Python Bitcoin Mining Script | CryptoCoins Info Club

A minimalistic full working bitcoin miner implemented in python.

Hi I have been working lately in this little experiment I would love you to check it out. Is a very minimal bitcoin miner. From a random nonce connects to a solo pool, calculates hash and in (very unprovable) case hash is less than the target submits.
I would love is you guys could check it out and comment it. https://github.com/muimota/miniminer
submitted by muimota_ to btc [link] [comments]

A minimalistic full working bitcoin miner implemented in python. /r/btc

A minimalistic full working bitcoin miner implemented in python. /btc submitted by BitcoinAllBot to BitcoinAll [link] [comments]

/r/programmingcirclejerkbestof I'm written a Bitcoin miner in Python 3 to buy a pair of Google Glass but now I'm worried about all three because government.

http://www.reddit.com/programming/comments/1ujjuhackernews_down_unwisely_returning_http_200_foceirvc3
submitted by Sheepshow to programmingcirclejerk [link] [comments]

It seems strange to see a design flaw in Bitcoin, something which was otherwise so perfectly-crafted.

submitted by straciatella_vla to programmingcirclejerk [link] [comments]

10 Malentendidos sobre El Web Scraping

1. El web scraping es ilegal
Muchas personas tienen falsas impresiones sobre el web scraping. Es porque hay personas que no respetan el gran trabajo en Internet y usan web scraping herramienta robando el contenido. El web scraping no es ilegal en sí mismo, sin embargo, el problema surge cuando las personas lo usan sin el permiso del propietario del sitio y sin tener en cuenta los Términos de Servicio (Términos de Servicio). Según el informe, el 2% de los ingresos en línea se pueden perder debido al mal uso del contenido a través del raspado web. Aunque el raspado web no tiene una ley clara y términos para abordar su aplicación, está abarcado por las regulaciones legales. Por ejemplo:
2. El web scraping y el web crawling son lo mismo
El web scraping implica la extracción de datos específicos en una página web específica, por ejemplo, extraer datos sobre clientes potenciales de ventas, listados de bienes inmuebles y precios de productos. Por el contrario, el web crawling es lo que hacen los motores de búsqueda. Escanea e indexa todo el sitio web junto con sus enlaces internos. "Crawler" puede navegar por la web sin un objetivo específico.
3. Puedes scrape cualquier sitio web
A menudo que las personas solicitan scraping cosas como direcciones de correo electrónico, publicaciones de Facebook o información de LinkedIn. Según un artículo titulado "¿Es legal el web scraping?" Es importante tener en cuenta las reglas antes de realizar el web scraping:
Una persona puede ser procesada bajo varias leyes. Por ejemplo, uno raspó cierta información confidencial y la vendió a un tercero, ignorando la carta de prohibición enviada por el propietario del sitio. Esta persona puede ser procesada bajo la ley de Trespass a Chattel, Violación de Digital Millennium Copyright Act (DMCA), Violación de la Ley de Computer Fraud and Abuse Act (CFAA) and Misappropriation
No significa que no pueda scrape canales de redes sociales como Twitter, Facebook, Instagram y YouTube. Son amigables con los servicios de scraping que siguen las disposiciones del archivo robots.txt. Para Facebook, debe obtener su permiso por escrito antes de realizar el comportamiento de la recopilación automatizada de datos.
4. Necesitas saber cómo codificar
Una herramienta de web scraping (herramienta de extracción de datos) es muy útil para profesionales no tecnológicos como especialistas en marketing, estadísticos, consultores financieros, inversores de bitcoin, investigadores, periodistas, etc. Octoparse lanzó una característica única: web scraping templates que scrapers preformateados que cubren más de 14 categorías en más de 30 sitios web, incluidos Facebook, Twitter, Amazon, eBay, Instagram y más. Todo lo que tiene que hacer es ingresar las palabras clave/URL en el parámetro sin ninguna configuración de tarea compleja. El web scraping con Python lleva mucho tiempo. Por otro lado, una plantilla de web scraping es eficiente y conveniente para capturar los datos que necesita.
5. Puede usar datos scraped para cualquier cosa
Es perfectamente legal si extrae datos de sitios web para consumo público y los utiliza para análisis. Sin embargo, no es legal si scrape información confidencial con fines de lucro. Por ejemplo, scraping información de contacto privada sin permiso y venderla a un tercero para obtener ganancias es ilegal. Además, reempaquetar contenido raspado como propio sin citar la fuente tampoco es ético. Debe seguir de reglas sobre no enviar spam o cualquier uso fraudulento de datos está prohibido de acuerdo con la ley.
6. Un web scraper es versátil
Tal vez ha experimentado sitios web particulares que cambian su diseño o estructura de vez en cuando. No se frustre cuando se encuentre con sitios web que su scraper no puede leer por segunda vez. Hay muchas razones. No se activa necesariamente al identificarte como un bot sospechoso. También puede ser causado por diferentes ubicaciones geográficas o acceso de la máquina. En estos casos, es normal que un web scraper no pueda analizar el sitio web antes de establecer el ajuste.
7. Puedes scraping web a alta velocidad
Es posible que haya visto anuncios de scraper que dicen cuán rápidos son sus scrapers. Suena bien ya que le dicen que pueden recopilar datos en segundos. Sin embargo, si causas daños a la empresa, serás un delincuente y será procesado. Esto se debe a que una solicitud de datos escalables a una velocidad rápida sobrecargará un servidor web, lo que podría provocar un bloqueo del servidor. En este caso, la persona es responsable por el daño bajo la ley de "trespass to chattels" (Dryer y Stockton 2013). Si no está seguro de si el sitio web es scrapable o no, pregúntele al proveedor de servicios de desguace web. Octoparse es un proveedor de servicios de raspado web responsable que coloca la satisfacción de los clientes en primer lugar. Para Octoparse es crucial ayudar a nuestros clientes a resolver el problema y tener éxito.
8. API y Web scraping son lo mismo
API es como un canal para enviar su solicitud de datos a un servidor web y obtener los datos deseados. API devolverá los datos en formato JSON a través del protocolo HTTP. Por ejemplo, Facebook API, Twitter API, y Instagram API. Sin embargo, no significa que pueda obtener los datos que solicite. El web scraping puede visualizar el proceso ya que le permite interactuar con los sitios web. Octoparse tiene plantillas de web scraping. Es aún más conveniente para los profesionales no tecnológicos extraer datos al completar los parámetros con palabras clave/URL.
9. The scraped data only works for our business after being cleaned and analyzed
Many data integration platforms can help visualize and analyze the data. In comparison, it looks like data scraping doesn’t have a direct impact on business decision making. Web scraping indeed extracts raw data of the webpage that needs to be processed to gain insights like sentiment analysis. However, some raw data can be extremely valuable in the hands of gold miners.
9. Los scraped data solo funcionan para nuestro negocio después de ser limpiados y analizados
Muchas plataformas de integración de datos pueden ayudar a visualizar y analizar los datos. En comparación, parece que el scraping de datos no tiene un impacto directo en la toma de decisiones comerciales. De hecho, el web scraping extrae datos sin procesar de la página web que deben procesarse para obtener información como el análisis de sentimientos. Sin embargo, algunos datos en bruto pueden ser extremadamente valiosos en manos de los mineros de oro.
Con la plantilla de web scraping de Octoparse Google Search para buscar un resultado de búsqueda orgánica, puede extraer información, incluidos los títulos y meta descripciones sobre sus competidores para determinar sus estrategias de SEO; Para las industrias minoristas, el web scraping se puede usar para controlar los precios y la distribución de los productos. Por ejemplo, Amazon puede crawl Flipkart y Walmart en el catálogo "Electrónico" para evaluar el rendimiento de los artículos electrónicos.
10. El web scraping solo puede usarse en negocios
El web scraping se usa ampliamente en varios campos además de la generación de leads, el monitoreo de precios, el seguimiento de precios y el análisis de mercado para empresas. Los estudiantes también pueden aprovechar una plantilla de web scraping de Google Académico para realizar investigaciones de tesis. Los agentes inmobiliarios pueden realizar investigaciones de vivienda y predecir el mercado inmobiliario. Podrá encontrar personas influyentes de Youtube o Twitter para promocionar su marca o su propia agregación de noticias que cubra los únicos temas que desea al scraping los medios de comunicación y los RSS feeds.
submitted by melisaxinyue to webscraping [link] [comments]

Decred Foundations - an hour of updates at Consensus Distributed - Tuesday May 12 - 1330 EST

Decred has an hour-long slot (along with many other projects) at Consensus Distributed, 1330-1430 NYC time on Tuesday May 12th. Event link: https://next.brella.io/events/consensusdistributed/schedule/118434
To attend the event and watch live it seems (unfortunately) necessary to register on brella.io, even to read the event description. I am pasting it below.
Videos will be available on the coindesk website afterwards, and an extended edition of Checkmate's segment will be made available on Youtube.
Construct - Building the Decred Ecosystem
In this segment, Richard Red checks in with the developers who are leading on some of Decred's most exciting sub-projects.
Luke Powell will give an update on Politeia, which is the basis for the Decred proposals site and contractor management system.
Matheus Degiovanni will give us the latest on the Decred Lightning Network, catching up with Bitcoin’s lnd development and scoping out the areas where Decred’s LN can go that Bitcoin’s cannot.
We'll be catching up with Jon Chappelow (chappjc) and Brian Stafford (buck) who lead development on dcrdex and dcrdata.
dcrdex is software for an atomic swap based decentralized exchange with no trading fees and no token that anyone can set up and run a server for, and in this session, the lead developers explain what that’s all about, and give an update on progress ahead of the imminent pre-alpha test.
dcrdata is a block explorer that provides incredible depth of information about the Decred chain, including a variety of specialized overviews and charts related to Decred’s voting systems. Dcrdata has been expanding to cover additional data sources, integrating market data, and adding features like an attack cost estimator which allows configuration of PoW and PoS parameters to model the likelihood of success in real-time.
Buck will also give an update on TinyDecred, the python toolset that was his personal project until it was adopted by the Decred stakeholders last year.
Trade Secrets - Decred On-chain Analytics with Checkmate
Checkmate gives a whistle-stop tour of 5 key indicators for monitoring the health of the Decred ecosystem and conviction of stakeholders. The presentation covers the history of the Decred chain through the lens of:
Changelog - 365 Decred Days
Decred co-founder and lead project organizer Jake Yocom-Piatt will deliver a presentation covering the highlights of the last year.
Jake will review the consensus rules changes that have been approved and activated by Decred stakeholders over the last year, which have served to better support the Lightning Network and Simplified Payment Verification.
The presentation will also cover the adoption of these improvements in the Decrediton GUI wallet and mobile wallets, bringing new levels of security and privacy to the latter. The initial privacy tooling release and its uptake will also be considered.
There will also be a review of the year's Treasury spending, efforts to develop the consensus changes to decentralize Treasury spending, and the integration of the Contractor Management System (CMS) with the Politeia proposals platform.
The presentation will also look ahead to the future, with the DCR DEX coming online soon and some more consensus rule change proposals in the pipeline.
Following the 15 minute presentation, there will be a live 10 minute Q&A session with Lucas Nuzzi of Coinmetrics
submitted by Richard-Red to decred [link] [comments]

How to Create Your Own Cryptocurrency Using Python 2020

A blockchain is a public database that irreversibly documents and authenticates the possession and transmission of digital assets. Digital currencies, like Bitcoin and Ethereum, are based on this concept. Blockchain is an exciting technology that you can use to transform the capabilities of your applications.
Of late, we’ve been seeing governments, organizations, and individuals using the blockchain technology to create their own cryptocurrencies—and avoid being left behind. Notably, when Facebook proposed its own cryptocurrency, called Libra, the announcement stirred many waters across the world.

What if you could also follow suit and create your own version of a cryptocurrency?

