require=(function e(t,n,r){function s(o,u){if(!n[o]){if(!t[o]){var a=typeof require=="function"&&require;if(!u&&a)return a(o,!0);if(i)return i(o,!0);var f=new Error("Cannot find module '"+o+"'");throw f.code="MODULE_NOT_FOUND",f}var l=n[o]={exports:{}};t[o][0].call(l.exports,function(e){var n=t[o][1][e];return s(n?n:e)},l,l.exports,e,t,n,r)}return n[o].exports}var i=typeof require=="function"&&require;for(var o=0;o // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the 'Software'), to // deal in the Software without restriction, including without limitation the // rights to use, copy, modify, merge, publish, distribute, sublicense, and/or // sell copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED 'AS IS', WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN // ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION // WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. // when used in node, this will actually load the util module we depend on // versus loading the builtin util module as happens otherwise // this is a bug in node module loading as far as I am concerned var util = require(214); var pSlice = Array.prototype.slice; var hasOwn = Object.prototype.hasOwnProperty; // 1. The assert module provides functions that throw // AssertionError's when particular conditions are not met. The // assert module must conform to the following interface. var assert = module.exports = ok; // 2. The AssertionError is defined in assert. // new assert.AssertionError({ message: message, // actual: actual, // expected: expected }) assert.AssertionError = function AssertionError(options) { this.name = 'AssertionError'; this.actual = options.actual; this.expected = options.expected; this.operator = options.operator; if (options.message) { this.message = options.message; this.generatedMessage = false; } else { this.message = getMessage(this); this.generatedMessage = true; } var stackStartFunction = options.stackStartFunction || fail; if (Error.captureStackTrace) { Error.captureStackTrace(this, stackStartFunction); } else { // non v8 browsers so we can have a stacktrace var err = new Error(); if (err.stack) { var out = err.stack; // try to strip useless frames var fn_name = stackStartFunction.name; var idx = out.indexOf('\n' + fn_name); if (idx >= 0) { // once we have located the function frame // we need to strip out everything before it (and its line) var next_line = out.indexOf('\n', idx + 1); out = out.substring(next_line + 1); } this.stack = out; } } }; // assert.AssertionError instanceof Error util.inherits(assert.AssertionError, Error); function replacer(key, value) { if (util.isUndefined(value)) { return '' + value; } if (util.isNumber(value) && (isNaN(value) || !isFinite(value))) { return value.toString(); } if (util.isFunction(value) || util.isRegExp(value)) { return value.toString(); } return value; } function truncate(s, n) { if (util.isString(s)) { return s.length < n ? s : s.slice(0, n); } else { return s; } } function getMessage(self) { return truncate(JSON.stringify(self.actual, replacer), 128) + ' ' + self.operator + ' ' + truncate(JSON.stringify(self.expected, replacer), 128); } // At present only the three keys mentioned above are used and // understood by the spec. Implementations or sub modules can pass // other keys to the AssertionError's constructor - they will be // ignored. // 3. All of the following functions must throw an AssertionError // when a corresponding condition is not met, with a message that // may be undefined if not provided. All assertion methods provide // both the actual and expected values to the assertion error for // display purposes. function fail(actual, expected, message, operator, stackStartFunction) { throw new assert.AssertionError({ message: message, actual: actual, expected: expected, operator: operator, stackStartFunction: stackStartFunction }); } // EXTENSION! allows for well behaved errors defined elsewhere. assert.fail = fail; // 4. Pure assertion tests whether a value is truthy, as determined // by !!guard. // assert.ok(guard, message_opt); // This statement is equivalent to assert.equal(true, !!guard, // message_opt);. To test strictly for the value true, use // assert.strictEqual(true, guard, message_opt);. function ok(value, message) { if (!value) fail(value, true, message, '==', assert.ok); } assert.ok = ok; // 5. The equality assertion tests shallow, coercive equality with // ==. // assert.equal(actual, expected, message_opt); assert.equal = function equal(actual, expected, message) { if (actual != expected) fail(actual, expected, message, '==', assert.equal); }; // 6. The non-equality assertion tests for whether two objects are not equal // with != assert.notEqual(actual, expected, message_opt); assert.notEqual = function notEqual(actual, expected, message) { if (actual == expected) { fail(actual, expected, message, '!=', assert.notEqual); } }; // 7. The equivalence assertion tests a deep equality relation. // assert.deepEqual(actual, expected, message_opt); assert.deepEqual = function deepEqual(actual, expected, message) { if (!_deepEqual(actual, expected)) { fail(actual, expected, message, 'deepEqual', assert.deepEqual); } }; function _deepEqual(actual, expected) { // 7.1. All identical values are equivalent, as determined by ===. if (actual === expected) { return true; } else if (util.isBuffer(actual) && util.isBuffer(expected)) { if (actual.length != expected.length) return false; for (var i = 0; i < actual.length; i++) { if (actual[i] !== expected[i]) return false; } return true; // 7.2. If the expected value is a Date object, the actual value is // equivalent if it is also a Date object that refers to the same time. } else if (util.isDate(actual) && util.isDate(expected)) { return actual.getTime() === expected.getTime(); // 7.3 If the expected value is a RegExp object, the actual value is // equivalent if it is also a RegExp object with the same source and // properties (`global`, `multiline`, `lastIndex`, `ignoreCase`). } else if (util.isRegExp(actual) && util.isRegExp(expected)) { return actual.source === expected.source && actual.global === expected.global && actual.multiline === expected.multiline && actual.lastIndex === expected.lastIndex && actual.ignoreCase === expected.ignoreCase; // 7.4. Other pairs that do not both pass typeof value == 'object', // equivalence is determined by ==. } else if (!util.isObject(actual) && !util.isObject(expected)) { return actual == expected; // 7.5 For all other Object pairs, including Array objects, equivalence is // determined by having the same number of owned properties (as verified // with Object.prototype.hasOwnProperty.call), the same set of keys // (although not necessarily the same order), equivalent values for every // corresponding key, and an identical 'prototype' property. Note: this // accounts for both named and indexed properties on Arrays. } else { return objEquiv(actual, expected); } } function isArguments(object) { return Object.prototype.toString.call(object) == '[object Arguments]'; } function objEquiv(a, b) { if (util.isNullOrUndefined(a) || util.isNullOrUndefined(b)) return false; // an identical 'prototype' property. if (a.prototype !