#Address.js 'use strict';
var run = function() {
// Replace '../bitcore' with 'bitcore' if you use this code elsewhere.
var bitcore = require('../bitcore');
var Address = bitcore.Address;
var addrs = [
'1A1zP1eP5QGefi2DMPTfTL5SLmv7DivfNa',
'1A1zP1eP5QGefi2DMPTfTL5SLmv7Dixxxx',
'A1zP1eP5QGefi2DMPTfTL5SLmv7DivfNa',
'1600 Pennsylvania Ave NW',
].map(function(addr) {
return new Address(addr);
});
addrs.forEach(function(addr) {
var valid = addr.isValid();
console.log(addr.data + ' is ' + (valid ? '' : 'not ') + 'valid');
});
};
module.exports.run = run;
if (require.main === module) {
run();
}
#Armory.js var Armory = require('../lib/Armory'); var Address = require('../lib/Address');
// Initial public key can be retrieved from paper backup
var PublicX = '9df5 23e7 18b9 1f59 a790 2d46 999f 9357 ccf8 7208 24d4 3076 4516 b809 f7ab ce4e';
var PublicY = '66ba 5d21 4682 0dae 401d 9506 8437 2516 79f9 0c56 4186 cc50 07df c6d0 6989 1ff4';
var pubkey = '04' + PublicX.split(' ').join('') + PublicY.split(' ').join('');
// Chain code can be generated by entering paper backup
// on brainwallet.org/#chains or by using Armory.fromSeed() below
var chaincode = '84ac14bc4b388b33da099a0b4ee3b507284d99e1476639e36e5ca5e6af86481e';
var armory = new Armory(chaincode, pubkey);
console.log('Deriving public keys for');
console.log('------------------------');
console.log('Chain code: %s', chaincode);
console.log('Public key: %s', pubkey);
console.log('');
for (var i = 0; i < 5; i++) {
console.log(Address.fromPubKey(armory.pubkey).as('base58'));
armory = armory.next();
}
// Derive first public key and chain code from seed
var seed = [
'aagh hjfj sihk ietj giik wwai awtd uodh hnji',
'soss uaku egod utai itos fijj ihgi jhau jtoo'
];
console.log('');
console.log('');
console.log('Deriving public keys for');
console.log('------------------------');
console.log('Seed: %s', seed.join(' '));
console.log('');
// skip first public key
var a = Armory.fromSeed(seed.join('\n')).next();
for (var i = 0; i < 5; i++) {
console.log(Address.fromPubKey(a.pubkey).as('base58'));
a = a.next();
}
var mpk = '045a09a3286873a72f164476bde9d1d8e5c2bc044e35aa47eb6e798e325a86417f7c35b61d9905053533e0b4f2a26eca0330aadf21c638969e45aaace50e4c0c8784ac14bc4b388b33da099a0b4ee3b507284d99e1476639e36e5ca5e6af86481e';
console.log('');
console.log('');
console.log('Deriving public keys for');
console.log('------------------------');
console.log('Master Public Key: %s', mpk);
console.log('');
// skip first public key
var b = Armory.fromMasterPublicKey(mpk).next();
for (var i = 0; i < 5; i++) {
console.log(Address.fromPubKey(b.pubkey).as('base58'));
b = b.next();
}
#ConnectionTor.js var Peer = require('../lib/Peer'); var Connection = require('../lib/Connection'); var dns = require('dns');
// get a peer from dns seed
dns.resolve('dnsseed.bluematt.me', function(err, seeds) {
// use the first peer
var peer = new Peer(seeds[0], 8333);
//Custom peer:
//var peer = new Peer('180.153.139.246', '8888');
// create a connection without an existing socket
// but specify a socks5 proxy to create a socket
// that's bound to that proxy in it's place
var connection = new Connection(null, peer, {
proxy: {
host: '127.0.0.1',
port: 9050
}
});
connection.open();
connection.on('connect', function(data) {
console.log('connected through socks5!');
});
connection.on('error', function(err) {
console.log('There was an error running this example.');
console.log('Are you running Tor? Tor must running for this example to work.');
console.log('If you still get an error, you may need to use a different proxy from here:');
console.log('http://sockslist.net/');
//console.log(err);
});
});
