1641591360
How to Build Decentralized Applications with Skynet
In this stream we'll talk about Skynet, how it works, and what types of applications developers are building there.
#decentralized #blockchain #Skynet
What is GEEK
Buddha Community
1641591360
How to Build Decentralized Applications with Skynet
In this stream we'll talk about Skynet, how it works, and what types of applications developers are building there.
#decentralized #blockchain #Skynet
1624010869
Why build a decentralized exchange?
A decentralized exchange platform is a cryptocurrency exchange platform that allows users to exchange their crypto without any third parties.It is a peer-to-peer cryptocurrency exchange in a secure manner.
In decentralized exchange distributed ledgers replace the third party and decentralized exchange eliminates the single point of risk and theft over centralized.It retains their assets safly and it gives more transparent trading experience.
The four main things considered decentralized exchange is efficient over centralized and completely free from these risks
1.fees
2.Anonymity
3.Ownership
4.Liquidity
Fees:
In a centralized exchange we need to pay % of fees for every transaction and when it comes to the decentralized exchange you will pay less fees and it would be $0-05-$1.
Anonymity:
Decentralized exchange does not have any intermediary involved so no need for any proof of requirement and anyone can directly sign in and exchange their crypto assets without any proof verification.
Ownership:
One more component of decentralized exchange of their digital assets is the responsibility for their resources. In centralized, the responsibility for coins is held by the exchange totally. In any case, by hanging on the trade to the keys can prompt a quicker execution since the client doesn’t have to give access. However, this can be the reason for the theft of their assets!
Liquidity:
The liquidity provides faster transactions and more stable prices and more market participants on the exchange.
The decentralized exchanges are ruling the crypto world in recent years and it is a primary concern since secure, trustful things that’s why investors are panding towards decentralized exchanges.
I hope that now you have a clear understanding why build a decentralized exchange platform. If you are looking forward to develop your own decentralized exchange platform WeAlwin Technologies assist you to develop your exchange platform with affordable price and bug-free
Software with advanced features.
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#decentralized crypto exchange software #decentralized exchange script #decentralized exchange software #decentralized exchange development company
1624653660
The Best Way to Build a Chatbot in 2021
A useful tool several businesses implement for answering questions that potential customers may have is a chatbot. Many programming languages give web designers several ways on how to make a chatbot for their websites. They are capable of answering basic questions for visitors and offer innovation for businesses.
With the help of programming languages, it is possible to create a chatbot from the ground up to satisfy someone’s needs.
Plan Out the Chatbot’s Purpose
Before building a chatbot, it is ideal for web designers to determine how it will function on a website. Several chatbot duties center around fulfilling customers’ needs and questions or compiling and optimizing data via transactions.
Some benefits of implementing chatbots include:
- Generating leads for marketing products and services
- Improve work capacity when employees cannot answer questions or during non-business hours
- Reducing errors while providing accurate information to customers or visitors
- Meeting customer demands through instant communication
- Alerting customers about their online transactions
Some programmers may choose to design a chatbox to function through predefined answers based on the questions customers may input or function by adapting and learning via human input.
#chatbots #latest news #the best way to build a chatbot in 2021 #build #build a chatbot #best way to build a chatbot
1571046022
Build Your Own Cryptocurrency Blockchain in Python
Cryptocurrency is a decentralized digital currency that uses encryption techniques to regulate the generation of currency units and to verify the transfer of funds. Anonymity, decentralization, and security are among its main features. Cryptocurrency is not regulated or tracked by any centralized authority, government, or bank.
Blockchain, a decentralized peer-to-peer (P2P) network, which is comprised of data blocks, is an integral part of cryptocurrency. These blocks chronologically store information about transactions and adhere to a protocol for inter-node communication and validating new blocks. The data recorded in blocks cannot be altered without the alteration of all subsequent blocks.
In this article, we are going to explain how you can create a simple blockchain using the Python programming language.
Here is the basic blueprint of the Python class we’ll use for creating the blockchain:
class Block(object):
def __init__():
pass
#initial structure of the block class
def compute_hash():
pass
#producing the cryptographic hash of each block
class BlockChain(object):
def __init__(self):
#building the chain
def build_genesis(self):
pass
#creating the initial block
def build_block(self, proof_number, previous_hash):
pass
#builds new block and adds to the chain
@staticmethod
def confirm_validity(block, previous_block):
pass
#checks whether the blockchain is valid
def get_data(self, sender, receiver, amount):
pass
# declares data of transactions
@staticmethod
def proof_of_work(last_proof):
pass
#adds to the security of the blockchain
@property
def latest_block(self):
pass
#returns the last block in the chain
Now, let’s explain how the blockchain class works.