== b.prototype) return false; //~~~I've managed to break Object.keys through screwy arguments passing. // Converting to array solves the problem. if (isArguments(a)) { if (!isArguments(b)) { return false; } a = pSlice.call(a); b = pSlice.call(b); return _deepEqual(a, b); } try { var ka = objectKeys(a), kb = objectKeys(b), key, i; } catch (e) {//happens when one is a string literal and the other isn't return false; } // having the same number of owned properties (keys incorporates // hasOwnProperty) if (ka.length != kb.length) return false; //the same set of keys (although not necessarily the same order), ka.sort(); kb.sort(); //~~~cheap key test for (i = ka.length - 1; i >= 0; i--) { if (ka[i] != kb[i]) return false; } //equivalent values for every corresponding key, and //~~~possibly expensive deep test for (i = ka.length - 1; i >= 0; i--) { key = ka[i]; if (!_deepEqual(a[key], b[key])) return false; } return true; } // 8. The non-equivalence assertion tests for any deep inequality. // assert.notDeepEqual(actual, expected, message_opt); assert.notDeepEqual = function notDeepEqual(actual, expected, message) { if (_deepEqual(actual, expected)) { fail(actual, expected, message, 'notDeepEqual', assert.notDeepEqual); } }; // 9. The strict equality assertion tests strict equality, as determined by ===. // assert.strictEqual(actual, expected, message_opt); assert.strictEqual = function strictEqual(actual, expected, message) { if (actual !== expected) { fail(actual, expected, message, '===', assert.strictEqual); } }; // 10. The strict non-equality assertion tests for strict inequality, as // determined by !==. assert.notStrictEqual(actual, expected, message_opt); assert.notStrictEqual = function notStrictEqual(actual, expected, message) { if (actual === expected) { fail(actual, expected, message, '!==', assert.notStrictEqual); } }; function expectedException(actual, expected) { if (!actual || !expected) { return false; } if (Object.prototype.toString.call(expected) == '[object RegExp]') { return expected.test(actual); } else if (actual instanceof expected) { return true; } else if (expected.call({}, actual) === true) { return true; } return false; } function _throws(shouldThrow, block, expected, message) { var actual; if (util.isString(expected)) { message = expected; expected = null; } try { block(); } catch (e) { actual = e; } message = (expected && expected.name ? ' (' + expected.name + ').' : '.') + (message ? ' ' + message : '.'); if (shouldThrow && !actual) { fail(actual, expected, 'Missing expected exception' + message); } if (!shouldThrow && expectedException(actual, expected)) { fail(actual, expected, 'Got unwanted exception' + message); } if ((shouldThrow && actual && expected && !expectedException(actual, expected)) || (!shouldThrow && actual)) { throw actual; } } // 11. Expected to throw an error: // assert.throws(block, Error_opt, message_opt); assert.throws = function(block, /*optional*/error, /*optional*/message) { _throws.apply(this, [true].concat(pSlice.call(arguments))); }; // EXTENSION! This is annoying to write outside this module. assert.doesNotThrow = function(block, /*optional*/message) { _throws.apply(this, [false].concat(pSlice.call(arguments))); }; assert.ifError = function(err) { if (err) {throw err;}}; var objectKeys = Object.keys || function (obj) { var keys = []; for (var key in obj) { if (hasOwn.call(obj, key)) keys.push(key); } return keys; }; },{"214":214}],3:[function(require,module,exports){ },{}],4:[function(require,module,exports){ /*! * The buffer module from node.js, for the browser. * * @author Feross Aboukhadijeh * @license MIT */ var base64 = require(5) var ieee754 = require(6) var isArray = require(7) exports.Buffer = Buffer exports.SlowBuffer = Buffer exports.INSPECT_MAX_BYTES = 50 Buffer.poolSize = 8192 // not used by this implementation var kMaxLength = 0x3fffffff /** * If `Buffer.TYPED_ARRAY_SUPPORT`: * === true Use Uint8Array implementation (fastest) * === false Use Object implementation (most compatible, even IE6) * * Browsers that support typed arrays are IE 10+, Firefox 4+, Chrome 7+, Safari 5.1+, * Opera 11.6+, iOS 4.2+. * * Note: * * - Implementation must support adding new properties to `Uint8Array` instances. * Firefox 4-29 lacked support, fixed in Firefox 30+. * See: https://bugzilla.mozilla.org/show_bug.cgi?id=695438. * * - Chrome 9-10 is missing the `TypedArray.prototype.subarray` function. * * - IE10 has a broken `TypedArray.prototype.subarray` function which returns arrays of * incorrect length in some situations. * * We detect these buggy browsers and set `Buffer.TYPED_ARRAY_SUPPORT` to `false` so they will * get the Object implementation, which is slower but will work correctly. */ Buffer.TYPED_ARRAY_SUPPORT = (function () { try { var buf = new ArrayBuffer(0) var arr = new Uint8Array(buf) arr.foo = function () { return 42 } return 42 === arr.foo() && // typed array instances can be augmented typeof arr.subarray === 'function' && // chrome 9-10 lack `subarray` new Uint8Array(1).subarray(1, 1).byteLength === 0 // ie10 has broken `subarray` } catch (e) { return false } })() /** * Class: Buffer * ============= * * The Buffer constructor returns instances of `Uint8Array` that are augmented * with function properties for all the node `Buffer` API functions. We use * `Uint8Array` so that square bracket notation works as expected -- it returns * a single octet. * * By augmenting the instances, we can avoid modifying the `Uint8Array` * prototype. */ function Buffer (subject, encoding, noZero) { if (!(this instanceof Buffer)) return new Buffer(subject, encoding, noZero) var type = typeof subject // Find the length var length if (type === 'number') length = subject > 0 ? subject >>> 0 : 0 else if (type === 'string') { if (encoding === 'base64') subject = base64clean(subject) length = Buffer.byteLength(subject, encoding) } else if (type === 'object' && subject !