puntolu çeşitli duyurular... Duvar uzayıp giden bir panoydu. On, on beş metrede bir tekrarlanıyordu.

Tüm istasyonun eni yüz metre kadar. Genişliği on metre civarı.

Önlerinde, açık kapısından o mendebur aynanın gözüktüğü vagon duruyordu. Metro, istasyona sığmayacak kadar uzundu. Bir kılıcın keskinliğiyle uzanıyor ama yer yer vagonların ek yerleriyle bölünüyordu.

Hiçbir vagonda pencere olmadığı için metronun içi, içlerindekiler meçhuldü.

Sonrasında karolar zerrelerine ayrılarak yükseldi. Floresanın ışığında her yeri toza boğdular ve ortalığı gri bir sisin altına gömdüler. Çok kısa bir an. Afişleri dalgalandırmadılar. Dalgalandırmaya vakitleri olmadı. Yerlerinden söküp aldılar en fazla. Işık birkaç kere sönüp yanarak direndi. Son kez söndüğünde bir daha geri gelmedi.

Yine de etraf aydınlıktı. Kırmızı, her yere eşit dağılan soluk bir ışıkla.

Yer tamamen tele dönüşmüştü. Altında çapraz hatlarla desteklenmiş demir bir iskelet. Işık birkaç metreden daha fazla aşağıya uzanamıyordu. Sonsuzluğa giden bir uçurum.

Duvarın yerini aynı teller ve demir iskelet almıştı. Arkasında, birbirine vidalarla tutturulmuş demir plakalardan oluşan, üstünden geçen boruların ek yerlerinden bazen ince buharların çıktığı ve bir süre asılı kaldıktan sonra ağır, yağlı bir havayla sürüklendiği bir koridor.

Diğer tarafta paslanmış, pencerelerindeki camlar kırıldığı için demir plakalarla kapatılmış külüstür bir metro. Kapının karşısındaki aynadan her şey olduğu gibi yansıyordu.

---

Bir konteynırın içini andıran bir evde, gerçi gayet de birbirine eklenmiş konteynırlardan oluşan bir şehirde “andıran” demek doğru olmayacağı için düpedüz bir konteynırın içinde, masaya mum görüntüsü vermek için koyulmuş, yarı katı yağ atıklarından şekillendirilmiş kütleleri yakmayı deniyordu. Kafasında hayvan kıllarından yapılmış grili siyahlı bir peruk. Aynı kıllardan kendisine gür bir bıyık da yapmıştı.

Üstünde mavi çöp poşetlerinden yapılmış, kravatlı, şık bir takım.

Masanın ayakları yerine oradan buradan çıkmış parçalar konulmuştu: bir arabanın şaft mili, üst üste konulmuş ve üstünde yazı okunamayan tenekeler, boş kitaplar, boş gazete balyaları... Hiçbir şeye yazı yazılmıyordu, gerek yoktu da zaten çünkü merkez veri bankası onları fark ettirmeden, merceklerden giren veriyi sentezleyerek insanlar için dolduruyordu. Yani, androidler için. Farklı şekilde isimlendirmek bir fark yaratacaksa.

Onların mercekleri için değil. Bağlantıları çok önceden kopmuştu.

─ Hayatım, sofra hazır, diye bağırdı yatak odasındaki karısına.

Sofrada tabak yerine düz, bardak yerine bükülmüş, çatal ve bıçak yerine sivriltilmiş plakalar.

Karısı salonun kapısında durakladı ve ancak kulaklarına kadar uzanan, kocasınınkine benzeyen, cansız, ölü hayvanların kıllarından ibaret peruğunu eliyle düzeltti. Dudağını, daha doğrusu dudağının olması gereken yeri koyu kırmızı bir yağ tabakasıyla renklendirmeyi denemişti. Biraz da yanaklarına sürmüştü.

─ Nasıl olmuş, diye sordu.

Sesi tek düzeydi ama hafif bir neşe olduğunu hissettiğinize yemin edebilirdiniz.

Üzerinde, çöp poşetlerinin içini yazısız gazete kağıtlarıyla doldurarak yaptığı iki parça giysi.

─ Çok güzelsin, diyerek kravatını düzeltti kocası.