#CreateAndSignTx-Multisig.js var run = function() { bitcore = typeof(bitcore) === 'undefined' ? require('../bitcore') : bitcore; var networks = require('../networks'); var WalletKey = bitcore.WalletKey; var Builder = bitcore.TransactionBuilder; var opts = { network: networks.testnet };
console.log('## Network: ' + opts.network.name);
var input = {};
input.addr = "n2hoFVbPrYQf7RJwiRy1tkbuPPqyhAEfbp";
input.priv = "cS62Ej4SobZnpFQYN1PEEBr2KWf5sgRYYnELtumcG6WVCfxno39V";
// Complete with the corresponding UTXO you want to use
var utxos = [{
address: input.addr,
txid: "39c71ebda371f75f4b854a720eaf9898b237facf3c2b101b58cd4383a44a6adc",
vout: 1,
ts: 1396288753,
scriptPubKey: "76a914e867aad8bd361f57c50adc37a0c018692b5b0c9a88ac",
amount: 0.4296,
confirmations: 2
}];
var privs = [
"cP6JBHuQf7yqeqtdKRd22ibF3VehDv7G6BdzxSNABgrv3jFJUGoN",
"cQfRwF7XLSM5xGUpF8PZvob2MZyULvZPA2j5cat2RKDJrja7FtCZ",
"cUkYub4jtFVYymHh38yMMW36nJB4pXG5Pzd5QjResq79kAndkJcg",
"cMyBgowsyrJRufoKWob73rMQB1PBqDdwFt8z4TJ6APN2HkmX1Ttm",
"cN9yZCom6hAZpHtCp8ovE1zFa7RqDf3Cr4W6AwH2tp59Jjh9JcXu",
];
var pubkeys = []
privs.forEach(function(p) {
var wk = new WalletKey(opts);
wk.fromObj({
priv: p
});
pubkeys.push(bitcore.buffertools.toHex(wk.privKey.public));
});
var outs = [{
nreq: 3,
pubkeys: pubkeys,
amount: 0.05
}];
var tx = new Builder(opts)
.setUnspent(utxos)
.setOutputs(outs)
.sign([input.priv])
.build();
var txHex = tx.serialize().toString('hex');
console.log('1) SEND TO MULSISIG TX: ', txHex);
console.log('[this example originally generated TXID: e4bc22d8c519d3cf848d710619f8480be56176a4a6548dfbe865ab3886b578b5 on testnet]\n\n\thttp://test.bitcore.io/tx/e4bc22d8c519d3cf848d710619f8480be56176a4a6548dfbe865ab3886b578b5\n\n');
//save scriptPubKey
var scriptPubKey = tx.outs[0].s.toString('hex');
/*
*
* REDDEEM TX
*/
var utxos2 = [{
address: input.addr,
txid: "e4bc22d8c519d3cf848d710619f8480be56176a4a6548dfbe865ab3886b578b5",
vout: 0,
ts: 1396288753,
scriptPubKey: scriptPubKey,
amount: 0.05,
confirmations: 2
}];
outs = [{
address: input.addr,
amount: 0.04
}];
var b = new Builder(opts)
.setUnspent(utxos2)
.setOutputs(outs)
.sign(privs);
tx = b.build();
var txHex = tx.serialize().toString('hex');
console.log('2) REDEEM SCRIPT: ', txHex);
console.log('=> Is signed status:', b.isFullySigned(), tx.countInputMissingSignatures(0));
console.log('[this example originally generated TXID: 1eb388977b2de99562eb0fbcc661a100eaffed99c53bfcfebe5a087002039b83 on testnet]\n\n\thttp://test.bitcore.io/tx/1eb388977b2de99562eb0fbcc661a100eaffed99c53bfcfebe5a087002039b83');
};
// This is just for browser & mocha compatibility
if (typeof module !== 'undefined') {
module.exports.run = run;
if (require.main === module) {
run();
}
} else {
run();
}
////
#CreateAndSignTx-PayToPubkeyHash.js var run = function() { bitcore = typeof(bitcore) === 'undefined' ? require('../bitcore') : bitcore;
var priv = 'cTgGUrcro89yUtKeG6gHBAS14r3qp25KwTTxG9d4kEzcFxecuZDm';
var amt = '0.005';
var toAddress = 'myuAQcCc1REUgXGsCTiYhZvPPc3XxZ36G1';
var changeAddressString = 'moDz3jEo9q7CxjBDjmb13sL4SKkgo2AACE';
var utxos = [{
address: "mqSjTad2TKbPcKQ3Jq4kgCkKatyN44UMgZ",
txid: "2ac165fa7a3a2b535d106a0041c7568d03b531e58aeccdd3199d7289ab12cfc1",
vout: 1,
ts: 1394719301,
scriptPubKey: "76a9146ce4e1163eb18939b1440c42844d5f0261c0338288ac",
amount: 0.01,
confirmations: 2
}];
console.log('TX Data: BTC:' + amt + ' => ' + toAddress + ', change To:' + changeAddressString);
console.log('Unspends Outputs:', utxos);
var outs = [{
address: toAddress,
amount: amt
}];
var keys = [priv];
var opts = {
remainderOut: {
address: changeAddressString
}
};
var Builder = bitcore.TransactionBuilder;
var tx = new Builder(opts)
.setUnspent(utxos)
.setOutputs(outs)
.sign(keys)
.build();
/* create and signing can be done in multiple steps using:
*
* var builder = new bitcore.TransactionBuilder(opts)
* .setUnspent(utxos)
* .setOutputs(outs);
*
* builder.sign(key1);
* builder.sign(key2);
* ...