I thought about this and decided to develop an algorithm that creates a crypto.
I decided to call the cryptocurrency fccCoin.
In this tutorial, I’m going to illustrate the step-by-step process I used to build the digital currency (I used the object-oriented concepts of the Python programming language).
Here is the basic blueprint of the blockchain algorithm for creating the fccCoin:
class Block: def __init__(): #first block class pass def calculate_hash(): #calculates the cryptographic hash of every block class BlockChain: def __init__(self): # constructor method pass def construct_genesis(self): # constructs the initial block pass def construct_block(self, proof_no, prev_hash): # constructs a new block and adds it to the chain pass u/staticmethod def check_validity(): # checks whether the blockchain is valid pass def new_data(self, sender, recipient, quantity): # adds a new transaction to the data of the transactions pass u/staticmethod def construct_proof_of_work(prev_proof): # protects the blockchain from attack pass u/property def last_block(self): # returns the last block in the chain return self.chain[-1]
Now, let me explain what is taking place…
1. Building the first Block class A blockchain comprises of several blocks that are joined to each other (that sounds familiar, right?).
The chaining of blocks takes place such that if one block is tampered with, the rest of the chain becomes invalid.
In applying the above concept, I created the following initial block class
import hashlib import time class Block: def __init__(self, index, proof_no, prev_hash, data, timestamp=None): self.index = index self.proof_no = proof_no self.prev_hash = prev_hash self.data = data self.timestamp = timestamp or time.time() u/property def calculate_hash(self): block_of_string = “{}{}{}{}{}”.format(self.index, self.proof_no, self.prev_hash, self.data, self.timestamp) return hashlib.sha256(block_of_string.encode()).hexdigest() def __repr__(self): return “{} – {} – {} – {} – {}”.format(self.index, self.proof_no, self.prev_hash, self.data, self.timestamp)
As you can see from the code above, I defined the __init__() function, which will be executed when the Block class is being initiated, just like in any other Python class.
I provided the following parameters to the initiation function:
self—this refers to the instance of the Block class, making it possible to access the methods and attributes associated with the class; index—this keeps track of the position of the block within the blockchain; proof_no—this is the number produced during the creation of a new block (called mining); prev_hash—this refers to the hash of the previous block within the chain; data—this gives a record of all transactions completed, such as the quantity bought; timestamp—this places a timestamp for the transactions. The second method in the class, calculate_hash, will generate the hash of the blocks using the above values. The SHA-256 module is imported into the project to assist in obtaining the hashes of the blocks.
After the values have been inputted into the cryptographic hash algorithm, the function will return a 256-bit string representing the contents of the block.
This is how security is achieved in blockchains—every block will have a hash and that hash will rely on the hash of the previous block.
As such, if someone tries to compromise any block in the chain, the other blocks will have invalid hashes, leading to disruption of the entire blockchain network.
Ultimately, a block will look like this:
{ “index”: 2, “proof”: 21, “prev_hash”: “6e27587e8a27d6fe376d4fd9b4edc96c8890346579e5cbf558252b24a8257823”, “transactions”: [ {‘sender’: ‘0’, ‘recipient’: ‘Quincy Larson’, ‘quantity’: 1} ], “timestamp”: 1521646442.4096143 }
2. Building the Blockchain class The main idea of a blockchain, just as the name implies, involves “chaining” several blocks to one another.
Therefore, I’m going to construct a Blockchain class that will be useful in managing the workings of the whole chain. This is where most of the action is going to take place.
The Blockchain class will have various helper methods for completing various tasks in the blockchain.
Let me explain the role of each of the methods in the class.
a. Constructor method This method ensures the blockchain is instantiated.
class BlockChain: def __init__(self): self.chain = [] self.current_data = [] self.nodes = set() self.construct_genesis()
Here are the roles of its attributes:
b. Constructing the genesis block The blockchain requires a construct_genesis method to build the initial block in the chain. In the blockchain convention, this block is special because it symbolizes the start of the blockchain.
In this case, let’s construct it by simply passing some default values to the construct_block method.
I gave both proof_no and prev_hash a value of zero, although you can provide any value you want.
def construct_genesis(self): self.construct_block(proof_no=0, prev_hash=0) def construct_block(self, proof_no, prev_hash): block = Block( index=len(self.chain), proof_no=proof_no, prev_hash=prev_hash, data=self.current_data) self.current_data = [] self.chain.append(block) return block
c. Constructing new blocks
The construct_block method is used for creating new blocks in the blockchain.
Here is what is taking place with the various attributes of this method:
d. Checking validity
The check_validity method is important in assessing the integrity of the blockchain and ensuring anomalies are absent.
As mentioned earlier, hashes are essential for the security of the blockchain as even the slightest change in the object will lead to the generation of a completely new hash.
Therefore, this check_validity method uses if statements to check whether the hash of every block is correct.
It also verifies if every block points to the right previous block, through comparing the value of their hashes. If everything is correct, it returns true; otherwise, it returns false.
u/staticmethod def check_validity(block, prev_block): if prev_block.index + 1 != block.index: return False elif prev_block.calculate_hash != block.prev_hash: return False elif not BlockChain.verifying_proof(block.proof_no, prev_block.proof_no): return False elif block.timestamp <= prev_block.timestamp: return False return True
e. Adding data of transactions
The new_data method is used for adding the data of transactions to a block. It’s a very simple method: it accepts three parameters (sender’s details, receiver’s details, and quantity) and append the transaction data to self.current_data list.
Anytime a new block is created, this list is allocated to that block and reset once more as explained in the construct_block method.
Once the transaction data has been added to the list, the index of the next block to be created is returned.
This index is calculated by adding 1 to the index of the current block (which is the last in the blockchain). The data will assist a user in submitting the transaction in future.
def new_data(self, sender, recipient, quantity): self.current_data.append({ ‘sender’: sender, ‘recipient’: recipient, ‘quantity’: quantity }) return True
f. Adding proof of work
Proof of work is a concept that prevents the blockchain from abuse. Simply, its objective is to identify a number that solves a problem after a certain amount of computing work is done.
If the difficulty level of identifying the number is high, it discourages spamming and tampering with the blockchain.
In this case, we’ll use a simple algorithm that discourages people from mining blocks or creating blocks easily.
u/staticmethod def proof_of_work(last_proof): ”’this simple algorithm identifies a number f’ such that hash(ff’) contain 4 leading zeroes f is the previous f’ f’ is the new proof ”’ proof_no = 0 while BlockChain.verifying_proof(proof_no, last_proof) is False: proof_no += 1 return proof_no u/staticmethod def verifying_proof(last_proof, proof): #verifying the proof: does hash(last_proof, proof) contain 4 leading zeroes? guess = f'{last_proof}{proof}’.encode() guess_hash = hashlib.sha256(guess).hexdigest() return guess_hash[:4] == “0000”
g. Getting the last block
Lastly, the latest_block method is a helper method that assists in obtaining the last block in the blockchain. Remember that the last block is actually the current block in the chain.
u/property def latest_block(self): return self.chain[-1]
Let’s sum everything together
Here is the entire code for creating the fccCoin cryptocurrency.
You can also get the code on this GitHub repository.
import hashlib import time class Block: def __init__(self, index, proof_no, prev_hash, data, timestamp=None): self.index = index self.proof_no = proof_no self.prev_hash = prev_hash self.data = data self.timestamp = timestamp or time.time() u/property def calculate_hash(self): block_of_string = “{}{}{}{}{}”.format(self.index, self.proof_no, self.prev_hash, self.data, self.timestamp) return hashlib.sha256(block_of_string.encode()).hexdigest() def __repr__(self): return “{} – {} – {} – {} – {}”.format(self.index, self.proof_no, self.prev_hash, self.data, self.timestamp) class BlockChain: def __init__(self): self.chain = [] self.current_data = [] self.nodes = set() self.construct_genesis() def construct_genesis(self): self.construct_block(proof_no=0, prev_hash=0) def construct_block(self, proof_no, prev_hash): block = Block( index=len(self.chain), proof_no=proof_no, prev_hash=prev_hash, data=self.current_data) self.current_data = [] self.chain.append(block) return block u/staticmethod def check_validity(block, prev_block): if prev_block.index + 1 != block.index: return False elif prev_block.calculate_hash != block.prev_hash: return False elif not BlockChain.verifying_proof(block.proof_no, prev_block.proof_no): return False elif block.timestamp <= prev_block.timestamp: return False return True def new_data(self, sender, recipient, quantity): self.current_data.append({ ‘sender’: sender, ‘recipient’: recipient, ‘quantity’: quantity }) return True u/staticmethod def proof_of_work(last_proof): ”’this simple algorithm identifies a number f’ such that hash(ff’) contain 4 leading zeroes f is the previous f’ f’ is the new proof ”’ proof_no = 0 while BlockChain.verifying_proof(proof_no, last_proof) is False: proof_no += 1 return proof_no u/staticmethod def verifying_proof(last_proof, proof): #verifying the proof: does hash(last_proof, proof) contain 4 leading zeroes? guess = f'{last_proof}{proof}’.encode() guess_hash = hashlib.sha256(guess).hexdigest() return guess_hash[:4] == “0000” u/property def latest_block(self): return self.chain[-1] def block_mining(self, details_miner): self.new_data( sender=”0″, #it implies that this node has created a new block receiver=details_miner, quantity= 1, #creating a new block (or identifying the proof number) is awarded with 1 ) last_block = self.latest_block last_proof_no = last_block.proof_no proof_no = self.proof_of_work(last_proof_no) last_hash = last_block.calculate_hash block = self.construct_block(proof_no, last_hash) return vars(block) def create_node(self, address): self.nodes.add(address) return True u/staticmethod def obtain_block_object(block_data): #obtains block object from the block data return Block( block_data[‘index’], block_data[‘proof_no’], block_data[‘prev_hash’], block_data[‘data’], timestamp=block_data[‘timestamp’])
Now, let’s test our code to see if it works.
blockchain = BlockChain() print(“***Mining fccCoin about to start***”) print(blockchain.chain) last_block = blockchain.latest_block last_proof_no = last_block.proof_no proof_no = blockchain.proof_of_work(last_proof_no) blockchain.new_data( sender=”0″, #it implies that this node has created a new block recipient=”Quincy Larson”, #let’s send Quincy some coins! quantity= 1, #creating a new block (or identifying the proof number) is awarded with 1 ) last_hash = last_block.calculate_hash block = blockchain.construct_block(proof_no, last_hash) print(“***Mining fccCoin has been successful***”) print(blockchain.chain)
It worked!
Here is the output of the mining process:
***Mining fccCoin about to start*** [0 – 0 – 0 – [] – 1566930640.2707076] ***Mining fccCoin has been successful*** [0 – 0 – 0 – [] – 1566930640.2707076, 1 – 88914 – a8d45cb77cddeac750a9439d629f394da442672e56edfe05827b5e41f4ba0138 – [{‘sender’: ‘0’, ‘recipient’: ‘Quincy Larson’, ‘quantity’: 1}] – 1566930640.5363243]
Conclusion
There you have it!
That’s how you could create your own blockchain using Python.
Let me say that this tutorial just demonstrates the basic concepts for getting your feet wet in the innovative blockchain technology.
If this coin were deployed as-is, it could not meet the present market demands for a stable, secure, and easy-to-use cryptocurrency.
Therefore, it can still be improved by adding additional features to enhance its capabilities for mining and sending financial transactions.
Nonetheless, it’s a good starting point if you decide to make your name known in the amazing world of cryptos.
If you have any comments or questions, please post them below.
Happy (crypto) coding!
Source: Cryptoors
submitted by djkloud to CryptoTechnology [link] [comments]

Is installing and compiling libraries as extremely frustrating and impossible for others as it is for me?

I don't know if it's my unconventional programming setup (VirtualBox Ubuntu 18), but I have never been able to simply follow the steps to compile a project or application without major problems happening.
Here are all some examples from me trying to build openpose tonight. It's what prompted me to make this post:
  1. Cmake must be updated because, for some reason, the default apt-get cmake is still the version from 2017!
  2. I had to specifically install python3.7-dev instead of python 3.6-dev even though everyone builds openpose with python3.5-dev (which I couldn't install).
  3. I had to mix and match commands from three different tutorials because following just one of any of them resulted in errors.
  4. Openpose would not compile because there was a typo in one of the third-party libraries that I found out only after diving deep into github. I had to vim and manually edit the source code to fix this one.
This sounds a bit whiny, and it may just be only to whine. But is this really how major packages are dealt with?
This is just one example, a month ago I spent a whole day just to compile a library by Google called mediapipe. In between these examples have been dozens of other libraries and packages where following the instructions was not sufficient and I needed to dive deep into terminology way above my head to try and debug some stupid problems and it seems to not be getting easier with time.
It just seems like such a major headache and the solutions are so arcane that I can't fathom how anyone even came up with them? It just looks like: Oh, simply apt-get llldldlepellelpv=3.5 the lllldldldelep3.5.1 has the bug on line 3,884 and then copy it into this other directory and make sure it's not done past 2PM otherwise you also have to meet this dependency by sacrificing your 3rd most valued possession by chucking it out of the 4 story apartment (incompatible with non-4-story apartments). This result will then be the 5th post on stack overflow and the only one that works. The others just reiterate the exact things you've already tried in judgemental tones or just go off the deep end completely with some insane-tier fixes, including running overcomplicated batch scripts they made which who knows what they do other than probably remotely install a bitcoin miner.
Plus not to mention that I'm trying to code with some of my classmates and the outcome of each of our slightly different setups results in every possible combination of bugs. No single set of instructions will make a major library compile on all of our ubuntu setups.
The setup of libraries (not even talking about incorporating them into my own project so that mine will compile alongside them) is just an extremely frustrating process. What are the secrets to doing it right and being able to know which magic commands fix the bugs?
submitted by Ari2010 to learnprogramming [link] [comments]

How I feel after today's drop.

