A pure, powerful core for your bitcoin project.
Bitcore is a complete, native interface to the Bitcoin network, and provides the core functionality needed to develop apps for bitcoin.
#Principles Bitcoin is a powerful new peer-to-peer platform for the next generation of financial technology. The decentralized nature of the Bitcoin network allows for highly resilient bitcoin infrastructure, and the developer community needs reliable, open-source tools to implement bitcoin apps and services.
Bitcore unchains developers from fallible, centralized APIs, and provides the tools to interact with the real Bitcoin network.
#Get Started
Bitcore runs on node, and can be installed via npm:
npm install bitcore
It is a collection of objects useful to bitcoin applications; class-like idioms are enabled via Soop. In most cases, a developer will require the object's class directly. For instance:
var bitcore = require('bitcore');
var Address = bitcore.Address;
var Transaction = bitcore.Transaction;
var PeerManager = bitcore.PeerManager;
#Examples
Some examples are provided at the examples path. Here are some snippets:
Validating a Bitcoin address:
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');
});
For this example you need a running bitcoind instance with RPC enabled.
var bitcore = require('bitcore');
var networks = bitcore.networks;
var Peer = bitcore.Peer;
var PeerManager = require('soop').load('../PeerManager', {
network: networks.testnet
});
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();
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();
PeerManager will emit the following events: 'version', 'verack', 'addr', 'getaddr', 'error' 'disconnect'; and will relay events like: 'tx', 'block', 'inv'. Please see PeerManager.js, Peer.js and Connection.js
For this example you need a running bitcoind instance with RPC enabled.
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);
});
Check the list of all supported RPC call at RpcClient.js
For this example you need a running bitcoind instance with RPC enabled.
var bitcore = require('bitcore');
var networks = bitcore.networks;
var Peer = bitcore.Peer;
var Transaction = bitcore.Transaction;
var PeerManager = require('soop').load('../PeerManager', {
network: networks.testnet
});
// this can be get from insight.bitcore.io API o blockchain.info
var utxos = {
"unspent": [
{
"address": "n4g2TFaQo8UgedwpkYdcQFF6xE2Ei9Czvy",
"txid": "2ac165fa7a3a2b535d106a0041c7568d03b531e58aeccdd3199d7289ab12cfc1",
"scriptPubKey": "76a914fe021bac469a5c49915b2a8ffa7390a9ce5580f988ac",
"vout": 1,
"amount": 1.0101,
"confirmations":7
},
{
"address": "mhNCT9TwZAGF1tLPpZdqfkTmtBkY282YDW",
"txid": "2ac165fa7a3a2b535d106a0041c7568d03b531e58aeccdd3199d7289ab12cfc2",
"scriptPubKey": "76a9141448534cb1a1ec44665b0eb2326e570814afe3f188ac",
"vout": 0,
"confirmations": 1,
"amount": 10
},
};
//private keys in WIF format (see Transaction.js for other options)
var keys = [
"cSq7yo4fvsbMyWVN945VUGUWMaSazZPWqBVJZyoGsHmNq6W4HVBV",
"cPa87VgwZfowGZYaEenoQeJgRfKW6PhZ1R65EHTkN1K19cSvc92G",
"cPQ9DSbBRLva9av5nqeF5AGrh3dsdW8p2E5jS4P8bDWZAoQTeeKB"
];
function createTx() {
var outs = [{address:'mrPnbY1yKDBsdgbHbS7kJ8GVm8F66hWHLE', amount:0.08}];
var ret = Transaction.createAndSign(utxos, outs, keys);
/ * create and signing can be done in 2 steps using:
* var ret = Transaction.create(utxos,outs);
* and later:
* ret.tx.sign(ret.tx.selectedUtxos, outs, keys);
*/
return ret.tx.serialize().toString('hex');
};
var peerman = new PeerManager();
peerman.addPeer(new Peer('127.0.0.1', 18333));
peerman.on('connect', function() {
var conn = peerman.getActiveConnection();
if (conn) {
conn.sendTx(createTx());
}
conn.on('reject', function() {
console.log('Transaction Rejected');
});
});
peerman.start();
Gets an address strings from a ScriptPubKey Buffer
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.addressPubkey, coinUtil.sha256ripe160(chunk));
addrStrs.push(addr.toString());
break;
case Script.TX_PUBKEYHASH:
addr = new Address(network.addressPubkey, s.captureOne());
addrStrs.push(addr.toString());
break;
case Script.TX_SCRIPTHASH:
addr = new Address(network.addressScript, s.captureOne());
addrStrs.push(addr.toString());
break;
case Script.TX_MULTISIG:
var chunks = s.capture();
chunks.forEach(function(chunk) {
var a = new Address(network.addressPubkey, 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
#Security Please use at your own risk.
Bitcore is still under heavy development and not quite ready for "drop-in" production use. If you find a security issue, please email security@bitcore.io.
#Contributing Bitcore needs some developer love. Please send pull requests for bug fixes, code optimization, and ideas for improvement.
#Browser support
To build bitcore full bundle for the browser:
(this is automatically executed after you run npm install
)
node browser/build.js -a
This will generate a browser/bundle.js
file which you can include
in your HTML to use bitcore in the browser.
##Example browser usage
From example/simple.html
<!DOCTYPE html>
<html>
<body>
<script src="../browser/bundle.js"></script>
<script>
var bitcore = require('bitcore');
var Address = bitcore.Address;
var a = new Address('1KerhGhLn3SYBEQwby7VyVMWf16fXQUj5d');
console.log('1KerhGhLn3SYBEQwby7VyVMWf16fXQUj5d is valid? '+a.isValid());
</script>
</body>
</html>
You can check a more complex usage example at examples/example.html
To generate a customized bitcore bundle, you can specify which submodules you want to include in it with the -s option:
node browser/build.js -s Transaction,Address
This will generate a browser/bundle.js
containing only the Transaction
and Address class, with all their dependencies.
Use this option if you are not using the whole bitcore library, to optimize
the bundle size, script loading time, and general resource usage.
Run tests in node:
mocha
Or generate tests in the browser:
grunt shell
And then open test/index.html in your browser.
To run the code coverage report:
npm run-script coverage
And then open coverage/lcov-report/index.html in your browser.
#License
Code released under the MIT license.
Copyright 2013-2014 BitPay, Inc. Bitcore is a trademark maintained by BitPay, Inc.