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fcoin/lib/bcoin/script.js
Christopher Jeffrey 997f0acbb0 more refactoring.
2016-02-16 16:13:34 -08:00

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/**
* script.js - script interpreter for bcoin
* Copyright (c) 2014-2015, Fedor Indutny (MIT License)
* https://github.com/indutny/bcoin
*/
var bcoin = require('../bcoin');
var bn = require('bn.js');
var constants = bcoin.protocol.constants;
var utils = bcoin.utils;
var assert = bcoin.utils.assert;
var script = exports;
/**
* Script
*/
script.decode = function decode(s) {
if (!s)
return [];
var opcodes = [];
var i = 0;
var b, opcode, len;
while (i < s.length) {
b = s[i++];
// Next `b` bytes should be pushed to stack
if (b >= 0x01 && b <= 0x4b) {
opcodes.push(s.slice(i, i + b));
i += b;
utils.hidden(opcodes[opcodes.length - 1], 'pushdata', {
opcode: null,
len: b
});
continue;
}
// OP_0, OP_FALSE
// Special case: this is an empty array
// because it can be seen as an empty pushdata.
if (b === 0x00) {
opcodes.push([]);
continue;
}
// OP_1, OP_TRUE, OP_2-OP_16
// Special case: these get to be number
// literals. Note: 1negate is not included.
if (b >= 0x51 && b <= 0x60) {
opcodes.push(b - 0x50);
continue;
}
opcode = constants.opcodesByVal[b];
if (i >= s.length) {
opcodes.push(opcode || b);
continue;
}
if (opcode === 'pushdata1') {
len = s[i];
i += 1;
opcodes.push(s.slice(i, i + len));
i += len;
utils.hidden(opcodes[opcodes.length - 1], 'pushdata', {
opcode: opcode,
len: len
});
} else if (opcode === 'pushdata2') {
len = utils.readU16(s, i);
i += 2;
opcodes.push(s.slice(i, i + len));
i += len;
utils.hidden(opcodes[opcodes.length - 1], 'pushdata', {
opcode: opcode,
len: len
});
} else if (opcode === 'pushdata4') {
len = utils.readU32(s, i);
i += 4;
opcodes.push(s.slice(i, i + len));
i += len;
utils.hidden(opcodes[opcodes.length - 1], 'pushdata', {
opcode: opcode,
len: len
});
} else {
opcodes.push(opcode || b);
}
}
utils.hidden(opcodes, '_raw', s);
return opcodes;
};
script.encode = function encode(s) {
if (!s)
return [];
var opcodes = constants.opcodes;
var res = [];
var i = 0;
var instr;
for (i = 0; i < s.length; i++) {
instr = s[i];
// Push value to stack
if (Array.isArray(instr)) {
// Check for nonstandard pushdatas that
// may have been decoded from before.
if (instr.pushdata) {
if (instr.pushdata.opcode === null) {
res = res.concat(instr.pushdata.len, instr);
} else if (instr.pushdata.opcode === 'pushdata1') {
res = res.concat(opcodes.pushdata1, instr.pushdata.len, instr);
} else if (instr.pushdata.opcode === 'pushdata2') {
res.push(opcodes.pushdata2);
utils.writeU16(res, instr.pushdata.len, res.length);
res = res.concat(instr);
} else if (instr.pushdata.opcode === 'pushdata4') {
res.push(opcodes.pushdata4);
utils.writeU32(res, instr.pushdata.len, res.length);
res = res.concat(instr);
}
continue;
}
if (instr.length === 0) {
res.push(opcodes['0']);
} else if (1 <= instr.length && instr.length <= 0x4b) {
res = res.concat(instr.length, instr);
} else if (instr.length <= 0xff) {
res = res.concat(opcodes.pushdata1, instr.length, instr);
} else if (instr.length <= 0xffff) {
res.push(opcodes.pushdata2);
utils.writeU16(res, instr.length, res.length);
res = res.concat(instr);
} else {
res.push(opcodes.pushdata4);
utils.writeU32(res, instr.length, res.length);
res = res.concat(instr);
}
continue;
}
res.push(opcodes[instr] || instr);
}
return res;
};
script.normalize = function normalize(s) {
var i, op;
// Remove OP_ prefixes and lowercase
for (i = 0; i < s.length; i++) {
op = s[i];
if (typeof op === 'string') {
op = op.toLowerCase();
if (op.indexOf('op_') === 0)
op = op.slice(3);
}
s[i] = op;
}
// Convert OP_0 to array, convert OP_1-OP_16
// to number literals, convert -1 to OP_1NEGATE.
// Convert hex strings to arrays.
for (i = 0; i < s.length; i++) {
op = s[i];
if (op === '-1' || op === -1)
op = '1negate';
else if (op === '0' || op === 0 || op === 'false')
op = [];
else if (op === 'true')
op = 1;
else if (+op >= 1 && +op <= 16)
op = +op;
if (typeof op === 'string' && constants.opcodes[op] == null) {
if (op[0] === '[')
op = op.slice(1, -1);
op = utils.toArray(op, 'hex');
}
s[i] = op;
}
return s;
};
script.verify = function verify(input, output, tx, i, flags) {
var copy, res, redeem;
var stack = [];
if (flags == null)
flags = constants.flags.STANDARD_VERIFY_FLAGS;
if (flags & constants.flags.VERIFY_SIGPUSHONLY) {
if (!script.isPushOnly(input))
return false;
}
// Execute the input script
script.execute(input, stack, tx, i, flags);
// Copy the stack for P2SH
if (flags & constants.flags.VERIFY_P2SH)
copy = stack.slice();
// Execute the previous output script
res = script.execute(output, stack, tx, i, flags);
// Verify the script did not fail as well as the stack values
if (!res || stack.length === 0 || !script.bool(stack.pop()))
return false;
// If the script is P2SH, execute the real output script
if ((flags & constants.flags.VERIFY_P2SH) && script.isScripthash(output)) {
// P2SH can only have push ops in the scriptSig
if (!script.isPushOnly(input))
return false;
// Reset the stack
stack = copy;
// Stack should not be empty at this point
if (stack.length === 0)
return false;
// Grab the real redeem script
redeem = stack.pop();
if (!Array.isArray(redeem))
return false;
redeem = script.decode(redeem);
// Execute the redeem script
res = script.execute(redeem, stack, tx, i, flags);
// Verify the script did not fail as well as the stack values
if (!res || stack.length === 0 || !script.bool(stack.pop()))
return false;
}
// Ensure there is nothing left on the stack
if (flags & constants.flags.VERIFY_CLEANSTACK) {
if (stack.length !== 0)
return false;
}
return true;
};
script.getSubscript = function getSubscript(s, lastSep) {
var i, res;
if (!s)
return [];
if (lastSep == null)
lastSep = -1;
assert(lastSep <= 0 || s[lastSep] === 'codeseparator');
res = [];
for (i = lastSep + 1; i < s.length; i++) {
if (s[i] !== 'codeseparator')
res.push(s[i]);
}
return res;
};
script.concat = function concat(scripts) {
var s = [];
var i;
s = s.concat(scripts[0]);
for (i = 1; i < scripts.length; i++) {
s.push('codeseparator');
s = s.concat(scripts[i]);
}
return s;
};
script.checksig = function checksig(msg, sig, key) {
if (key.getPublic)
key = key.getPublic();
if (!utils.isBuffer(sig))
return false;
if (sig.length === 0)
return false;
sig = sig.slice(0, -1);
// Use a try catch in case there are
// any uncaught errors for bad inputs in verify().