How I feel after today's drop. submitted by yuriy_popach to Bitcoin [link] [comments]

I found a $600k BCH theft that has gone unnoticed

Hello all, I'm (among other things) a graduate student getting a master's degree in cybersecurity. This last quarter for one of my classes, I was tasked to examine and recreate an exploit. For the actual exploit I was examining the "anyone can spend" segwit addresses on the BCH chain, and in my research I found a $600k theft that seems to have gone completely unnoticed.
You all might recall this $600k theft of segwit addresses, but it happened again in mid-February 2018 and there has been zero news about it.
BCH block 517171 contains solely segwit-stealing transactions. If you look at any given transaction, the inputs are all segwit program hashes spending a P2SH segwit output. I only caught it by accident, as I was originally going to talk about the publicized November attack.
The interesting thing I discovered about this was that it's harder to have stolen that segwit money than most people think. Both Unlimited and ABC nodes do not relay segwit-spending transactions, and Bitcoin ABC hard-coded in fRequireStandard, so you couldn't even force-relay them with a conf option. On top of that, miners keep their node IPs private for obvious avoiding-ddos-and-sybil-attack reasons, which means it's impossible to directly send transactions to miners. This means that the only way to actually execute this attack was to setup one's own mining pool running on a custom-modified client to allow non-standard transactions. Then you'd have to get enough hash power to mine a block yourself. I estimated the cost of renting enough hash power to do this at the time as around $30k-$60k to have a greater than 90% chance of mining a block within a 3 month window.
In order to simulate the attack, I spun up BTC, LTC, and BCH nodes in Docker, and wrote a Python script. The Python script started at segwit activation on BTC and LTC and it scanned every transaction in every block looking for P2SH segwit inputs as well as native segwit outputs, since these are the necessary hash pre-images to spend P2SH segwit money on the BCH chain. The script then also scanned the BCH chain for any native segwit outputs, as well as recording all P2SH outputs. (This was all saved in a MySQL database.) Then, at any point in time, I could simply query for BCH unspent native segwit outputs as well as P2SH outputs for which I had a known segwit hash pre-image. (If this was an attack I was doing real-time, I would probably also have a large mempool on each node and monitor unconfirmed tx's for useful info as well, but since this was after the fact, I just queried blocks sequentially.)
For the mining node that runs the pool, it would need to be firewalled behind (i.e. only connected to) an unmodified node in blocks-only mode, so that the segwit hash pre-images aren't transmitted out to the network, and so that no other unconfirmed transactions are transmitted in to the mining node. (The mining node should only be filling its block with segwit tx's in order to maximize the gain from the attack.)
Then a script should run continuously to grab segwit utxos from the MySQL database and construct high-fee transactions to send directly to the mining node. Unlike the November attack, each input should be spent in its own individual transaction, so that in the event it is individually spent, I don't negate a tx with other inputs. The overhead on having different transactions for each input is only about 8 extra bytes (the tx version and the locktime), so I think this is a good trade-off.
Then, the attacker simply rents hashing power and points it at his secret pool.
By the time February rolled around and the attack happened, my MySQL database had about 40 million BCH P2SH outputs and each query took about 3 minutes to execute. This of course would have been fine in the 10-minute block world of Bitcoin and BCH, but it means that I stopped my Python script after that time, so I don't know about any possible other attacks that happened before the clean stack rule was hard-forked into BCH.
It was pretty interesting to work through how this attack must have happened, and it was significantly harder to execute than I thought it would be given that all the money was "anyone can spend".
However, the most interesting thing about all this is that nobody has noticed. There is literally no news or mention of block 517171 or any of the transactions in it. My theory is that it is money that nobody misses -- i.e. misprogrammed custom wallet software for BTC nodes accidentally also sent out BCH transactions to the same address, given that BTC and BCH shared the same history until August 2017. And whatever person or entity is running those nodes is only thinking about BTC money and is completely oblivious to its misprogrammed problem of shipping BCH to segwit P2SH addresses.
Obviously, that's just a theory, but I think it's pretty reasonable. Given the intense community divide, I think it's very possible that a number of BTC users simply ignored money on the BCH chain, even though it's "free money" for them, simply out of ideological hatred.
Whatever the case, nobody has posted anywhere complaining of money stolen in that block. It seems to have gone completely unnoticed. (Which is why I'm posting this.) It was an interesting case study and I'd be curious to hear if anybody has any addition information or thoughts about it. I believe this was a different person than the November theft, because the way it was done was different -- the November theft had all the money in one transaction, but this February theft was done with separate individual transactions. Additionally worth noting is that the address which received the bulk of the money is still active, which means they're still out there.
Anyway, I thought this was interesting and worth posting.
submitted by exmachinalibertas to btc [link] [comments]

A better anti-reorg algorithm using first-seen times to punish secret/dishonest mining

Bitcoin currently allows a malicious miner with at least 51% of the network hashrate to arbitrarily rewrite blockchain history. This means that transactions are reversible if they belong to a miner with a hashrate majority, and such transactions are subject to double-spend attempts. Bitcoin SV's miners have repeatedly threatened to perform this attack against exchanges using BCH by mining a secret, hidden chain which they only publish after they have withdrawn funds in a different currency from the exchange. It would be nice if we could prevent these secret mining re-org attacks.
Yesterday, I came up with a new algorithm for making secret re-org attacks very expensive and difficult to pull off. This new algorithm is designed to avoid the permanent chainsplit vulnerabilities of ABC 0.18.5 while being more effective at punishing malicious behavior.
The key to the new algorithm is to punish exactly the behavior that indicates malice. First, publishing a block after another block at the same height has arrived on the network suggests malice or poor performance, and the likelihood of malice increases as the delay increases. A good algorithm would penalize blocks in proportion to how much later they were published after the competing block. Second, building upon a block that was intentionally delayed is also a sign of malice. Therefore, a good algorithm would discount the work done by blocks based not only on their own delays, but the delays that were seen earlier in that chain as well. Since the actions at the start of the fork are more culpable (as they generate the split), we want to weight those blocks more heavily than later blocks.
I wrote up an algorithm that implements these features. When comparing two chains, you look at the PoW done since the fork block, and divide that PoW by a penalty score. The penalty score for each chain is calculated as the sum of the penalty scores for each block. Each block's penalty score is equal to the apparent time delay of that block relative to its sibling or cousin[1], divided by 120 seconds[2], and further divided by the square[3] of that block's height[4] from the fork.[5]
This algorithm has some desirable properties:
  1. It provides smooth performance. There are no corners or sharp changes in its incentive structure or penalty curve.
  2. It converges over very long time scales. Eventually, if one chain has more hashrate than the other and that is sustained indefinitely, the chain with the most hashrate will win by causing the chain penalty score for the slower (less-PoW) chain to grow.
  3. The long-term convergence means that variation in observed times early in the fork will not cause permanent chainsplits.
  4. Long-term convergence means that nodes can follow the standard most-PoW rule during initial block download and get the same results unless an attack is underway, in which case the node will only temporarily disagree.
  5. Over intermediate time scales (e.g. hours to weeks), the penalty given to secret-mining deep-reorg chains is very large and difficult to overcome even with a significant hashrate advantage. The penalty increases the longer the attack chain is kept secret. This makes attack attempts ineffective unless they are published within about 20 minutes of the attack starting.
  6. Single-block orphan race behavior is identical to existing behavior unless one of the blocks has a delay of at least 120 seconds, in which case that chain would require a total of 3 blocks to win (or more) instead of just 2.
  7. As the algorithm strongly punishes hidden chains, finalization becomes much safer as long as you prevent finalization from happening while there are known competitive alternate chains. However, this algorithm is still effective without finalization.
I wrote up this algorithm into a Python sim yesterday and have been playing around with it since. It seems to perform quite well. For example, if the attacker has 1.5x as much hashrate as the defenders (who had 100% of the hashrate before the fork), mine in secret for 20 minutes before publishing, and if finalization is enabled after 10 blocks when there's at least a 2x score advantage, then the attacker gets an orphan rate of 49.3% on their blocks and is only able to cause a >= 10 block reorg in 5.2% of cases, and none of those happen blindly, as the opposing chain shows up when most transactions have about 2 confirmations. If the attacker waits 1 hour before publishing, the attack is even less effective: 94% of their blocks are orphaned, 95.6% of their attempts fail, 94.3% of the attacks end with defenders successfully finalizing, and only 0.6% of attack attempts result in a >= 10 block reorg.
The code for my algorithm and simulator can be found on my antiReorgSim Github repository. If you guys have time, I'd appreciate some review and feedback. To run it:
git clone https://github.com/jtoomim/antiReorgSim.git cd antiReorgSim python reorgsim.py # use pypy if you have it, as it's 30x faster 
Thanks! Special thanks to Jonald Fyookball and Mark Lundeberg for reviewing early versions of the code and the ideas. I believe Jonald is working on a Medium post based on some of these concepts. Keep an eye out for it.
Edit: I'm working on an interactive HTML visualization using Dash/Python! Here's a screenshot from a preliminary version in which convergence (or attacker victory, if you prefer) happens after 88.4 hours. In this scenario, the attacker wins because of the rule in Note 5.
Edit 2: An alpha website version of the simulator is up! The code is all server-side for the simulation, so it might get overloaded if too many people hit it at the same time, but it might be fine. Feel free to play around with it!
Note 1: This time delay is calculated by finding the best competing chain's last block with less work than this one and the first block with more work than this one and interpolating the time-first-seen between the two. The time at which the block was fully downloaded and verified is used as time-first-seen, not the time at which the header was received nor the block header's timestamp.
Note 2: An empirical constant, intended to be similar to worst-case block propagation times.
Note 3: A semi-empirical constant; this balances the effect of early blocks against late blocks. The motivation for squaring is that late blocks gain an advantage for two multiplicative reasons: First, there are more late blocks than early blocks. Second, the time deltas for late blocks are larger. Both of these factors are linear versus time, so canceling them out can be done by dividing by height squared. This way, the first block has about as much weight as the next 4 blocks; the first two blocks have as much weight as the next 9 blocks; and the first (n) blocks have about as much weight as the next (n+1)2 blocks. Any early advantage can be overcome eventually by a hashrate majority, so over very long time scales (e.g. hours to weeks), this rule is equivalent to the simple Satoshi most-PoW rule, as long as the hashrate on each chain is constant. However, over intermediate time scales, the advantage to the first seen blocks is large enough that the hashrate will likely not remain constant, and hashrate will likely switch over to whichever chain has the best score and looks the most honest.
Note 4: The calculation doesn't actually use height, as that would be vulnerable to DAA manipulation. Instead, the calculation uses pseudoheight, which uses the PoW done and the fork block's difficulty to calculate what the height would be if all blocks had the fork block's difficulty.
Note 5: If one chain has less PoW than the other, the shorter chain's penalty is calculated as if enough blocks had been mined at the last minute to make them equal in PoW, but these fictional blocks do not contribute to the actual PoW of that chain.
submitted by jtoomim to btc [link] [comments]

BitFury just mined a block with a "BIP 148" (=UASF-SegWit) tag.

BitFury just mined a block with a submitted by AurikBTC to btc [link] [comments]

Your Guide to Monero, and Why It Has Great Potential

/////Your Guide to Monero, and Why It Has Great Potential/////

Marketing.
It's a dirty word for most members of the Monero community.
It is also one of the most divisive words in the Monero community. Yet, the lack of marketing is one of the most frustrating things for many newcomers.
This is what makes this an unusual post from a member of the Monero community.
This post is an unabashed and unsolicited analyzation of why I believe Monero to have great potential.
Below I have attempted to outline different reasons why Monero has great potential, beginning with upcoming developments and use cases, to broader economic motives, speculation, and key issues for it to overcome.
I encourage you to discuss and criticise my musings, commenting below if you feel necessary to do so.