* if (builder.isFullySigned()){
* var tx = builder.build();
* }
*
* The selected Unspent Outputs for the transaction can be retrieved with:
*
* var selectedUnspent = build.getSelectedUnspent();
*/
var txHex = tx.serialize().toString('hex');
console.log('TX HEX IS: ', txHex);
};
// This is just for browser & mocha compatibility
if (typeof module !== 'undefined') {
module.exports.run = run;
if (require.main === module) {
run();
}
} else {
run();
}
////
#CreateAndSignTx-PayToScriptHash.js var run = function() { bitcore = typeof(bitcore) === 'undefined' ? require('../bitcore') : bitcore; var networks = require('../networks'); var WalletKey = bitcore.WalletKey; var Script = bitcore.Script; var Builder = bitcore.TransactionBuilder; var opts = { network: networks.testnet };
console.log('## Network: ' + opts.network.name);
var input = {};
input.addr = "n2hoFVbPrYQf7RJwiRy1tkbuPPqyhAEfbp";
input.priv = "cS62Ej4SobZnpFQYN1PEEBr2KWf5sgRYYnELtumcG6WVCfxno39V";
// Complete with the corresponding UTXO you want to use
var utxos = [{
address: "n2hoFVbPrYQf7RJwiRy1tkbuPPqyhAEfbp",
txid: "e4bc22d8c519d3cf848d710619f8480be56176a4a6548dfbe865ab3886b578b5",
vout: 1,
ts: 1396290442,
scriptPubKey: "76a914e867aad8bd361f57c50adc37a0c018692b5b0c9a88ac",
amount: 0.3795,
confirmations: 7
}];
var privs = [
"cMpKwGr5oxEacN95WFKNEq6tTcvi11regFwS3muHvGYVxMPJX8JA",
"cVf32m9MR4vxcPwKNJuPepUe8XrHD2z63eCk76d6njRGyCkXpkSM",
"cQ2sVRFX4jQYMLhWyzz6jTQ2xju51P36968ecXnPhRLKLH677eKR",
"cSw7x9ERcmeWCU3yVBT6Nz7b9JiZ5yjUB7JMhBUv9UM7rSaDpwX9",
"cRQBM8qM4ZXJGP1De4D5RtJm7Q6FNWQSMx7YExxzgn2ehjM3haxW",
];
var pubkeys = []
privs.forEach(function(p) {
var wk = new WalletKey(opts);
wk.fromObj({
priv: p
});
pubkeys.push(bitcore.buffertools.toHex(wk.privKey.public));
});
// multisig p2sh
var opts = {
nreq: 3,
pubkeys: pubkeys
};
// p2scriphash p2sh
//var opts = [{address: an_address}];
var info = Builder.infoForP2sh(opts, 'testnet');
var p2shScript = info.scriptBufHex;
var p2shAddress = info.address;
var outs = [{
address: p2shAddress,
amount: 0.05
}];
var tx = new Builder(opts)
.setUnspent(utxos)
.setOutputs(outs)
.sign([input.priv])
.build();
var txHex = tx.serialize().toString('hex');
console.log('## p2sh address: ' + p2shAddress); //TODO
console.log('\n1) SEND TO P2SH TX: ', txHex);
console.log('[this example originally generated TXID: c2e50d1c8c581d8c4408378b751633f7eb86687fc5f0502be7b467173f275ae7 on testnet]\n\n\thttp://test.bitcore.io/tx/c2e50d1c8c581d8c4408378b751633f7eb86687fc5f0502be7b467173f275ae7\n\n');
//save scriptPubKey
var scriptPubKey = tx.outs[0].s.toString('hex');
/*
*
* REDDEEM TX
*/
var utxos2 = [{
address: p2shAddress,
txid: "c2e50d1c8c581d8c4408378b751633f7eb86687fc5f0502be7b467173f275ae7",
vout: 0,
ts: 1396375187,
scriptPubKey: scriptPubKey,
amount: 0.05,
confirmations: 1
}];
outs = [{
address: input.addr,
amount: 0.04
}];
var hashMap = {};
hashMap[p2shAddress] = p2shScript;
var b = new Builder(opts)
.setUnspent(utxos2)
.setHashToScriptMap(hashMap)
.setOutputs(outs)
.sign(privs);
tx = b.build();
console.log('Builder:');
console.log('\tSignatures:' + tx.countInputMissingSignatures(0));
console.log('\t#isFullySigned:' + b.isFullySigned());
console.log('TX:');
console.log('\t #isComplete:' + tx.isComplete());
var txHex = tx.serialize().toString('hex');
console.log('2) REDEEM SCRIPT: ', txHex);
console.log('[this example originally generated TXID: 8284aa3b6f9c71c35ecb1d61d05ae78c8ca1f36940eaa615b50584dfc3d95cb7 on testnet]\n\n\thttp://test.bitcore.io/tx/8284aa3b6f9c71c35ecb1d61d05ae78c8ca1f36940eaa615b50584dfc3d95cb7\n\n');
