怎么实现区块链

⑴ 区块链电子存证如何实现

区块链技术具有去中心化、不可篡改、时间戳证明等特性，就特点上来说天然符合电子数据的存证需求。区块链与电子数据存证的结合，可以降低电子数据存证成本，方便电子数据的证据认定，提高司法存证领域的诉讼效率。区块链存证可以让数据一致存储、防篡改、防抵赖，借助密码学确保数据传输与访问的安全。密码财经 mimacaijing 专注区块链信息。

⑵ 区块链+战疫如何实现

捐助物资的物流、捐助情况。。等等都是可以上链的，而且区块链技术有不可更改的特点，所以可以应用，现在区块链项目很火的，长沙高新区发起的现在有一个中芯区块链服务平台项目的，现在已经是在正式运营阶段了，还入选了湖南省区块链重点项目，下一步就是征集企业上链了。

⑶ 区块链Java技术实现 怎么开发区块链技术

1. 区块链底层开发并不能用Java实现

2. 做上层开发只需要根据给出的开源接口对接然后用你擅长的语言开发你需求的东西就好了

3. 现在有很多区块链系统模板，可以去看看都有哪些开发案例

⑷ 区块链+AI如何实现

目前有点困难
区块链用一句话概括就是去中心化，利用分布式数据节点之间的信任协议实现数据共享与挖掘升级。而人工智能涵盖的面可广泛了，包括了语言识别，图像识别，机器学习，智能逻辑很多学科。

⑸ 如何用JavaScript实现区块链

<span style="font-family:Arial, Helvetica, sans-serif;">'use strict';</span>var CryptoJS = require("crypto-js");var express = require("express");var bodyParser = require('body-parser');var WebSocket = require("ws");var http_port = process.env.HTTP_PORT || 3001;var p2p_port = process.env.P2P_PORT || 6001;var initialPeers = process.env.PEERS ? process.env.PEERS.split(',') : [];class Block { constructor(index, previousHash, timestamp, data, hash) { this.index = index; this.previousHash = previousHash.toString(); this.timestamp = timestamp; this.data = data; this.hash = hash.toString(); }}var sockets = [];var MessageType = { QUERY_LATEST: 0, QUERY_ALL: 1, RESPONSE_BLOCKCHAIN: 2};var getGenesisBlock = () => { return new Block(0, "0", 1465154705, "my genesis block!!", "");};var blockchain = [getGenesisBlock()];var initHttpServer = () => { var app = express(); app.use(bodyParser.json()); app.get('/blocks', (req, res) => res.send(JSON.stringify(blockchain))); app.post('/mineBlock', (req, res) => { var newBlock = generateNextBlock(req.body.data); addBlock(newBlock); broadcast(responseLatestMsg()); console.log('block added: ' + JSON.stringify(newBlock)); res.send(); }); app.get('/peers', (req, res) => { res.send(sockets.map(s => s._socket.remoteAddress + ':' + s._socket.remotePort)); }); app.post('/addPeer', (req, res) => { connectToPeers([req.body.peer]); res.send(); }); app.listen(http_port, () => console.log('Listening http on port: ' + http_port));};var initP2PServer = () => { var server = new WebSocket.Server({port: p2p_port}); server.on('connection', ws => initConnection(ws)); console.log('listening websocket p2p port on: ' + p2p_port);};var initConnection = (ws) => { sockets.push(ws); initMessageHandler(ws); initErrorHandler(ws); write(ws, queryChainLengthMsg());};var initMessageHandler = (ws) => { ws.on('message', (data) => { var message = JSON.parse(data); console.log('Received message' + JSON.stringify(message)); switch (message.type) { case MessageType.QUERY_LATEST: write(ws, responseLatestMsg()); break; case MessageType.QUERY_ALL: write(ws, responseChainMsg()); break; case MessageType.RESPONSE_BLOCKCHAIN: handleBlockchainResponse(message); break; } });};var initErrorHandler = (ws) => { var closeConnection = (ws) => { console.log('connection failed to peer: ' + ws.url); sockets.splice(sockets.indexOf(ws), 1); }; ws.on('close', () => closeConnection(ws)); ws.on('error', () => closeConnection(ws));};var generateNextBlock = (blockData) => { var previousBlock = getLatestBlock(); var nextIndex = previousBlock.index + 1; var nextTimestamp = new Date().getTime() / 1000; var nextHash = calculateHash(nextIndex, previousBlock.hash, nextTimestamp, blockData); return new Block(nextIndex, previousBlock.hash, nextTimestamp, blockData, nextHash);};var calculateHashForBlock = (block) => { return calculateHash(block.index, block.previousHash, block.timestamp, block.data);};var calculateHash = (index, previousHash, timestamp, data) => { return CryptoJS.SHA256(index + previousHash + timestamp + data).toString();};var addBlock = (newBlock) => { if (isValidNewBlock(newBlock, getLatestBlock())) { blockchain.push(newBlock); }};var isValidNewBlock = (newBlock, previousBlock) => { if (previousBlock.index + 1 !== newBlock.index) { console.log('invalid index'); return false; } else if (previousBlock.hash !== newBlock.previousHash) { console.log('invalid previoushash'); return false; } else if (calculateHashForBlock(newBlock) !== newBlock.hash) { console.log(typeof (newBlock.hash) + ' ' + typeof calculateHashForBlock(newBlock)); console.log('invalid hash: ' + calculateHashForBlock(newBlock) + ' ' + newBlock.hash); return false; } return true;};var connectToPeers = (newPeers) => { newPeers.forEach((peer) => { var ws = new WebSocket(peer); ws.on('open', () => initConnection(ws)); ws.on('error', () => { console.log('connection failed') }); });};var handleBlockchainResponse = (message) => { var receivedBlocks = JSON.parse(message.data).sort((b1, b2) => (b1.index - b2.index)); var latestBlockReceived = receivedBlocks[receivedBlocks.length - 1]; var latestBlockHeld = getLatestBlock(); if (latestBlockReceived.index > latestBlockHeld.index) { console.log('blockchain possibly behind. We got: ' + latestBlockHeld.index + ' Peer got: ' + latestBlockReceived.index); if (latestBlockHeld.hash === latestBlockReceived.previousHash) { console.log("We can append the received block to our chain"); blockchain.push(latestBlockReceived); broadcast(responseLatestMsg()); } else if (receivedBlocks.length === 1) { console.log("We have to query the chain from our peer"); broadcast(queryAllMsg()); } else { console.log("Received blockchain is longer than current blockchain"); replaceChain(receivedBlocks); } } else { console.log('received blockchain is not longer than received blockchain. Do nothing'); }};var replaceChain = (newBlocks) => { if (isValidChain(newBlocks) && newBlocks.length > blockchain.length) { console.log('Received blockchain is valid. Replacing current blockchain with received blockchain'); blockchain = newBlocks; broadcast(responseLatestMsg()); } else { console.log('Received blockchain invalid'); }};var isValidChain = (blockchainToValidate) => { if (JSON.stringify(blockchainToValidate[0]) !== JSON.stringify(getGenesisBlock())) { return false; } var tempBlocks = [blockchainToValidate[0]]; for (var i = 1; i < blockchainToValidate.length; i++) { if (isValidNewBlock(blockchainToValidate[i], tempBlocks[i - 1])) { tempBlocks.push(blockchainToValidate[i]); } else { return false; } } return true;};var getLatestBlock = () => blockchain[blockchain.length - 1];var queryChainLengthMsg = () => ({'type': MessageType.QUERY_LATEST});var queryAllMsg = () => ({'type': MessageType.QUERY_ALL});var responseChainMsg = () =>({ 'type': MessageType.RESPONSE_BLOCKCHAIN, 'data': JSON.stringify(blockchain)});var responseLatestMsg = () => ({ 'type': MessageType.RESPONSE_BLOCKCHAIN, 'data': JSON.stringify([getLatestBlock()])});var write = (ws, message) => ws.send(JSON.stringify(message));var broadcast = (message) => sockets.forEach(socket => write(socket, message));connectToPeers(initialPeers);initHttpServer();initP2PServer();

