'use strict';
var Address = require('../address');
var BufferReader = require('../encoding/bufferreader');
var BufferWriter = require('../encoding/bufferwriter');
var Hash = require('../crypto/hash');
var Opcode = require('../opcode');
var PublicKey = require('../publickey');
var Signature = require('../crypto/signature');
var Networks = require('../networks');
var $ = require('../util/preconditions');
var _ = require('lodash');
var errors = require('../errors');
var buffer = require('buffer');
var BufferUtil = require('../util/buffer');
var JSUtil = require('../util/js');
/**
* A bitcoin transaction script. Each transaction's inputs and outputs
* has a script that is evaluated to validate it's spending.
*
* See https://en.bitcoin.it/wiki/Script
*
* @constructor
* @param {Object|string|Buffer} [from] optional data to populate script
*/
var Script = function Script(from) {
if (!(this instanceof Script)) {
return new Script(from);
}
this.chunks = [];
if (BufferUtil.isBuffer(from)) {
return Script.fromBuffer(from);
} else if (from instanceof Address) {
return Script.fromAddress(from);
} else if (from instanceof Script) {
return Script.fromBuffer(from.toBuffer());
} else if (typeof from === 'string') {
return Script.fromString(from);
} else if (typeof from !== 'undefined') {
this.set(from);
}
};
Script.prototype.set = function(obj) {
this.chunks = obj.chunks || this.chunks;
return this;
};
Script.fromBuffer = function(buffer) {
var script = new Script();
script.chunks = [];
var br = new BufferReader(buffer);
while (!br.eof()) {
var opcodenum = br.readUInt8();
var len, buf;
if (opcodenum > 0 && opcodenum < Opcode.OP_PUSHDATA1) {
len = opcodenum;
script.chunks.push({
buf: br.read(len),
len: len,
opcodenum: opcodenum
});
} else if (opcodenum === Opcode.OP_PUSHDATA1) {
len = br.readUInt8();
buf = br.read(len);
script.chunks.push({
buf: buf,
len: len,
opcodenum: opcodenum
});
} else if (opcodenum === Opcode.OP_PUSHDATA2) {
len = br.readUInt16LE();
buf = br.read(len);
script.chunks.push({
buf: buf,
len: len,
opcodenum: opcodenum
});
} else if (opcodenum === Opcode.OP_PUSHDATA4) {
len = br.readUInt32LE();
buf = br.read(len);
script.chunks.push({
buf: buf,
len: len,
opcodenum: opcodenum
});
} else {
script.chunks.push({
opcodenum: opcodenum
});
}
}
return script;
};
Script.prototype.toBuffer = function() {
var bw = new BufferWriter();
for (var i = 0; i < this.chunks.length; i++) {
var chunk = this.chunks[i];
var opcodenum = chunk.opcodenum;
bw.writeUInt8(chunk.opcodenum);
if (chunk.buf) {
if (opcodenum < Opcode.OP_PUSHDATA1) {
bw.write(chunk.buf);
} else if (opcodenum === Opcode.OP_PUSHDATA1) {
bw.writeUInt8(chunk.len);
bw.write(chunk.buf);
} else if (opcodenum === Opcode.OP_PUSHDATA2) {
bw.writeUInt16LE(chunk.len);
bw.write(chunk.buf);
} else if (opcodenum === Opcode.OP_PUSHDATA4) {
bw.writeUInt32LE(chunk.len);
bw.write(chunk.buf);
}
}
}
return bw.concat();
};
Script.fromString = function(str) {
if (JSUtil.isHexa(str) || str.length === 0) {
return new Script(new buffer.Buffer(str, 'hex'));
}
var script = new Script();
script.chunks = [];
var tokens = str.split(' ');
var i = 0;
while (i < tokens.length) {
var token = tokens[i];
var opcode = Opcode(token);
var opcodenum = opcode.toNumber();
if (_.isUndefined(opcodenum)) {
opcodenum = parseInt(token);
if (opcodenum > 0 && opcodenum < Opcode.OP_PUSHDATA1) {
script.chunks.push({
buf: new Buffer(tokens[i + 1].slice(2), 'hex'),
len: opcodenum,
opcodenum: opcodenum
});
i = i + 2;
} else {