/*
// To send TX with RPC:
var RpcClient = bitcore.RpcClient;
var config = {
protocol: 'http',
user: 'user',
pass: 'pass',
host: '127.0.0.1',
port: '18332',
};
var rpc = new RpcClient(config);
rpc.sendRawTransaction(txHex, function(err, ret) {
console.log('err', err); //TODO
console.log('ret', ret); //TODO
process.exit(-1);
});
};
*/
};
// This is just for browser & mocha compatibility
if (typeof module !== 'undefined') {
module.exports.run = run;
if (require.main === module) {
run();
}
} else {
run();
}
#CreateKey.js 'use strict';
var run = function() {
// replace '../bitcore' with 'bitcore' if you use this code elsewhere.
var bitcore = require('../bitcore');
var networks = require('../networks');
var WalletKey = bitcore.WalletKey;
var opts = {
network: networks.testnet
};
function print(wk) {
console.log('\n## Network: ' + wk.network.name);
console.log('\t * Hex Representation');
console.log('\tPrivate: ' + bitcore.buffertools.toHex(wk.privKey.private));
console.log('\tPublic : ' + bitcore.buffertools.toHex(wk.privKey.public));
console.log('\tPublic Compressed : ' + (wk.privKey.compressed ? 'Yes' : 'No'));
var wkObj = wk.storeObj();
console.log('\n\t * WalletKey Store Object');
console.log('\tPrivate: ' + wkObj.priv);
console.log('\tPublic : ' + wkObj.pub);
console.log('\tAddr : ' + wkObj.addr);
};
//Generate a new one (compressed public key, compressed WIF flag)
var wk = new WalletKey(opts);
wk.generate();
print(wk);
//Generate from private Key WIF. Compressed status taken from WIF.
var wk2 = new WalletKey(opts);
wk2.fromObj({
priv: 'cMpKwGr5oxEacN95WFKNEq6tTcvi11regFwS3muHvGYVxMPJX8JA'
});
print(wk2);
};
module.exports.run = run;
if (require.main === module) {
run();
}
#CreateScript.js 'use strict';
var run = function() {
// replace '../bitcore' with 'bitcore' if you use this code elsewhere.
var bitcore = require('../bitcore');
var networks = require('../networks');
var Script = bitcore.Script;
var WalletKey = bitcore.WalletKey;
var buffertools = bitcore.buffertools;
var Address = bitcore.Address;
var util = bitcore.util;
var opts = {
network: networks.testnet
};
var p = console.log;
var wk = new WalletKey(opts);
wk.generate();
var wkObj = wk.storeObj();
var s = Script.createPubKeyOut(wk.privKey.public);
p('\nScript PubKey:');
p('\tHex : ' + buffertools.toHex(s.buffer));
p('\tHuman : ' + s.toHumanReadable());
p('\tKey -------------------------------');
console.log('\tPrivate: ' + wkObj.priv);
console.log('\tPublic : ' + wkObj.pub);
console.log('\tAddr : ' + wkObj.addr);
s = Script.createPubKeyHashOut(wk.privKey.public);
p('\nScript PubKeyHash:');
p('\tHex : ' + buffertools.toHex(s.buffer));
p('\tHuman : ' + s.toHumanReadable());
p('\tKey -------------------------------');
console.log('\tPrivate: ' + wkObj.priv);
console.log('\tPublic : ' + wkObj.pub);
console.log('\tAddr : ' + wkObj.addr);
var wks = [];
var pubs = [];
for (var i = 0; i < 5; i++) {
wks[i] = new WalletKey(opts);
wks[i].generate();
pubs.push(wks[i].privKey.public);
}
s = Script.createMultisig(3, pubs);
p('\nScript MultiSig (3 out of 5 required signatures):');
p('\tHex : ' + buffertools.toHex(s.buffer));
p('\tHuman : ' + s.toHumanReadable());
for (i = 0; i < 5; i++) {
wkObj = wks[i].storeObj();
p('\tKey [' + i + '] -------------------------------');
console.log('\tPrivate: ' + wkObj.priv);
console.log('\tPublic : ' + wkObj.pub);
console.log('\tAddr : ' + wkObj.addr);
}
var hash = util.sha256ripe160(s.buffer);
s = Script.createP2SH(hash);