Initial Structure of the Block Class
Here is the code for our initial block class:
import hashlib
import time
class Block(object):
def __init__(self, index, proof_number, previous_hash, data, timestamp=None):
self.index = index
self.proof_number = proof_number
self.previous_hash = previous_hash
self.data = data
self.timestamp = timestamp or time.time()
@property
def compute_hash(self):
string_block = "{}{}{}{}{}".format(self.index, self.proof_number, self.previous_hash, self.data, self.timestamp)
return hashlib.sha256(string_block.encode()).hexdigest()
As you can see above, the class constructor or initiation method ( init()) above takes the following parameters:
self — just like any other Python class, this parameter is used to refer to the class itself. Any variable associated with the class can be accessed using it.
index — it’s used to track the position of a block within the blockchain.
previous_hash — it used to reference the hash of the previous block within the blockchain.
data—it gives details of the transactions done, for example, the amount bought.
timestamp—it inserts a timestamp for all the transactions performed.
The second method in the class, compute_hash , is used to produce the cryptographic hash of each block based on the above values.
As you can see, we imported the SHA-256 algorithm into the cryptocurrency blockchain project to help in getting the hashes of the blocks.
Once the values have been placed inside the hashing module, the algorithm will return a 256-bit string denoting the contents of the block.
So, this is what gives the blockchain immutability. Since each block will be represented by a hash, which will be computed from the hash of the previous block, corrupting any block in the chain will make the other blocks have invalid hashes, resulting in breakage of the whole blockchain network.
Building the Chain
The whole concept of a blockchain is based on the fact that the blocks are “chained” to each other. Now, we’ll create a blockchain class that will play the critical role of managing the entire chain.
It will keep the transactions data and include other helper methods for completing various roles, such as adding new blocks.
Let’s talk about the helper methods.
Adding the Constructor Method
Here is the code:
class BlockChain(object):
def __init__(self):
self.chain = []
self.current_data = []
self.nodes = set()
self.build_genesis()
The init() constructor method is what instantiates the blockchain.
Here are the roles of its attributes:
self.chain — this variable stores all the blocks.
self.current_data — this variable stores information about the transactions in the block.
self.build_genesis() — this method is used to create the initial block in the chain.
Building the Genesis Block
The build_genesis() method is used for creating the initial block in the chain, that is, a block without any predecessors. The genesis block is what represents the beginning of the blockchain.
To create it, we’ll call the build_block() method and give it some default values. The parameters proof_number and previous_hash are both given a value of zero, though you can give them any value you desire.
Here is the code:
def build_genesis(self):
self.build_block(proof_number=0, previous_hash=0)
def build_block(self, proof_number, previous_hash):
block = Block(
index=len(self.chain),
proof_number=proof_number,
previous_hash=previous_hash,
data=self.current_data
)
self.current_data = []
self.chain.append(block)
return block
Confirming Validity of the Blockchain
The confirm_validity method is critical in examining the integrity of the blockchain and making sure inconsistencies are lacking.
As explained earlier, hashes are pivotal for realizing the security of the cryptocurrency blockchain, because any slight alteration in an object will result in the creation of an entirely different hash.
Thus, the confirm_validity method utilizes a series of if statements to assess whether the hash of each block has been compromised.
Furthermore, it also compares the hash values of every two successive blocks to identify any anomalies. If the chain is working properly, it returns true; otherwise, it returns false.
Here is the code:
def confirm_validity(block, previous_block):
if previous_block.index + 1 != block.index:
return False
elif previous_block.compute_hash != block.previous_hash:
return False
elif block.timestamp <= previous_block.timestamp:
return False
return True
Declaring Data of Transactions
The get_data method is important in declaring the data of transactions on a block. This method takes three parameters (sender’s information, receiver’s information, and amount) and adds the transaction data to the self.current_data list.
Here is the code:
def get_data(self, sender, receiver, amount):
self.current_data.append({
'sender': sender,
'receiver': receiver,
'amount': amount
})
return True
Effecting the Proof of Work
In blockchain technology, Proof of Work (PoW) refers to the complexity involved in mining or generating new blocks on the blockchain.
For example, the PoW can be implemented by identifying a number that solves a problem whenever a user completes some computing work. Anyone on the blockchain network should find the number complex to identify but easy to verify — this is the main concept of PoW.
This way, it discourages spamming and compromising the integrity of the network.
In this article, we’ll illustrate how to include a Proof of Work algorithm in a blockchain cryptocurrency project.