throw new Error('Invalid script: ' + JSON.stringify(str));
}
} else if (opcodenum === Opcode.OP_PUSHDATA1 ||
opcodenum === Opcode.OP_PUSHDATA2 ||
opcodenum === Opcode.OP_PUSHDATA4) {
if (tokens[i + 2].slice(0, 2) !== '0x') {
throw new Error('Pushdata data must start with 0x');
}
script.chunks.push({
buf: new Buffer(tokens[i + 2].slice(2), 'hex'),
len: parseInt(tokens[i + 1]),
opcodenum: opcodenum
});
i = i + 3;
} else {
script.chunks.push({
opcodenum: opcodenum
});
i = i + 1;
}
}
return script;
};
Script.prototype.toString = function() {
var str = '';
for (var i = 0; i < this.chunks.length; i++) {
var chunk = this.chunks[i];
var opcodenum = chunk.opcodenum;
if (!chunk.buf) {
if (typeof Opcode.reverseMap[opcodenum] !== 'undefined') {
str = str + ' ' + Opcode(opcodenum).toString();
} else {
var numstr = opcodenum.toString(16);
if (numstr.length % 2 !== 0) {
numstr = '0' + numstr;
}
str = str + ' ' + '0x' + numstr;
}
} else {
if (opcodenum === Opcode.OP_PUSHDATA1 ||
opcodenum === Opcode.OP_PUSHDATA2 ||
opcodenum === Opcode.OP_PUSHDATA4) {
str = str + ' ' + Opcode(opcodenum).toString();
}
str = str + ' ' + chunk.len;
if (chunk.len > 0) {
str = str + ' ' + '0x' + chunk.buf.toString('hex');
}
}
}
return str.substr(1);
};
Script.prototype.inspect = function() {
return '<Script: ' + this.toString() + '>';
};
// script classification methods
/**
* @returns {boolean} if this is a pay to pubkey hash output script
*/
Script.prototype.isPublicKeyHashOut = function() {
return !!(this.chunks.length === 5 &&
this.chunks[0].opcodenum === Opcode.OP_DUP &&
this.chunks[1].opcodenum === Opcode.OP_HASH160 &&
this.chunks[2].buf &&
this.chunks[3].opcodenum === Opcode.OP_EQUALVERIFY &&
this.chunks[4].opcodenum === Opcode.OP_CHECKSIG);
};
/**
* @returns {boolean} if this is a pay to public key hash input script
*/
Script.prototype.isPublicKeyHashIn = function() {
return this.chunks.length === 2 &&
this.chunks[0].buf &&
this.chunks[0].buf.length >= 0x47 &&
this.chunks[0].buf.length <= 0x49 &&
PublicKey.isValid(this.chunks[1].buf);
};
Script.prototype.getPublicKeyHash = function() {
$.checkState(this.isPublicKeyHashOut(), 'Can\'t retrieve PublicKeyHash from a non-PKH output');
return this.chunks[2].buf;
};
/**
* @returns {boolean} if this is a public key output script
*/
Script.prototype.isPublicKeyOut = function() {
return this.chunks.length === 2 &&
BufferUtil.isBuffer(this.chunks[0].buf) &&
PublicKey.isValid(this.chunks[0].buf) &&
this.chunks[1].opcodenum === Opcode.OP_CHECKSIG;
};
/**
* @returns {boolean} if this is a pay to public key input script
*/
Script.prototype.isPublicKeyIn = function() {
return this.chunks.length === 1 &&
BufferUtil.isBuffer(this.chunks[0].buf) &&
this.chunks[0].buf.length === 0x47;
};
/**
* @returns {boolean} if this is a p2sh output script
*/
Script.prototype.isScriptHashOut = function() {
var buf = this.toBuffer();
return (buf.length === 23 &&
buf[0] === Opcode.OP_HASH160 &&
buf[1] === 0x14 &&
buf[buf.length - 1] === Opcode.OP_EQUAL);
};
/**
* @returns {boolean} if this is a p2sh input script
* Note that these are frequently indistinguishable from pubkeyhashin
*/
Script.prototype.isScriptHashIn = function() {
if (this.chunks.length === 0) {
return false;
}
var chunk = this.chunks[this.chunks.length - 1];
if (!chunk) {
return false;
}
var scriptBuf = chunk.buf;
if (!scriptBuf) {
return false;
}
var redeemScript = new Script(scriptBuf);
var type = redeemScript.classify();
return type !== Script.types.UNKNOWN;
};
/**
* @returns {boolean} if this is a mutlsig output script