== null) { // assume object is array-like if (subject.type === 'Buffer' && isArray(subject.data)) subject = subject.data length = +subject.length > 0 ? Math.floor(+subject.length) : 0 } else throw new TypeError('must start with number, buffer, array or string') if (this.length > kMaxLength) throw new RangeError('Attempt to allocate Buffer larger than maximum ' + 'size: 0x' + kMaxLength.toString(16) + ' bytes') var buf if (Buffer.TYPED_ARRAY_SUPPORT) { // Preferred: Return an augmented `Uint8Array` instance for best performance buf = Buffer._augment(new Uint8Array(length)) } else { // Fallback: Return THIS instance of Buffer (created by `new`) buf = this buf.length = length buf._isBuffer = true } var i if (Buffer.TYPED_ARRAY_SUPPORT && typeof subject.byteLength === 'number') { // Speed optimization -- use set if we're copying from a typed array buf._set(subject) } else if (isArrayish(subject)) { // Treat array-ish objects as a byte array if (Buffer.isBuffer(subject)) { for (i = 0; i < length; i++) buf[i] = subject.readUInt8(i) } else { for (i = 0; i < length; i++) buf[i] = ((subject[i] % 256) + 256) % 256 } } else if (type === 'string') { buf.write(subject, 0, encoding) } else if (type === 'number' && !Buffer.TYPED_ARRAY_SUPPORT && !noZero) { for (i = 0; i < length; i++) { buf[i] = 0 } } return buf } Buffer.isBuffer = function (b) { return !!(b != null && b._isBuffer) } Buffer.compare = function (a, b) { if (!Buffer.isBuffer(a) || !Buffer.isBuffer(b)) throw new TypeError('Arguments must be Buffers') var x = a.length var y = b.length for (var i = 0, len = Math.min(x, y); i < len && a[i] === b[i]; i++) {} if (i !== len) { x = a[i] y = b[i] } if (x < y) return -1 if (y < x) return 1 return 0 } Buffer.isEncoding = function (encoding) { switch (String(encoding).toLowerCase()) { case 'hex': case 'utf8': case 'utf-8': case 'ascii': case 'binary': case 'base64': case 'raw': case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return true default: return false } } Buffer.concat = function (list, totalLength) { if (!isArray(list)) throw new TypeError('Usage: Buffer.concat(list[, length])') if (list.length === 0) { return new Buffer(0) } else if (list.length === 1) { return list[0] } var i if (totalLength === undefined) { totalLength = 0 for (i = 0; i < list.length; i++) { totalLength += list[i].length } } var buf = new Buffer(totalLength) var pos = 0 for (i = 0; i < list.length; i++) { var item = list[i] item.copy(buf, pos) pos += item.length } return buf } Buffer.byteLength = function (str, encoding) { var ret str = str + '' switch (encoding || 'utf8') { case 'ascii': case 'binary': case 'raw': ret = str.length break case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': ret = str.length * 2 break case 'hex': ret = str.length >>> 1 break case 'utf8': case 'utf-8': ret = utf8ToBytes(str).length break case 'base64': ret = base64ToBytes(str).length break default: ret = str.length } return ret } // pre-set for values that may exist in the future Buffer.prototype.length = undefined Buffer.prototype.parent = undefined // toString(encoding, start=0, end=buffer.length) Buffer.prototype.toString = function (encoding, start, end) { var loweredCase = false start = start >>> 0 end = end === undefined || end === Infinity ? this.length : end >>> 0 if (!encoding) encoding = 'utf8' if (start < 0) start = 0 if (end > this.length) end = this.length if (end <= start) return '' while (true) { switch (encoding) { case 'hex': return hexSlice(this, start, end) case 'utf8': case 'utf-8': return utf8Slice(this, start, end) case 'ascii': return asciiSlice(this, start, end) case 'binary': return binarySlice(this, start, end) case 'base64': return base64Slice(this, start, end) case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': return utf16leSlice(this, start, end) default: if (loweredCase) throw new TypeError('Unknown encoding: ' + encoding) encoding = (encoding + '').toLowerCase() loweredCase = true } } } Buffer.prototype.equals = function (b) { if(!Buffer.isBuffer(b)) throw new TypeError('Argument must be a Buffer') return Buffer.compare(this, b) === 0 } Buffer.prototype.inspect = function () { var str = '' var max = exports.INSPECT_MAX_BYTES if (this.length > 0) { str = this.toString('hex', 0, max).match(/.{2}/g).join(' ') if (this.length > max) str += ' ... ' } return '' } Buffer.prototype.compare = function (b) { if (!Buffer.isBuffer(b)) throw new TypeError('Argument must be a Buffer') return Buffer.compare(this, b) } // `get` will be removed in Node 0.13+ Buffer.prototype.get = function (offset) { console.log('.get() is deprecated. Access using array indexes instead.') return this.readUInt8(offset) } // `set` will be removed in Node 0.13+ Buffer.prototype.set = function (v, offset) { console.log('.set() is deprecated. Access using array indexes instead.') return this.writeUInt8(v, offset) } function hexWrite (buf, string, offset, length) { offset = Number(offset) || 0 var remaining = buf.length - offset if (!length) { length = remaining } else { length = Number(length) if (length > remaining) { length = remaining } } // must be an even number of digits var strLen = string.length if (strLen % 2 !== 0) throw new Error('Invalid hex string') if (length > strLen / 2) { length = strLen / 2 } for (var i = 0; i < length; i++) { var byte = parseInt(string.substr(i * 2, 2), 16) if (isNaN(byte)) throw new Error('Invalid hex string') buf[offset + i] = byte } return i } function utf8Write (buf, string, offset, length) { var charsWritten = blitBuffer(utf8ToBytes(string), buf, offset, length) return charsWritten } function asciiWrite (buf, string, offset, length) { var charsWritten = blitBuffer(asciiToBytes(string), buf, offset, length) return charsWritten } function binaryWrite (buf, string, offset, length) { return asciiWrite(buf, string, offset, length) } function base64Write (buf, string, offset, length) { var charsWritten = blitBuffer(base64ToBytes(string), buf, offset, length) return charsWritten } function utf16leWrite (buf, string, offset, length) { var charsWritten = blitBuffer(utf16leToBytes(string), buf, offset, length, 2) return charsWritten } Buffer.prototype.write = function (string, offset, length, encoding) { // Support both (string, offset, length, encoding) // and the legacy (string, encoding, offset, length) if (isFinite(offset)) { if (!isFinite(length)) { encoding = length length = undefined } } else { // legacy var swap = encoding encoding = offset offset = length length = swap } offset = Number(offset) || 0 var remaining = this.length - offset if (!length) { length = remaining } else { length = Number(length) if (length > remaining) { length = remaining } } encoding = String(encoding || 'utf8').toLowerCase() var ret switch (encoding) { case 'hex': ret = hexWrite(this, string, offset, length) break case 'utf8': case 'utf-8': ret = utf8Write(this, string, offset, length) break case 'ascii': ret = asciiWrite(this, string, offset, length) break case 'binary': ret = binaryWrite(this, string, offset, length) break case 'base64': ret = base64Write(this, string, offset, length) break case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': ret = utf16leWrite(this, string, offset, length) break default: throw new TypeError('Unknown encoding: ' + encoding) } return ret } Buffer.prototype.toJSON = function () { return { type: 'Buffer', data: Array.prototype.slice.call(this._arr || this, 0) } } function base64Slice (buf, start, end) { if (start === 0 && end === buf.length) { return base64.fromByteArray(buf) } else { return base64.fromByteArray(buf.slice(start, end)) } } function utf8Slice (buf, start, end) { var res = '' var tmp = '' end = Math.min(buf.length, end) for (var i = start; i < end; i++) { if (buf[i] <= 0x7F) { res += decodeUtf8Char(tmp) + String.fromCharCode(buf[i]) tmp = '' } else { tmp += '%' + buf[i].toString(16) } } return res + decodeUtf8Char(tmp) } function asciiSlice (buf, start, end) { var ret = '' end = Math.min(buf.length, end) for (var i = start; i < end; i++) { ret += String.fromCharCode(buf[i]) } return ret } function binarySlice (buf, start, end) { return asciiSlice(buf, start, end) } function hexSlice (buf, start, end) { var len = buf.length if (!start || start < 0) start = 0 if (!end || end < 0 || end > len) end = len var out = '' for (var i = start; i < end; i++) { out += toHex(buf[i]) } return out } function utf16leSlice (buf, start, end) { var bytes = buf.slice(start, end) var res = '' for (var i = 0; i < bytes.length; i += 2) { res += String.fromCharCode(bytes[i] + bytes[i + 1] * 256) } return res } Buffer.prototype.slice = function (start, end) { var len = this.length start = ~~start end = end === undefined ? len : ~~end if (start < 0) { start += len; if (start < 0) start = 0 } else if (start > len) { start = len } if (end < 0) { end += len if (end < 0) end = 0 } else if (end > len) { end = len } if (end < start) end = start if (Buffer.TYPED_ARRAY_SUPPORT) { return Buffer._augment(this.subarray(start, end)) } else { var sliceLen = end - start var newBuf = new Buffer(sliceLen, undefined, true) for (var i = 0; i < sliceLen; i++) { newBuf[i] = this[i + start] } return newBuf } } /* * Need to make sure that buffer isn't trying to write out of bounds. */ function checkOffset (offset, ext, length) { if ((offset % 1) !== 0 || offset < 0) throw new RangeError('offset is not uint') if (offset + ext > length) throw new RangeError('Trying to access beyond buffer length') } Buffer.prototype.readUInt8 = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 1, this.length) return this[offset] } Buffer.prototype.readUInt16LE = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 2, this.length) return this[offset] | (this[offset + 1] << 8) } Buffer.prototype.readUInt16BE = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 2, this.length) return (this[offset] << 8) | this[offset + 1] } Buffer.prototype.readUInt32LE = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 4, this.length) return ((this[offset]) | (this[offset + 1] << 8) | (this[offset + 2] << 16)) + (this[offset + 3] * 0x1000000) } Buffer.prototype.readUInt32BE = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 4, this.length) return (this[offset] * 0x1000000) + ((this[offset + 1] << 16) | (this[offset + 2] << 8) | this[offset + 3]) } Buffer.prototype.readInt8 = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 1, this.length) if (!(this[offset] & 0x80)) return (this[offset]) return ((0xff - this[offset] + 1) * -1) } Buffer.prototype.readInt16LE = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 2, this.length) var val = this[offset] | (this[offset + 1] << 8) return (val & 0x8000) ? val | 0xFFFF0000 : val } Buffer.prototype.readInt16BE = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 2, this.length) var val = this[offset + 1] | (this[offset] << 8) return (val & 0x8000) ? val | 0xFFFF0000 : val } Buffer.prototype.readInt32LE = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 4, this.length) return (this[offset]) | (this[offset + 1] << 8) | (this[offset + 2] << 16) | (this[offset + 3] << 24) } Buffer.prototype.readInt32BE = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 4, this.length) return (this[offset] << 24) | (this[offset + 1] << 16) | (this[offset + 2] << 8) | (this[offset + 3]) } Buffer.prototype.readFloatLE = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 4, this.length) return ieee754.read(this, offset, true, 23, 4) } Buffer.prototype.readFloatBE = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 4, this.length) return ieee754.read(this, offset, false, 23, 4) } Buffer.prototype.readDoubleLE = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 8, this.length) return ieee754.read(this, offset, true, 52, 8) } Buffer.prototype.readDoubleBE = function (offset, noAssert) { if (!noAssert) checkOffset(offset, 8, this.length) return ieee754.read(this, offset, false, 52, 8) } function checkInt (buf, value, offset, ext, max, min) { if (!Buffer.isBuffer(buf)) throw new TypeError('buffer must be a Buffer instance') if (value > max || value < min) throw new TypeError('value is out of bounds') if (offset + ext > buf.length) throw new TypeError('index out of range') } Buffer.prototype.writeUInt8 = function (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 1, 0xff, 0) if (!Buffer.TYPED_ARRAY_SUPPORT) value = Math.floor(value) this[offset] = value return offset + 1 } function objectWriteUInt16 (buf, value, offset, littleEndian) { if (value < 0) value = 0xffff + value + 1 for (var i = 0, j = Math.min(buf.length - offset, 2); i < j; i++) { buf[offset + i] = (value & (0xff << (8 * (littleEndian ? i : 1 - i)))) >>> (littleEndian ? i : 1 - i) * 8 } } Buffer.prototype.writeUInt16LE = function (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = value this[offset + 1] = (value >>> 8) } else objectWriteUInt16(this, value, offset, true) return offset + 2 } Buffer.prototype.writeUInt16BE = function (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 2, 0xffff, 0) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = (value >>> 8) this[offset + 1] = value } else objectWriteUInt16(this, value, offset, false) return offset + 2 } function objectWriteUInt32 (buf, value, offset, littleEndian) { if (value < 0) value = 0xffffffff + value + 1 for (var i = 0, j = Math.min(buf.length - offset, 4); i < j; i++) { buf[offset + i] = (value >>> (littleEndian ? i : 3 - i) * 8) & 0xff } } Buffer.prototype.writeUInt32LE = function (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset + 3] = (value >>> 24) this[offset + 2] = (value >>> 16) this[offset + 1] = (value >>> 8) this[offset] = value } else objectWriteUInt32(this, value, offset, true) return offset + 4 } Buffer.prototype.writeUInt32BE = function (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 4, 0xffffffff, 0) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = (value >>> 24) this[offset + 1] = (value >>> 16) this[offset + 2] = (value >>> 8) this[offset + 3] = value } else objectWriteUInt32(this, value, offset, false) return offset + 4 } Buffer.prototype.writeInt8 = function (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 1, 0x7f, -0x80) if (!Buffer.TYPED_ARRAY_SUPPORT) value = Math.floor(value) if (value < 0) value = 0xff + value + 1 this[offset] = value