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Understand blockchain asymmetric encryption and its characteristics

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Release: 2024-01-19 13:36:14
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Bitcoin is a cryptocurrency, in which cryptography is a key point, which plays the role of anti-fraud, proof of work, transaction verification, etc. Cryptography itself involves some advanced mathematical difficulties, which is also Many people have difficulty understanding cryptography. Before the advent of asymmetric encryption, encryption was always symmetric encryption. Symmetric encryption means that encryption and decryption use the same set of passwords. So what is asymmetric encryption of the blockchain? Blockchain asymmetric encryption is an encryption technology that is used to ensure security and privacy in blockchain networks, usually involving public keys and private keys. The editor below will tell you in detail.

Understand blockchain asymmetric encryption and its characteristics

What is blockchain asymmetric encryption?

Asymmetric encryption is a form of encryption that can be used to verify the integrity of digital transactions and protect funds. In the field of blockchain, asymmetric encryption is widely used, creating a new era of financial autonomy. Despite being decades old, its use in this field is ubiquitous.

Compared with asymmetric encryption, symmetric encryption only requires one key for encryption and decryption. Generally speaking, symmetric encryption algorithms are simpler and less complex than asymmetric encryption algorithms, making asymmetric encryption more secure.

Asymmetric key encryption improves security by using longer keys (usually 1024, 2048 bits or higher). This results in slightly slower encryption relative to the security measures supported by symmetric encryption (usually using 128, 192 or 256-bit keys). However, asymmetric encryption uses two unique but related keys, which means users can safely share their public keys with anyone without risking account compromise. Therefore, the application scope of asymmetric key encryption has expanded significantly.

In the field of blockchain, asymmetric encryption technology is the basis of digital signatures in many cryptocurrency ecosystems. Digital signatures are similar to analog signatures in that they provide authenticity and integrity of a document or transaction, but are more secure. A digital signature is created by "signing" a hash (or one-way function) of data or transactions using a private key. Anyone with the sender's public key can easily verify the authenticity of a digital signature and the underlying message, transaction, or data, but it is nearly impossible to reverse engineer or decode a digital signature's private key. Therefore, asymmetric encryption is often preferred over symmetric encryption when security is prioritized over speed and the system requires some form of authentication.

What are the characteristics of asymmetric encryption in blockchain?

Blockchain asymmetric encryption has key features to ensure network security, privacy and reliability. Public and private keys, digital signatures, identity verification, secure communication, etc. are its important features. The public key is used to encrypt data, and the private key is used to decrypt data to ensure data security. Digital signatures verify the source and integrity of information. Identity verification ensures that participants are authentic. Secure communications protect the transmission of information. These characteristics jointly ensure the security and credibility of the blockchain network.

Asymmetric encryption uses a pair of keys: a public key and a private key. The public key is public and the private key is private and only the holder can access it. This structure ensures secure communications and digital signatures.

Asymmetric encryption can be used to create digital signatures, which are used to verify the source and integrity of information. The public key can be used to verify digital signatures without the need for a private key.

3. Authentication: The public key can be used as the user’s identity. Others can verify the user's identity without knowing their private key. This helps establish the trusted identity of users in a decentralized network.

4. Secure communication: The public key can be used to encrypt the message, and only the person holding the corresponding private key can decrypt it. This ensures secure peer-to-peer communication within the blockchain network, protecting information from unauthorized access.

5. Resistance to quantum computing attacks: Traditional asymmetric encryption algorithms, such as RSA and DSA, may face the threat of quantum computing in the future. To address this challenge, some blockchain projects have begun to adopt encryption algorithms that are resistant to quantum computing attacks, such as quantum-safe variants of the Elliptic Curve Digital Signature Algorithm (ECDSA).

6. Digital asset control: The blockchain address is usually derived from the public key, and the user controls the digital assets associated with the address through the private key. The security of private keys is crucial to the security of digital assets.

7. Anonymity and privacy: Although public keys can be used for identity verification, addresses in the blockchain are usually not directly linked to real identities, thus providing a certain degree of anonymity. This helps protect user privacy.

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source:jb51.net
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