─ Sen de öylesin, sevgilim.

Yaklaşıp kocasını öptü. Kocası da onu. Sonra nazikçe elinden tutarak, sandalyesini geriye çekerek oturmasına yardım etti.

Sofrada yemek niyetine hiçbir şey yoktu. Gerek de yoktu zaten.

Konteynırın kapısı gürültüyle tekmelenip içeri iki memur girene kadar birbirlerine öyküler anlattılar. O gün neler yaptıklarını. İşten erken çıkıp yemyeşil çimenlerde gezdiklerini, uçurtma uçurduklarını, kadının nasıl o elbiseyi bulmak için saatlerce gezip yorulduğunu, kocasının kısa süreliğine işe dönüp nasıl başarılı bir hamleyle yaşanan krizi çözdüğünü ve kadının yanına döndükten sonra, alışveriş merkezinde oturdukları yeni dondurmacının dondurmalarının ne kadar lezzetli olduğunu, boğazlarının ağrımasından korktuklarını...

Akşam film izleyebilirlerdi, televizyonda -boş ve mat bir plaka- güzel bir film oynayacaktı.

İki memur. Çıplak bedenleriyle birbirinin aynı. Ellerindeki silahları onlara doğrultmuşlardı. Mum ışığında, tertemiz bir örtünün serili olduğu masada, bardaklarında şaraplarla oturan ve henüz sofranın ortasındaki hindiye dokunmamış çifti gördüklerinde bocaladılar.

Hiç de androidlere bilinçli olarak zarar verebilecek gibi gözükmüyorlardı.

─ Sessiz kalma hakkına sahipsiniz, diye bağırdı içeri giren ikinci memur. Söylediğiniz her şey...

Cümlesini bitiremedi. Yatak odasındaki, masanın üzerinden gördüğü o şey, onunla aynı hareketleri yapan android, yoksa, bir aynadaki yansıması mıydı?

Bütün illüzyon o anda dağılmaya başladı.

Not: Bu öykü ilk olarak 2020 yılında Esrarengiz Hikâyeler'de yayımlanmıştır.

@ 8fb140b4:f948000c

Embarking on the journey of operating your own Lightning node on the Bitcoin Layer 2 network is more than just a tech-savvy endeavor; it's a step into a realm of financial autonomy and cutting-edge innovation. By running a node, you become a vital part of a revolutionary movement that's reshaping how we think about money and digital transactions. This role not only offers a unique perspective on blockchain technology but also places you at the heart of a community dedicated to decentralization and network resilience. Beyond the technicalities, it's about embracing a new era of digital finance, where you contribute directly to the network's security, efficiency, and growth, all while gaining personal satisfaction and potentially lucrative rewards.

In essence, running your own Lightning node is a powerful way to engage with the forefront of blockchain technology, assert financial independence, and contribute to a more decentralized and efficient Bitcoin network. It's an adventure that offers both personal and communal benefits, from gaining in-depth tech knowledge to earning a place in the evolving landscape of cryptocurrency.

Running your own Lightning node for the Bitcoin Layer 2 network can be an empowering and beneficial endeavor. Here are 10 reasons why you might consider taking on this task:

1. Direct Contribution to Decentralization: Operating a node is a direct action towards decentralizing the Bitcoin network, crucial for its security and resistance to control or censorship by any single entity.

2. Financial Autonomy: Owning a node gives you complete control over your financial transactions on the network, free from reliance on third-party services, which can be subject to fees, restrictions, or outages.

3. Advanced Network Participation: As a node operator, you're not just a passive participant but an active player in shaping the network, influencing its efficiency and scalability through direct involvement.

4. Potential for Higher Revenue: With strategic management and optimal channel funding, your node can become a preferred route for transactions, potentially increasing the routing fees you can earn.

5. Cutting-Edge Technological Engagement: Running a node puts you at the forefront of blockchain and bitcoin technology, offering insights into future developments and innovations.

6. Strengthened Network Security: Each new node adds to the robustness of the Bitcoin network, making it more resilient against attacks and failures, thus contributing to the overall security of the ecosystem.

7. Personalized Fee Structures: You have the flexibility to set your own fee policies, which can balance earning potential with the service you provide to the network.