try {
return bcoin.ecdsa.verify(msg, sig, key);
} catch (e) {
return false;
}
};
script.sign = function sign(msg, key, type) {
var half = bcoin.ecdsa.n.ushrn(1);
var sig = bcoin.ecdsa.sign(msg, key.priv);
// Elliptic shouldn't be generating
// negative S values.
assert(sig.s.cmpn(0) > 0);
// If S value is bigger than half of the
// order of the curve, it's too damn big.
// Subtract from the `n` order to make
// it smaller.
if (sig.s.cmp(half) > 0)
sig.s = bcoin.ecdsa.n.sub(sig.s);
// Convert to DER array
sig = sig.toDER();
// Add the sighash type as a single byte
// to the signature.
sig = sig.concat(type);
return sig;
};
script._next = function _next(to, s, pc) {
var depth = 0;
var o;
while (s[pc]) {
o = s[pc];
if (o === 'if' || o === 'notif')
depth++;
else if (o === 'else')
depth--;
else if (o === 'endif')
depth--;
if (depth < 0)
break;
if (depth === 0 && o === to)
return pc;
if (o === 'else')
depth++;
pc++;
}
return -1;
};
script.execute = function execute(data, stack, tx, index, flags, recurse) {
var s = data.slice();
if (flags == null)
flags = constants.flags.STANDARD_VERIFY_FLAGS;
if (s.length > constants.script.maxOps)
return false;
var lastSep = -1;
var pc = 0;
var o, val;
var if_, else_, endif;
var v1, v2, v3, v4;
var n, n1, n2, n3;
var res;
var key, sig, type, subscript, hash;
var keys, i, j, m;
var succ;
var locktime, threshold;
var evalScript;
stack.alt = stack.alt || [];
for (pc = 0; pc < s.length; pc++) {
o = s[pc];
if (Array.isArray(o)) {
if (o.length > constants.script.maxPush)
return false;
if (!script.checkPush(o, flags))
return false;
stack.push(o);
continue;
}
if (o >= 1 && o <= 16) {
stack.push([o]);
continue;
}
switch (o) {
case 'nop':
case 'nop3':
case 'nop4':
case 'nop5':
case 'nop6':
case 'nop7':
case 'nop8':
case 'nop9':
case 'nop10': {
if (flags & constants.flags.VERIFY_DISCOURAGE_UPGRADABLE_NOPS)
return false;
break;
}
case '1negate': {
stack.push([-1]);
break;
}
case 'if':
case 'notif': {
if (stack.length < 1)
return false;
val = script.bool(stack.pop());
if (o === 'notif')
val = !val;
if_ = pc;
else_ = script._next('else', s, pc);
endif = script._next('endif', s, pc);
// Splice out the statement blocks we don't need
if (val) {
if (endif === -1)
return false;
if (else_ === -1) {
s.splice(endif, 1);
s.splice(if_, 1);
} else {
s.splice(else_, (endif - else_) + 1);
s.splice(if_, 1);
}
} else {
if (endif === -1)
return false;
if (else_ === -1) {
s.splice(if_, (endif - if_) + 1);
} else {
s.splice(endif, 1);
s.splice(if_, (else_ - if_) + 1);
}
}
// Subtract one since we removed the if/notif opcode
pc--;
break;
}
case 'else': {
return false;
}
case 'endif': {
return false;
}
case 'verify': {
if (stack.length === 0)
return false;
if (!script.bool(stack.pop()))
return false;
break;
}
case 'return': {
return false;
}
case 'toaltstack': {
if (stack.length === 0)
return false;
stack.alt.push(stack.pop());
break;
}
case 'fromaltstack': {
if (stack.alt.length === 0)
return false;
stack.push(stack.alt.pop());
break;
}
case 'ifdup': {
if (stack.length === 0)
return false;
if (script.bool(stack[stack.length - 1]))
stack.push(script.array(stack[stack.length - 1]));
break;
}
case 'depth': {
stack.push(script.array(stack.length));
break;
}
case 'drop': {
if (stack.length === 0)
return false;
stack.pop();
break;
}
case 'dup': {
if (stack.length === 0)
return false;
stack.push(stack[stack.length - 1]);
break;
}
case 'nip': {
if (stack.length < 2)
return false;
stack.splice(stack.length - 2, 1);
break;
}
case 'over': {
if (stack.length < 2)
return false;
stack.push(stack[stack.length - 2]);
break;
}
case 'pick':
case 'roll': {
if (stack.length < 2)
return false;
val = stack.pop();
if (val.length > 6)
return false;
n = script.num(val, true);
if (n < 0 || n >= stack.length)
return false;
val = stack[-n - 1];
if (o === 'roll')
stack.splice(stack.length - n - 1, 1);
stack.push(val);
break;
}
case 'rot': {
if (stack.length < 3)
return false;
v3 = stack[stack.length - 3];
v2 = stack[stack.length - 2];
v1 = stack[stack.length - 1];
stack[stack.length - 3] = v2;
stack[stack.length - 2] = v3;
v2 = stack[stack.length - 2];
stack[stack.length - 2] = v1;
stack[stack.length - 1] = v2;
break;
}
case 'swap': {
if (stack.length < 2)
return false;
v1 = stack[stack.length - 2];
v2 = stack[stack.length - 1];
stack[stack.length - 2] = v2;
stack[stack.length - 1] = v1;
break;
}
case 'tuck': {
if (stack.length < 2)
return false;
stack.splice(stack.length - 2, 0, stack[stack.length - 1]);
break;
}
case '2drop': {
if (stack.length < 2)
return false;
stack.pop();
stack.pop();
break;
}
case '2dup': {
if (stack.length < 2)
return false;
v1 = stack[stack.length - 2];
v2 = stack[stack.length - 1];
stack.push(v1);
stack.push(v2);
break;
}
case '3dup': {
if (stack.length < 3)
return false;
v1 = stack[stack.length - 3];