Finalizing With the Last Block
Finally, the latest_block() helper method is used for retrieving the last block on the network, which is actually the current block.
Here is the code:
def latest_block(self):
return self.chain[-1]
Implementing Blockchain Mining
Now, this is the most exciting section!
Initially, the transactions are kept in a list of unverified transactions. Mining refers to the process of placing the unverified transactions in a block and solving the PoW problem. It can be referred to as the computing work involved in verifying the transactions.
If everything has been figured out correctly, a block is created or mined and joined together with the others in the blockchain. If users have successfully mined a block, they are often rewarded for using their computing resources to solve the PoW problem.
Here is the mining method in this simple cryptocurrency blockchain project:
def block_mining(self, details_miner):
self.get_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_number = last_block.proof_number
proof_number = self.proof_of_work(last_proof_number)
last_hash = last_block.compute_hash
block = self.build_block(proof_number, last_hash)
return vars(block)
Summary
Here is the whole code for our crypto blockchain class in Python:
import hashlib
import time
class Block(object):
def __init__(self, index, proof_number, previous_hash, data, timestamp=None):
self.index = index
self.proof_number = proof_number
self.previous_hash = previous_hash
self.data = data
self.timestamp = timestamp or time.time()
@property
def compute_hash(self):
string_block = "{}{}{}{}{}".format(self.index, self.proof_number, self.previous_hash, self.data, self.timestamp)
return hashlib.sha256(string_block.encode()).hexdigest()
def __repr__(self):
return "{} - {} - {} - {} - {}".format(self.index, self.proof_number, self.previous_hash, self.data, self.timestamp)
class BlockChain(object):
def __init__(self):
self.chain = []
self.current_data = []
self.nodes = set()
self.build_genesis()
def build_genesis(self):
self.build_block(proof_number=0, previous_hash=0)
def build_block(self, proof_number, previous_hash):
block = Block(
index=len(self.chain),
proof_number=proof_number,
previous_hash=previous_hash,
data=self.current_data
)
self.current_data = []
self.chain.append(block)
return block
@staticmethod
def confirm_validity(block, previous_block):
if previous_block.index + 1 != block.index:
return False
elif previous_block.compute_hash != block.previous_hash:
return False
elif block.timestamp <= previous_block.timestamp:
return False
return True
def get_data(self, sender, receiver, amount):
self.current_data.append({
'sender': sender,
'receiver': receiver,
'amount': amount
})
return True
@staticmethod
def proof_of_work(last_proof):
pass
@property
def latest_block(self):
return self.chain[-1]
def chain_validity(self):
pass
def block_mining(self, details_miner):
self.get_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 awared with 1
)
last_block = self.latest_block
last_proof_number = last_block.proof_number
proof_number = self.proof_of_work(last_proof_number)
last_hash = last_block.compute_hash
block = self.build_block(proof_number, last_hash)
return vars(block)
def create_node(self, address):
self.nodes.add(address)
return True
@staticmethod
def get_block_object(block_data):
return Block(
block_data['index'],
block_data['proof_number'],
block_data['previous_hash'],
block_data['data'],
timestamp=block_data['timestamp']
)
blockchain = BlockChain()
print("GET READY MINING ABOUT TO START")
print(blockchain.chain)
last_block = blockchain.latest_block
last_proof_number = last_block.proof_number
proof_number = blockchain.proof_of_work(last_proof_number)
blockchain.get_data(
sender="0", #this means that this node has constructed another block
receiver="LiveEdu.tv",
amount=1, #building a new block (or figuring out the proof number) is awarded with 1
)
last_hash = last_block.compute_hash
block = blockchain.build_block(proof_number, last_hash)
print("WOW, MINING HAS BEEN SUCCESSFUL!")
print(blockchain.chain)
Now, let’s try to run our code to see if we can generate some digital coins…
Wow, it worked!
Conclusion
That is it!
We hope that this article has assisted you to understand the underlying technology that powers cryptocurrencies such as Bitcoin and Ethereum.
We just illustrated the basic ideas for making your feet wet in the innovative blockchain technology. The project above can still be enhanced by incorporating other features to make it more useful and robust.
Learn More
Thanks for reading !
Do you have any comments or questions? Please share them below.
#python #cryptocurrency
1607181248
Decentralized Finance (DeFi) Development Company | DeFi Development
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#decentralized finance (defi) development company #decentralized open finance (defi) development services company #decentralized finance platforms solutions #decentralized finance development (defi) #open finance development #decentralized finance (defi) development solutions