*/
Script.prototype.isMultisigOut = function() {
return (this.chunks.length > 3 &&
Opcode.isSmallIntOp(this.chunks[0].opcodenum) &&
this.chunks.slice(1, this.chunks.length - 2).every(function(obj) {
return obj.buf && BufferUtil.isBuffer(obj.buf);
}) &&
Opcode.isSmallIntOp(this.chunks[this.chunks.length - 2].opcodenum) &&
this.chunks[this.chunks.length - 1].opcodenum === Opcode.OP_CHECKMULTISIG);
};
/**
* @returns {boolean} if this is a multisig input script
*/
Script.prototype.isMultisigIn = function() {
return this.chunks.length >= 2 &&
this.chunks[0].opcodenum === 0 &&
this.chunks.slice(1, this.chunks.length).every(function(obj) {
return obj.buf &&
BufferUtil.isBuffer(obj.buf) &&
obj.buf.length === 0x47;
});
};
/**
* @returns {boolean} if this is an OP_RETURN data script
*/
Script.prototype.isDataOut = function() {
return this.chunks.length >= 1 &&
this.chunks[0].opcodenum === Opcode.OP_RETURN &&
(this.chunks.length === 1 ||
(this.chunks.length === 2 &&
this.chunks[1].buf &&
this.chunks[1].buf.length <= 40 &&
this.chunks[1].length === this.chunks.len));
};
/**
* Retrieve the associated data for this script.
* In the case of a pay to public key hash or P2SH, return the hash.
* In the case of a standard OP_RETURN, return the data
* @returns {Buffer}
*/
Script.prototype.getData = function() {
if (this.isDataOut() || this.isScriptHashOut()) {
return new Buffer(this.chunks[1].buf);
}
if (this.isPublicKeyHashOut()) {
return new Buffer(this.chunks[2].buf);
}
throw new Error('Unrecognized script type to get data from');
};
/**
* @returns {boolean} if the script is only composed of data pushing
* opcodes or small int opcodes (OP_0, OP_1, ..., OP_16)
*/
Script.prototype.isPushOnly = function() {
return _.every(this.chunks, function(chunk) {
return chunk.opcodenum <= Opcode.OP_16;
});
};
Script.types = {};
Script.types.UNKNOWN = 'Unknown';
Script.types.PUBKEY_OUT = 'Pay to public key';
Script.types.PUBKEY_IN = 'Spend from public key';
Script.types.PUBKEYHASH_OUT = 'Pay to public key hash';
Script.types.PUBKEYHASH_IN = 'Spend from public key hash';
Script.types.SCRIPTHASH_OUT = 'Pay to script hash';
Script.types.SCRIPTHASH_IN = 'Spend from script hash';
Script.types.MULTISIG_OUT = 'Pay to multisig';
Script.types.MULTISIG_IN = 'Spend from multisig';
Script.types.DATA_OUT = 'Data push';
Script.identifiers = {};
Script.identifiers.PUBKEY_OUT = Script.prototype.isPublicKeyOut;
Script.identifiers.PUBKEY_IN = Script.prototype.isPublicKeyIn;
Script.identifiers.PUBKEYHASH_OUT = Script.prototype.isPublicKeyHashOut;
Script.identifiers.PUBKEYHASH_IN = Script.prototype.isPublicKeyHashIn;
Script.identifiers.MULTISIG_OUT = Script.prototype.isMultisigOut;
Script.identifiers.MULTISIG_IN = Script.prototype.isMultisigIn;
Script.identifiers.SCRIPTHASH_OUT = Script.prototype.isScriptHashOut;
Script.identifiers.SCRIPTHASH_IN = Script.prototype.isScriptHashIn;
Script.identifiers.DATA_OUT = Script.prototype.isDataOut;
/**
* @returns {object} The Script type if it is a known form,
* or Script.UNKNOWN if it isn't
*/
Script.prototype.classify = function() {
for (var type in Script.identifiers) {
if (Script.identifiers[type].bind(this)()) {
return Script.types[type];
}
}
return Script.types.UNKNOWN;
};
/**
* @returns {boolean} if script is one of the known types
*/
Script.prototype.isStandard = function() {
// TODO: Add BIP62 compliance
return this.classify() !== Script.types.UNKNOWN;
};
// Script construction methods
/**
* Adds a script element at the start of the script.