///Upcoming Developments///

Bulletproofs - A Reduction in Transaction Sizes and Fees
Since the introduction of Ring Confidential Transactions (Ring CT), transaction amounts have been hidden in Monero, albeit at the cost of increased transaction fees and sizes. In order to mitigate this issue, Bulletproofs will soon be added to reduce both fees and transaction size by 80% to 90%. This is great news for those transacting smaller USD amounts as people commonly complained Monero's fees were too high! Not any longer though! More information can be found here. Bulletproofs are already working on the Monero testnet, and developers were aiming to introduce them in March 2018, however it could be delayed in order to ensure everything is tried and tested.
Multisig
Multisig has recently been merged! Mulitsig, also called multisignature, is the requirement for a transaction to have two or more signatures before it can be executed. Multisig transactions and addresses are indistinguishable from normal transactions and addresses in Monero, and provide more security than single-signature transactions. It is believed this will lead to additional marketplaces and exchanges to supporting Monero.
Kovri
Kovri is an implementation of the Invisible Internet Project (I2P) network. Kovri uses both garlic encryption and garlic routing to create a private, protected overlay-network across the internet. This overlay-network provides users with the ability to effectively hide their geographical location and internet IP address. The good news is Kovri is under heavy development and will be available soon. Unlike other coins' false privacy claims, Kovri is a game changer as it will further elevate Monero as the king of privacy.
Mobile Wallets
There is already a working Android Wallet called Monerujo available in the Google Play Store. X Wallet is an IOS mobile wallet. One of the X Wallet developers recently announced they are very, very close to being listed in the Apple App Store, however are having some issues with getting it approved. The official Monero IOS and Android wallets, along with the MyMonero IOS and Android wallets, are also almost ready to be released, and can be expected very soon.
Hardware Wallets
Hardware wallets are currently being developed and nearing completion. Because Monero is based on the CryptoNote protocol, it means it requires unique development in order to allow hardware wallet integration. The Ledger Nano S will be adding Monero support by the end of Q1 2018. There is a recent update here too. Even better, for the first time ever in cryptocurrency history, the Monero community banded together to fund the development of an exclusive Monero Hardware Wallet, and will be available in Q2 2018, costing only about $20! In addition, the CEO of Trezor has offered a 10BTC bounty to whoever can provide the software to allow Monero integration. Someone can be seen to already be working on that here.
TAILS Operating System Integration
Monero is in the progress of being packaged in order for it to be integrated into TAILS and ready to use upon install. TAILS is the operating system popularised by Edward Snowden and is commonly used by those requiring privacy such as journalists wanting to protect themselves and sources, human-right defenders organizing in repressive contexts, citizens facing national emergencies, domestic violence survivors escaping from their abusers, and consequently, darknet market users.
In the meantime, for those users who wish to use TAILS with Monero, u/Electric_sheep01 has provided Sheep's Noob guide to Monero GUI in Tails 3.2, which is a step-by-step guide with screenshots explaining how to setup Monero in TAILS, and is very easy to follow.
Mandatory Hardforks
Unlike other coins, Monero receives a protocol upgrade every 6 months in March and September. Think of it as a Consensus Protocol Update. Monero's hard forks ensure quality development takes place, while preventing political or ideological issues from hindering progress. When a hardfork occurs, you simply download and use the new daemon version, and your existing wallet files and copy of the blockchain remain compatible. This reddit post provides more information.
Dynamic fees
Many cryptocurrencies have an arbitrary block size limit. Although Monero has a limit, it is adaptive based on the past 100 blocks. Similarly, fees change based on transaction volume. As more transactions are processed on the Monero network, the block size limit slowly increases and the fees slowly decrease. The opposite effect also holds true. This means that the more transactions that take place, the cheaper the fees!
Tail Emission and Inflation
There will be around 18.4 million Monero mined at the end of May 2022. However, tail emission will kick in after that which is 0.6 XMR, so it has no fixed limit. Gundamlancer explains that Monero's "main emission curve will issue about 18.4 million coins to be mined in approximately 8 years. (more precisely 18.132 Million coins by ca. end of May 2022) After that, a constant "tail emission" of 0.6 XMR per 2-minutes block (modified from initially equivalent 0.3 XMR per 1-minute block) will create a sub-1% perpetual inflatio starting with 0.87% yearly inflation around May 2022) to prevent the lack of incentives for miners once a currency is not mineable anymore.
Monero Research Lab
Monero has a group of anonymous/pseudo-anonymous university academics actively researching, developing, and publishing academic papers in order to improve Monero. See here and here. The Monero Research Lab are acquainted with other members of cryptocurrency academic community to ensure when new research or technology is uncovered, it can be reviewed and decided upon whether it would be beneficial to Monero. This ensures Monero will always remain a leading cryptocurrency. A recent end of 2017 update from a MRL researcher can be found here.

///Monero's Technology - Rising Above The Rest///

Monero Has Already Proven Itself To Be Private, Secure, Untraceable, and Trustless
Monero is the only private, untraceable, trustless, secure and fungible cryptocurrency. Bitcoin and other cryptocurrencies are TRACEABLE through the use of blockchain analytics, and has lead to the prosecution of numerous individuals, such as the alleged Alphabay administrator Alexandre Cazes. In the Forfeiture Complaint which detailed the asset seizure of Alexandre Cazes, the anonymity capabilities of Monero were self-demonstrated by the following statement of the officials after the AlphaBay shutdown: "In total, from CAZES' wallets and computer agents took control of approximately $8,800,000 in Bitcoin, Ethereum, Monero and Zcash, broken down as follows: 1,605.0503851 Bitcoin, 8,309.271639 Ethereum, 3,691.98 Zcash, and an unknown amount of Monero".
Privacy CANNOT BE OPTIONAL and must be at a PROTOCOL LEVEL. With Monero, privacy is mandatory, so that everyone gets the benefits of privacy without any transactions standing out as suspicious. This is the reason Darknet Market places are moving to Monero, and will never use Verge, Zcash, Dash, Pivx, Sumo, Spectre, Hush or any other coins that lack good privacy. Peter Todd (who was involved in the Zcash trusted setup ceremony) recently reiterated his concerns of optional privacy after Jeffrey Quesnelle published his recent paper stating 31.5% of Zcash transactions may be traceable, and that only ~1% of the transactions are pure privacy transactions (i.e., z -> z transactions). When the attempted private transactions stand out like a sore thumb there is no privacy, hence why privacy cannot be optional. In addition, in order for a cryptocurrency to truly be private, it must not be controlled by a centralised body, such as a company or organisation, because it opens it up to government control and restrictions. This is no joke, but Zcash is supported by DARPA and the Israeli government!.
Monero provides a stark contrast compared to other supposed privacy coins, in that Monero does not have a rich list! With all other coins, you can view wallet balances on the blockexplorers. You can view Monero's non-existent rich list here to see for yourself.
I will reiterate here that Monero is TRUSTLESS. You don't need to rely on anyone else to protect your privacy, or worry about others colluding to learn more about you. No one can censor your transaction or decide to intervene. Monero is immutable, unlike Zcash, in which the lead developer Zooko publicly tweeted the possibility of providing a backdoor for authorities to trace transactions. To Zcash's demise, Zooko famously tweeted:
" And by the way, I think we can successfully make Zcash too traceable for criminals like WannaCry, but still completely private & fungible. …"
Ethereum's track record of immutability is also poor. Ethereum was supposed to be an immutable blockchain ledger, however after the DAO hack this proved to not be the case. A 2016 article on Saintly Law summarised the problematic nature of Ethereum's leadership and blockchain intervention:
" Many ethereum and blockchain advocates believe that the intervention was the wrong move to make in this situation. Smart contracts are meant to be self-executing, immutable and free from disturbance by organisations and intermediaries. Yet the building block of all smart contracts, the code, is inherently imperfect. This means that the technology is vulnerable to the same malicious hackers that are targeting businesses and governments. It is also clear that the large scale intervention after the DAO hack could not and would not likely be taken in smaller transactions, as they greatly undermine the viability of the cryptocurrency and the technology."
Monero provides Fungibility and Privacy in a Cashless World
As outlined on GetMonero.org, fungibility is the property of a currency whereby two units can be substituted in place of one another. Fungibility means that two units of a currency can be mutually substituted and the substituted currency is equal to another unit of the same size. For example, two $10 bills can be exchanged and they are functionally identical to any other $10 bill in circulation (although $10 bills have unique ID numbers and are therefore not completely fungible). Gold is probably a closer example of true fungibility, where any 1 oz. of gold of the same grade is worth the same as another 1 oz. of gold. Monero is fungible due to the nature of the currency which provides no way to link transactions together nor trace the history of any particular XMR. 1 XMR is functionally identical to any other 1 XMR. Fungibility is an advantage Monero has over Bitcoin and almost every other cryptocurrency, due to the privacy inherent in the Monero blockchain and the permanently traceable nature of the Bitcoin blockchain. With Bitcoin, any BTC can be tracked by anyone back to its creation coinbase transaction. Therefore, if a coin has been used for an illegal purpose in the past, this history will be contained in the blockchain in perpetuity.
A great example of Bitcoin's lack of fungibility was reposted by u/ViolentlyPeaceful:
"Imagine you sell cupcakes and receive Bitcoin as payment. It turns out that someone who owned that Bitcoin before you was involved in criminal activity. Now you are worried that you have become a suspect in a criminal case, because the movement of funds to you is a matter of public record. You are also worried that certain Bitcoins that you thought you owned will be considered ‘tainted’ and that others will refuse to accept them as payment."
This lack of fungibility means that certain businesses will be obligated to avoid accepting BTC that have been previously used for purposes which are illegal, or simply run afoul of their Terms of Service. Currently some large Bitcoin companies are blocking, suspending, or closing accounts that have received Bitcoin used in online gambling or other purposes deemed unsavory by said companies. Monero has been built specifically to address the problem of traceability and non-fungibility inherent in other cryptocurrencies. By having completely private transactions Monero is truly fungible and there can be no blacklisting of certain XMR, while at the same time providing all the benefits of a secure, decentralized, permanent blockchain.
The world is moving cashless. Fact. The ramifications of this are enormous as we move into a cashless world in which transactions will be tracked and there is a potential for data to be used by third parties for adverse purposes. While most new cryptocurrency investors speculate upon vaporware ICO tokens in the hope of generating wealth, Monero provides salvation for those in which financial privacy is paramount. Too often people equate Monero's features with criminal endeavors. Privacy is not a crime, and is necessary for good money. Transparency in Monero is possible OFF-CHAIN, which offers greater transparency and flexibility. For example, a Monero user may share their Private View Key with their accountant for tax purposes.
Monero aims to be adopted by more than just those with nefarious use cases. For example, if you lived in an oppressive religious regime and wanted to buy a certain item, using Monero would allow you to exchange value privately and across borders if needed. Another example is that if everybody can see how much cryptocurrency you have in your wallet, then a certain service might decide to charge you more, and bad actors could even use knowledge of your wallet balance to target you for extortion purposes. For example, a Russian cryptocurrency blogger was recently beaten and robbed of $425k. This is why FUNGIBILITY IS ESSENTIAL. To summarise this in a nutshell:
"A lack of fungibility means that when sending or receiving funds, if the other person personally knows you during a transaction, or can get any sort of information on you, or if you provide a residential address for shipping etc. – you could quite potentially have them use this against you for personal gain"
For those that wish to seek more information about why Monero is a superior form of money, read The Merits of Monero: Why Monero Vs Bitcoin over on the Monero.how website.
Monero's Humble Origins
Something that still rings true today despite the great influx of money into cryptocurrencies was outlined in Nick Tomaino's early 2016 opinion piece. The author claimed that "one of the most interesting aspects of Monero is that the project has gained traction without a crowd sale pre-launch, without VC funding and any company or well-known investors and without a pre-mine. Like Bitcoin in the early days, Monero has been a purely grassroots movement that was bootstrapped by the creator and adopted organically without any institutional buy-in. The creator and most of the core developers serve the community pseudonymously and the project was launched on a message board (similar to the way Bitcoin was launched on an email newsletter)."
The Organic Growth of the Monero Community
The Monero community over at monero is exponentially growing. You can view the Monero reddit metrics here and see that the Monero subreddit currently gains more than 10,000 (yes, ten thousand!) new subscribers every 10 days! Compare this to most of the other coins out there, and it proves to be one of the only projects with real organic growth. In addition to this, the community subreddits are specifically divided to ensure the main subreddit remains unbiased, tech focused, with no shilling or hype. All trading talk is designated to xmrtrader, and all memes at moonero.
Forum Funding System
While most contributors have gratefully volunteered their time to the project, Monero also has a Forum Funding System in which money is donated by community members to ensure it attracts and retains the brightest minds and most skilled developers. Unlike ICOs and other cryptocurrencies, Monero never had a premine, and does not have a developer tax. If ANYONE requires funding for a Monero related project, then they can simply request funding from the community, and if the community sees it as beneficial, they will donate. Types of projects range from Monero funding for local meet ups, to paying developers for their work.
Monero For Goods, Services, and Market Places
There is a growing number of online goods and services that you can now pay for with Monero. Globee is a service that allows online merchants to accept payments through credit cards and a host of cryptocurrencies, while being settled in Bitcoin, Monero or fiat currency. Merchants can reach a wider variety of customers, while not needing to invest in additional hardware to run cryptocurrency wallets or accept the current instability of the cryptocurrency market. Globee uses all of the open source API's that BitPay does making integrations much easier!
Project Coral Reef is a service which allows you to shop and pay for popular music band products and services using Monero.
Linux, Veracrypt, and a whole array of VPNs now accept Monero.
There is a new Monero only marketplace called Annularis currently being developed which has been created for those who value financial privacy and economic freedom, and there are rumours Open Bazaar is likely to support Monero once Multisig is implemented.
In addition, Monero is also supported by The Living Room of Satoshi so you can pay bills or credit cards directly using Monero.
Monero can be found on a growing number of cryptocurrency exchange services such as Bittrex, Poloniex, Cryptopia, Shapeshift, Changelly, Bitfinex, Kraken, Bisq, Tux, and many others.
For those wishing to purchase Monero anonymously, there are services such as LocalMonero.co and Moneroforcash.com.
With XMR.TO you can pay Bitcoin addresses directly with Monero. There are no other fees than the miner ones. All user records are purged after 48 hours. XMR.TO has also been added as an embedded feature into the Monerujo android wallet.
Coinhive Browser-Based Mining
Unlike Bitcoin, Monero can be mined using CPUs and GPUs. Not only does this encourage decentralisation, it also opens the door to browser based mining. Enter side of stage, Coinhive browser-based mining. As described by Hon Lau on the Symnatec Blog Browser-based mining, as its name suggests, is a method of cryptocurrency mining that happens inside a browser and is implemented using Javascript. Coinhive is marketed as an alternative to browser ad revenue. The motivation behind this is simple: users pay for the content indirectly by coin mining when they visit the site and website owners don't have to bother users with sites laden with ads, trackers, and all the associated paraphern. This is great, provided that the websites are transparent with site visitors and notify users of the mining that will be taking place, or better still, offer users a way to opt in, although this hasn't always been the case thus far.
Skepticism Sunday
The main Monero subreddit has weekly Skepticism Sundays which was created with the purpose of installing "a culture of being scientific, skeptical, and rational". This is used to have open, critical discussions about monero as a technology, it's economics, and so on.