p('\nScript P2SH:');
p('\tHex : ' + buffertools.toHex(s.buffer));
p('\tHuman : ' + s.toHumanReadable());
p('\tScript Hash: ' + buffertools.toHex(hash));
var a = new Address(networks.livenet.P2SHVersion, hash);
p('\tp2sh Addr: ' + a.toString());
};
module.exports.run = run;
if (require.main === module) {
run();
}
#ECIES.js var run = function() { bitcore = typeof(bitcore) === 'undefined' ? require('../bitcore') : bitcore;
console.log('ECIES: Elliptic Curve Integrated Encryption Scheme');
console.log('A way of encrypting with a public key and decrypting with a private key.');
var key = bitcore.Key.generateSync();
console.log('Private key: ' + key.private.toString('hex'));
console.log('Public key: ' + key.public.toString('hex'));
var message = new Buffer('This is a message to be encrypted');
console.log('Message: "' + message.toString() + '"');
var encrypted = bitcore.ECIES.encrypt(key.public, message);
console.log('Encrypted (with public key): ' + encrypted.toString('hex'));
var decrypted = bitcore.ECIES.decrypt(key.private, encrypted);
console.log('Decrypted (with private key): "' + decrypted.toString() + '"');
};
// This is just for browser & mocha compatibility
if (typeof module !== 'undefined') {
module.exports.run = run;
if (require.main === module) {
run();
}
} else {
run();
}
#ElectrumMPK.js var Electrum = require('../lib/Electrum'); var Address = require('../lib/Address');
var mpk = '92eea4d2f5263651db9e3222caded1fd4c89772f79a7c03fb6afc00e9d2c9d2ed9b86c2c95fc1171e49163079dacb7f048b3c509a27a490e1df9e7128362d468';
mpk = new Electrum(mpk);
var key0 = mpk.generatePubKey(0);
var addr0 = Address.fromPubKey(key0);
console.log(addr0.as('base58'));
#HierarchicalKey.js var run = function() { bitcore = typeof(bitcore) === 'undefined' ? require('../bitcore') : bitcore; var HierarchicalKey = bitcore.HierarchicalKey; var Address = bitcore.Address; var networks = bitcore.networks; var coinUtil = bitcore.util; var crypto = require('crypto');
console.log('HierarchicalKey: Hierarchical Deterministic Wallets (BIP32)');
console.log('https://github.com/bitcoin/bips/blob/master/bip-0032.mediawiki\n');
console.log('1) Make new hkey from randomly generated new seed');
var randomBytes = crypto.randomBytes(32);
var hkey = HierarchicalKey.seed(randomBytes);
console.log('master extended private key: ' + hkey.extendedPrivateKeyString());
console.log('master extended public key: ' + hkey.extendedPublicKeyString());
console.log('m/0/3/5 extended private key: ' + hkey.derive('m/0/3/5').extendedPrivateKeyString());
console.log('m/0/3/5 extended public key: ' + hkey.derive('m/0/3/5').extendedPublicKeyString());
console.log();
console.log('2) Make new hkey from known seed');
var knownBytes = coinUtil.sha256('do not use this password as a brain wallet');
var hkey = HierarchicalKey.seed(knownBytes);
console.log('master extended private key: ' + hkey.extendedPrivateKeyString());
console.log('master extended public key: ' + hkey.extendedPublicKeyString());
console.log('m/0/3/5 extended private key: ' + hkey.derive('m/0/3/5').extendedPrivateKeyString());
console.log('m/0/3/5 extended public key: ' + hkey.derive('m/0/3/5').extendedPublicKeyString());
console.log();
console.log('3) Make new hkey from known master private key');
var knownMasterPrivateKey = 'xprv9s21ZrQH143K2LvayFZWVVTomiDKheKWvnupDB8fmjKwxkKG47uvzmFa3vCXoy9fxPJhRYsU19apVfexvMeLpJQuF2XtX1zRF3eao9GqqaQ';
var hkey = new HierarchicalKey(knownMasterPrivateKey);
console.log('master extended private key: ' + hkey.extendedPrivateKeyString());
