// FIXME: To all ye that enter here, be weary of Buffers, Arrays and Hex interchanging between the outpoints var assert = require('assert') var Address = require('./address') var BigInteger = require('bigi') var Script = require('./script') var convert = require('./convert') var crypto = require('./crypto') var ECKey = require('./eckey').ECKey var ecdsa = require('./ecdsa') var Network = require('./network') var Transaction = function (doc) { if (!(this instanceof Transaction)) { return new Transaction(doc) } this.version = 1 this.locktime = 0 this.ins = [] this.outs = [] this.defaultSequence = [255, 255, 255, 255] // 0xFFFFFFFF if (doc) { if (typeof doc == "string" || Array.isArray(doc)) { doc = Transaction.deserialize(doc) } if (doc.hash) this.hash = doc.hash; if (doc.version) this.version = doc.version; if (doc.locktime) this.locktime = doc.locktime; if (doc.ins && doc.ins.length) { doc.ins.forEach(function(input) { this.addInput(new TransactionIn(input)) }, this) } if (doc.outs && doc.outs.length) { doc.outs.forEach(function(output) { this.addOutput(new TransactionOut(output)) }, this) } this.hash = this.hash || this.getHash() } } /** * Create a new txin. * * Can be called with any of: * * - An existing TransactionIn object * - A transaction and an index * - A transaction hash and an index * - A single string argument of the form txhash:index * * Note that this method does not sign the created input. */ Transaction.prototype.addInput = function (tx, outIndex) { if (arguments[0] instanceof TransactionIn) { this.ins.push(arguments[0]) } else if (arguments[0].length > 65) { var args = arguments[0].split(':') return this.addInput(args[0], args[1]) } else { var hash = typeof tx === "string" ? tx : tx.hash hash = Array.isArray(hash) ? convert.bytesToHex(hash) : hash this.ins.push(new TransactionIn({ outpoint: { hash: hash, index: outIndex }, script: new Script(), sequence: this.defaultSequence })) } } /** * Create a new txout. * * Can be called with: * * i) An existing TransactionOut object * ii) An address object or an address and a value * iii) An address:value string * iv) Either ii), iii) with an optional network argument * * FIXME: This is a bit convoluted */ Transaction.prototype.addOutput = function (address, value, network) { if (arguments[0] instanceof TransactionOut) { this.outs.push(arguments[0]) return } if (arguments[0].indexOf(':') >= 0) { network = value var args = arguments[0].split(':') address = args[0] value = parseInt(args[1]) } network = network || Network.bitcoin if (typeof address === 'string') { address = Address.fromBase58Check(address) } this.outs.push(new TransactionOut({ value: value, script: Script.createOutputScript(address, network) })) } /** * Serialize this transaction. * * Returns the transaction as a byte array in the standard Bitcoin binary * format. This method is byte-perfect, i.e. the resulting byte array can * be hashed to get the transaction's standard Bitcoin hash. */ Transaction.prototype.serialize = function () { var buffer = [] buffer = buffer.concat(convert.numToBytes(parseInt(this.version), 4)) buffer = buffer.concat(convert.numToVarInt(this.ins.length)) this.ins.forEach(function(txin) { // Why do blockchain.info, blockexplorer.com, sx and just about everybody // else use little-endian hashes? No idea... buffer = buffer.concat(convert.hexToBytes(txin.outpoint.hash).reverse()) buffer = buffer.concat(convert.numToBytes(parseInt(txin.outpoint.index), 4)) var scriptBytes = txin.script.buffer buffer = buffer.concat(convert.numToVarInt(scriptBytes.length)) buffer = buffer.concat(scriptBytes) buffer = buffer.concat(txin.sequence) }) buffer = buffer.concat(convert.numToVarInt(this.outs.length)) this.outs.forEach(function(txout) { buffer = buffer.concat(convert.numToBytes(txout.value,8)) var scriptBytes = txout.script.buffer