v2 = stack[stack.length - 2];
v3 = stack[stack.length - 1];
stack.push(v1);
stack.push(v2);
stack.push(v3);
break;
}
case '2over': {
if (stack.length < 4)
return false;
v1 = stack[stack.length - 4];
v2 = stack[stack.length - 3];
stack.push(v1);
stack.push(v2);
break;
}
case '2rot': {
if (stack.length < 6)
return false;
v1 = stack[stack.length - 6];
v2 = stack[stack.length - 5];
stack.splice(stack.length - 6, 2);
stack.push(v1);
stack.push(v2);
break;
}
case '2swap': {
if (stack.length < 4)
return false;
v4 = stack[stack.length - 4];
v3 = stack[stack.length - 3];
v2 = stack[stack.length - 2];
v1 = stack[stack.length - 1];
stack[stack.length - 4] = v2;
stack[stack.length - 2] = v4;
stack[stack.length - 3] = v1;
stack[stack.length - 1] = v3;
break;
}
case 'size': {
if (stack.length < 1)
return false;
stack.push(script.array(stack[stack.length - 1].length || 0));
break;
}
case '1add':
case '1sub':
case 'negate':
case 'abs':
case 'not':
case '0notequal': {
if (stack.length < 1)
return false;
n = script.num(stack.pop());
switch (o) {
case '1add':
n.iadd(1);
break;
case '1sub':
n.isub(1);
break;
case 'negate':
n = n.neg();
break;
case 'abs':
if (n.cmpn(0) < 0)
n = n.neg();
break;
case 'not':
n = n.cmpn(0) === 0;
break;
case '0notequal':
n = n.cmpn(0) !== 0;
break;
default:
return false;
}
if (typeof n === 'boolean')
n = script.num(+n);
stack.push(script.array(n));
break;
}
case 'add':
case 'sub':
case 'booland':
case 'boolor':
case 'numequal':
case 'numequalverify':
case 'numnotequal':
case 'lessthan':
case 'greaterthan':
case 'lessthanorequal':
case 'greaterthanorequal':
case 'min':
case 'max': {
switch (o) {
case 'add':
case 'sub':
case 'booland':
case 'boolor':
case 'numequal':
case 'numequalverify':
case 'numnotequal':
case 'lessthan':
case 'greaterthan':
case 'lessthanorequal':
case 'greaterthanorequal':
case 'min':
case 'max':
if (stack.length < 2)
return false;
n2 = script.num(stack.pop());
n1 = script.num(stack.pop());
n = script.num(0);
switch (o) {
case 'add':
n = n1.add(n2);
break;
case 'sub':
n = n1.sub(n2);
break;
case 'booland':
n = n1.cmpn(0) !== 0 && n2.cmpn(0) !== 0;
break;
case 'boolor':
n = n1.cmpn(0) !== 0 || n2.cmpn(0) !== 0;
break;
case 'numequal':
n = n1.cmp(n2) === 0;
break;
case 'numequalverify':
n = n1.cmp(n2) === 0;
break;
case 'numnotequal':
n = n1.cmp(n2) !== 0;
break;
case 'lessthan':
n = n1.cmp(n2) < 0;
break;
case 'greaterthan':
n = n1.cmp(n2) > 0;
break;
case 'lessthanorequal':
n = n1.cmp(n2) <= 0;
break;
case 'greaterthanorequal':
n = n1.cmp(n2) >= 0;
break;
case 'min':
n = n1.cmp(n2) < 0 ? n1 : n2;
break;
case 'max':
n = n1.cmp(n2) > 0 ? n1 : n2;
break;
default:
return false;
}
if (typeof n === 'boolean')
n = script.num(+n);
res = script.bool(n);
if (o === 'numequalverify') {
if (!res)
return false;
} else {
stack.push(script.array(n));
}
break;
case 'within':
if (stack.length < 3)
return false;
n3 = script.num(stack.pop());
n2 = script.num(stack.pop());
n1 = script.num(stack.pop());
val = n2.cmp(n1) <= 0 && n1.cmp(n3) < 0;
stack.push(val.cmpn(0) !== 0 ? [1] : []);
break;
}
break;
}
case 'codeseparator': {
lastSep = pc;
break;
}
case 'ripemd160': {
if (stack.length === 0)
return false;
stack.push(utils.ripemd160(stack.pop()));
break;
}
case 'sha1': {
if (stack.length === 0)
return false;
stack.push(utils.sha1(stack.pop()));
break;
}
case 'sha256': {
if (stack.length === 0)
return false;
stack.push(utils.sha256(stack.pop()));
break;
}
case 'hash256': {
if (stack.length === 0)
return false;
stack.push(utils.dsha256(stack.pop()));
break;
}
case 'hash160': {
if (stack.length === 0)
return false;
stack.push(utils.ripesha(stack.pop()));
break;
}
case 'equalverify':
case 'equal': {
if (stack.length < 2)
return false;
res = utils.isEqual(stack.pop(), stack.pop());
if (o === 'equalverify') {
if (!res)
return false;
} else {
stack.push(res ? [1] : []);
}
break;
}
case 'checksigverify':
case 'checksig': {
if (!tx || stack.length < 2)
return false;
key = stack.pop();
sig = stack.pop();
if (!script.isValidKey(key, flags))
return false;
if (!script.isValidSignature(sig, flags))
return false;
type = sig[sig.length - 1];
subscript = script.getSubscript(data, lastSep);
script.removeData(subscript, sig);
hash = tx.signatureHash(index, subscript, type);
res = script.checksig(hash, sig, key);
if (o === 'checksigverify') {
if (!res)
return false;
} else {
stack.push(res ? [1] : []);
}
break;
}
case 'checkmultisigverify':
case 'checkmultisig': {
if (!tx || stack.length < 3)
return false;
n = script.num(stack.pop(), true);
if (!(n >= 1 && n <= 15))
return false;
if (stack.length < n + 1)
return false;
keys = [];
for (i = 0; i < n; i++) {
key = stack.pop();
if (!script.isValidKey(key, flags))
return false;
keys.push(key);
}
m = script.num(stack.pop(), true);
if (!(m >= 1 && m <= n))