console.log('master extended public key: ' + hkey.extendedPublicKeyString());
console.log('m/0/3/5 extended private key: ' + hkey.derive('m/0/3/5').extendedPrivateKeyString());
console.log('m/0/3/5 extended public key: ' + hkey.derive('m/0/3/5').extendedPublicKeyString());
console.log();
console.log('4) Make new hkey from known master public key');
var knownMasterPublicKey = 'xpub661MyMwAqRbcGpiFufipqsKKBG1NHNwfJKishAEFNqJ6ryLcKeKyFNEZces7gMWd4XGg4uUhXy8DS64o1oPGUECVHeLq957Txjwagxt475H';
var hkey = new HierarchicalKey(knownMasterPublicKey);
console.log('master extended private key: cannot derive');
console.log('master extended public key: ' + hkey.extendedPublicKeyString());
console.log('m/0/3/5 extended private key: cannot derive');
console.log('m/0/3/5 extended public key: ' + hkey.derive('m/0/3/5').extendedPublicKeyString());
console.log();
console.log('5) Make new hkey from known derived public key');
var knownPublicKey = 'xpub6CZei1p2zk68UwkcBDqzRonLHJWAiPZZ58sMgHJAn9fmpmnPayVEAvAs3XvTSUMZ1J8dNaxnv4wnt7YpRKr6BsqeWbW8msqeuuhiSzsQEC3';
var hkey = new HierarchicalKey(knownPublicKey);
console.log('master extended private key: cannot derive');
console.log('master extended public key: ' + hkey.extendedPublicKeyString());
console.log('m/0/3/5 extended private key: cannot derive');
console.log('m/0/3/5 extended public key: ' + hkey.derive('m/0/3/5').extendedPublicKeyString());
console.log();
console.log('6) Make a bunch of new addresses from known public key');
var knownPublicKey = 'xpub6CZei1p2zk68UwkcBDqzRonLHJWAiPZZ58sMgHJAn9fmpmnPayVEAvAs3XvTSUMZ1J8dNaxnv4wnt7YpRKr6BsqeWbW8msqeuuhiSzsQEC3';
var hkey = new HierarchicalKey(knownPublicKey);
console.log('m/0 address: ' + Address.fromPubKey(hkey.derive('m/0').eckey.public).toString());
//console.log('m/1 extended public key: ' + hkey.derive('m/1').extendedPublicKeyString());
console.log('m/1 address: ' + Address.fromPubKey(hkey.derive('m/1').eckey.public).toString());
//console.log('m/2 extended public key: ' + hkey.derive('m/2').extendedPublicKeyString());
console.log('m/2 address: ' + Address.fromPubKey(hkey.derive('m/2').eckey.public).toString());
//console.log('m/3 extended public key: ' + hkey.derive('m/3').extendedPublicKeyString());
console.log('m/3 address: ' + Address.fromPubKey(hkey.derive('m/3').eckey.public).toString());
console.log('...');
//console.log('m/100 extended public key: ' + hkey.derive('m/100').extendedPublicKeyString());
console.log('m/100 address: ' + Address.fromPubKey(hkey.derive('m/100').eckey.public).toString());
console.log();
};
// This is just for browser & mocha compatibility
if (typeof module !== 'undefined') {
module.exports.run = run;
if (require.main === module) {
run();
}
} else {
run();
}
#PayToScriptHashAddress.js var bitcore = require('../bitcore'); var Address = bitcore.Address; var bitcoreUtil = bitcore.util; var Script = bitcore.Script; var network = bitcore.networks.livenet;
var script = ''; // write down your script here
var s = Script.fromHumanReadable(script);
var hash = bitcoreUtil.sha256ripe160(s.getBuffer());
var version = network.addressScript;
var addr = new Address(version, hash);
var addrStr = addr.as('base58');
// This outputs the "address" of thescript
console.log(addrStr);
#PeerDiscovery.js var PeerManager = require('../lib/PeerManager'); var peerman = new PeerManager();
peerman.discover({
limit: 12
}).start();
#PeerManager.js 'use strict';
var run = function() {
// Replace '../bitcore' with 'bitcore' if you use this code elsewhere.
