From the LBank blog.
Cryptography is the practice of secure communication and is used in many different areas of technology, including blockchain.
Cryptography provides the necessary tools for ensuring security, data integrity, and ownership verification of the transactions in blockchain, which are the key features of the technology.
What is cryptography
In simple terms, cryptography is the science of protecting information by transforming it into an unreadable format, called ciphertext, so that only authorised parties can read and understand it.
In blockchain, cryptography is used to secure the transactions and data stored on the network.
Each user on a blockchain network has a unique set of keys, which are used to encrypt and decrypt the information. The public key is used to encrypt the information, and the private key is used to decrypt it. This ensures that only the person with the correct private key can read the information.
Two prominent methods of encryption essential to blockchain cryptography
“Asymmetric” and “symmetric” encryption are two prominent methods of encryption that are essential to the effectiveness of blockchain cryptography.
Asymmetric encryption: This method uses a pair of keys, a public key and a private key. The public key is used to encrypt the information, while the private key is used to decrypt it. This ensures that only the person with the correct private key can read the information. Asymmetric encryption is often used in blockchain to provide secure communication and to verify the ownership of digital assets.
Symmetric encryption: This method uses a single key for both encryption and decryption. This key is shared between the sender and the receiver, and it must be kept secret to ensure the security of the information. Symmetric encryption is often used in blockchain to encrypt sensitive information, such as private keys.
In basic terms, asymmetric encryption is used to provide secure communication and verify ownership, while symmetric encryption is used to protect sensitive information. The combination of both methods ensures that the data stored on the blockchain is secure, and that only authorised parties can access it.
Important cryptographic techniques used in blockchain
One of the most important cryptographic techniques used in blockchain are called a hash function and digital signature.
A hash function is a mathematical algorithm that takes an input of any size and produces an output of a fixed size, called a “hash.” The hash is unique to the input and even a small change in the input will produce a completely different hash. In blockchain, each block of transactions is assigned a unique hash, which helps to ensure the integrity of the data stored on the network.
A digital signature is a mathematical proof that a message was created by the person who claims to have created it. This is important in blockchain because it allows users to prove that they are the rightful owners of the digital assets they are trying to transfer.
The use of cryptographic hashing in blockchain cryptography
Cryptographic hashing in blockchain cryptography serves several important purposes:
Data Integrity: The unique hash value assigned to each block of transactions ensures that the data stored on the blockchain has not been tampered with. If any data in a block is altered, the hash value of the block will change, and this will be easily detectable by other nodes on the network.
Evidence of previous blocks: Each block in the blockchain contains the hash value of the previous block. This creates an unbroken chain of blocks, with each block linked to the one before it. This creates a tamper-proof record of all the transactions that have occurred on the blockchain.
Proof of work: In some blockchain, such as Bitcoin, cryptographic hashing is used in the proof-of-work consensus mechanism. Miners on the network compete to find a hash value that meets certain conditions, and the first miner to find a valid hash value is allowed to add the next block to the blockchain.
The role of blockchain and cryptography in digital signatures
The use of blockchain and cryptography with digital signatures has several implications for various industries and applications. Some of these include:
Financial services: The use of blockchain and digital signatures can help to increase the security and efficiency of financial transactions. For example, digital signatures can be used to verify the identity of the parties involved in a transaction and to ensure that the transaction is legitimate.
Supply chain management: Blockchain and digital signatures can be used to create an immutable record of the movement of goods and materials through a supply chain. This can help to increase transparency and efficiency, and to prevent fraud and errors.
Identity management: They can create a secure and decentralised system for managing digital identities. This can help to increase the security of personal information and to reduce the risk of identity theft.
Smart contracts: They can build and execute smart contracts, which are self-executing contracts with the terms of the agreement directly written into code. This can help to automate the contract execution process, reducing errors and costs.
Public records: Blockchain and digital signatures can be used to create a decentralised and secure system for managing public records, such as land registries and voting records.
How does cryptography add value to blockchain?
Cryptography brings several important benefits to blockchain technology, including:
Security: Cryptography is used to encrypt and decrypt information on a blockchain network, which ensures that only authorised parties can access and understand it. This helps to protect the data stored on the blockchain from unauthorised access or tampering.
Data integrity: Hash functions are used to assign a unique hash to each block of transactions on a blockchain. This helps to ensure that the data stored on the network has not been tampered with.
Ownership verification: Digital signatures are used to prove that a message or transaction was created by the person who claims to have created it. This is important in blockchain because it allows users to prove that they are the rightful owners of the digital assets they are trying to transfer.
Consensus: Cryptography is also used to secure the consensus mechanism in blockchain, for example in the proof of work algorithm.
Cryptography is a vital component of blockchain technology. It enables secure communication, data integrity and ownership verification. The use of encryption, hash functions, and digital signatures are some of the key ways in which cryptography is used in blockchain to ensure security and trust in the network.
Disclaimer: The opinions expressed in this blog are solely those of the writer and not of this platform.
This article came directly from the LBank blog, found on https://lbank-exchange.medium.com/cryptography-in-blockchain-what-you-need-to-know-ea0ebf9f0b96?source=rss-87c24ae35186——2