return false;
if (stack.length < m + 1)
return false;
subscript = script.getSubscript(data, lastSep);
for (i = 0; i < m; i++) {
sig = stack[stack.length - 1 - i];
script.removeData(subscript, sig);
}
succ = 0;
for (i = 0, j = 0; i < m; i++) {
sig = stack.pop();
if (!script.isValidSignature(sig, flags))
return false;
type = sig[sig.length - 1];
hash = tx.signatureHash(index, subscript, type);
res = false;
for (; !res && j < n; j++)
res = script.checksig(hash, sig, keys[j]);
if (res)
succ++;
}
if (stack.length < 1)
return false;
val = stack.pop();
if (flags & constants.flags.VERIFY_NULLDUMMY) {
if (!script.isDummy(val))
return false;
}
res = succ >= m;
if (o === 'checkmultisigverify') {
if (!res)
return false;
} else {
stack.push(res ? [1] : []);
}
break;
}
case 'checklocktimeverify': {
// OP_CHECKLOCKTIMEVERIFY = OP_NOP2
if (!(flags & constants.flags.VERIFY_CHECKLOCKTIMEVERIFY)) {
if (flags & constants.flags.VERIFY_DISCOURAGE_UPGRADABLE_NOPS)
return false;
break;
}
if (!tx || stack.length === 0)
return false;
locktime = stack[stack.length - 1];
if (!Array.isArray(locktime))
return false;
if (locktime.length > 6)
return false;
locktime = script.num(locktime, true);
if (locktime < 0)
return false;
threshold = constants.locktimeThreshold;
if (!(
(tx.locktime < threshold && locktime < threshold)
|| (tx.locktime >= threshold && locktime >= threshold)
)) {
return false;
}
if (locktime > tx.locktime)
return false;
if (!tx.inputs[index] || tx.inputs[index].seq === 0xffffffff)
return false;
break;
}
case 'nop1': {
// OP_EVAL = OP_NOP1
if (!script.allowEval) {
if (flags & constants.flags.VERIFY_DISCOURAGE_UPGRADABLE_NOPS)
return false;
break;
}
recurse = recurse || 0;
if (recurse++ > 2)
return false;
evalScript = stack.pop();
if (!Array.isArray(evalScript))
return false;
evalScript = script.decode(evalScript);
res = evalScript.some(function(op) {
return op === 'codeseparator';
});
if (res)
return false;
res = script.execute(evalScript, stack, tx, index, flags, recurse);
if (!res)
return false;
break;
}
default: {
// Unknown operation
utils.debug('Unknown opcode "%s" at offset %d', o, pc);
return false;
}
}
}
if (stack.length + stack.alt.length > constants.script.maxStack)
return false;
return true;
};
script.bool = function bool(value) {
var i;
// Should never happen:
// if (typeof value === 'boolean')
// return value;
// Should never happen:
// if (utils.isFinite(value))
// return value !== 0;
if (value instanceof bn)
return value.cmpn(0) !== 0;
assert(utils.isBuffer(value));
for (i = 0; i < value.length; i++) {
if (value[i] !== 0) {
// Cannot be negative zero
if (i === value.length - 1 && value[i] === 0x80)
return false;
return true;
}
}
return false;
};
script.num = function num(value, useNum, minimaldata) {
if (utils.isFinite(value))
return useNum ? value : new bn(value, 'le');
// Should never happen:
// if (value instanceof bn)
// return useNum ? value.toNumber() : value;
assert(utils.isBuffer(value));
if (minimaldata && value.length > 0) {
// If the low bits on the last byte are unset,
// fail if The value's second to last byte does
// not have the high bit set. A number can't
// justify having the last byte's low bits unset
// unless they ran out of space for the sign bit
// in the second to last bit. We also fail on [0]
// to avoid negative zero (also avoids positive
// zero).
if (!(value[value.length - 1] & 0x7f)) {
if (value.length === 1 || !(value[value.length - 2] & 0x80)) {
// We should technically fail here by
// throwing and catching, but return zero for now.
return useNum ? 0 : new bn(0, 'le');
}
}
}
// Optimize by avoiding big numbers
if (useNum && value.length <= 1)
return value.length === 0 ? 0 : value[0];
// If we are signed, do (~num + 1) to get
// the positive counterpart and set bn's
// negative flag.
if (value[value.length - 1] & 0x80) {
if (utils.isNegZero(value, 'le')) {
value = new bn(0, 'le');
} else {
value = new bn(value, 'le').notn(64).addn(1).neg();
}
} else {
value = new bn(value, 'le');
}
if (useNum) {
try {
return value.toNumber();
} catch (e) {
return 0;
}
}
return value;
};
script.array = function(value) {
if (Array.isArray(value))
return value.slice();
if (utils.isFinite(value))
value = new bn(value, 'le');
assert(value instanceof bn);
// Convert the number to the
// negative byte representation.
if (value.isNeg()) {
if (value.cmpn(0) === 0)
value = new bn(0);
else
value = value.neg().notn(64).addn(1);
}
if (value.cmpn(0) === 0)
return [];
return value.toArray('le');
};
script.removeData = function removeData(s, data) {
for (var i = s.length - 1; i >= 0; i--) {
if (utils.isEqual(s[i], data))
s.splice(i, 1);
}
};
script.checkPush = function checkPush(op, value, flags) {
if (flags == null)
flags = constants.flags.STANDARD_VERIFY_FLAGS;
// Disabled for now.