buffer = buffer.concat(convert.numToVarInt(scriptBytes.length)) buffer = buffer.concat(scriptBytes) }) buffer = buffer.concat(convert.numToBytes(parseInt(this.locktime), 4)) return buffer } Transaction.prototype.serializeHex = function() { return convert.bytesToHex(this.serialize()) } //var OP_CODESEPARATOR = 171 var SIGHASH_ALL = 1 var SIGHASH_NONE = 2 var SIGHASH_SINGLE = 3 var SIGHASH_ANYONECANPAY = 80 /** * Hash transaction for signing a specific input. * * Bitcoin uses a different hash for each signed transaction input. This * method copies the transaction, makes the necessary changes based on the * hashType, serializes and finally hashes the result. This hash can then be * used to sign the transaction input in question. */ Transaction.prototype.hashTransactionForSignature = function (connectedScript, inIndex, hashType) { var txTmp = this.clone() // In case concatenating two scripts ends up with two codeseparators, // or an extra one at the end, this prevents all those possible // incompatibilities. /*scriptCode = scriptCode.filter(function (val) { return val !== OP_CODESEPARATOR });*/ // Blank out other inputs' signatures txTmp.ins.forEach(function(txin) { txin.script = new Script() }) txTmp.ins[inIndex].script = connectedScript // Blank out some of the outputs if ((hashType & 0x1f) == SIGHASH_NONE) { txTmp.outs = [] // Let the others update at will txTmp.ins.forEach(function(txin, i) { if (i != inIndex) { txTmp.ins[i].sequence = 0 } }) } else if ((hashType & 0x1f) == SIGHASH_SINGLE) { // TODO: Implement } // Blank out other inputs completely, not recommended for open transactions if (hashType & SIGHASH_ANYONECANPAY) { txTmp.ins = [txTmp.ins[inIndex]] } var buffer = txTmp.serialize() buffer = buffer.concat(convert.numToBytes(parseInt(hashType), 4)) return crypto.hash256(buffer) } /** * Calculate and return the transaction's hash. * Reverses hash since blockchain.info, blockexplorer.com and others * use little-endian hashes for some stupid reason */ Transaction.prototype.getHash = function () { var buffer = this.serialize() var hash = crypto.hash256(buffer) return Array.prototype.slice.call(hash).reverse() } Transaction.prototype.clone = function () { var newTx = new Transaction() newTx.version = this.version newTx.locktime = this.locktime this.ins.forEach(function(txin) { newTx.addInput(txin.clone()) }) this.outs.forEach(function(txout) { newTx.addOutput(txout.clone()) }) return newTx } Transaction.deserialize = function(buffer) { if (typeof buffer == "string") { buffer = convert.hexToBytes(buffer) } var pos = 0 var readAsInt = function(bytes) { if (bytes === 0) return 0; pos++; return buffer[pos-1] + readAsInt(bytes-1) * 256 } var readVarInt = function() { var bytes = buffer.slice(pos, pos + 9) // maximum possible number of bytes to read var result = convert.varIntToNum(bytes) pos += result.bytes.length return result.number } var readBytes = function(bytes) { pos += bytes return buffer.slice(pos - bytes, pos) } var readVarString = function() { var size = readVarInt() return readBytes(size) } var obj = { ins: [], outs: [] } obj.version = readAsInt(4) var ins = readVarInt() var i for (i = 0; i < ins; i++) { obj.ins.push({ outpoint: { hash: convert.bytesToHex(readBytes(32).reverse()), index: readAsInt(4) }, script: new Script(readVarString()), sequence: readBytes(4) }) } var outs = readVarInt() for (i = 0; i < outs; i++) { obj.outs.push({ value: convert.bytesToNum(readBytes(8)), script: new Script(readVarString()) }) } obj.locktime = readAsInt(4) return new Transaction(obj) } /** * Signs a standard output at some index with the given key * FIXME: network support is ugly */ Transaction.prototype.sign = function(index, key, type, network) { assert(key instanceof ECKey) network = network || Network.bitcoin var address = key.pub.getAddress(network.pubKeyHash) // FIXME: Assumed prior TX was pay-to-pubkey-hash var script = Script.createOutputScript(address, network) var signature = this.signScriptSig(index, script, key, type) var scriptSig = Script.createPubKeyHashScriptSig(signature, key.pub) this.setScriptSig(index, scriptSig) } // Takes outputs of the form [{ output: 'txhash:index', address: 'address' },...] Transaction.prototype.signWithKeys = function(keys, outputs, type) { type = type || SIGHASH_ALL var addrdata = keys.map(function(key) { assert(key instanceof ECKey) return { key: key, address: key.getAddress().toString() } }) var hmap = {} outputs.forEach(function(o) { hmap[o.output] = o }) for (var i = 0; i < this.ins.length; i++) { var outpoint = this.ins[i].outpoint.hash + ':' + this.ins[i].outpoint.index var histItem = hmap[outpoint] if (!histItem) continue; var thisInputAddrdata = addrdata.filter(function(a) { return a.address == histItem.address }) if (thisInputAddrdata.length === 0) continue; this.sign(i,thisInputAddrdata[0].key) } } Transaction.prototype.signScriptSig = function(index, script, key, type) { type = type || SIGHASH_ALL assert((index >= 0), 'Invalid vin index') assert(script instanceof Script, 'Invalid Script object') assert(key instanceof ECKey, 'Invalid private key') // assert.equal(type & 0x7F, type, 'Invalid type') // TODO var hash = this.hashTransactionForSignature(script, index, type) return key.sign(hash).concat([type]) } Transaction.prototype.setScriptSig = function(index, script) { this.ins[index].script = script } Transaction.prototype.validateSig = function(index, script, pub, sig, type) { type = type || SIGHASH_ALL var hash = this.hashTransactionForSignature(script, index, type) return pub.verify(hash, sig) } Transaction.feePerKb = 20000 Transaction.prototype.estimateFee = function(feePerKb){ var uncompressedInSize = 180 var outSize = 34 var fixedPadding = 34 if(feePerKb == undefined) feePerKb = Transaction.feePerKb; var size = this.ins.length * uncompressedInSize + this.outs.length * outSize + fixedPadding return feePerKb * Math.ceil(size / 1000) } var TransactionIn = function (data) { if (typeof data == "string") { this.outpoint = { hash: data.split(':')[0], index: data.split(':')[1] } } else if (data.outpoint) { this.outpoint = data.outpoint } else { this.outpoint = { hash: data.hash, index: data.index } } if (data.scriptSig) { this.script = Script.fromScriptSig(data.scriptSig) } else if (data.script) { this.script = data.script } else { this.script = new Script(data.script) } this.sequence = data.sequence || this.defaultSequence } TransactionIn.prototype.clone = function () { return new TransactionIn({ outpoint: { hash: this.outpoint.hash, index: this.outpoint.index }, script: this.script.clone(), sequence: this.sequence }) } // FIXME: Support for alternate networks var TransactionOut = function (data) { this.script = data.script instanceof Script ? data.script.clone() : Array.isArray(data.script) ? new Script(data.script) : typeof data.script == "string" ? new Script(convert.hexToBytes(data.script)) : data.scriptPubKey ? Script.fromScriptSig(data.scriptPubKey) : data.address ? Script.createOutputScript(data.address) : new Script() if (this.script.buffer.length > 0) this.address = this.script.getToAddress(); this.value = Array.isArray(data.value) ? convert.bytesToNum(data.value) : "string" == typeof data.value ? parseInt(data.value) : data.value instanceof BigInteger ? parseInt(data.value.toString()) : data.value } TransactionOut.prototype.clone = function() { var newTxout = new TransactionOut({ script: this.script.clone(), value: this.value }) return newTxout } TransactionOut.prototype.scriptPubKey = function() { return convert.bytesToHex(this.script.buffer) } module.exports = { Transaction: Transaction, TransactionIn: TransactionIn, TransactionOut: TransactionOut }