var bitcore = require('../bitcore');
var Peer = bitcore.Peer;
var PeerManager = bitcore.PeerManager;
var handleBlock = function(info) {
console.log('** Block Received **');
console.log(info.message);
};
var handleTx = function(info) {
var tx = info.message.tx.getStandardizedObject();
console.log('** TX Received **');
console.log(tx);
};
var handleInv = function(info) {
console.log('** Inv **');
console.log(info.message);
var invs = info.message.invs;
info.conn.sendGetData(invs);
};
var peerman = new PeerManager({
network: 'testnet'
});
peerman.addPeer(new Peer('127.0.0.1', 18333));
peerman.on('connection', function(conn) {
conn.on('inv', handleInv);
conn.on('block', handleBlock);
conn.on('tx', handleTx);
});
peerman.start();
};
module.exports.run = run;
if (require.main === module) {
run();
}
#Rpc.js 'use strict';
var run = function() {
// Replace '../bitcore' with 'bitcore' if you use this code elsewhere.
var bitcore = require('../bitcore');
var RpcClient = bitcore.RpcClient;
var hash = '0000000000b6288775bbd326bedf324ca8717a15191da58391535408205aada4';
var config = {
protocol: 'http',
user: 'user',
pass: 'pass',
host: '127.0.0.1',
port: '18332',
};
var rpc = new RpcClient(config);
rpc.getBlock(hash, function(err, ret) {
if (err) {
console.error('An error occured fetching block', hash);
console.error(err);
return;
}
console.log(ret);
});
};
module.exports.run = run;
if (require.main === module) {
run();
}
#Script.js 'use strict';
var run = function() {
// Replace '../bitcore' with 'bitcore' if you use this code elsewhere.
var bitcore = require('../bitcore');
var Address = bitcore.Address;
var coinUtil = bitcore.util;
var Script = bitcore.Script;
var network = bitcore.networks.testnet;
var getAddrStr = function(s) {
var addrStrs = [];
var type = s.classify();
var addr;
switch (type) {
case Script.TX_PUBKEY:
var chunk = s.captureOne();
addr = new Address(network.addressVersion, coinUtil.sha256ripe160(chunk));
addrStrs.push(addr.toString());
break;
case Script.TX_PUBKEYHASH:
addr = new Address(network.addressVersion, s.captureOne());
addrStrs.push(addr.toString());
break;
case Script.TX_SCRIPTHASH:
addr = new Address(network.P2SHVersion, s.captureOne());
addrStrs.push(addr.toString());
break;
case Script.TX_MULTISIG:
var chunks = s.capture();
chunks.forEach(function(chunk) {
var a = new Address(network.addressVersion, coinUtil.sha256ripe160(chunk));
addrStrs.push(a.toString());
});
break;
case Script.TX_UNKNOWN:
console.log('tx type unkown');
break;
}
return addrStrs;
};
var script = 'DUP HASH160 0x14 0x3744841e13b90b4aca16fe793a7f88da3a23cc71 EQUALVERIFY CHECKSIG';
var s = Script.fromHumanReadable(script);
console.log(getAddrStr(s)[0]); // mkZBYBiq6DNoQEKakpMJegyDbw2YiNQnHT
};
module.exports.run = run;
if (require.main === module) {
run();
}
#SendTx.js 'use strict';
var run = function() {
// Replace '../bitcore' with 'bitcore' if you use this code elsewhere.
var bitcore = require('../bitcore');
var Peer = bitcore.Peer;
var TransactionBuilder = bitcore.TransactionBuilder;
var PeerManager = bitcore.PeerManager;
// Unspent transactions can be found via the insight.bitcore.io or blockchain.info APIs
var unspent = [{
'txid': '707108b5ba4f78dc951df4647a03365bf36432ea57fb641676045c5044daaea7',
'vout': 0,
'address': 'n3QDC7DzsMmN4mcyp3k7XGPX7zFXXHG387',
'scriptPubKey': '76a914f00c4a92ee2314ab08ac0283dc8d07d9bf2be32388ac',
'amount': 0.12345600,
'confirmations': 43537
}, {
'txid': '87a158d32833cb555aea27b6a21af569ccaeb8f9b19691e05f1e6c2b3440bdb3',
'vout': 1,
'address': 'mxdrp9s4mVxS9X4RBYiLe99v59V81XA5C3',
'scriptPubKey': '76a914bbc87986da6b17c7876db4efacf59a95e14f6cf588ac',
'amount': 0.05749800,
'confirmations': 43536
}
];
// Private keys in WIF format (see TransactionBuilder.js for other options)
var keys = [
'cQA75LXhV5JkMT8wkkqjR87SnHK4doh3c21p7PAd5tp8tc1tRBAY',
'cRz85dz9AiDieRpEwoucfXXQa1jdHHghcv6YnnVVGZ3MQyR1X4u2',
'cSq7yo4fvsbMyWVN945VUGUWMaSazZPWqBVJZyoGsHmNq6W4HVBV',
'cPa87VgwZfowGZYaEenoQeJgRfKW6PhZ1R65EHTkN1K19cSvc92G',
'cPQ9DSbBRLva9av5nqeF5AGrh3dsdW8p2E5jS4P8bDWZAoQTeeKB'
];