return true;
if (!(flags & constants.flags.VERIFY_MINIMALDATA))
return true;
if (!op.pushdata)
return true;
op = op.pushdata.opcode || op.pushdata.len;
if (value.length === 1 && value[0] === 0)
return op === '0';
if (value.length === 1 && value[0] >= 1 && value[0] <= 16)
return +op >= 1 && +op <= 16;
if (value.length === 1 && value[0] === -1)
return op === '1negate';
if (value.length <= 75)
return op === value.length;
if (value.length <= 255)
return op === 'pushdata1';
if (value.length <= 65535)
return op === 'pushdata2';
return true;
};
script.createPubkey = function createPubkey(key) {
return [key, 'checksig'];
};
script.createPubkeyhash = function createPubkeyhash(hash) {
return [
'dup',
'hash160',
hash,
'equalverify',
'checksig'
];
};
script.createMultisig = function createMultisig(keys, m, n) {
if (keys.length !== n)
throw new Error(n + ' keys are required to generate multisig script');
assert(m >= 1 && m <= n);
assert(n >= 1 && n <= 15);
return [m].concat(
utils.sortKeys(keys),
[n, 'checkmultisig']
);
};
script.createScripthash = function createScripthash(hash) {
return [
'hash160',
hash,
'equal'
];
};
script.createNulldata = function createNulldata(flags) {
return [
'return',
flags
];
};
script.getRedeem = function getRedeem(s) {
var raw, redeem;
raw = s[s.length - 1];
if (!Array.isArray(raw))
return;
if (raw._redeem)
return raw._redeem;
redeem = script.decode(raw);
utils.hidden(redeem, '_raw', raw);
utils.hidden(raw, '_redeem', redeem);
return redeem;
};
script.getType =
script.getOutputType = function getOutputType(s) {
return (script.isPubkey(s) && 'pubkey')
|| (script.isPubkeyhash(s) && 'pubkeyhash')
|| (script.isMultisig(s) && 'multisig')
|| (script.isScripthash(s) && 'scripthash')
|| (script.isNulldata(s) && 'nulldata')
|| 'unknown';
};
script.isStandard = function isStandard(s) {
var m, n;
if (script.isMultisig(s)) {
m = s[0];
n = s[s.length - 2];
if (n < 1 || n > 3)
return false;
if (m < 1 || m > n)
return false;
} else if (script.isNulldata(s)) {
if (script.getSize(s) > constants.script.maxOpReturnBytes)
return false;
}
return type != null;
};
script.getSize = function getSize(s) {
if (s._raw)
return s._raw.length;
return script.encode(s).length;
};
// Legacy
script.size = script.getSize;
script.isEncoded = function isEncoded(s) {
var i, b;
if (!Array.isArray(data))
return false;
for (i = 0; i < data.length; i++) {
b = data[i];
if (typeof b !== 'number')
return false;
if (constants.opcodesByVal[b] == null) {
if (b >= 0x01 && b <= 0x4b)
continue;
return false;
}
}
return true;
};
script._locktime = function _locktime(s) {
if (s.length < 2)
return;
if (!utils.isBuffer(s[0]))
return;
if (s[1] !== 'checklocktimeverify')
return;
return s[0];
};
script.isLocktime = function isLocktime(s) {
return script._locktime(s) != null;
};
script.getLocktime = function getLocktime(s) {
var locktime = script._locktime(s);
if (!locktime)
return;
locktime = script.num(locktime, true);
if (locktime < constants.locktimeThreshold)
return { type: 'height', value: locktime };
return { type: 'time', value: locktime };
};
script.getInputData = function getData(s, prev) {
var output, type;
if (prev) {
output = script.getOutputData(prev);
output.side = 'input';
// We could call _getInputData, but
// we really only need the signatures.
if (output.type === 'pubkey') {
if (s.length >= 1)
output.signatures = [s[0]];
} else if (output.type === 'pubkeyhash') {
if (s.length >= 2) {
output.signatures = [s[0]];
output.keys = [s[1]];
}
} else if (output.type === 'multisig') {
if (s.length >= 2)
output.signatures = s.slice(1);
} else if (output.type === 'scripthash') {
// Scripthash is the only case where
// we get more data from the input
// than the output.
output = script._getInputData(s, output.type);
} else {
output.signatures = script.getUnknownData(s).signatures;
}
return output;
}
if (script.isPubkeyInput(s))
type = 'pubkey';
else if (script.isPubkeyhashInput(s))
type = 'pubkeyhash';
else if (script.isMultisigInput(s))
type = 'multisig';
else if (script.isScripthashInput(s))
type = 'scripthash';
else
type = 'unknown';
return script._getInputData(s, type);
};
script._getInputData = function _getInputData(s, type) {
var sig, key, hash, raw, redeem, locktime, hash, address, input, output;
assert(typeof type === 'string');
if (s.length === 0) {
return {
type: 'unknown',
side: 'input',
none: true
};
}
if (type === 'pubkey') {
sig = s[0];
return {
type: 'pubkey',
side: 'input',
signatures: [sig],
none: true
};
}
if (type === 'pubkeyhash') {
sig = s[0];
key = s[1];
hash = bcoin.address.hash160(key);
address = bcoin.address.toAddress(hash, 'pubkeyhash');
return {
type: 'pubkeyhash',
side: 'input',
signatures: [sig],
keys: [key],
hashes: [hash],
address: address,
addresses: [address]
};
}
if (type === 'multisig') {
sig = s.slice(1);
return {
type: 'multisig',
side: 'input',
signatures: sig,
m: sig.length,
none: true
};
}
if (type === 'scripthash') {
raw = s[s.length - 1];
redeem = script.decode(raw);
locktime = script.getLocktime(redeem);
hash = bcoin.address.hash160(raw);
address = bcoin.address.toAddress(hash, 'scripthash');
output = script.getOutputData(redeem, true);
input = script._getInputData(s.slice(0, -1), output.type);
delete input.none;
return utils.merge(input, output, {
type: 'scripthash',
side: 'input',
subtype: output.type,
redeem: redeem,
address: address,
scriptHash: hash,
scriptAddress: address,
locktime: locktime
});
}
return script.getUnknownData(s);
};
script.getOutputData = function getOutputData(s, inScriptHash) {
var key, hash, address, mhash, maddress;
if (script.isPubkey(s)) {
key = s[0];
hash = bcoin.address.hash160(key);
// Convert p2pk to p2pkh addresses
address = bcoin.address.toAddress(hash, 'pubkeyhash');
return {
type: 'pubkey',
side: 'output',
keys: [key],
hashes: [hash],
address: address,
addresses: [address]
};
}
if (script.isPubkeyhash(s)) {
hash = s[2];
address = bcoin.address.toAddress(hash, 'pubkeyhash');
return {
type: 'pubkeyhash',
side: 'output',
hashes: [hash],
address: address,
addresses: [address]
};
}
if (script.isMultisig(s)) {
key = s.slice(1, -2);
hash = key.map(function(key) {
return bcoin.address.hash160(key);
});
// Convert bare multisig to p2pkh addresses