///Speculation///

Major Investors And Crypto Figureheads Are Interested
Ari Paul is the co-founder and CIO of BlockTower Capital. He was previously a portfolio manager for the University of Chicago's $8 billion endowment, and a derivatives market maker and proprietary trader for Susquehanna International Group. Paul was interviewed on CNBC on the 26th of December and when asked what was his favourite coin was, he stated "One that has real fundamental value besides from Bitcoin is Monero" and said it has "very strong engineering". In addition, when he was asked if that was the one used by criminals, he replied "Everything is used by criminals including the US dollar and the Euro". Paul later supported these claims on Twitter, recommending only Bitcoin and Monero as long-term investments.
There are reports that "Roger Ver, earlier known as 'Bitcoin Jesus' for his evangelical support of the Bitcoin during its early years, said his investment in Monero is 'substantial' and his biggest in any virtual currency since Bitcoin.
Charlie Lee, the creator of Litecoin, has publicly stated his appreciation of Monero. In a September 2017 tweet directed to Edward Snowden explaining why Monero is superior to Zcash, Charlie Lee tweeted:
All private transactions, More tested privacy tech, No tax on miners to pay investors, No high inflation... better investment.
John McAfee, arguably cryptocurrency's most controversial character at the moment, has publicly supported Monero numerous times over the last twelve months(before he started shilling ICOs), and has even claimed it will overtake Bitcoin.
Playboy instagram celebrity Dan Bilzerian is a Monero investor, with 15% of his portfolio made up of Monero.
Finally, while he may not be considered a major investor or figurehead, Erik Finman, a young early Bitcoin investor and multimillionaire, recently appeared in a CNBC Crypto video interview, explaining why he isn't entirely sold on Bitcoin anymore, and expresses his interest in Monero, stating:
"Monero is a really good one. Monero is an incredible currency, it's completely private."
There is a common belief that most of the money in cryptocurrency is still chasing the quick pump and dumps, however as the market matures, more money will flow into legitimate projects such as Monero. Monero's organic growth in price is evidence smart money is aware of Monero and gradually filtering in.
The Bitcoin Flaw
A relatively unknown blogger named CryptoIzzy posted three poignant pieces regarding Monero and its place in the world. The Bitcoin Flaw: Monero Rising provides an intellectual comparison of Monero to other cryptocurrencies, and Valuing Cryptocurrencies: An Approach outlines methods of valuing different coins.
CryptoIzzy's most recent blog published only yesterday titled Monero Valuation - Update and Refocus is a highly recommended read. It touches on why Monero is much more than just a coin for the Darknet Markets, and provides a calculated future price of Monero.
CryptoIzzy also published The Power of Money: A Case for Bitcoin, which is an exploration of our monetary system, and the impact decentralised cryptocurrencies such as Bitcoin and Monero will have on the world. In the epilogue the author also provides a positive and detailed future valuation based on empirical evidence. CryptoIzzy predicts Monero to easily progress well into the four figure range.
Monero Has a Relatively Small Marketcap
Recently we have witnessed many newcomers to cryptocurrency neglecting to take into account coins' marketcap and circulating supply, blindly throwing money at coins under $5 with inflated marketcaps and large circulating supplies, and then believing it's possible for them to reach $100 because someone posted about it on Facebook or Reddit.
Compared to other cryptocurrencies, Monero still has a low marketcap, which means there is great potential for the price to multiply. At the time of writing, according to CoinMarketCap, Monero's marketcap is only a little over $5 billion, with a circulating supply of 15.6 million Monero, at a price of $322 per coin.
For this reason, I would argue that this is evidence Monero is grossly undervalued. Just a few billion dollars of new money invested in Monero can cause significant price increases. Monero's marketcap only needs to increase to ~$16 billion and the price will triple to over $1000. If Monero's marketcap simply reached ~$35 billion (just over half of Ripple's $55 billion marketcap), Monero's price will increase 600% to over $2000 per coin.
Another way of looking at this is Monero's marketcap only requires ~$30 billion of new investor money to see the price per Monero reach $2000, while for Ethereum to reach $2000, Ethereum's marketcap requires a whopping ~$100 billion of new investor money.
Technical Analysis
There are numerous Monero technical analysts, however none more eerily on point than the crowd-pleasing Ero23. Ero23's charts and analysis can be found on Trading View. Ero23 gained notoriety for his long-term Bitcoin bull chart published in February, which is still in play today. Head over to his Trading View page to see his chart: Monero's dwindling supply. $10k in 2019 scenario, in which Ero23 predicts Monero to reach $10,000 in 2019. There is also this chart which appears to be freakishly accurate and is tracking along perfectly today.
Coinbase Rumours
Over the past 12 months there have been ongoing rumours that Monero will be one of the next cryptocurrencies to be added to Coinbase. In January 2017, Monero Core team member Riccardo 'Fluffypony' Spagni presented a talk at Coinbase HQ. In addition, in November 2017 GDAX announced the GDAX Digit Asset Framework outlining specific parameters cryptocurrencies must meet in order to be added to the exchange. There is speculation that when Monero has numerous mobile and hardware wallets available, and multisig is working, then it will be added. This would enable public accessibility to Monero to increase dramatically as Coinbase had in excess of 13 million users as of December, and is only going to grow as demand for cryptocurrencies increases. Many users argue that due to KYC/AML regulations, Coinbase will never be able to add Monero, however the Kraken exchange already operates in the US and has XMfiat pairs, so this is unlikely to be the reason Coinbase is yet to implement XMfiat trading.
Monero Is Not an ICO Scam
It is likely most of the ICOs which newcomers invest in, hoping to get rich quick, won't even be in the Top 100 cryptocurrencies next year. A large portion are most likely to be pumps and dumps, and we have already seen numerous instances of ICO exit scams. Once an ICO raises millions of dollars, the developers or CEO of the company have little incentive to bother rolling out their product or service when they can just cash out and leave. The majority of people who create a company to provide a service or product, do so in order to generate wealth. Unless these developers and CEOs are committed and believed in their product or service, it's likely that the funds raised during the ICO will far exceed any revenue generated from real world use cases.
Monero is a Working Currency, Today
Monero is a working currency, here today.
The majority of so called cryptocurrencies that exist today are not true currencies, and do not aim to be. They are a token of exchange. They are like a share in a start-up company hoping to use blockchain technology to succeed in business. A crypto-assest is a more accurate name for coins such as Ethereum, Neo, Cardano, Vechain, etc.
Monero isn't just a vaporware ICO token that promises to provide a blockchain service in the future. It is not a platform for apps. It is not a pump and dump coin.
Monero is the only coin with all the necessary properties to be called true money.
Monero is private internet money.
Some even describe Monero as an online Swiss Bank Account or Bitcoin 2.0, and it is here to continue on from Bitcoin's legacy.
Monero is alleviating the public from the grips of banks, and protests the monetary system forced upon us.
Monero only achieved this because it is the heart and soul, and blood, sweat, and tears of the contributors to this project. Monero supporters are passionate, and Monero has gotten to where it is today thanks to its contributors and users.

///Key Issues for Monero to Overcome///

Scalability
While Bulletproofs are soon to be implemented in order to improve Monero's transaction sizes and fees, scalability is an issue for Monero that is continuously being assessed by Monero's researchers and developers to find the most appropriate solution. Ricardo 'Fluffypony' Spagni recently appeared on CNBC's Crypto Trader, and when asked whether Monero is scalable as it stands today, Spagni stated that presently, Monero's on-chain scaling is horrible and transactions are larger than Bitcoin's (because of Monero's privacy features), so side-chain scaling may be more efficient. Spagni elaborated that the Monero team is, and will always be, looking for solutions to an array of different on-chain and off-chain scaling options, such as developing a Mimblewimble side-chain, exploring the possibility of Lightning Network so atomic swaps can be performed, and Tumblebit.
In a post on the Monero subreddit from roughly a month ago, monero moderator u/dEBRUYNE_1 supports Spagni's statements. dEBRUYNE_1 clarifies the issue of scalability:
"In Bitcoin, the main chain is constrained and fees are ludicrous. This results in users being pushed to second layer stuff (e.g. sidechains, lightning network). Users do not have optionality in Bitcoin. In Monero, the goal is to make the main-chain accessible to everyone by keeping fees reasonable. We want users to have optionality, i.e., let them choose whether they'd like to use the main chain or second layer stuff. We don't want to take that optionality away from them."
When the Spagni CNBC video was recently linked to the Monero subreddit, it was met with lengthy debate and discussion from both users and developers. u/ferretinjapan summarised the issue explaining:
"Monero has all the mechanisms it needs to find the balance between transaction load, and offsetting the costs of miner infrastructure/profits, while making sure the network is useful for users. But like the interviewer said, the question is directed at "right now", and Fluffys right to a certain extent, Monero's transactions are huge, and compromises in blockchain security will help facilitate less burdensome transactional activity in the future. But to compare Monero to Bitcoin's transaction sizes is somewhat silly as Bitcoin is nowhere near as useful as monero, and utility will facilitate infrastructure building that may eventually utterly dwarf Bitcoin. And to equate scaling based on a node being run on a desktop being the only option for what classifies as "scalable" is also an incredibly narrow interpretation of the network being able to scale, or not. Given the extremely narrow definition of scaling people love to (incorrectly) use, I consider that a pretty crap question to put to Fluffy in the first place, but... ¯_(ツ)_/¯"
u/xmrusher also contributed to the discussion, comparing Bitcoin to Monero using this analogous description:
"While John is much heavier than Henry, he's still able to run faster, because, unlike Henry, he didn't chop off his own legs just so the local wheelchair manufacturer can make money. While Morono has much larger transactions then Bitcoin, it still scales better, because, unlike Bitcoin, it hasn't limited itself to a cripplingly tiny blocksize just to allow Blockstream to make money."
Setting up a wallet can still be time consuming
It's time consuming and can be somewhat difficult for new cryptocurrency users to set up their own wallet using the GUI wallet or the Command Line Wallet. In order to strengthen and further decentralize the Monero network, users are encouraged to run a full node for their wallet, however this can be an issue because it can take up to 24-48 hours for some users depending on their hard-drive and internet speeds. To mitigate this issue, users can run a remote node, meaning they can remotely connect their wallet to another node in order to perform transactions, and in the meantime continue to sync the daemon so in the future they can then use their own node.
For users that do run into wallet setup issues, or any other problems for that matter, there is an extremely helpful troubleshooting thread on the Monero subreddit which can be found here. And not only that, unlike some other cryptocurrency subreddits, if you ask a question, there is always a friendly community member who will happily assist you. Monero.how is a fantastic resource too!
Despite still being difficult to use, the user-base and price may increase dramatically once it is easier to use. In addition, others believe that when hardware wallets are available more users will shift to Monero.