* @param {*} obj a string, number, Opcode, Bufer, or object to add
* @returns {Script} this script instance
*/
Script.prototype.prepend = function(obj) {
this._addByType(obj, true);
return this;
};
/**
* Compares a script with another script
*/
Script.prototype.equals = function(script) {
$.checkState(script instanceof Script, 'Must provide another script');
if (this.chunks.length !== script.chunks.length) {
return false;
}
var i;
for (i = 0; i < this.chunks.length; i++) {
if (BufferUtil.isBuffer(this.chunks[i]) && !BufferUtil.isBuffer(script.chunks[i])) {
return false;
} else if (this.chunks[i] instanceof Opcode && !(script.chunks[i] instanceof Opcode)) {
return false;
}
if (BufferUtil.isBuffer(this.chunks[i]) && !BufferUtil.equals(this.chunks[i], script.chunks[i])) {
return false;
} else if (this.chunks[i].num !== script.chunks[i].num) {
return false;
}
}
return true;
};
/**
* Adds a script element to the end of the script.
*
* @param {*} obj a string, number, Opcode, Bufer, or object to add
* @returns {Script} this script instance
*
*/
Script.prototype.add = function(obj) {
this._addByType(obj, false);
return this;
};
Script.prototype._addByType = function(obj, prepend) {
if (typeof obj === 'string') {
this._addOpcode(obj, prepend);
} else if (typeof obj === 'number') {
this._addOpcode(obj, prepend);
} else if (obj instanceof Opcode) {
this._addOpcode(obj, prepend);
} else if (BufferUtil.isBuffer(obj)) {
this._addBuffer(obj, prepend);
} else if (typeof obj === 'object') {
this._insertAtPosition(obj, prepend);
} else if (obj instanceof Script) {
this.chunks = this.chunks.concat(obj.chunks);
} else {
throw new Error('Invalid script chunk');
}
};
Script.prototype._insertAtPosition = function(op, prepend) {
if (prepend) {
this.chunks.unshift(op);
} else {
this.chunks.push(op);
}
};
Script.prototype._addOpcode = function(opcode, prepend) {
var op;
if (typeof opcode === 'number') {
op = opcode;
} else if (opcode instanceof Opcode) {
op = opcode.toNumber();
} else {
op = Opcode(opcode).toNumber();
}
this._insertAtPosition({
opcodenum: op
}, prepend);
return this;
};
Script.prototype._addBuffer = function(buf, prepend) {
var opcodenum;
var len = buf.length;
if (len >= 0 && len < Opcode.OP_PUSHDATA1) {
opcodenum = len;
} else if (len < Math.pow(2, 8)) {
opcodenum = Opcode.OP_PUSHDATA1;
} else if (len < Math.pow(2, 16)) {
opcodenum = Opcode.OP_PUSHDATA2;
} else if (len < Math.pow(2, 32)) {
opcodenum = Opcode.OP_PUSHDATA4;
} else {
throw new Error('You can\'t push that much data');
}
this._insertAtPosition({
buf: buf,
len: len,
opcodenum: opcodenum
}, prepend);
return this;
};
Script.prototype.removeCodeseparators = function() {
var chunks = [];
for (var i = 0; i < this.chunks.length; i++) {
if (this.chunks[i].opcodenum !== Opcode.OP_CODESEPARATOR) {
chunks.push(this.chunks[i]);
}
}
this.chunks = chunks;
return this;
};
// high level script builder methods
/**
* @returns {Script} a new Multisig output script for given public keys,
* requiring m of those public keys to spend
* @param {PublicKey[]} publicKeys - list of all public keys controlling the output
* @param {number} threshold - amount of required signatures to spend the output
* @param {Object} [opts] - Several options:
* - noSorting: defaults to false, if true, don't sort the given
* public keys before creating the script
*/
Script.buildMultisigOut = function(publicKeys, threshold, opts) {
