java实例理解区块链的概念

   区块链的核心是去中心化的存储,传统的数据库解决方案,包括关系型数据库,非关系型数据库,都是属于中心化的存储方式。去中心化的存储,就是数据没有中心,并且每个数据节点都包含了上一个数据节点的信息。

         通过一个实例来理解区块链的数据存储形式:

package com.weihua.blockchains.blackchain;

创新互联-专业网站定制、快速模板网站建设、高性价比涞水网站开发、企业建站全套包干低至880元,成熟完善的模板库,直接使用。一站式涞水网站制作公司更省心,省钱,快速模板网站建设找我们,业务覆盖涞水地区。费用合理售后完善,10年实体公司更值得信赖。

import java.util.Date;

public class BlockMan {

public String hash;
public String previousHash; 
private String data; //our data will be a simple message.
private long timeStamp; //as number of milliseconds since 1/1/1970.
private int nonce;

//Block Constructor.  
public BlockMan(String data,String previousHash ) {
    this.data = data;
    this.previousHash = previousHash;
    this.timeStamp = new Date().getTime();

    this.hash = calculateHash(); //Making sure we do this after we set the other values.
}

//Calculate new hash based on blocks contents
public String calculateHash() {
    String calculatedhash = StringUtil.applySha256( 
            previousHash +
            Long.toString(timeStamp) +
            Integer.toString(nonce) + 
            data 
            );
    return calculatedhash;
}

//Increases nonce value until hash target is reached.
public void mineBlock(int difficulty) {
    String target = StringUtil.getDificultyString(difficulty); //Create a string with difficulty * "0" 
    while(!hash.substring( 0, difficulty).equals(target)) {
        nonce ++;
        hash = calculateHash();
    }
    System.out.println("Block Mined!!! : " + hash);
}

}

package com.weihua.blockchains.blackchain;
import java.security.MessageDigest;

import com.google.gson.GsonBuilder;

public class StringUtil {

//Applies Sha256 to a string and returns the result. 
public static String applySha256(String input){

    try {
        MessageDigest digest = MessageDigest.getInstance("SHA-256");

        //Applies sha256 to our input, 
        byte[] hash = digest.digest(input.getBytes("UTF-8"));

        StringBuffer hexString = new StringBuffer(); // This will contain hash as hexidecimal
        for (int i = 0; i < hash.length; i++) {
            String hex = Integer.toHexString(0xff & hash[i]);
            if(hex.length() == 1) hexString.append('0');
            hexString.append(hex);
        }
        return hexString.toString();
    }
    catch(Exception e) {
        throw new RuntimeException(e);
    }
}

//Short hand helper to turn Object into a json string
public static String getJson(Object o) {
    return new GsonBuilder().setPrettyPrinting().create().toJson(o);
}

//Returns difficulty string target, to compare to hash. eg difficulty of 5 will return "00000"  
public static String getDificultyString(int difficulty) {
    return new String(new char[difficulty]).replace('\0', '0');
}

}

package com.weihua.blockchains.blackchain;
import java.util.ArrayList;

public class TestBlockChain {

public static ArrayList blockchain = new ArrayList();
public static int difficulty = 5;

public static void main(String[] args) {    
    //add our blocks to the blockchain ArrayList:

    System.out.println("Trying to Mine block 1... ");
    addBlock(new BlockMan("Hi im the first block", "0"));

    System.out.println("Trying to Mine block 2... ");
    addBlock(new BlockMan("Yo im the second block",blockchain.get(blockchain.size()-1).hash));

    System.out.println("Trying to Mine block 3... ");
    addBlock(new BlockMan("Hey im the third block",blockchain.get(blockchain.size()-1).hash));  

    System.out.println("\nBlockchain is Valid: " + isChainValid());

    String blockchainJson = StringUtil.getJson(blockchain);
    System.out.println("\nThe block chain: ");
    System.out.println(blockchainJson);
}

public static Boolean isChainValid() {
    BlockMan currentBlock; 
    BlockMan previousBlock;
    String hashTarget = new String(new char[difficulty]).replace('\0', '0');

    //loop through blockchain to check hashes:
    for(int i=1; i < blockchain.size(); i++) {
        currentBlock = blockchain.get(i);
        previousBlock = blockchain.get(i-1);
        //compare registered hash and calculated hash:
        if(!currentBlock.hash.equals(currentBlock.calculateHash()) ){
            System.out.println("Current Hashes not equal");         
            return false;
        }
        //compare previous hash and registered previous hash
        if(!previousBlock.hash.equals(currentBlock.previousHash) ) {
            System.out.println("Previous Hashes not equal");
            return false;
        }
        //check if hash is solved
        if(!currentBlock.hash.substring( 0, difficulty).equals(hashTarget)) {
            System.out.println("This block hasn't been mined");
            return false;
        }

    }
    return true;
}

public static void addBlock(BlockMan newBlock) {
    newBlock.mineBlock(difficulty);
    blockchain.add(newBlock);
}

}

xsi:schemaLocation="http://maven.apache.org/POM/4.0.0 http://maven.apache.org/xsd/maven-4.0.0.xsd">
4.0.0

com.weihua.blockchains
blackchain
0.0.1-SNAPSHOT
jar

blackchain
http://maven.apache.org


    UTF-8



    
        junit
        junit
        3.8.1
        test
    

    
        com.google.code.gson
        gson
        2.1
    

运行起来看下输出:
Trying to Mine block 1...
Block Mined!!! : 000005b9947556fa4b14d24349728a58418c1517f8073d10a37ba3daf0ceee9c
Trying to Mine block 2...
Block Mined!!! : 00000015d3f53bd8545a3a9586aaef26abe26d78fce2da6584aac025c60c21e3
Trying to Mine block 3...
Block Mined!!! : 000000d224711a1e308e98c317cc7c900c7f4196d585266262b54e42288da65b

Blockchain is Valid: true

The block chain:
[
{
"hash": "000005b9947556fa4b14d24349728a58418c1517f8073d10a37ba3daf0ceee9c",
"previousHash": "0",
"data": "Hi im the first block",
"timeStamp": 1557928459188,
"nonce": 347042
},
{
"hash": "00000015d3f53bd8545a3a9586aaef26abe26d78fce2da6584aac025c60c21e3",
"previousHash": "000005b9947556fa4b14d24349728a58418c1517f8073d10a37ba3daf0ceee9c",
"data": "Yo im the second block",
"timeStamp": 1557928460017,
"nonce": 1394831
},
{
"hash": "000000d224711a1e308e98c317cc7c900c7f4196d585266262b54e42288da65b",
"previousHash": "00000015d3f53bd8545a3a9586aaef26abe26d78fce2da6584aac025c60c21e3",
"data": "Hey im the third block",
"timeStamp": 1557928462949,
"nonce": 81919
}
]


文章名称:java实例理解区块链的概念
标题来源:http://myzitong.com/article/jhjpch.html