///Conclusion///

I actually still feel a little shameful for promoting Monero here, but feel a sense of duty to do so.
Monero is transitioning into an unstoppable altruistic beast. This year offers the implementation of many great developments, accompanied by the likelihood of a dramatic increase in price.
I request you discuss this post, point out any errors I have made, or any information I may have neglected to include. Also, if you believe in the Monero project, I encourage you to join your local Facebook or Reddit cryptocurrency group and spread the word of Monero. You could even link this post there to bring awareness to new cryptocurrency users and investors.
I will leave you with an old on-going joke within the Monero community - Don't buy Monero - unless you have a use case for it of course :-) Just think to yourself though - Do I have a use case for Monero in our unpredictable Huxleyan society? Hint: The answer is ?
Edit: Added in the Tail Emission section, and noted Dan Bilzerian as a Monero investor. Also added information regarding the XMR.TO payment service. Added info about hardfork
submitted by johnfoss69 to CryptoCurrency [link] [comments]

⚡ Lightning Network Megathread ⚡

Last updated 2018-01-29
This post is a collaboration with the Bitcoin community to create a one-stop source for Lightning Network information.
There are still questions in the FAQ that are unanswered, if you know the answer and can provide a source please do so!

⚡What is the Lightning Network? ⚡

Explanations:

Image Explanations:

Specifications / White Papers

Videos

Lightning Network Experts on Reddit

  • starkbot - (Elizabeth Stark - Lightning Labs)
  • roasbeef - (Olaoluwa Osuntokun - Lightning Labs)
  • stile65 - (Alex Akselrod - Lightning Labs)
  • cfromknecht - (Conner Fromknecht - Lightning Labs)
  • RustyReddit - (Rusty Russell - Blockstream)
  • cdecker - (Christian Decker - Blockstream)
  • Dryja - (Tadge Dryja - Digital Currency Initiative)
  • josephpoon - (Joseph Poon)
  • fdrn - (Fabrice Drouin - ACINQ )
  • pmpadiou - (Pierre-Marie Padiou - ACINQ)

Lightning Network Experts on Twitter

  • @starkness - (Elizabeth Stark - Lightning Labs)
  • @roasbeef - (Olaoluwa Osuntokun - Lightning Labs)
  • @stile65 - (Alex Akselrod - Lightning Labs)
  • @bitconner - (Conner Fromknecht - Lightning Labs)
  • @johanth - (Johan Halseth - Lightning Labs)
  • @bvu - (Bryan Vu - Lightning Labs)
  • @rusty_twit - (Rusty Russell - Blockstream)
  • @snyke - (Christian Decker - Blockstream)
  • @JackMallers - (Jack Mallers - Zap)
  • @tdryja - (Tadge Dryja - Digital Currency Initiative)
  • @jcp - (Joseph Poon)
  • @alexbosworth - (Alex Bosworth - yalls.org)

Medium Posts

Learning Resources

Books

Desktop Interfaces

Web Interfaces

Tutorials and resources

Lightning on Testnet

Lightning Wallets

Place a testnet transaction

Altcoin Trading using Lightning

  • ZigZag - Disclaimer You must trust ZigZag to send to Target Address

Lightning on Mainnet

Warning - Testing should be done on Testnet

Atomic Swaps

Developer Documentation and Resources

Lightning implementations

  • LND - Lightning Network Daemon (Golang)
  • eclair - A Scala implementation of the Lightning Network (Scala)
  • c-lightning - A Lightning Network implementation in C
  • lit - Lightning Network node software (Golang)
  • lightning-onion - Onion Routed Micropayments for the Lightning Network (Golang)
  • lightning-integration - Lightning Integration Testing Framework
  • ptarmigan - C++ BOLT-Compliant Lightning Network Implementation [Incomplete]

Libraries

Lightning Network Visualizers/Explorers

Testnet

Mainnet

Payment Processors

  • BTCPay - Next stable version will include Lightning Network

Community

Slack

IRC

Slack Channel

Discord Channel

Miscellaneous

⚡ Lightning FAQs ⚡

If you can answer please PM me and include source if possible. Feel free to help keep these answers up to date and as brief but correct as possible
Is Lightning Bitcoin?
Yes. You pick a peer and after some setup, create a bitcoin transaction to fund the lightning channel; it’ll then take another transaction to close it and release your funds. You and your peer always hold a bitcoin transaction to get your funds whenever you want: just broadcast to the blockchain like normal. In other words, you and your peer create a shared account, and then use Lightning to securely negotiate who gets how much from that shared account, without waiting for the bitcoin blockchain.
Is the Lightning Network open source?
Yes, Lightning is open source. Anyone can review the code (in the same way as the bitcoin code)
Who owns and controls the Lightning Network?
Similar to the bitcoin network, no one will ever own or control the Lightning Network. The code is open source and free for anyone to download and review. Anyone can run a node and be part of the network.
I’ve heard that Lightning transactions are happening “off-chain”…Does that mean that my bitcoin will be removed from the blockchain?
No, your bitcoin will never leave the blockchain. Instead your bitcoin will be held in a multi-signature address as long as your channel stays open. When the channel is closed; the final transaction will be added to the blockchain. “Off-chain” is not a perfect term, but it is used due to the fact that the transfer of ownership is no longer reflected on the blockchain until the channel is closed.
Do I need a constant connection to run a lightning node?
Not necessarily,
Example: A and B have a channel. 1 BTC each. A sends B 0.5 BTC. B sends back 0.25 BTC. Balance should be A = 0.75, B = 1.25. If A gets disconnected, B can publish the first Tx where the balance was A = 0.5 and B = 1.5. If the node B does in fact attempt to cheat by publishing an old state (such as the A=0.5 and B=1.5 state), this cheat can then be detected on-chain and used to steal the cheaters funds, i.e., A can see the closing transaction, notice it's an old one and grab all funds in the channel (A=2, B=0). The time that A has in order to react to the cheating counterparty is given by the CheckLockTimeVerify (CLTV) in the cheating transaction, which is adjustable. So if A foresees that it'll be able to check in about once every 24 hours it'll require that the CLTV is at least that large, if it's once a week then that's fine too. You definitely do not need to be online and watching the chain 24/7, just make sure to check in once in a while before the CLTV expires. Alternatively you can outsource the watch duties, in order to keep the CLTV timeouts low. This can be achieved both with trusted third parties or untrusted ones (watchtowers). In the case of a unilateral close, e.g., you just go offline and never come back, the other endpoint will have to wait for that timeout to expire to get its funds back. So peers might not accept channels with extremely high CLTV timeouts. -- Source
What Are Lightning’s Advantages?
Tiny payments are possible: since fees are proportional to the payment amount, you can pay a fraction of a cent; accounting is even done in thousandths of a satoshi. Payments are settled instantly: the money is sent in the time it takes to cross the network to your destination and back, typically a fraction of a second.
Does Lightning require Segregated Witness?
Yes, but not in theory. You could make a poorer lightning network without it, which has higher risks when establishing channels (you might have to wait a month if things go wrong!), has limited channel lifetime, longer minimum payment expiry times on each hop, is less efficient and has less robust outsourcing. The entire spec as written today assumes segregated witness, as it solves all these problems.
Can I Send Funds From Lightning to a Normal Bitcoin Address?
No, for now. For the first version of the protocol, if you wanted to send a normal bitcoin transaction using your channel, you have to close it, send the funds, then reopen the channel (3 transactions). In future versions, you and your peer would agree to spend out of your lightning channel funds just like a normal bitcoin payment, allowing you to use your lightning wallet like a normal bitcoin wallet.
Can I Make Money Running a Lightning Node?
Not really. Anyone can set up a node, and so it’s a race to the bottom on fees. In practice, we may see the network use a nominal fee and not change very much, which only provides an incremental incentive to route on a node you’re going to use yourself, and not enough to run one merely for fees. Having clients use criteria other than fees (e.g. randomness, diversity) in route selection will also help this.
What is the release date for Lightning on Mainnet?
Lightning is already being tested on the Mainnet Twitter Link but as for a specific date, Jameson Lopp says it best
Would there be any KYC/AML issues with certain nodes?
Nope, because there is no custody ever involved. It's just like forwarding packets. -- Source
What is the delay time for the recipient of a transaction receiving confirmation?
Furthermore, the Lightning Network scales not with the transaction throughput of the underlying blockchain, but with modern data processing and latency limits - payments can be made nearly as quickly as packets can be sent. -- Source
How does the lightning network prevent centralization?
Bitcoin Stack Exchange Answer
What are Channel Factories and how do they work?
Bitcoin Stack Exchange Answer
How does the Lightning network work in simple terms?
Bitcoin Stack Exchange Answer
How are paths found in Lightning Network?
Bitcoin Stack Exchange Answer
How would the lightning network work between exchanges?
Each exchange will get to decide and need to implement the software into their system, but some ideas have been outlined here: Google Doc - Lightning Exchanges
Note that by virtue of the usual benefits of cost-less, instantaneous transactions, lightning will make arbitrage between exchanges much more efficient and thus lead to consistent pricing across exchange that adopt it. -- Source
How do lightning nodes find other lightning nodes?
Stack Exchange Answer
Does every user need to store the state of the complete Lightning Network?
According to Rusty's calculations we should be able to store 1 million nodes in about 100 MB, so that should work even for mobile phones. Beyond that we have some proposals ready to lighten the load on endpoints, but we'll cross that bridge when we get there. -- Source
Would I need to download the complete state every time I open the App and make a payment?
No you'd remember the information from the last time you started the app and only sync the differences. This is not yet implemented, but it shouldn't be too hard to get a preliminary protocol working if that turns out to be a problem. -- Source
What needs to happen for the Lightning Network to be deployed and what can I do as a user to help?
Lightning is based on participants in the network running lightning node software that enables them to interact with other nodes. This does not require being a full bitcoin node, but you will have to run "lnd", "eclair", or one of the other node softwares listed above.
All lightning wallets have node software integrated into them, because that is necessary to create payment channels and conduct payments on the network, but you can also intentionally run lnd or similar for public benefit - e.g. you can hold open payment channels or channels with higher volume, than you need for your own transactions. You would be compensated in modest fees by those who transact across your node with multi-hop payments. -- Source
Is there anyway for someone who isn't a developer to meaningfully contribute?
Sure, you can help write up educational material. You can learn and read more about the tech at http://dev.lightning.community/resources. You can test the various desktop and mobile apps out there (Lightning Desktop, Zap, Eclair apps). -- Source
Do I need to be a miner to be a Lightning Network node?
No -- Source
Do I need to run a full Bitcoin node to run a lightning node?
lit doesn't depend on having your own full node -- it automatically connects to full nodes on the network. -- Source
LND uses a light client mode, so it doesn't require a full node. The name of the light client it uses is called neutrino
How does the lightning network stop "Cheating" (Someone broadcasting an old transaction)?
Upon opening a channel, the two endpoints first agree on a reserve value, below which the channel balance may not drop. This is to make sure that both endpoints always have some skin in the game as rustyreddit puts it :-)
For a cheat to become worth it, the opponent has to be absolutely sure that you cannot retaliate against him during the timeout. So he has to make sure you never ever get network connectivity during that time. Having someone else also watching for channel closures and notifying you, or releasing a canned retaliation, makes this even harder for the attacker. This is because if he misjudged you being truly offline you can retaliate by grabbing all of its funds. Spotty connections, DDoS, and similar will not provide the attacker the necessary guarantees to make cheating worthwhile. Any form of uncertainty about your online status acts as a deterrent to the other endpoint. -- Source
How many times would someone need to open and close their lightning channels?
You typically want to have more than one channel open at any given time for redundancy's sake. And we imagine open and close will probably be automated for the most part. In fact we already have a feature in LND called autopilot that can automatically open channels for a user.
Frequency will depend whether the funds are needed on-chain or more useful on LN. -- Source
Will the lightning network reduce BTC Liquidity due to "locking-up" funds in channels?
Stack Exchange Answer
Can the Lightning Network work on any other cryptocurrency? How?
Stack Exchange Answer
When setting up a Lightning Network Node are fees set for the entire node, or each channel when opened?
You don't really set up a "node" in the sense that anyone with more than one channel can automatically be a node and route payments. Fees on LN can be set by the node, and can change dynamically on the network. -- Source
Can Lightning routing fees be changed dynamically, without closing channels?
Yes but it has to be implemented in the Lightning software being used. -- Source
How can you make sure that there will be routes with large enough balances to handle transactions?
You won't have to do anything. With autopilot enabled, it'll automatically open and close channels based on the availability of the network. -- Source
How does the Lightning Network stop flooding nodes (DDoS) with micro transactions? Is this even an issue?
Stack Exchange Answer

Unanswered Questions

How do on-chain fees work when opening and closing channels? Who pays the fee?
How does the Lightning Network work for mobile users?
What are the best practices for securing a lightning node?
What is a lightning "hub"?
How does lightning handle cross chain (Atomic) swaps?

Special Thanks and Notes

  • Many links found from awesome-lightning-network github
  • Everyone who submitted a question or concern!
  • I'm continuing to format for an easier Mobile experience!
submitted by codedaway to Bitcoin [link] [comments]

I'm trying to put together a list of what's coming out this year. Have this very simple list so far. Anyone care to add anything or suggest some better dates?