opts = opts || {};
var script = new Script();
script.add(Opcode.smallInt(threshold));
publicKeys = _.map(publicKeys, PublicKey);
var sorted = publicKeys;
if (!opts.noSorting) {
sorted = _.sortBy(publicKeys, function(publicKey) {
return publicKey.toString('hex');
});
}
for (var i = 0; i < sorted.length; i++) {
var publicKey = sorted[i];
script.add(publicKey.toBuffer());
}
script.add(Opcode.smallInt(publicKeys.length));
script.add(Opcode.OP_CHECKMULTISIG);
return script;
};
/**
* A new P2SH Multisig input script for the given public keys, requiring m of those public keys to spend
*
* @param {PublicKey[]} pubkeys list of all public keys controlling the output
* @param {number} threshold amount of required signatures to spend the output
* @param {Array} signatures signatures to append to the script
* @param {Object=} opts
* @param {boolean=} opts.noSorting don't sort the given public keys before creating the script (false by default)
* @param {Script=} opts.cachedMultisig don't recalculate the redeemScript
*
* @returns {Script}
*/
Script.buildP2SHMultisigIn = function(pubkeys, threshold, signatures, opts) {
$.checkArgument(_.isArray(pubkeys));
$.checkArgument(_.isNumber(threshold));
$.checkArgument(_.isArray(signatures));
opts = opts || {};
var s = new Script();
s.add(Opcode.OP_0);
_.each(signatures, function(signature) {
s.add(signature);
});
s.add((opts.cachedMultisig || Script.buildMultisigOut(pubkeys, threshold, opts)).toBuffer());
return s;
};
/**
* @returns {Script} a new pay to public key hash output for the given
* address or public key
* @param {(Address|PublicKey)} to - destination address or public key
*/
Script.buildPublicKeyHashOut = function(to) {
$.checkArgument(!_.isUndefined(to));
$.checkArgument(to instanceof PublicKey || to instanceof Address || _.isString(to));
if (to instanceof PublicKey) {
to = to.toAddress();
} else if (_.isString(to)) {
to = new Address(to);
}
var s = new Script();
s.add(Opcode.OP_DUP)
.add(Opcode.OP_HASH160)
.add(to.hashBuffer)
.add(Opcode.OP_EQUALVERIFY)
.add(Opcode.OP_CHECKSIG);
s._network = to.network;
return s;
};
/**
* @returns {Script} a new pay to public key output for the given
* public key
*/
Script.buildPublicKeyOut = function(pubkey) {
$.checkArgument(pubkey instanceof PublicKey);
var s = new Script();
s.add(pubkey.toBuffer())
.add(Opcode.OP_CHECKSIG);
return s;
};
/**
* @returns {Script} a new OP_RETURN script with data
* @param {(string|Buffer)} to - the data to embed in the output
*/
Script.buildDataOut = function(data) {
$.checkArgument(_.isUndefined(data) || _.isString(data) || BufferUtil.isBuffer(data));
if (typeof data === 'string') {
data = new Buffer(data);
}
var s = new Script();
s.add(Opcode.OP_RETURN);
if (!_.isUndefined(data)) {
s.add(data);
}
return s;
};
/**
* @param {Script|Address} script - the redeemScript for the new p2sh output.
* It can also be a p2sh address
* @returns {Script} new pay to script hash script for given script
*/
Script.buildScriptHashOut = function(script) {
$.checkArgument(script instanceof Script ||
(script instanceof Address && script.isPayToScriptHash()));
var s = new Script();
s.add(Opcode.OP_HASH160)
.add(script instanceof Address ? script.hashBuffer : Hash.sha256ripemd160(script.toBuffer()))
.add(Opcode.OP_EQUAL);
s._network = script._network || script.network;
return s;
};
/**
* Builds a scriptSig (a script for an input) that signs a public key hash
* output script.