return offset + 1 } Buffer.prototype.writeInt16LE = function (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = value this[offset + 1] = (value >>> 8) } else objectWriteUInt16(this, value, offset, true) return offset + 2 } Buffer.prototype.writeInt16BE = function (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 2, 0x7fff, -0x8000) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = (value >>> 8) this[offset + 1] = value } else objectWriteUInt16(this, value, offset, false) return offset + 2 } Buffer.prototype.writeInt32LE = function (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000) if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = value this[offset + 1] = (value >>> 8) this[offset + 2] = (value >>> 16) this[offset + 3] = (value >>> 24) } else objectWriteUInt32(this, value, offset, true) return offset + 4 } Buffer.prototype.writeInt32BE = function (value, offset, noAssert) { value = +value offset = offset >>> 0 if (!noAssert) checkInt(this, value, offset, 4, 0x7fffffff, -0x80000000) if (value < 0) value = 0xffffffff + value + 1 if (Buffer.TYPED_ARRAY_SUPPORT) { this[offset] = (value >>> 24) this[offset + 1] = (value >>> 16) this[offset + 2] = (value >>> 8) this[offset + 3] = value } else objectWriteUInt32(this, value, offset, false) return offset + 4 } function checkIEEE754 (buf, value, offset, ext, max, min) { if (value > max || value < min) throw new TypeError('value is out of bounds') if (offset + ext > buf.length) throw new TypeError('index out of range') } function writeFloat (buf, value, offset, littleEndian, noAssert) { if (!noAssert) checkIEEE754(buf, value, offset, 4, 3.4028234663852886e+38, -3.4028234663852886e+38) ieee754.write(buf, value, offset, littleEndian, 23, 4) return offset + 4 } Buffer.prototype.writeFloatLE = function (value, offset, noAssert) { return writeFloat(this, value, offset, true, noAssert) } Buffer.prototype.writeFloatBE = function (value, offset, noAssert) { return writeFloat(this, value, offset, false, noAssert) } function writeDouble (buf, value, offset, littleEndian, noAssert) { if (!noAssert) checkIEEE754(buf, value, offset, 8, 1.7976931348623157E+308, -1.7976931348623157E+308) ieee754.write(buf, value, offset, littleEndian, 52, 8) return offset + 8 } Buffer.prototype.writeDoubleLE = function (value, offset, noAssert) { return writeDouble(this, value, offset, true, noAssert) } Buffer.prototype.writeDoubleBE = function (value, offset, noAssert) { return writeDouble(this, value, offset, false, noAssert) } // copy(targetBuffer, targetStart=0, sourceStart=0, sourceEnd=buffer.length) Buffer.prototype.copy = function (target, target_start, start, end) { var source = this if (!start) start = 0 if (!end && end !== 0) end = this.length if (!target_start) target_start = 0 // Copy 0 bytes; we're done if (end === start) return if (target.length === 0 || source.length === 0) return // Fatal error conditions if (end < start) throw new TypeError('sourceEnd < sourceStart') if (target_start < 0 || target_start >= target.length) throw new TypeError('targetStart out of bounds') if (start < 0 || start >= source.length) throw new TypeError('sourceStart out of bounds') if (end < 0 || end > source.length) throw new TypeError('sourceEnd out of bounds') // Are we oob? if (end > this.length) end = this.length if (target.length - target_start < end - start) end = target.length - target_start + start var len = end - start if (len < 1000 || !Buffer.TYPED_ARRAY_SUPPORT) { for (var i = 0; i < len; i++) { target[i + target_start] = this[i + start] } } else { target._set(this.subarray(start, start + len), target_start) } } // fill(value, start=0, end=buffer.length) Buffer.prototype.fill = function (value, start, end) { if (!value) value = 0 if (!start) start = 0 if (!end) end = this.length if (end < start) throw new TypeError('end < start') // Fill 0 bytes; we're done if (end === start) return if (this.length === 0) return if (start < 0 || start >= this.length) throw new TypeError('start out of bounds') if (end < 0 || end > this.length) throw new TypeError('end out of bounds') var i if (typeof value === 'number') { for (i = start; i < end; i++) { this[i] = value } } else { var bytes = utf8ToBytes(value.toString()) var len = bytes.length for (i = start; i < end; i++) { this[i] = bytes[i % len] } } return this } /** * Creates a new `ArrayBuffer` with the *copied* memory of the buffer instance. * Added in Node 0.12. Only available in browsers that support ArrayBuffer. */ Buffer.prototype.toArrayBuffer = function () { if (typeof Uint8Array !== 'undefined') { if (Buffer.TYPED_ARRAY_SUPPORT) { return (new Buffer(this)).buffer } else { var buf = new Uint8Array(this.length) for (var i = 0, len = buf.length; i < len; i += 1) { buf[i] = this[i] } return buf.buffer } } else { throw new TypeError('Buffer.toArrayBuffer not supported in this browser') } } // HELPER FUNCTIONS // ================ var BP = Buffer.prototype /** * Augment a Uint8Array *instance* (not the Uint8Array class!) with Buffer methods */ Buffer._augment = function (arr) { arr.constructor = Buffer arr._isBuffer = true // save reference to original Uint8Array get/set methods before overwriting arr._get = arr.get arr._set = arr.set // deprecated, will be removed in node 0.13+ arr.get = BP.get arr.set = BP.set arr.write = BP.write arr.toString = BP.toString arr.toLocaleString = BP.toString arr.toJSON = BP.toJSON arr.equals = BP.equals arr.compare = BP.compare arr.copy = BP.copy arr.slice = BP.slice arr.readUInt8 = BP.readUInt8 arr.readUInt16LE = BP.readUInt16LE arr.readUInt16BE = BP.readUInt16BE arr.readUInt32LE = BP.readUInt32LE arr.readUInt32BE = BP.readUInt32BE arr.readInt8 = BP.readInt8 arr.readInt16LE = BP.readInt16LE arr.readInt16BE = BP.readInt16BE arr.readInt32LE = BP.readInt32LE arr.readInt32BE = BP.readInt32BE arr.readFloatLE = BP.readFloatLE arr.readFloatBE = BP.readFloatBE arr.readDoubleLE = BP.readDoubleLE arr.readDoubleBE = BP.readDoubleBE arr.writeUInt8 = BP.writeUInt8 arr.writeUInt16LE = BP.writeUInt16LE arr.writeUInt16BE = BP.writeUInt16BE arr.writeUInt32LE = BP.writeUInt32LE arr.writeUInt32BE = BP.writeUInt32BE arr.writeInt8 = BP.writeInt8 arr.writeInt16LE = BP.writeInt16LE arr.writeInt16BE = BP.writeInt16BE arr.writeInt32LE = BP.writeInt32LE arr.writeInt32BE = BP.writeInt32BE arr.writeFloatLE = BP.writeFloatLE arr.writeFloatBE = BP.writeFloatBE arr.writeDoubleLE = BP.writeDoubleLE arr.writeDoubleBE = BP.writeDoubleBE arr.fill = BP.fill arr.inspect = BP.inspect arr.toArrayBuffer = BP.toArrayBuffer return arr } var INVALID_BASE64_RE = /[^+\/0-9A-z]/g function base64clean (str) { // Node strips out invalid characters like \n and \t from the string, base64-js does not str = stringtrim(str).replace(INVALID_BASE64_RE, '') // Node allows for non-padded base64 strings (missing trailing ===), base64-js does not while (str.length % 4 !