8. Empowerment Through Knowledge: The process of setting up and managing a node provides deep learning opportunities, empowering you with knowledge that can be applied in various areas of blockchain and fintech.

9. Boosting Transaction Capacity: By running a node, you help to increase the overall capacity of the Lightning Network, enabling more transactions to be processed quickly and at lower costs.

10. Community Leadership and Reputation: As an active node operator, you gain recognition within the Bitcoin community, which can lead to collaborative opportunities and a position of thought leadership in the space.

These reasons demonstrate the impactful and transformative nature of running a Lightning node, appealing to those who are deeply invested in the principles of bitcoin and wish to actively shape its future. Jump aboard, and embrace the journey toward full independence. 🐶🐾🫡🚀🚀🚀

@ 8fb140b4:f948000c

Chef's notes

Serving these two dishes together will create a delightful centerpiece for your Thanksgiving meal, offering a perfect blend of traditional flavors with a homemade touch.

Details

• ⏲️ Prep time: 30 min
• 🍳 Cook time: 1 - 2 hours
• 🍽️ Servings: 4-6

Ingredients

• 1 whole turkey (about 12-14 lbs), thawed and ready to cook
• 1 cup unsalted butter, softened
• 2 tablespoons fresh thyme, chopped
• 2 tablespoons fresh rosemary, chopped
• 2 tablespoons fresh sage, chopped
• Salt and freshly ground black pepper
• 1 onion, quartered
• 1 lemon, halved
• 2-3 cloves of garlic
• Apple and Sage Stuffing
• 1 loaf of crusty bread, cut into cubes
• 2 apples, cored and chopped
• 1 onion, diced
• 2 stalks celery, diced
• 3 cloves garlic, minced
• 1/4 cup fresh sage, chopped
• 1/2 cup unsalted butter
• 2 cups chicken broth
• Salt and pepper, to taste

Directions

1. Preheat the Oven: Set your oven to 325°F (165°C).
2. Prepare the Herb Butter: Mix the softened butter with the chopped thyme, rosemary, and sage. Season with salt and pepper.
3. Prepare the Turkey: Remove any giblets from the turkey and pat it dry. Loosen the skin and spread a generous amount of herb butter under and over the skin.
4. Add Aromatics: Inside the turkey cavity, place the quartered onion, lemon halves, and garlic cloves.
5. Roast: Place the turkey in a roasting pan. Tent with aluminum foil and roast. A general guideline is about 15 minutes per pound, or until the internal temperature reaches 165°F (74°C) at the thickest part of the thigh.
6. Rest and Serve: Let the turkey rest for at least 20 minutes before carving.
7. Next: Apple and Sage Stuffing
8. Dry the Bread: Spread the bread cubes on a baking sheet and let them dry overnight, or toast them in the oven.
9. Cook the Vegetables: In a large skillet, melt the butter and cook the onion, celery, and garlic until soft.
10. Combine Ingredients: Add the apples, sage, and bread cubes to the skillet. Stir in the chicken broth until the mixture is moist. Season with salt and pepper.
11. Bake: Transfer the stuffing to a baking dish and bake at 350°F (175°C) for about 30-40 minutes, until golden brown on top.

@ 8fb140b4:f948000c

Testing a brand new YakiHonne native client for iOS. Smooth as butter (not penis butter 🤣🍆🧈) with great visual experience and intuitive navigation. Amazing work by the team behind it! * lists * work

Bold text work!

Images could have used nostr.build instead of raw S3 from us-east-1 region.

Very impressive! You can even save the draft and continue later, before posting the long-form note!

🐶🐾🤯🤯🤯🫂💜

@ 8fb140b4:f948000c

As the title states, scratch behind my ear and you get it. 🐶🐾🫡

@ 8fb140b4:f948000c

Test Bounty Note

@ 8fb140b4:f948000c

Intro

This short tutorial will help you set up your own Nostr Wallet Connect (NWC) on your own LND Node that is not using Umbrel. If you are a user of Umbrel, you should use their version of NWC.

