区块链——java实现

简述

本文主要的内容试一次关于区块链的作业，本次作业中有很多地方和实际的区块链不符合，比如hash，本文实现的区块链只是用了区块本身的hash并没去区分，头部和数据部分。仅供参考学习。

介绍

内容有点儿多，详情看pdf吧。

    

以上三个类分别为 存储数据的类，区块类，区块链的实现类

TritonData主要存储的交易（事件）的记录

TritonBlock 主要字段有上一个区块的hash和本区块的hash值

TritonBlockChain 将所有区块组织成区块链

注意：在hash的过程中我使用的是自己写的hash函数（因为作业要求呀），实际在使用的使用请使用比较好的如sha-256等函数。

具体实现

TritonData

import java.util.ArrayList;
import java.util.LinkedList;
import java.util.List;

public class TritonData {

    private List<String> transactions;
    private int proofId;

    /**
     * Triton Data Constructor
     */
    public TritonData() {
        transactions = new ArrayList<String>();
        proofId = 1;
    }

    /*Constructor if specific values are specified*/
    public TritonData(int proofId, List<String> transactions) {
        this.transactions = transactions;
        this.proofId = proofId;
    }

    /*Get transactions*/
    public List<String> getTransactions() {
        return transactions;
    }

    /*Get proofId*/
    public int getProofId() {
        return proofId;
    }

    /*Print the data block*/
    public String toString() {
        StringBuilder sb = new StringBuilder();
        sb.append("DATA Start--------------------------------
");
        sb.append("Proof of work:" + proofId + "
");
        for (int i = 0; i < transactions.size(); ++i) {
            sb.append("Transaction " + i + "
");
            sb.append("Transaction Content:" + transactions.get(i) + "
");
        }
        sb.append("DATA End --------------------------------

");
        return sb.toString();
    }
}

TritonBlock 

import java.math.BigInteger;

public class TritonBlock {
    /*Class variables, all the attributes of the block*/
    private int index;
    private long timestamp;
    private TritonData data;
    private String prev_hash;
    private String self_hash;

    /*Constructor, builds a block with passed in variables, then creates a hash for curr block*/
    public TritonBlock(int index, long timestamp, TritonData data, String prev_hash) {
        this.index = index;
        this.timestamp = timestamp;
        this.data = data;
        this.prev_hash = prev_hash;
        this.self_hash = hashBlock();
    }

    //使用CRC variant方式
    private String hashBlock() {
//        BigInteger bigInteger=new BigInteger()
        BigInteger bigInteger = new BigInteger("0");
        for (String s : data.getTransactions()) {
            char[] arr = s.toCharArray();
            for (char c : arr) {
                bigInteger = bigInteger.add(BigInteger.valueOf(c & 0xf8000000));
            }
        }
        bigInteger = bigInteger.add(BigInteger.valueOf(timestamp));
        bigInteger = bigInteger.add(BigInteger.valueOf(index));
        char[] arr = prev_hash.toCharArray();
        for (char c : arr) {
            bigInteger = bigInteger.add(BigInteger.valueOf(c & 0xf8000000));
        }
        return bigInteger.toString(16);
    }

    /*Get index*/
    public int getIndex() {
        return index;
    }

    /*Get timestamp*/
    public long getTimestamp() {
        return timestamp;
    }

    /*Get data block*/
    public TritonData getData() {
        return data;
    }

    /*Get previous hash*/
    public String getPrev_hash() {
        return prev_hash;
    }

    /*Get current hash*/
    public String getSelf_hash() {
        return self_hash;
    }

    /*Print the block*/
    public String toString() {
        StringBuilder sb = new StringBuilder();
        sb.append("TritonBlock " + index + "
");
        sb.append("Index: " + index + "
");
        sb.append("Timestamp: " + timestamp + "
");
        sb.append("Prev Hash: " + prev_hash + "
");
        sb.append("Hash: " + self_hash + "
");
        sb.append(data.toString());
        return sb.toString();
    }
}

TritonBlockChain 

import java.util.*;

public class TritonBlockChain {

    private static final String MINE_REWARD = "1";
    /*Blockchain clas variable*/
    private List<TritonBlock> blockchain;

    /*Constructor, takes in genesis block data to start the blockchain*/
    public TritonBlockChain(int index, long timestamp, TritonData data, String prev_hash) {
        blockchain = new ArrayList<TritonBlock>();
        blockchain.add(new TritonBlock(index, timestamp, data, prev_hash));
    }

    /*Makes the next block after the proof of work from mining is finished*/
    public TritonBlock makeNewBlock(TritonBlock lastBlock, TritonData newData) {
        return new TritonBlock(lastBlock.getIndex() + 1,
                System.currentTimeMillis(), newData, lastBlock.getPrev_hash());
    }

    /*Mines the transaction and creates the block to add to the blockchain*/
    public boolean beginMine(List<String> curTransactions) {
        if (curTransactions.isEmpty()) {
            return false;
        }
        int proofId = proofOfWork();
        curTransactions.add("Triton coined earned: " + MINE_REWARD);
//      TritonData(int proofId, List<String> transactions)
        TritonData newData = new TritonData(proofId, curTransactions);
        TritonBlock lastBlock = blockchain.get(blockchain.size() - 1);
        TritonBlock newBlock = new TritonBlock(lastBlock.getIndex() + 1,
                System.currentTimeMillis(), newData, lastBlock.getSelf_hash());
        blockchain.add(newBlock);
        return true;
    }