address = hash.map(function(hash) {
return bcoin.address.toAddress(hash, 'pubkeyhash');
});
// Convert bare multisig script to scripthash address
if (!inScriptHash) {
mhash = bcoin.address.hash160(s._raw || script.encode(s));
maddress = bcoin.address.toAddress(mhash, 'scripthash');
}
return {
type: 'multisig',
side: 'output',
keys: key,
hashes: hash,
address: maddress,
addresses: address,
m: s[0],
n: s[s.length - 2]
};
}
if (script.isScripthash(s)) {
hash = s[1];
address = bcoin.address.toAddress(hash, 'scripthash');
return {
type: 'scripthash',
side: 'output',
address: address,
scriptHash: hash,
scriptAddress: address
};
}
if (script.isNulldata(s)) {
return {
type: 'nulldata',
side: 'output',
nulldata: s[1],
text: utils.array2utf8(s[1])
};
}
return script.getUnknownData(s);
};
script.getUnknownData = function getUnknownData(s) {
var sig = [];
var key = [];
var hash, address, i;
for (i = 0; i < s.length; i++) {
if (script.isSignatureEncoding(s[i]))
sig.push(s[i]);
else if (script.isKeyEncoding(s[i]))
key.push(s[i]);
}
hash = key.map(function(key) {
return bcoin.address.hash160(key);
});
address = hash.map(function(hash) {
return bcoin.address.toAddress(hash, 'pubkeyhash');
});
return {
type: 'unknown',
signatures: sig,
keys: key,
hashes: hash,
addresses: address,
none: key.length === 0
};
};
script.getInputKeys = function getInputKeys(s, prev) {
if (script.isScripthashInput(s))
return script.getOutputKeys(script.getRedeem(s));
if (prev)
return script.getOutputKeys(prev);
if (script.isPubkeyhashInput(s))
return [s[1]];
return [];
};
script.getOutputKeys = function getOutputKeys(s) {
if (script.isPubkey(s))
return [s[0]];
if (script.isMultisig(s))
return s.slice(1, -2);
return [];
};
script.getInputKeyHashes = function getInputKeyHashes(s, prev) {
if (script.isScripthashInput(s))
return script.getOutputKeyHashes(script.getRedeem(s));
if (prev)
return script.getOuputKeyHashes(prev);
if (script.isPubkeyhashInput(s))
return [bcoin.address.hash160(s[1])];
return [];
};
script.getOuputKeyHashes = function getOuputKeyHashes(s) {
if (script.isPubkey(s))
return [bcoin.address.hash160(s[0])];
if (script.isPubkeyhash(s))
return [s[2]];
if (script.isMultisig(s)) {
return s.slice(1, -2).map(function(key) {
return bcoin.address.hash160(key);
});
}
return [];
};
script.getInputScripthash = function getInputScripthash(s, prev) {
if (prev)
return script.getOutputScripthash(prev);
if (script.isScripthashInput(s))
return bcoin.address.hash160(s[s.length - 1]);
};
script.getOutputScripthash = function getOutputScripthash(s) {
if (script.isScripthash(s))
return s[1];
};
script.getInputAddress = function getInputAddress(s, prev) {
if (prev)
return script.getOutputAddress(prev);
if (script.isPubkeyInput(s))
return;
if (script.isPubkeyhashInput(s))
return bcoin.address.compile(s[1], 'pubkeyhash');
if (script.isMultisigInput(s))
return;
if (script.isScripthashInput(s))
return bcoin.address.compile(s[s.length - 1], 'scripthash');
};
script.getOutputAddress = function getOutputAddress(s) {
// Convert p2pk to p2pkh addresses
if (script.isPubkey(s))
return bcoin.address.compile(s[0], 'pubkeyhash');
if (script.isPubkeyhash(s))
return bcoin.address.toAddress(s[2], 'pubkeyhash')
// Convert bare multisig to scripthash address
if (script.isMultisig(s)) {
s = s._raw || script.encode(s);
return bcoin.address.compile(s, 'scripthash');
}
if (script.isScripthash(s))
return bcoin.address.toAddress(s[1], 'scripthash');
};
script.getInputMN = function getInputMN(s, prev) {
if (script.isScripthashInput(s))
return script.getOutputMN(script.getRedeem(s));
if (prev)
return script.getOuputMN(prev);
return { m: 1, n: 1 };
};
script.getOuputMN = function getOuputMN(s) {
if (script.isMultisig(s))
return { m: s[0], n: s[s.length - 2] };
return { m: 1, n: 1 };
};
script.isPubkey = function isPubkey(s, key) {
var res;
if (s.length !== 2)
return false;
res = script.isKey(s[0]) && s[1] === 'checksig';
if (!res)
return false;
if (key) {
if (!utils.isEqual(s[0], key))
return false;
}
return s[0];
};
script.isPubkeyhash = function isPubkeyhash(s, hash) {
var res;
if (s.length !== 5)
return false;
res = s[0] === 'dup'
&& s[1] === 'hash160'
&& script.isHash(s[2])
&& s[3] === 'equalverify'
&& s[4] === 'checksig';
if (!res)
return false;
if (hash) {
if (!utils.isEqual(s[2], hash))
return false;
}
return s[2];
};
script.isMultisig = function isMultisig(s, keys) {
var m, n, i, j;
var total = 0;
if (s.length < 4)
return false;
if (s[s.length - 1] !== 'checkmultisig')
return false;
n = s[s.length - 2];
if (Array.isArray(n)) {
if (n.length !== 0)
return false;
n = 0;
}
if (typeof n !== 'number')
return false;
// Bitcoind technically doesn't check for the
// 15 limit here. It just counts the sigops
// later.
if (!(n >= 1 && n <= 15))
return false;
m = s[0];
if (Array.isArray(m)) {
if (m.length !== 0)
return false;
m = 0;
}
if (typeof m !== 'number')
return false;
if (!(m >= 1 && m <= n))
return false;
if (n + 3 !== s.length)
return false;
for (i = 1; i < n + 1; i++) {
if (!script.isKey(s[i]))
return false;
}
if (keys) {
for (i = 1; i < n + 1; i++) {
for (j = 0; j < keys.length; j++) {
if (utils.isEqual(s[i], keys[j])) {
total++;
break;
}
}
}
if (total !== n)
return false;
}
return {
keys: s.slice(1, n + 1),
m: m,
n: n
};
};
script.isScripthash = function isScripthash(s, hash) {
var res;
if (s.length !== 3)
return false;
res = s[0] === 'hash160'
&& script.isHash(s[1])
&& s[2] === 'equal';
if (!res)
return false;
if (hash) {
if (!utils.isEqual(s[1], hash))
return false;
}
return s[1];
};
script.isNulldata = function isNulldata(s) {
var res;
if (s.length !== 2)
return false;
res = s[0] === 'return' && script.isData(s[1]);
if (!res)
return false;
return s[1];
};
script.getInputType = function getInputType(s, prev) {
if (prev)
return script.getOutputType(prev);
return (script.isPubkeyInput(s) && 'pubkey')
|| (script.isPubkeyhashInput(s) && 'pubkeyhash')
|| (script.isMultisigInput(s) && 'multisig')
|| (script.isScripthashInput(s) && 'scripthash')
|| null;
};
script.isPubkeyInput = function isPubkeyInput(s, key, tx, i) {
if (s.length !== 1)
return false;
if (!script.isSignature(s[0]))
return false;
// Execute the script against our key's
// checksig script to see if this is our input.