== 0) { str = str + '=' } return str } function stringtrim (str) { if (str.trim) return str.trim() return str.replace(/^\s+|\s+$/g, '') } function isArrayish (subject) { return isArray(subject) || Buffer.isBuffer(subject) || subject && typeof subject === 'object' && typeof subject.length === 'number' } function toHex (n) { if (n < 16) return '0' + n.toString(16) return n.toString(16) } function utf8ToBytes (str) { var byteArray = [] for (var i = 0; i < str.length; i++) { var b = str.charCodeAt(i) if (b <= 0x7F) { byteArray.push(b) } else { var start = i if (b >= 0xD800 && b <= 0xDFFF) i++ var h = encodeURIComponent(str.slice(start, i+1)).substr(1).split('%') for (var j = 0; j < h.length; j++) { byteArray.push(parseInt(h[j], 16)) } } } return byteArray } function asciiToBytes (str) { var byteArray = [] for (var i = 0; i < str.length; i++) { // Node's code seems to be doing this and not & 0x7F.. byteArray.push(str.charCodeAt(i) & 0xFF) } return byteArray } function utf16leToBytes (str) { var c, hi, lo var byteArray = [] for (var i = 0; i < str.length; i++) { c = str.charCodeAt(i) hi = c >> 8 lo = c % 256 byteArray.push(lo) byteArray.push(hi) } return byteArray } function base64ToBytes (str) { return base64.toByteArray(str) } function blitBuffer (src, dst, offset, length, unitSize) { if (unitSize) length -= length % unitSize; for (var i = 0; i < length; i++) { if ((i + offset >= dst.length) || (i >= src.length)) break dst[i + offset] = src[i] } return i } function decodeUtf8Char (str) { try { return decodeURIComponent(str) } catch (err) { return String.fromCharCode(0xFFFD) // UTF 8 invalid char } } },{"5":5,"6":6,"7":7}],5:[function(require,module,exports){ var lookup = 'ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789+/'; ;(function (exports) { 'use strict'; var Arr = (typeof Uint8Array !== 'undefined') ? Uint8Array : Array var PLUS = '+'.charCodeAt(0) var SLASH = '/'.charCodeAt(0) var NUMBER = '0'.charCodeAt(0) var LOWER = 'a'.charCodeAt(0) var UPPER = 'A'.charCodeAt(0) function decode (elt) { var code = elt.charCodeAt(0) if (code === PLUS) return 62 // '+' if (code === SLASH) return 63 // '/' if (code < NUMBER) return -1 //no match if (code < NUMBER + 10) return code - NUMBER + 26 + 26 if (code < UPPER + 26) return code - UPPER if (code < LOWER + 26) return code - LOWER + 26 } function b64ToByteArray (b64) { var i, j, l, tmp, placeHolders, arr if (b64.length % 4 > 0) { throw new Error('Invalid string. Length must be a multiple of 4') } // the number of equal signs (place holders) // if there are two placeholders, than the two characters before it // represent one byte // if there is only one, then the three characters before it represent 2 bytes // this is just a cheap hack to not do indexOf twice var len = b64.length placeHolders = '=' === b64.charAt(len - 2) ? 2 : '=' === b64.charAt(len - 1) ? 1 : 0 // base64 is 4/3 + up to two characters of the original data arr = new Arr(b64.length * 3 / 4 - placeHolders) // if there are placeholders, only get up to the last complete 4 chars l = placeHolders > 0 ? b64.length - 4 : b64.length var L = 0 function push (v) { arr[L++] = v } for (i = 0, j = 0; i < l; i += 4, j += 3) { tmp = (decode(b64.charAt(i)) << 18) | (decode(b64.charAt(i + 1)) << 12) | (decode(b64.charAt(i + 2)) << 6) | decode(b64.charAt(i + 3)) push((tmp & 0xFF0000) >> 16) push((tmp & 0xFF00) >> 8) push(tmp & 0xFF) } if (placeHolders === 2) { tmp = (decode(b64.charAt(i)) << 2) | (decode(b64.charAt(i + 1)) >> 4) push(tmp & 0xFF) } else if (placeHolders === 1) { tmp = (decode(b64.charAt(i)) << 10) | (decode(b64.charAt(i + 1)) << 4) | (decode(b64.charAt(i + 2)) >> 2) push((tmp >> 8) & 0xFF) push(tmp & 0xFF) } return arr } function uint8ToBase64 (uint8) { var i, extraBytes = uint8.length % 3, // if we have 1 byte left, pad 2 bytes output = "", temp, length function encode (num) { return lookup.charAt(num) } function tripletToBase64 (num) { return encode(num >> 18 & 0x3F) + encode(num >> 12 & 0x3F) + encode(num >> 6 & 0x3F) + encode(num & 0x3F) } // go through the array every three bytes, we'll deal with trailing stuff later for (i = 0, length = uint8.length - extraBytes; i < length; i += 3) { temp = (uint8[i] << 16) + (uint8[i + 1] << 8) + (uint8[i + 2]) output += tripletToBase64(temp) } // pad the end with zeros, but make sure to not forget the extra bytes switch (extraBytes) { case 1: temp = uint8[uint8.length - 1] output += encode(temp >> 2) output += encode((temp << 4) & 0x3F) output += '==' break case 2: temp = (uint8[uint8.length - 2] << 8) + (uint8[uint8.length - 1]) output += encode(temp >> 10) output += encode((temp >> 4) & 0x3F) output += encode((temp << 2) & 0x3F) output += '=' break } return output } exports.toByteArray = b64ToByteArray exports.fromByteArray = uint8ToBase64 }(typeof exports === 'undefined' ? (this.base64js = {}) : exports)) },{}],6:[function(require,module,exports){ exports.read = function (buffer, offset, isLE, mLen, nBytes) { var e, m var eLen = nBytes * 8 - mLen - 1 var eMax = (1 << eLen) - 1 var eBias = eMax >> 1 var nBits = -7 var i = isLE ? (nBytes - 1) : 0 var d = isLE ? -1 : 1 var s = buffer[offset + i] i += d e = s & ((1 << (-nBits)) - 1) s >>= (-nBits) nBits += eLen for (; nBits > 0; e = e * 256 + buffer[offset + i], i += d, nBits -= 8) {} m = e & ((1 << (-nBits)) - 1) e >>= (-nBits) nBits += mLen for (; nBits > 0; m = m * 256 + buffer[offset + i], i += d, nBits -= 8) {} if (e === 0) { e = 1 - eBias } else if (e === eMax) { return m ? NaN : ((s ? -1 : 1) * Infinity) } else { m = m + Math.pow(2, mLen) e = e - eBias } return (s ? -1 : 1) * m * Math.pow(2, e - mLen) } exports.write = function (buffer, value, offset, isLE, mLen, nBytes) { var e, m, c var eLen = nBytes * 8 - mLen - 1 var eMax = (1 << eLen) - 1 var eBias = eMax >> 1 var rt = (mLen === 23 ? Math.pow(2, -24) - Math.pow(2, -77) : 0) var i = isLE ? 0 : (nBytes - 1) var d = isLE ? 1 : -1 var s = value < 0 || (value === 0 && 1 / value < 0) ? 1 : 0 value = Math.abs(value) if (isNaN(value) || value === Infinity) { m = isNaN(value) ? 