    /*Simple proof of work algorithm to prove cpu usage was used to mine block*/
    public int proofOfWork() {
        TritonBlock tb = blockchain.get(blockchain.size() - 1);
        int lastProofId = tb.getData().getProofId();
        //use loop
        int temp = Math.max(lastProofId, 13);
        ++temp;
        while (true) {
            if (temp % 13 == 0 && temp % lastProofId == 0) {
                return temp;
            }
            ++temp;
        }
    }

    /*Prints current blockchain*/
    public String toString() {
        StringBuilder sb = new StringBuilder();
        sb.append("~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
" +
                "T R I T O N B L O C K C H A I N
" +
                "~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

");
        for (TritonBlock tb : blockchain) {
            sb.append(tb.toString());
        }
        return sb.toString();
    }

    /*Validates each block in the chain looking for any hash pointer descrepancies, which can point to a tampering problem*/
    public boolean validateChain() {
        for (int i = 1; i < blockchain.size(); ++i) {
            TritonBlock preBlock = blockchain.get(i - 1);
            TritonBlock cntBlock = blockchain.get(i);
            if (!cntBlock.getPrev_hash().equals(preBlock.getSelf_hash())) {
                return false;
            }
        }
        return true;
    }

    /*Get blockchain*/
    public List<TritonBlock> getBlockchain() {
        return blockchain;
    }
}

测试

import java.io.BufferedReader;
import java.io.IOException;
import java.io.InputStreamReader;
import java.util.ArrayList;
import java.util.List;
import java.io.FileReader;
import java.util.Random;
import java.util.StringTokenizer;

/*Sets up server, manages blockchains, takes in and acts on user input*/
public class TritonMiner {

    private static final int BLOCK_SIZE = 2;

    public static void main(String[] args) throws IOException {
        /*Initialize the local blockchain*/
        long timestamp = System.currentTimeMillis();
        /*Created local blockchain and added genesis block*/
        TritonBlockChain blockchain = new TritonBlockChain(0, timestamp, new TritonData(), "0");
        /*Represents the queue for all transactions*/
        //read in trascatipn and put in transcation queue
        List<String> transaction_queue = new ArrayList<String>();
        loadTranscation(transaction_queue, "transaction/transaction_1.txt");

        List<String> currentTransaction = new ArrayList<String>();
        for (int i = 0; i < transaction_queue.size(); i++) {
            currentTransaction.add(transaction_queue.get(i));
            if (currentTransaction.size() == BLOCK_SIZE) {
                //mine
                blockchain.beginMine(new ArrayList<>(currentTransaction));
                //reintilize
                currentTransaction.clear();
            }
        }
        /*Print blockchain*/
        System.out.println(blockchain.toString());
        /*Validate the blockchain Mine*/
        System.out.println("This block chain is: "+blockchain.validateChain());
    }

    public static boolean loadTranscation(List<String> transaction_queue, String fname) {
        String line;
        BufferedReader inputStrem;
        StringTokenizer st;
        try {
            inputStrem = new BufferedReader(new FileReader(fname));
            while ((line = inputStrem.readLine()) != null) {
                transaction_queue.add(line);
            }
        } catch (IOException e) {
            System.out.println (e.toString());
            System.out.println("Could not find file " + fname);
        } 
        return true;
    } 

}

结果

~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
T R I T O N B L O C K C H A I N
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~

TritonBlock 0
Index: 0
Timestamp: 1541995814844
Prev Hash: 0
Hash: 167061cdfbc
DATA Start--------------------------------
Proof of work:1
DATA End --------------------------------

TritonBlock 1
Index: 1
Timestamp: 1541995814851
Prev Hash: 167061cdfbc
Hash: 167061cdfc4
DATA Start--------------------------------
Proof of work:26
Transaction 0
Transaction Content:mary bob 10$
Transaction 1
Transaction Content:mary bob 12$
Transaction 2
Transaction Content:Triton coined earned: 1
DATA End --------------------------------

TritonBlock 2
Index: 2
Timestamp: 1541995814851
Prev Hash: 167061cdfc4
Hash: 167061cdfc5
DATA Start--------------------------------
Proof of work:52
Transaction 0
Transaction Content:simon tian 3$
Transaction 1
Transaction Content:tian ming 3$
Transaction 2
Transaction Content:Triton coined earned: 1
DATA End --------------------------------


This block chain is: true

总结

通过做这个作业，我收获很多：

1. 什么是挖矿，什么是矿工，他们如何挣钱。提供计算资源的人叫矿工，提供的机器叫矿机，挖矿就是通过记录交易来获取收益。
2. 本次作业也给了很多hash函数可以自己选择，比如我使用的CRC variant就是一个比较简单的hash函数（我一般就是用取余哈哈）
3. 通过自己的辛苦获得了大洋（很开心）