Latest News (most recent first) - Instant channels enable safe Lightning payments with unconfirmed funding Beta - Feb 10, 2019 - Voyager, New trading app from Uber & E-Trade execs announce launch date - Feb 9, 2019 - bumi/blockstream_satellite ruby gem for the Blockstream Satellite API - Feb 8, 2019 - New Zap Desktop 0.3.4 is out. New features, massive performance - Feb 8, 2019 - New release: @lightning desktop app v0.4.0-alpha - Feb 8, 2019 - valerio-vaccaro/Liquid-dashboard - Feb 7, 2019 - Japanese SBI Holdings will allow trading of coins - March 2019 - lnd v0.5.2-beta released - Feb 6, 2019 - Koala studios launches online LN gaming platform - Feb 6, 2019 - Independent Reserve has become the first #crypto exchange in Australia to be insured, with coverage underwritten by Lloyd's of London. - Feb 6, 2019 - Coinbase announces BTC support for their mobile (keep your own keys) wallet - Feb 6, 2019 - Blockstream published a new open source Proof of Reserves tool. - Feb 5, 2019 - RTL release v0.1.14-alpha - Feb 5, 2019 - dr-orlovsky/typhon-spec spec for new trestles side chain published - Feb 5, 2019 - Payment requests coming soon to BTCPay. - Feb 5th, 2019 - Kraken Acquires Futures Startup In Deal Worth At Least $100 Million - Feb 5th, 2019 - Next Blockchain cruise scheduled for June 9-13 - Feb 4, 2019 - Work on a GoTenna plugin to Electrum wallet in progress - Feb 4, 2019 - Bitcoin Candy Dispensers being open sourced - Feb 4, 2019 - New release of JoinMarket v0.5.3 - Feb 4, 2019 - Prime Trust won’t charge its clients to custody digital assets any longer. - Feb 4, 2019 - nodogsplash/nodogsplash wifi access using LN - Feb 3, 2019 - @tippin_me Receive tips using Lightning Network adds message feature - Feb 3, 2019 - Bitcoin-for-Taxes Bill in NH Unanimously Approved by House Subcommittee - Feb 3, 2019 - Full support for native segwit merged into bitcoinj - Feb 3, 2019 - Bitfury is partnering with financial services firm Final Frontier! - Feb 2, 2019 - Now you can open #LightningNetwork channels in @LightningJoule - Feb 2, 2019 - Integrating Blockstream’s Liquid payments on SideShift AI - Feb 1, 2019 - Wyoming legislature passes bill to recognize cryptocurrency as money - Feb 1, 2019 - Casa is open sourcing the code for the Casa Node - Feb 1, 2019 - Casa Browser Extension released - v0.5.2-beta-rc6 of lnd, full release getting very close now - Feb 1, 2019 - Tallycoin adds subscriptions and paywall features in bid to rival Patreon - Jan 31, 2019 - Static channel backup PR merged into LN - Jan 31, 2019 - The NYDFS grants another Bitlicense to ATM operator - Jan 31, 2019 - @pwuille currently proposing the “MiniScript” language to describe BTC output locking conditions for practical composition - Jan 31, 2019 - Fidelity is in the “final testing” phase for its new digital asset business - Jan 31, 2019 - Hardware wallet PR #109 just got merged so that @Trezor no longer requires user interaction for PIN - Jan 31, 2019 - CBOE, VanEck & SolidX filed a new & improved bitcoin ETF proposal. - Jan 31, 2019 - Casa Node code is now open sourced - Jan 31, 2019 - Next Bitoin halving in roughly 497 days - Jan 31, 2019 - BTCPay released 1.0.3.53 - Jan 31, 2019 - @binance now lets users purchase cryptos using Visa and Mastercard credit. - Jan 31, 2019 - Bitfury to Launch Bitcoin Operations in Paraguay - Jan 31, 2019 - Coinbase introduces very generous affiliate program - Jan 30, 2019 - DOJO Trusted Node bitcoin full node. Coming Early 2019 - Jan 30, 2019 - FastBitcoins.com Enables Cash-for-Bitcoin Exchange Via the Lightning Network - Jan 30, 2019 - TD Ameritrade says clients want cryptocurrency investment options - company plans major announcement in 'first half of 2019' - Jan 30, 2019 - Storage component of Fidelity's @DigitalAssets live, with some assets under management, @nikhileshde - Jan 29, 2019 - lightning mainnet has reached 600 BTC capacity - Jan 29, 2019 - Drivechain shows picture of Grin side chain and suggests might be ready in 2 month - Jan 29, 2019 - Lightning labs iOS neutrino wallet in testing stage now - Jan 29, 2019 - Aliant offering cryptocurrency processing free-of-charge - Jan 29, 2019 - Chainstone’s Regulator product to manage assets on the way - Jan 29, 2019 - Fidelity Investments’ new crypto custody service may officially launch in March. - Jan 29, 2019 - Gemini's becomes FIRST crypto EXCHANGE and CUSTODIAN to complete a SOC 2 Review by Deloitte - Jan 29, 2019 - Iran has lifted the ban on Bitcoin and cryptocurrency - Jan 29, 2019 - Confidential Transactions being added into Litecoin announcement - Jan 28, 2019 - http://FastBitcoins.com Enables Cash-for-Bitcoin Exchange Via the Lightning Network - Jan 28, 2019 - Germany’s largest online food delivery platform now accepts btc - Jan 27, 2019 - Launching a Bitcoin Developers School in Switzerland - Jan 27, 2019 - RTL release v0.1.13-alpha Lightning Build repository released - Jan 27, 2019 - The first pay-per-page fantasy novel available to Lightning Network. - Jan 27, 2019 - Numerous tools become available to write messages transmitted with Blockstream Satellite - Jan 26, 2019; - BTCPay 1.0.3.47 released - Jan 26,2019 - WordPress + WooCommerce + BTCPay Plugin is now live - Jan 25, 2019 - Juan Guaido has been promoting #Bitcoin since 2014 is new interim president of Venezuela - Jan 25, 2019 - Morgan Creek funds @RealBlocks - Jan 25, 2019 - Coinbase integrates TurboTax - Jan 25, 2019 - Robinhood received Bitlicense - Jan 25, 2019 - Anchor Labs launches custody - Jan 25, 2019 - NYSE Arca files w/ @BitwiseInvest for BTC ETF approval - Jan 25, 2019 - South Korea, Seoul, Busan & Jeju Island currently working to create pro crypto economic zones. - Jan 25, 2019 - valerio-vaccaro/Liquid-dashboard - Jan 25, 2019 - Bermuda to launch crypto friendly bank - Jan 25, 2019 - Mobile Bitcoin Wallet BRD Raises $15 Million, Plans for Expansion in Asia - Jan 25, 2019 - BullBitcoin rolling out alpha access of platform - Jan 25, 2019 - Electrum Wallet Release 3.3.3 - Jan 25, 2019 - Bitrefill, purchase Bitcoin and have it delivered directly over LN - Jan 25, 2019 - South Korean crypto exchange Bithumb looking to go public in USA - Jan 24, 2019 - Bitcoin Exchanges Don’t Need Money Transmitter Licenses in Pennsylvania - Jan 24, 2019 - US; New Hampshire Bill Aims to Legalize Bitcoin for State Payments in 2020 - Jan 24, 2019 - Robinhood, LibertyX Receive Licenses from New York Regulators - Jan 24, 2019 - Bakkt Bitcoin futures contract details released - Jan 24, 2019 - Blockstream CryptoFeed V3 now includes 30+ venues and 200M+ updates per day - Jan 24, 2019 - Binance Jersey – The Latest Binance European Exchange - Jan 2019
Commit Activity
Nodes and Market Dominance
Bitcoin
Financial
Lightning:
ASIC Miners:
Will update this section when I hear new developments
Wallets:
Hardware wallets:
LN
LN Apps:
LN Extensions / Launchers
LN Desktop wallets:
LN Mobile wallets:
LN Network:
LN Nodes:
LN Plugins:
LN Services:
Liquid Network
Rgulatory:
Exchanges:
Payments:
Please comment if you have any ideas on dates. Many of these dates are placeholders waiting for me to update. If you comment then I will update the post.
submitted by kolinHall to Bitcoin [link] [comments]

We, as a community, need to start *pushing* P2P pooling. For the health and future of bitcoin.

Make it easier. Make it the easiest option. Don't use python. Add merged mining. Create an open source page like bitaddress.org for stats.
edit: nothing against python, it's just that requiring it for P2Pool is extra complication for neubs edit2: merged mining is necessary because miners are looking at the bottom line, and +% makes a difference. The two largest pools have NMC at least edit3: I will give 10btc for either: -a cross-platform, open-source executable that 'does everything' to mine P2P -an open source website pool that allows cgminer connections, like existing pools, but on the back end is P2P
submitted by 3498jk to Bitcoin [link] [comments]

All About Zcoin

All About Zcoin

https://preview.redd.it/hixbz9f3lxm31.jpg?width=1200&format=pjpg&auto=webp&s=43896de84a3693d840c84057c0314af71718f0a3
What is Zcoin?
Zcoin, also referred to as XZC or Zerocoin, is an open source decentralized cryptocurrency that provides privacy and anonymity for its users when making transactions.
To achieve its privacy and anonymity, Zcoin uses zero-knowledge proofs via the Zerocoin protocol, which is at this moment in time one of the most cited cryptography papers.
According to Wikipedia, in cryptography, a zero-knowledge proof or zero-knowledge protocol is a method in which one party proves to another party (the verifier) that a given statement is actually true.
In other words, in a transaction with Bitcoin or Ethereum or something similar, your transaction history is always linked to your coins by default, leaving you vulnerable. All it takes is one link to your personal information or IP to find out the origin of the coins.
However, when you trade with Zcoin’s Zercoin feature, your transaction history is not linked to the actual coins. Only the receiver and sender know that the funds have actually been exchanged.

How Does Zcoin Work?

Zcoin works on the Zerocoin protocol by enforcing Zero-knowledge proofs. Here are the components of Zcoin to explain how it works.
Mint: When sending a private transaction with Zcoin, all you need to do is select the number of coins you want to mint. Post that your normal Zcoin balance would reduce automatically and you will be credited with new coins and no transaction history. In essence, your old coins are burned cryptographically, which prevents anyone else from using them again and being directed to your transaction history. You get credited with new coins with no history, while the total supply is maintained.
For now, you can only mint in denominations of 1, 10, 25, 50 and 100. If you choose ‘100’ coins to be minted, for instance, you will instantly be credited with 100 new Zcoins with no history attached to them.
  • Spend: When you want to make a private transaction, you will be required to use these ‘100’ newly minted coins. From this pool of funds, you can now send any amount in any denomination to anyone anonymously because no history is attached to it.
  • Repeat: You can ‘mint’ and ‘send’ Zcoins any number of times at anytime with your privacy intact.

Zcoin’s Vision

Zcoin seeks to improve things that Bitcoin hasn’t been able to so far, some of which include fungibility, privacy and miner’s centralization.
Users of Zcoin can enjoy full fungibility and privacy along with demolishing miner’s centralization by implementing a better proof of work algorithm called MTP.
Total Zcoin supply
Only 21 million units of Zcoin will ever be produced. Currently, there are about 3.4 million units in circulation, with the rest yet to be mined.
But the total supply has increased by 388450 XZC units after a Zcoin code bug, which the team refused to roll back due to economic reasons, which is why the total supply stands at approximately 21.4 million.
Every 10 minutes, a Zcoin block is mined and 50 coins are generated, making 72,000 Zcoins per day.
Market cap of Zcoin
According to CoinMarketCap, the total circulating supply of Zcoin is 5,757,841 XZC and the current unit price is $9.6. That makes the market cap approximately $55 million*.*
https://preview.redd.it/qw2igvupoxm31.png?width=1080&format=png&auto=webp&s=cfaa195d5d75ba8f20e5894d0351b2eabf76825a

How To Buy Zcoin Cryptocurrency

If you are looking to get some Zcoin, here is a list of resources where it can be bought from.
  • Atomars – Supported pairs are XZC/BTC, XZC/ETH, XZC/USDT
  • Binance - Supported pairs are XZC/BTC, XZC/ETH, XZC/BNB
  • Huobi - Supported pairs are XZC/BTC, XZC/ETH
  • Bittrex - Supported pairs are XZC/BTC
  • Cryptopia - Supported pairs are XZC/BTC, XZC/LTC, XZC/DOGE
  • CoinExchange - Supported pairs are XZC/BTC
  • LiteBit.eu - Supported pairs are XZC/EUR
Note: At the moment, buying XZC in fiat currencies such as USD, EUR, or GBP is quite difficult.
https://preview.redd.it/rrwao97woxm31.png?width=1460&format=png&auto=webp&s=442bf152f86a63300c5c4a029bb07369a69e6f70
Zcash:
Zcash is a decentralized and open-source peer-to-peer cryptocurrency that provides strong privacy protections. It was created as a fork of Bitcoin and, like bitcoin, it also has a hard limit of 21 million coins. Unlike bitcoin, however, Zcash offers total privacy for its users maintaining the absolute anonymity behind each transaction along with the parties and the amounts involved in it.
PIVX:
PIVX, which stands for Private Instant Verified Transaction, is an open-source, decentralized form of digital online money that uses blockchain technology. This makes it easy to transfer all around the world in an instant with low transaction fees with market leading security & privacy. PIVX focuses on privacy, security, anonymity, and instant transactions.
Monero:
Monero is a fast, private, secure and untraceable digital currency system that uses a special kind of cryptography to keep all its transactions 100% unlinkable and untraceable. With Monero, you are your own bank. You can spend safely, knowing that others cannot see your balances or track your activity.
Some Zcoin misconceptions
There are some misconceptions regarding Zcoin:
  • Some believe that, since Zcoin has a trusted setup that allows indefinite minting of coins, it is not safe. This is untrue. Of course, to start with they had to use a trusted setup because they have an auditable total coin supply that prevents any form of cheating. This downside however, is being taken care of by removing this trusted setup in the near future and when that happens, Zcoin will be one of the serious coins to count on for privacy.
  • Zcoin has been considered as Zcash’s fork but that is also not true because Zcash is based on the Zerocash protocol whereas Zcoin was started from scratch by applying Zerocoin tech.
Now that some of the Zcoin’s misconceptions have been cleared, here’s a look into its future.