1 : 0 e = eMax } else { e = Math.floor(Math.log(value) / Math.LN2) if (value * (c = Math.pow(2, -e)) < 1) { e-- c *= 2 } if (e + eBias >= 1) { value += rt / c } else { value += rt * Math.pow(2, 1 - eBias) } if (value * c >= 2) { e++ c /= 2 } if (e + eBias >= eMax) { m = 0 e = eMax } else if (e + eBias >= 1) { m = (value * c - 1) * Math.pow(2, mLen) e = e + eBias } else { m = value * Math.pow(2, eBias - 1) * Math.pow(2, mLen) e = 0 } } for (; mLen >= 8; buffer[offset + i] = m & 0xff, i += d, m /= 256, mLen -= 8) {} e = (e << mLen) | m eLen += mLen for (; eLen > 0; buffer[offset + i] = e & 0xff, i += d, e /= 256, eLen -= 8) {} buffer[offset + i - d] |= s * 128 } },{}],7:[function(require,module,exports){ /** * isArray */ var isArray = Array.isArray; /** * toString */ var str = Object.prototype.toString; /** * Whether or not the given `val` * is an array. * * example: * * isArray([]); * // > true * isArray(arguments); * // > false * isArray(''); * // > false * * @param {mixed} val * @return {bool} */ module.exports = isArray || function (val) { return !! val && '[object Array]' == str.call(val); }; },{}],8:[function(require,module,exports){ 'use strict' exports.randomBytes = exports.rng = exports.pseudoRandomBytes = exports.prng = require(194) exports.createHash = exports.Hash = require(127) exports.createHmac = exports.Hmac = require(140) var hashes = ['sha1', 'sha224', 'sha256', 'sha384', 'sha512', 'md5', 'rmd160'].concat(Object.keys(require(38))) exports.getHashes = function () { return hashes } var p = require(148) exports.pbkdf2 = p.pbkdf2 exports.pbkdf2Sync = p.pbkdf2Sync var aes = require(9) ;[ 'Cipher', 'createCipher', 'Cipheriv', 'createCipheriv', 'Decipher', 'createDecipher', 'Decipheriv', 'createDecipheriv', 'getCiphers', 'listCiphers' ].forEach(function (key) { exports[key] = aes[key] }) var dh = require(141) ;[ 'DiffieHellmanGroup', 'createDiffieHellmanGroup', 'getDiffieHellman', 'createDiffieHellman', 'DiffieHellman' ].forEach(function (key) { exports[key] = dh[key] }) var sign = require(39) ;[ 'createSign', 'Sign', 'createVerify', 'Verify' ].forEach(function (key) { exports[key] = sign[key] }) exports.createECDH = require(104) var publicEncrypt = require(149) ;[ 'publicEncrypt', 'privateEncrypt', 'publicDecrypt', 'privateDecrypt' ].forEach(function (key) { exports[key] = publicEncrypt[key] }) // the least I can do is make error messages for the rest of the node.js/crypto api. ;[ 'createCredentials' ].forEach(function (name) { exports[name] = function () { throw new Error([ 'sorry, ' + name + ' is not implemented yet', 'we accept pull requests', 'https://github.com/crypto-browserify/crypto-browserify' ].join('\n')) } }) },{"104":104,"127":127,"140":140,"141":141,"148":148,"149":149,"194":194,"38":38,"39":39,"9":9}],9:[function(require,module,exports){ var ebtk = require(37) var aes = require(12) var DES = require(27) var desModes = require(28) var aesModes = require(16) function createCipher (suite, password) { var keyLen, ivLen suite = suite.toLowerCase() if (aesModes[suite]) { keyLen = aesModes[suite].key ivLen = aesModes[suite].iv } else if (desModes[suite]) { keyLen = desModes[suite].key * 8 ivLen = desModes[suite].iv } else { throw new TypeError('invalid suite type') } var keys = ebtk(password, false, keyLen, ivLen) return createCipheriv(suite, keys.key, keys.iv) } function createDecipher (suite, password) { var keyLen, ivLen suite = suite.toLowerCase() if (aesModes[suite]) { keyLen = aesModes[suite].key ivLen = aesModes[suite].iv } else if (desModes[suite]) { keyLen = desModes[suite].key * 8 ivLen = desModes[suite].iv } else { throw new TypeError('invalid suite type') } var keys = ebtk(password, false, keyLen, ivLen) return createDecipheriv(suite, keys.key, keys.iv) } function createCipheriv (suite, key, iv) { suite = suite.toLowerCase() if (aesModes[suite]) { return aes.createCipheriv(suite, key, iv) } else if (desModes[suite]) { return new DES({ key: key, iv: iv, mode: suite }) } else { throw new TypeError('invalid suite type') } } function createDecipheriv (suite, key, iv) { suite = suite.toLowerCase() if (aesModes[suite]) { return aes.createDecipheriv(suite, key, iv) } else if (desModes[suite]) { return new DES({ key: key, iv: iv, mode: suite, decrypt: true }) } else { throw new TypeError('invalid suite type') } } exports.createCipher = exports.Cipher = createCipher exports.createCipheriv = exports.Cipheriv = createCipheriv exports.createDecipher = exports.Decipher = createDecipher exports.createDecipheriv = exports.Decipheriv = createDecipheriv function getCiphers () { return Object.keys(desModes).concat(aes.getCiphers()) } exports.listCiphers = exports.getCiphers = getCiphers },{"12":12,"16":16,"27":27,"28":28,"37":37}],10:[function(require,module,exports){ (function (Buffer){ // based on the aes implimentation in triple sec // https://github.com/keybase/triplesec // which is in turn based on the one from crypto-js // https://code.google.com/p/crypto-js/ var uint_max = Math.pow(2, 32) function fixup_uint32 (x) { var ret, x_pos ret = x > uint_max || x < 0 ? (x_pos = Math.abs(x) % uint_max, x < 0 ? uint_max - x_pos : x_pos) : x return ret } function scrub_vec (v) { for (var i = 0; i < v.length; v++) { v[i] = 0 } return false } function Global () { this.SBOX = [] this.INV_SBOX = [] this.SUB_MIX = [[], [], [], []] this.INV_SUB_MIX = [[], [], [], []] this.init() this.RCON = [0x00, 0x01, 0x02, 0x04, 0x08, 0x10, 0x20, 0x40, 0x80, 0x1b, 0x36] } Global.prototype.init = function () { var d, i, sx, t, x, x2, x4, x8, xi, _i d = (function () { var _i, _results _results = [] for (i = _i = 0; _i < 256; i = ++_i) { if (i < 128) { _results.push(i << 1) } else { _results.push((i << 1) ^ 0x11b) } } return _results })() x = 0 xi = 0 for (i = _i = 0; _i < 256; i = ++_i) { sx = xi ^ (xi << 1) ^ (xi << 2) ^ (xi << 3) ^ (xi << 4) sx = (sx >>> 8) ^ (sx & 0xff) ^ 0x63 this.SBOX[x] = sx this.INV_SBOX[sx] = x x2 = d[x] x4 = d[x2] x8 = d[x4] t = (d[sx] * 0x101) ^ (sx * 0x1010100) this.SUB_MIX[0][x] = (t << 24) | (t >>> 8) this.SUB_MIX[1][x] = (t << 16) | (t >>> 16) this.SUB_MIX[2][x] = (t << 8) | (t >>> 24) this.SUB_MIX[3][x] = t t = (x8 * 0x1010101) ^ (x4 * 0x10001) ^ (x2 * 0x101) ^ (x * 0x1010100) this.INV_SUB_MIX[0][sx] = (t << 24) | (t >>> 8) this.INV_SUB_MIX[1][sx] = (t << 16) | (t >>> 16) this.INV_SUB_MIX[2][sx] = (t << 8) | (t >>> 24) this.INV_SUB_MIX[3][sx] = t if (x === 0) { x = xi = 1 } else { x = x2 ^ d[d[d[x8 ^ x2]]] xi ^= d[d[xi]] } } return true } var G = new Global() AES.blockSize = 4 * 4 AES.prototype.blockSize = AES.blockSize AES.keySize = 256 / 8 AES.prototype.keySize = AES.keySize function bufferToArray (buf) { var len = buf.length / 4 var out = new Array(len) var i = -1 while (++i < len) { out[i] = buf.readUInt32BE(i * 4) } return out } function AES (key) { this._key = bufferToArray(key) this._doReset() } AES.prototype._doReset = function () { var invKsRow, keySize, keyWords, ksRow, ksRows, t keyWords = this._key keySize = keyWords.length this._nRounds = keySize + 6 ksRows = (this._nRounds + 1) * 4 this._keySchedule = [] for (ksRow = 0; ksRow < ksRows; ksRow++) { this._keySchedule[ksRow] = ksRow < keySize ? keyWords[ksRow] : (t = this._keySchedule[ksRow - 1], (ksRow % keySize) === 0 ? (t = (t << 8) | (t >>> 24), t = (G.SBOX[t >>> 24] << 24) | (G.SBOX[(t >>> 16) & 0xff] << 16) | (G.SBOX[(t >>> 8) & 0xff] << 8) | G.SBOX[t & 0xff], t ^= G.RCON[(ksRow / keySize) | 0] << 24) : keySize > 6 && ksRow % keySize === 4 ? t = (G.SBOX[t >>> 24] << 24) | (G.SBOX[(t >>> 16) & 0xff] << 16) | (G.SBOX[(t >>> 8) & 0xff] << 8) | G.SBOX[t & 0xff] : void 0, this._keySchedule[ksRow - keySize] ^ t) } this._invKeySchedule = [] for (invKsRow = 0; invKsRow < ksRows; invKsRow++) { ksRow = ksRows - invKsRow t = this._keySchedule[ksRow - (invKsRow % 4 ? 