// This will only work if the script verifies.
if (key) {
assert(tx);
assert(i != null);
if (!script.verify(s, [key, 'checksig'], tx, i))
return false;
}
return s[0];
};
script.isPubkeyhashInput = function isPubkeyhashInput(s, key) {
if (s.length !== 2)
return false;
if (!script.isSignature(s[0]))
return false;
if (!script.isKey(s[1]))
return false;
if (key) {
if (!utils.isEqual(s[1], key))
return false;
}
return s[1];
};
script.isMultisigInput = function isMultisigInput(s, keys, tx, i) {
var i, o;
// We need to rule out scripthash because
// it may look like multisig. This is
// strange because it's technically a
// recursive call.
if (script.isScripthashInput(s))
return false;
if (s.length < 3)
return false;
if (!Array.isArray(s[0]) || s[0].length !== 0)
return false;
for (i = 1; i < s.length; i++) {
if (!script.isSignature(s[i]))
return false;
}
// Execute the script against our pubkeys'
// redeem script to see if this is our input.
// This will only work if the script verifies.
if (keys) {
assert(keys.length >= 2);
assert(tx);
assert(i != null);
o = script.createMultisig(keys, s.length - 1, keys.length);
if (!script.verify(s, o, tx, i))
return false;
}
// We also also try to recover the keys from the signatures.
// var recovered = [];
// for (i = 1; i < s.length; i++) {
// var sig = s[i];
// var prev = script.createMultisig(keys, s.length - 1, keys.length);
// var msg = tx.signatureHash(i, prev, s[s.length - 1]);
// var key = bcoin.ecdsa.recoverPubKey(msg, sig.slice(0, -1), 0).toArray();
// recovered.push(key);
// }
return {
signatures: s.slice(1),
m: s.length - 1
};
};
script.isScripthashInput = function isScripthashInput(s, data, strict) {
var raw, redeem;
// Grab the raw redeem script.
raw = s[s.length - 1];
// Need at least one data element with
// the redeem script.
if (s.length < 2)
return false;
// Last data element should be an array
// for the redeem script.
if (!Array.isArray(raw))
return false;
// If the last data element is a valid
// signature or key, it's _extremely_
// unlikely this is a scripthash.
if (script.isDummy(raw))
return false;
if (script.isSignatureEncoding(raw))
return false;
if (script.isKeyEncoding(raw))
return false;
// Ensure this is a valid encoded script
// if (!script.isEncoded(raw))
// return false;
// Check data against last array in case
// a raw redeem script was passed in.
if (data && utils.isEqual(data, raw))
return raw;
// Return here if we do not want to check
// against standard transaction types.
if (!strict)
return raw;
// P2SH redeem scripts can be nonstandard: make
// it easier for other functions to parse this.
redeem = script.decode(raw);
// Get the "real" scriptSig
s = s.slice(0, -1);
// Do some sanity checking on the inputs
if (!script.isPubkeyInput(s)
&& !script.isPubkeyhashInput(s)
&& !script.isMultisigInput(s)) {
return false;
}
// Test against all other script types
if (!script.isPubkey(redeem, data)
&& !script.isPubkeyhash(redeem, data)
&& !script.isMultisig(redeem, data)) {
return false;
}
return raw;
};
script.getCoinbaseData = function getCoinbaseData(s) {
var coinbase, flags;
coinbase = {
script: s
};
if (Array.isArray(s[0]))
coinbase.height = script.num(s[0], true);
else
coinbase.height = -1;
if (Array.isArray(s[1]))
coinbase.extraNonce = script.num(s[1]);
else
coinbase.extraNonce = script.num(0);
flags = s.slice(2).filter(function(chunk) {
return Array.isArray(chunk) && chunk.length !== 0;
});
coinbase.flags = flags;
coinbase.text =
flags.map(utils.array2utf8).join('')
.replace(/[\u0000-\u0019\u007f-\u00ff]/g, '');
return coinbase;
};
// Detect script array types. Note: these functions
// are not mutually exclusive. Only use for
// verification, not detection.
script.isHash = function isHash(hash) {
if (!utils.isBuffer(hash))
return false;
return hash.length === 20;
};
script.isKey = function isKey(key) {
if (!utils.isBuffer(key))
return false;
return key.length >= 33 && key.length <= 65;
};
script.isSignature = function isSignature(sig) {
if (!utils.isBuffer(sig))
return false;
return sig.length >= 9 && sig.length <= 73;
};
script.isDummy = function isDummy(data) {
if (!utils.isBuffer(data))
return false;
return data.length === 0;
};
script.isData = function isData(data) {
if (!utils.isBuffer(data))
return false;
return data.length <= constants.script.maxOpReturn;
};
script.isValidKey = function isValidKey(key, flags) {
if (flags == null)
flags = constants.flags.STANDARD_VERIFY_FLAGS;
if (!utils.isBuffer(key))
return false;
if (flags & constants.flags.VERIFY_STRICTENC) {
if (!script.isKeyEncoding(key))
return false;
}
return true;
};
script.isKeyEncoding = function isKeyEncoding(key) {
if (!utils.isBuffer(key))
return false;
if (key.length < 33)
return false;
if (key[0] === 0x04) {
if (key.length !== 65)
return false;
} else if (key[0] === 0x02 || key[0] === 0x03) {
if (key.length !== 33)
return false;
} else {
return false;
}
return true;
};
script.isValidSignature = function isValidSignature(sig, flags) {
if (flags == null)
flags = constants.flags.STANDARD_VERIFY_FLAGS;
if (!utils.isBuffer(sig))
return false;
// Allow empty sigs
if (sig.length === 0)
return true;
if ((flags & constants.flags.VERIFY_DERSIG)
|| (flags & constants.flags.VERIFY_LOW_S)
|| (flags & constants.flags.VERIFY_STRICTENC)) {
if (!script.isSignatureEncoding(sig))
return false;
}
if (flags & constants.flags.VERIFY_LOW_S) {
if (!script.isLowDER(sig))
return false;
}
if (flags & constants.flags.VERIFY_STRICTENC) {
if (!script.isHashType(sig))
return false;
}
return true;
};
// https://github.com/bitcoin/bips/blob/master/bip-0066.mediawiki
/**
* A canonical signature exists of: <30> <total len> <02> <len R> <R> <02> <len S> <S> <hashtype>
* Where R and S are not negative (their first byte has its highest bit not set), and not
* excessively padded (do not start with a 0 byte, unless an otherwise negative number follows,
* in which case a single 0 byte is necessary and even required).