⑹ java区块链怎么实现

java区块链代码实现
哈希树的跟节点称为Merkle根，Merkle树可以仅用log2（N）的时间复杂度检查任何一个数据元素是否包含在树中：
package test;
import java.security.MessageDigest;
import java.uTIl.ArrayList;
import java.uTIl.List;
public class MerkleTrees {
// transacTIon List
List《String》 txList;
// Merkle Root
String root;
/**
* constructor
* @param txList transacTIon List 交易List
*/
public MerkleTrees（List《String》 txList） {
this.txList = txList;
root = “”;
}
/**
* execute merkle_tree and set root.
*/
public void merkle_tree（） {
List《String》 tempTxList = new ArrayList《String》（）;
for （int i = 0; i 《 this.txList.size（）; i++） {
tempTxList.add（this.txList.get（i））;
}
List《String》 newTxList = getNewTxList（tempTxList）;
while （newTxList.size（） ！= 1） {
newTxList = getNewTxList（newTxList）;
}
this.root = newTxList.get（0）;
}
/**
* return Node Hash List.
* @param tempTxList
* @return
*/
private List《String》 getNewTxList（List《String》 tempTxList） {
List《String》 newTxList = new ArrayList《String》（）;
int index = 0;
while （index 《 tempTxList.size（）） {
// left
String left = tempTxList.get（index）;
index++;
// right
String right = “”;
if （index ！= tempTxList.size（）） {
right = tempTxList.get（index）;
}
// sha2 hex value
String sha2HexValue = getSHA2HexValue（left + right）;
newTxList.add（sha2HexValue）;
index++;
}
return newTxList;
}
/**
* Return hex string
* @param str
* @return
*/
public String getSHA2HexValue（String str） {
byte［］ cipher_byte;
try{
MessageDigest md = MessageDigest.getInstance（“SHA-256”）;
md.update（str.getBytes（））;
cipher_byte = md.digest（）;
StringBuilder sb = new StringBuilder（2 * cipher_byte.length）;
for（byte b： cipher_byte） {
sb.append（String.format（“%02x”， b&0xff） ）;
}
return sb.toString（）;
} catch （Exception e） {
e.printStackTrace（）;
}
return “”;
}
/**
* Get Root
* @return
*/
public String getRoot（） {
return this.root;
}
}

⑺ 区块链如何开发

分享区视网：

区块链技术的应用范围还是很广的，基于去中心化，去信任，集体维护，可靠数据库等特点，其在金融行业的应用是先行一步的。
区块链是比特币的底层技术，区块链在数字货币的应用开发已经是成熟的了。

像英唐众创提供的基于区块链的交易系统开发方案，开发出来的软件系统有很大的安全系数和透明度。

⑻ 如何使用代码实现一个简单的区块链

直接去下来源代码