var peerman = new PeerManager({
network: 'testnet'
});
peerman.addPeer(new Peer('127.0.0.1', 18333));
peerman.on('connect', function() {
var conn = peerman.getActiveConnection();
if (conn) {
// define transaction output
var outs = [{
address: 'mhNCT9TwZAGF1tLPpZdqfkTmtBkY282YDW',
amount: 0.1337
}];
// set change address
var opts = {
remainderOut: {
address: 'n4g2TFaQo8UgedwpkYdcQFF6xE2Ei9Czvy'
}
};
var tx = new TransactionBuilder(opts)
.setUnspent(unspent)
.setOutputs(outs)
.sign(keys)
.build();
/* Create and signing can be done in multiple steps:
*
* var builder = new bitcore.TransactionBuilder(opts)
* .setUnspent(utxos)
* .setOutputs(outs);
*
* // Sign with the first key
* builder.sign(key1);
* var tx = builder.build(); // Partially signed transaction
*
* // Sign with the second key
* builder.sign(key2);
* if (builder.isFullySigned()){
* var tx = builder.build();
* }
*
* var selectedUnspent = build.getSelectedUnspent(); // Retrieve selected unspent outputs from the transaction
*/
var txid = tx.getHash().toString('hex');
console.log('Created transaction with txid ' + txid);
var raw_tx = tx.serialize().toString('hex');
console.log('Transaction raw hex dump:');
console.log('-------------------------------------');
console.log(raw_tx);
console.log('-------------------------------------');
// finally, send transaction to the bitcoin network
conn.sendTx(tx);
// for now, the network won't respond in any case
// (transaction accepted, transaction rejected)
// in the future, we may listen to 'reject' message
// see https://gist.github.com/gavinandresen/7079034
}
});
peerman.start();
};
module.exports.run = run;
if (require.main === module) {
run();
}
#SimpleP2Pmonitor.js /** * This is a simple script that will display network messages. * It users the Peer / Connection classes directly instead of * relying on PeerManager. */
// replace by require('bitcore') if you use somewhere else
var bitcore = require('../');
//bitcore.config.logger = 'debug';
var Peer = bitcore.Peer,
Connection = bitcore.Connection;
var peer = new Peer('127.0.0.1', 8333);
var socket = peer.createConnection();
var con = new Connection(socket, peer);
con.on('error', function(msg) {
var peer = msg.peer,
err = msg.err;
console.error('Error connecting to peer', peer.host + ':' + peer.port, '(' + err.message + ')');
});
con.on('disconnect', function(msg) {
console.log('disconnect: ', msg);
});
con.on('connect', function(msg) {
console.log('Connected to %s', msg.peer.host + ':' + msg.peer.port);
});
/* Listen P2P messages */
// Make a log function available to all listeners
// The log function is just like console.log except it prefixes
// messages with [host:port]
function listen(event_name, fn) {
con.on(event_name, function(event) {
fn(event, function() {
var args = Array.prototype.slice.call(arguments);
var str = args.shift();
str = '[%s:%s] ' + str;
args = [str, event.peer.host, event.peer.port].concat(args);
console.log.apply(console, args);
});
});
}
listen('getaddr', function(event, log) {
log('Received message getaddr');
log(event);
});
listen('verack', function(event, log) {
log('Received message verack');
});
listen('version', function(event, log) {
log('Received message version (%s)', event.message.version);
});
listen('addr', function(event, log) {
log('Received message addr (%s addresses)', event.message.addrs.length);
});
listen('inv', function(event, log) {
log('Received message inv (%s invs)', event.message.count);
console.log(event.message.invs);
});
#VanityAddress.js 'use strict';
var run = function() {
// Replace '../bitcore' with 'bitcore' if you use this code elsewhere.
var bitcore = require('../bitcore');
var Key = bitcore.Key;
var Address = bitcore.Address;
// config your regular expression
var re = /[0-9]{6}$/; // ends in 6 digits
var a, k, m;
while (true) {
k = Key.generateSync();
a = Address.fromKey(k);
m = a.toString().match(re);
if (m) break;
}
console.log('Address: ' + a.toString());
console.log('Private Key: ' + k.private.toString('hex'));
};
module.exports.run = run;
if (require.main === module) {
run();
}