*
* See https://bitcointalk.org/index.php?topic=8392.msg127623#msg127623
*
* This function is consensus-critical since BIP66.
*/
script.isSignatureEncoding = function isSignatureEncoding(sig) {
var lenR, lenS;
if (!utils.isBuffer(sig))
return false;
// Format: 0x30 [total-length] 0x02 [R-length] [R] 0x02 [S-length] [S] [sighash]
// * total-length: 1-byte length descriptor of everything that follows,
// excluding the sighash byte.
// * R-length: 1-byte length descriptor of the R value that follows.
// * R: arbitrary-length big-endian encoded R value. It must use the shortest
// possible encoding for a positive integers (which means no null bytes at
// the start, except a single one when the next byte has its highest bit set).
// * S-length: 1-byte length descriptor of the S value that follows.
// * S: arbitrary-length big-endian encoded S value. The same rules apply.
// * sighash: 1-byte value indicating what data is hashed (not part of the DER
// signature)
// Minimum and maximum size constraints.
if (sig.length < 9)
return false;
if (sig.length > 73)
return false;
// A signature is of type 0x30 (compound).
if (sig[0] !== 0x30)
return false;
// Make sure the length covers the entire signature.
if (sig[1] !== sig.length - 3)
return false;
// Extract the length of the R element.
lenR = sig[3];
// Make sure the length of the S element is still inside the signature.
if (5 + lenR >= sig.length)
return false;
// Extract the length of the S element.
lenS = sig[5 + lenR];
// Verify that the length of the signature matches the sum of the length
// of the elements.
if (lenR + lenS + 7 !== sig.length)
return false;
// Check whether the R element is an integer.
if (sig[2] !== 0x02)
return false;
// Zero-length integers are not allowed for R.
if (lenR === 0)
return false;
// Negative numbers are not allowed for R.
if (sig[4] & 0x80)
return false;
// Null bytes at the start of R are not allowed, unless R would
// otherwise be interpreted as a negative number.
if (lenR > 1 && (sig[4] === 0x00) && !(sig[5] & 0x80))
return false;
// Check whether the S element is an integer.
if (sig[lenR + 4] !== 0x02)
return false;
// Zero-length integers are not allowed for S.
if (lenS === 0)
return false;
// Negative numbers are not allowed for S.
if (sig[lenR + 6] & 0x80)
return false;
// Null bytes at the start of S are not allowed, unless S would otherwise be
// interpreted as a negative number.
if (lenS > 1 && (sig[lenR + 6] === 0x00) && !(sig[lenR + 7] & 0x80))
return false;
return true;
};
script.isHashType = function isHashType(sig) {
if (!utils.isBuffer(sig))
return false;
if (sig.length === 0)
return false;
type = sig[sig.length - 1] & ~constants.hashType.anyonecanpay;
if (!constants.hashTypeByVal[type])
return false;
return true;
};
script.isLowDER = function isLowDER(sig) {
var half = bcoin.ecdsa.n.ushrn(1);
if (!sig.s) {
if (!utils.isBuffer(sig))
return false;
if (!script.isSignatureEncoding(sig))
return false;
try {
sig = new bcoin.ecdsa.signature(sig.slice(0, -1));
} catch (e) {
return false;
}
}
// Technically a negative S value is low,
// but we don't want to ever use negative
// S values in bitcoin.
if (sig.s.cmpn(0) <= 0)
return false;
// If S is greater than half the order,
// it's too high.
if (sig.s.cmp(half) > 0)
return false;
return true;
};
script.format = function format(s) {
var scripts = [];
if (Array.isArray(s)) {
scripts.push(s);
} else if (s instanceof bcoin.input) {
scripts.push(s.script);
if (s.output) {
scripts.push(s.output.script);
if (script.isScripthash(s.output.script))
scripts.push(script.getRedeem(s.script));
}
} else if (s instanceof bcoin.output) {
scripts.push(s.script);
}
return script.concat(scripts).map(function(chunk) {
if (Array.isArray(chunk)) {
if (chunk.length === 0)
return 0 + '';
return '[' + utils.toHex(chunk) + ']';
}
if (typeof chunk === 'number')
return chunk + '';
return chunk;
}).join(' ');
};
script.isPushOnly = function isPushOnly(s) {
var i, op;
for (i = 0; i < s.length; i++) {
op = s[i];
if (Array.isArray(op) || op === '1negate' || (op >= 1 && op <= 16))
continue;
return false;
}
return true;
};
script.getSigops = function getSigops(s, accurate) {
var i, op;
var n = 0;
var lastOp = -1;
for (i = 0; i < s.length; i++) {
op = s[i];
if (Array.isArray(op))
continue;
if (constants.opcodes[op] == null)
return 0;
if (op === 'checksig' || op === 'checksigverify') {
n++;
} else if (op === 'checkmultisig' || op === 'checkmultisigverify') {
if (accurate && lastOp >= 1 && lastOp <= 16) {
n += lastOp;
} else {
n += constants.script.maxPubkeysPerMultisig;
}
}
lastOp = op;
}
return n;
};
script.getScripthashSigops = function getScripthashSigops(s) {
if (!script.isScripthashInput(s))
return 0;
if (!script.isPushOnly(s))
return 0;
s = script.getRedeem(s);
return script.getSigops(s, true);
};
script.getArgs = function getArgs(s) {
var keys, m;
if (script.isPubkey(s))
return 1;
if (script.isPubkeyhash(s))
return 2;
if (script.isMultisig(s)) {
keys = s.slice(1, -2);
if (!pub)
return -1;
m = s[0];
if (keys.length < 1 || m < 1)
return -1;
return m + 1;
}
if (script.isScripthash(s))
return 1;
if (script.isNulldata(s))
return -1;
return -1;
};
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