*
* @param {Buffer|string|PublicKey} publicKey
* @param {Signature|Buffer} signature - a Signature object, or the signature in DER cannonical encoding
* @param {number=} sigtype - the type of the signature (defaults to SIGHASH_ALL)
*/
Script.buildPublicKeyHashIn = function(publicKey, signature, sigtype) {
$.checkArgument(signature instanceof Signature || BufferUtil.isBuffer(signature));
$.checkArgument(_.isUndefined(sigtype) || _.isNumber(sigtype));
if (signature instanceof Signature) {
signature = signature.toBuffer();
}
var script = new Script()
.add(BufferUtil.concat([
signature,
BufferUtil.integerAsSingleByteBuffer(sigtype || Signature.SIGHASH_ALL)
]))
.add(new PublicKey(publicKey).toBuffer());
return script;
};
/**
* @returns {Script} an empty script
*/
Script.empty = function() {
return new Script();
};
/**
* @returns {Script} a new pay to script hash script that pays to this script
*/
Script.prototype.toScriptHashOut = function() {
return Script.buildScriptHashOut(this);
};
/**
* @return {Script} a script built from the address
*/
Script.fromAddress = function(address) {
address = Address(address);
if (address.isPayToScriptHash()) {
return Script.buildScriptHashOut(address);
} else if (address.isPayToPublicKeyHash()) {
return Script.buildPublicKeyHashOut(address);
}
throw new errors.Script.UnrecognizedAddress(address);
};
/**
* @param {Network} [network]
* @return {Address} the associated address for this script
*/
Script.prototype.toAddress = function(network) {
network = Networks.get(network) || this._network || Networks.defaultNetwork;
if (this.isPublicKeyHashOut() || this.isScriptHashOut()) {
return new Address(this, network);
}
throw new Error('The script type needs to be PayToPublicKeyHash or PayToScriptHash');
};
/**
* Analagous to bitcoind's FindAndDelete. Find and delete equivalent chunks,
* typically used with push data chunks. Note that this will find and delete
* not just the same data, but the same data with the same push data op as
* produced by default. i.e., if a pushdata in a tx does not use the minimal
* pushdata op, then when you try to remove the data it is pushing, it will not
* be removed, because they do not use the same pushdata op.
*/
Script.prototype.findAndDelete = function(script) {
var buf = script.toBuffer();
var hex = buf.toString('hex');
for (var i = 0; i < this.chunks.length; i++) {
var script2 = Script({
chunks: [this.chunks[i]]
});
var buf2 = script2.toBuffer();
var hex2 = buf2.toString('hex');
if (hex === hex2) {
this.chunks.splice(i, 1);
}
}
return this;
};
/**
* Comes from bitcoind's script interpreter CheckMinimalPush function
* @returns {boolean} if the chunk {i} is the smallest way to push that particular data.
*/
Script.prototype.checkMinimalPush = function(i) {
var chunk = this.chunks[i];
var buf = chunk.buf;
var opcodenum = chunk.opcodenum;
if (!buf) {
return true;
}
if (buf.length === 0) {
// Could have used OP_0.
return opcodenum === Opcode.OP_0;
} else if (buf.length === 1 && buf[0] >= 1 && buf[0] <= 16) {
// Could have used OP_1 .. OP_16.
return opcodenum === Opcode.OP_1 + (buf[0] - 1);
} else if (buf.length === 1 && buf[0] === 0x81) {
// Could have used OP_1NEGATE
return opcodenum === Opcode.OP_1NEGATE;
} else if (buf.length <= 75) {
// Could have used a direct push (opcode indicating number of bytes pushed + those bytes).
return opcodenum === buf.length;
} else if (buf.length <= 255) {
// Could have used OP_PUSHDATA.
return opcodenum === Opcode.OP_PUSHDATA1;
} else if (buf.length <= 65535) {
// Could have used OP_PUSHDATA2.
return opcodenum === Opcode.OP_PUSHDATA2;
}
return true;
};
module.exports = Script;