Requirements

You need to have a working installation of LND with established channels and connectivity to the internet. NWC in itself is fairly light and will not consume a lot of resources. You will also want to ensure that you have a working installation of Docker, since we will use a docker image to run NWC.

• Working installation of LND (and all of its required components)
• Docker (with Docker compose)

Installation

For the purpose of this tutorial, we will assume that you have your lnd/bitcoind running under user bitcoin with home directory /home/bitcoin. We will also assume that you already have a running installation of Docker (or docker.io).

Prepare and verify

git version - we will need git to get the latest version of NWC. docker version - should execute successfully and show the currently installed version of Docker. docker compose version - same as before, but the version will be different. ss -tupln | grep 10009- should produce the following output: tcp LISTEN 0 4096 0.0.0.0:10009 0.0.0.0: tcp LISTEN 0 4096 [::]:10009 [::]:**

For things to work correctly, your Docker should be version 20.10.0 or later. If you have an older version, consider installing a new one using instructions here: https://docs.docker.com/engine/install/

Create folders & download NWC

In the home directory of your LND/bitcoind user, create a new folder, e.g., "nwc" mkdir /home/bitcoin/nwc. Change to that directory cd /home/bitcoin/nwc and clone the NWC repository: git clone https://github.com/getAlby/nostr-wallet-connect.git

Creating the Docker image

In this step, we will create a Docker image that you will use to run NWC.

• Change directory to nostr-wallet-connect: cd nostr-wallet-connect
• Run command to build Docker image: docker build -t nwc:$(date +'%Y%m%d%H%M') -t nwc:latest . (there is a dot at the end)
• The last line of the output (after a few minutes) should look like => => naming to docker.io/library/nwc:latest
• nwc:latest is the name of the Docker image with a tag which you should note for use later.

Creating docker-compose.yml and necessary data directories

• Let's create a directory that will hold your non-volatile data (DB): mkdir data
• Indocker-compose.ymlfile, there are fields that you want to replace (<> comments) and port “4321” that you want to make sure is open (check with ss -tupln | grep 4321which should return nothing).
• Create docker-compose.ymlfile with the following content, and make sure to update fields that have <> comment:

version: "3.8" services: nwc: image: nwc:latest volumes: - ./data:/data - ~/.lnd:/lnd:ro ports: - "4321:8080" extra_hosts: - "localhost:host-gateway" environment: NOSTR_PRIVKEY: <use "openssl rand -hex 32" to generate a fresh key and place it inside ""> LN_BACKEND_TYPE: "LND" LND_ADDRESS: localhost:10009 LND_CERT_FILE: "/lnd/tls.cert" LND_MACAROON_FILE: "/lnd/data/chain/bitcoin/mainnet/admin.macaroon" DATABASE_URI: "/data/nostr-wallet-connect.db" COOKIE_SECRET: <use "openssl rand -hex 32" to generate fresh secret and place it inside ""> PORT: 8080 restart: always stop_grace_period: 1m

Starting and testing

Now that you have everything ready, it is time to start the container and test.

• While you are in the nwcdirectory (important), execute the following command and check the log output, docker compose up
• You should see container logs while it is starting, and it should not exit if everything went well.
• At this point, you should be able to go to http://<ip of the host where nwc is running>:4321 and get to the interface of NWC
• To stop the test run of NWC, simply press Ctrl-C , and it will shut the container down.
• To start NWC permanently, you should execute docker compose up -d , “-d” tells Docker to detach from the session.
• To check currently running NWC logs, execute docker compose logs to run it in tail mode add -f to the end.
• To stop the container, execute docker compose down

That's all, just follow the instructions in the web interface to get started.

Updating

As with any software, you should expect fixes and updates that you would need to perform periodically. You could automate this, but it falls outside of the scope of this tutorial. Since we already have all of the necessary configuration in place, the update execution is fairly simple.

• Change directory to the clone of the git repository, cd /home/bitcoin/nwc/nostr-wallet-connect
• Run command to build Docker image: docker build -t nwc:$(date +'%Y%m%d%H%M') -t nwc:latest . (there is a dot at the end)
• Change directory back one level cd ..
• Restart (stop and start) the docker compose config docker compose down && docker compose up -d
• Done! Optionally you may want to check the logs: docker compose logs