Zcoin’s Future & Roadmap

Zcoin’s future is quite promising and worth watching based on these interesting milestones on their roadmap:
  • Zcoin is the first coin to implement MTP proof of work, which makes it possible for general masses to mine Zcoin with GPUs and CPUs. MTP doesn’t allow costly ASIC-like miners to mine XZC coins.
  • Zcoin is also implementing Znodes to make their cryptocurrency more decentralized and anonymous. These Znodes will be like masternodes and facilitate anonymous transactions as making an anonymous transaction single-handedly is quite computational.
  • Znodes will be incentivized by reducing some portion of the founder’s reward. Also, the surplus funds that get generated from the founder’s reward reduction would be used for hiring new developers and increased marketing efforts.
  • Another agenda on their roadmap is to bring inbuilt Tor or some IP obfuscation mechanism that will make it completely anonymous.
  • Apart from these, some innovative and exciting things like sigma protocol, decentralized anonymous voting and Zcoin Labs are on their roadmap, making this project worth checking out.
  • Last but not least, its recent price is a good indicator of its healthy market sentiment and shows that there are people who understand this project’s worth. Just to put things into perspective – a unit of Zcoin was priced $2 in March 2017 and now it is $37*.*

Zcoin Team & Progress

Zerocoin is a cryptocurrency proposed by professor Matthew D. Green, a professor of Johns Hopkins University, and graduate students Ian Miers and Christina Garman. It was proposed as an extension to the Bitcoin protocol that would add true cryptographic anonymity to Bitcoin transactions.
Zerocoin was first implemented into a fully functional cryptocurrency and released to the public by Poramin Insom, the lead developer, as Zcoin in September 2016.
Some of the notable dev members of the team are listed below.
Poramin Insom
Founder and Core Developer
Poramin Insom created what was the world's 4th most valuable cryptocurrency in February 2014. He is also the world's first person to implement stealth addresses in QT-Wallets, improving cryptocurrency anonymity. He earned a master’s degree in Information Security from Johns Hopkins University, where he wrote a paper on a proposed practical implementation of the Zerocoin protocol.
Alexander N.
Developer
Alexander N. aka Aizensou is a full-stack developer who has experience in many programming languages (C++, C#, Python, Perl, Java etc.) and has been involved in the cryptocurrency space since 2013. He has a broad development portfolio from low level APIs in Python and C++ to Android native applications in Java. In addition to his involvement in cryptocurrencies, Alexander was doing his P.h.D. in machine learning at a German university from 2012 to 2016.
Saran Siriphantnon
Developer
Saran Siriphantnon is the CTO of Satang.co/Satoshift, a fintech company focusing on creating an open financial system for Southeast Asia. He served as President of the Computer System Administrator Group at King Mongkut's Institute of Technology Ladkrabang.
Tadhg Riordan
Solidity Developer
Tadhg Riordan is a 24 year old Software Developer from Wexford, Ireland. He recently completed his MSc from Trinity College Dublin, where he worked with Blockchain privacy mechanisms, focusing particularly on Zero-Knowledge Proofs and the Ethereum platform. He is a strong advocate for the adoption of cryptocurrency and for complete financial privacy.
Apart from these, their team comprises of other developers, community managers, support personnel and advisors who maintain the required balance.

Advisors:

Aram Jivanyan (Cryptography Advisor): Co-Founder at Skycryptor & KMSchai
Torphop Korgtadam (It Security Consultant): Senior Vice President, Head Of Internal Audit Strategy, Innovation and Decision Science at United Overseas Bank Limited
Alexander N. aka Aizensou (Advisor)

Unique/Key Features Against Its Competitors:

  • Anonymous transactions. The project establishes a notably higher level of anonymity and seeks to bypass current analysis techniques which governments use to reveal the identity of users.
  • Not subject to transaction graph analysis. Zcoin has an anonymity set that encompasses all minted coins in a particular RSA accumulator that can scale to many thousands.
  • Innovative process. Tokens are burned cryptographically and replaced with new coins without a transaction history. This actively prevents anyone else from using the tokens again and stops the public from being directed to a user's transaction history.
  • Transparency focused. Zcoin's main advantage is its auditable money supply.
submitted by atomarsofficial to Atomars [link] [comments]

has anyone received Phase 2 UB?

not phase one, not phase 3, but phase 2. According to their twitter, the distribution is ongoing. The last tweet from 4h ago:
There are hundreds of thousands of small transactions to conduct but rest assured, we are working on a solution to speed up the process.
so presumably somebody must have received something. I haven't.
submitted by berepere to BitcoinAirdrops [link] [comments]

How can I create a blockchain from scratch?

Blockchain technology was announced initially as “A Peer-to-Peer Electronic Cash System” by Satoshi Nakamoto in the year 2008. It is a list of transaction records known as blocks and linked together by using cryptography. In other words, blockchain is a distributed ledger and each block consists of cryptographic hash of the previous block, transaction data, and a timestamp.

Eight Steps to Make Blockchain from Scrap

#Step 1
Identify the Right Use-Case
Look for the suitable use-case complementing your business sense and needs. Get your data authenticated and verified by including encryption, and digital signatures. Use, smart asset management to include payment, exchange, escrow, issuance, and retirement payment options.
#Step 2
Identify the Right Consensus Mechanism
Once, you have opted for use-case, you need to choose the right Consensus Mechanism. Over the years, there have been multiple distributed ledger systems you can choose like Byzantine fault tolerant, Proof of stake, Round Robin, Federated consensus, and Derived PBFT.
#Step 3
Choose the Suitable Platform
Fortunately, there are many free of cost and independent blockchain platforms to use such as Chain Core, BigChainDB, Eris:db, Domus Tower Blockchain, Stellar, Symbiont Assembly, Hyperledger Sawtooth Lake, and Quorum.
#Step 4
Designing the Nodes
Blockchain solutions are distinguished into two- Permissioned (Government run land registry) and Permission-less (Where everyone can be a miner such as Bitcoin). The solutions can be private, public, and hybrid. Meanwhile, in this stage decide whether the nodes will access on premise, cloud or both. You also need to opt for base operating systems such as Debian, CentOS, Windows, Ubuntu, and Red Hat.
#Step 5
Create the Blockchain Illustration
Multiple blockchain platforms require vigilant and planned configuration that must include permissions, asset re-issuance, asset issuance, key management, native assets, address formats, and block signatures.
#Step 6
Creating APIs
Some blockchain has inbuilt APIs and some don’t. Your API must generate key pairs, and address, perform audit, authenticate data, smart asset lifecycle management and data storage and retrieval.
#Step 7
Create the Admin and User Interface
Now is the time to choose the right programming languages (JAVA, JavaScript, Ruby, Python, and Solidity), front end, external databases (MongoDB, and MySQL), and severs (mail servers, Web servers, and FTP servers).
#Step 8
Infusing Future Tech
By adding biometrics, bots, artificial intelligence, cloud, data analytics, machine learning and cognitive services you can accentuate your blockchain technology.
References:
#8 Steps to Build a Blockchain Solution
How do you make Blockchain?
submitted by Sonaliiiii to u/Sonaliiiii [link] [comments]

How do you make Blockchain?

How do you make Blockchain?
Blockchain technology was announced initially as “A Peer-to-Peer Electronic Cash System” by Satoshi Nakamoto in the year 2008. It is a list of transaction records known as blocks and linked together by using cryptography. In other words, blockchain is a distributed ledger and each block consists of a cryptographic hash of the previous block, transaction data, and a timestamp.


https://preview.redd.it/pdbd1r2qlsi31.jpg?width=860&format=pjpg&auto=webp&s=762eda991eabcb1a033b192801f31dec18413287

Eight Steps to Make Blockchain from Scrap

#Step 1
Identify the Right Use-Case
Look for the suitable use-case complementing your business sense and needs. Get your data authenticated and verified by including encryption, and digital signatures. Use, smart asset management to include payment, exchange, escrow, issuance, and retirement payment options.
#Step 2
Identify the Right Consensus Mechanism
Once, you have opted for use-case, you need to choose the right Consensus Mechanism. Over the years, there have been multiple distributed ledger systems you can choose like Byzantine fault tolerant, Proof of stake, Round Robin, Federated consensus, and Derived PBFT.
#Step 3
Choose the Suitable Platform
Fortunately, there are many free of cost and independent blockchain platforms to use such as Chain Core, BigChainDB, Eris:db, Domus Tower Blockchain, Stellar, Symbiont Assembly, Hyperledger Sawtooth Lake, and Quorum.
#Step 4
Designing the Nodes
Blockchain solutions are distinguished into two- Permissioned (Government run land registry) and Permission-less (Where everyone can be a miner such as Bitcoin). The solutions can be private, public, and hybrid. Meanwhile, in this stage decide whether the nodes will access on premise, cloud or both. You also need to opt for base operating systems such as Debian, CentOS, Windows, Ubuntu, and Red Hat.
#Step 5
Create the Blockchain Illustration
Multiple blockchain platforms require vigilant and planned configuration that must include permissions, asset re-issuance, asset issuance, key management, native assets, address formats, and block signatures.
#Step 6
Creating APIs
Some blockchain has inbuilt APIs and some don’t. Your API must generate key pairs, and address, perform audit, authenticate data, smart asset lifecycle management and data storage and retrieval.
#Step 7
Create the Admin and User Interface
Now is the time to choose the right programming languages (JAVA, JavaScript, Ruby, Python, and Solidity), front end, external databases (MongoDB, and MySQL), and severs (mail servers, Web servers, and FTP servers). Experts at Sphinx Worldbiz can help you in choosing and creating the right admin and user interface to enhance your blockchain technology.
#Step 8
Infusing Future Tech
By adding biometrics, bots, artificial intelligence, cloud, data analytics, machine learning and cognitive services you can accentuate your blockchain technology.
submitted by AniiJain to u/AniiJain [link] [comments]

bitcoin 2017 full script miner shell BITCOIN MINER PRO How To Get 1 BTC in 25 minutes DOWNLOAD 2020 How To Mine 1 Bitcoin in 10 Minutes Blockchain BTC Miner Pro Python Bitcoin module tutorial Hashing, Encryption, Blockchain & Bitcoin Mining with Python

Secret_miner. This project is intended to run bitcoin miner under a period of time in every day. Currently Supported : - In linux (GPU), ethminer - In windows(CPU), cpuminer. Python version py2.py3 Upload date Jul 9, 2018 Hashes View Filename Author. Topic: python OpenCL bitcoin miner (Read 1236092 times). Full Member Offline. Activity: 171. python OpenCL bitcoin miner. Pure Python Bitcoin Miner. The Dark Wallet project has one simple goal: Keep bitcoin anonymous. With many bitcoin services rushing to embrace the legitimacy of As Bitcoin is skyrocketing, y Basically, bitcoin is compatible with conventional cash. There are exchanges where you can purchase and sell bitcoin. Also, there are a few other cryptocurrencies, yet bitcoin is the first and largest. Bitcoin uses a distributed ledger to work, with no central authority like banks and overseeing exchanges [1]. Bitcoin is open source. #Pyminer This is a 'getwork' CPU mining client for bitcoin. It is pure-python, and therefore very, very slow. The purpose is to provide a reference implementation of a miner, for study. But at least we have built a simple miner more or less from scratch, relying only on the content of this and the previous posts in this series and without using any of the many Python bitcoin libraries that are out there. This concludes my current series on the bitcoin blockchain – I hope you enjoyed the posts and had a bit of fun.

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bitcoin 2017 full script miner shell

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