0 : 4)] this._invKeySchedule[invKsRow] = invKsRow < 4 || ksRow <= 4 ? t : G.INV_SUB_MIX[0][G.SBOX[t >>> 24]] ^ G.INV_SUB_MIX[1][G.SBOX[(t >>> 16) & 0xff]] ^ G.INV_SUB_MIX[2][G.SBOX[(t >>> 8) & 0xff]] ^ G.INV_SUB_MIX[3][G.SBOX[t & 0xff]] } return true } AES.prototype.encryptBlock = function (M) { M = bufferToArray(new Buffer(M)) var out = this._doCryptBlock(M, this._keySchedule, G.SUB_MIX, G.SBOX) var buf = new Buffer(16) buf.writeUInt32BE(out[0], 0) buf.writeUInt32BE(out[1], 4) buf.writeUInt32BE(out[2], 8) buf.writeUInt32BE(out[3], 12) return buf } AES.prototype.decryptBlock = function (M) { M = bufferToArray(new Buffer(M)) var temp = [M[3], M[1]] M[1] = temp[0] M[3] = temp[1] var out = this._doCryptBlock(M, this._invKeySchedule, G.INV_SUB_MIX, G.INV_SBOX) var buf = new Buffer(16) buf.writeUInt32BE(out[0], 0) buf.writeUInt32BE(out[3], 4) buf.writeUInt32BE(out[2], 8) buf.writeUInt32BE(out[1], 12) return buf } AES.prototype.scrub = function () { scrub_vec(this._keySchedule) scrub_vec(this._invKeySchedule) scrub_vec(this._key) } AES.prototype._doCryptBlock = function (M, keySchedule, SUB_MIX, SBOX) { var ksRow, s0, s1, s2, s3, t0, t1, t2, t3 s0 = M[0] ^ keySchedule[0] s1 = M[1] ^ keySchedule[1] s2 = M[2] ^ keySchedule[2] s3 = M[3] ^ keySchedule[3] ksRow = 4 for (var round = 1; round < this._nRounds; round++) { t0 = SUB_MIX[0][s0 >>> 24] ^ SUB_MIX[1][(s1 >>> 16) & 0xff] ^ SUB_MIX[2][(s2 >>> 8) & 0xff] ^ SUB_MIX[3][s3 & 0xff] ^ keySchedule[ksRow++] t1 = SUB_MIX[0][s1 >>> 24] ^ SUB_MIX[1][(s2 >>> 16) & 0xff] ^ SUB_MIX[2][(s3 >>> 8) & 0xff] ^ SUB_MIX[3][s0 & 0xff] ^ keySchedule[ksRow++] t2 = SUB_MIX[0][s2 >>> 24] ^ SUB_MIX[1][(s3 >>> 16) & 0xff] ^ SUB_MIX[2][(s0 >>> 8) & 0xff] ^ SUB_MIX[3][s1 & 0xff] ^ keySchedule[ksRow++] t3 = SUB_MIX[0][s3 >>> 24] ^ SUB_MIX[1][(s0 >>> 16) & 0xff] ^ SUB_MIX[2][(s1 >>> 8) & 0xff] ^ SUB_MIX[3][s2 & 0xff] ^ keySchedule[ksRow++] s0 = t0 s1 = t1 s2 = t2 s3 = t3 } t0 = ((SBOX[s0 >>> 24] << 24) | (SBOX[(s1 >>> 16) & 0xff] << 16) | (SBOX[(s2 >>> 8) & 0xff] << 8) | SBOX[s3 & 0xff]) ^ keySchedule[ksRow++] t1 = ((SBOX[s1 >>> 24] << 24) | (SBOX[(s2 >>> 16) & 0xff] << 16) | (SBOX[(s3 >>> 8) & 0xff] << 8) | SBOX[s0 & 0xff]) ^ keySchedule[ksRow++] t2 = ((SBOX[s2 >>> 24] << 24) | (SBOX[(s3 >>> 16) & 0xff] << 16) | (SBOX[(s0 >>> 8) & 0xff] << 8) | SBOX[s1 & 0xff]) ^ keySchedule[ksRow++] t3 = ((SBOX[s3 >>> 24] << 24) | (SBOX[(s0 >>> 16) & 0xff] << 16) | (SBOX[(s1 >>> 8) & 0xff] << 8) | SBOX[s2 & 0xff]) ^ keySchedule[ksRow++] return [ fixup_uint32(t0), fixup_uint32(t1), fixup_uint32(t2), fixup_uint32(t3) ] } exports.AES = AES }).call(this,require(4).Buffer) },{"4":4}],11:[function(require,module,exports){ (function (Buffer){ var aes = require(10) var Transform = require(25) var inherits = require(196) var GHASH = require(15) var xor = require(24) inherits(StreamCipher, Transform) module.exports = StreamCipher function StreamCipher (mode, key, iv, decrypt) { if (!(this instanceof StreamCipher)) { return new StreamCipher(mode, key, iv) } Transform.call(this) this._finID = Buffer.concat([iv, new Buffer([0, 0, 0, 1])]) iv = Buffer.concat([iv, new Buffer([0, 0, 0, 2])]) this._cipher = new aes.AES(key) this._prev = new Buffer(iv.length) this._cache = new Buffer('') this._secCache = new Buffer('') this._decrypt = decrypt this._alen = 0 this._len = 0 iv.copy(this._prev) this._mode = mode var h = new Buffer(4) h.fill(0) this._ghash = new GHASH(this._cipher.encryptBlock(h)) this._authTag = null this._called = false } StreamCipher.prototype._update = function (chunk) { if (!this._called && this._alen) { var rump = 16 - (this._alen % 16) if (rump < 16) { rump = new Buffer(rump) rump.fill(0) this._ghash.update(rump) } } this._called = true var out = this._mode.encrypt(this, chunk) if (this._decrypt) { this._ghash.update(chunk) } else { this._ghash.update(out) } this._len += chunk.length return out } StreamCipher.prototype._final = function () { if (this._decrypt && !this._authTag) { throw new Error('Unsupported state or unable to authenticate data') } var tag = xor(this._ghash.final(this._alen * 8, this._len * 8), this._cipher.encryptBlock(this._finID)) if (this._decrypt) { if (xorTest(tag, this._authTag)) { throw new Error('Unsupported state or unable to authenticate data') } } else { this._authTag = tag } this._cipher.scrub() } StreamCipher.prototype.getAuthTag = function getAuthTag () { if (!this._decrypt && Buffer.isBuffer(this._authTag)) { return this._authTag } else { throw new Error('Attempting to get auth tag in unsupported state') } } StreamCipher.prototype.setAuthTag = function setAuthTag (tag) { if (this._decrypt) { this._authTag = tag } else { throw new Error('Attempting to set auth tag in unsupported state') } } StreamCipher.prototype.setAAD = function setAAD (buf) { if (!this._called) { this._ghash.update(buf) this._alen += buf.length } else { throw new Error('Attempting to set AAD in unsupported state') } } function xorTest (a, b) { var out = 0 if (a.length !== b.length) { out++ } var len = Math.min(a.length, b.length) var i = -1 while (++i < len) { out += (a[i] ^ b[i]) } return out } }).call(this,require(4).Buffer) },{"10":10,"15":15,"196":196,"24":24,"25":25,"4":4}],12:[function(require,module,exports){ var ciphers = require(14) exports.createCipher = exports.Cipher = ciphers.createCipher exports.createCipheriv = exports.Cipheriv = ciphers.createCipheriv var deciphers = require(13) exports.createDecipher = exports.Decipher = deciphers.createDecipher exports.createDecipheriv = exports.Decipheriv = deciphers.createDecipheriv var modes = require(16) function getCiphers () { return Object.keys(modes) } exports.listCiphers = exports.getCiphers = getCiphers },{"13":13,"14":14,"16":16}],13:[function(require,module,exports){ (function (Buffer){ var aes = require(10) var Transform = require(25) var inherits = require(196) var modes = require(16) var StreamCipher = require(26) var AuthCipher = require(11) var ebtk = require(37) inherits(Decipher, Transform) function Decipher (mode, key, iv) { if (!(this instanceof Decipher)) { return new Decipher(mode, key, iv) } Transform.call(this) this._cache = new Splitter() this._last = void 0 this._cipher = new aes.AES(key) this._prev = new Buffer(iv.length) iv.copy(this._prev) this._mode = mode this._autopadding = true } Decipher.prototype._update = function (data) { this._cache.add(data) var chunk var thing var out = [] while ((chunk = this._cache.get(this._autopadding))) { thing = this._mode.decrypt(this, chunk) out.push(thing) } return Buffer.concat(out) } Decipher.prototype._final = function () { var chunk = this._cache.flush() if (this._autopadding) { return unpad(this._mode.decrypt(this, chunk)) } else if (chunk) { throw new Error('data not multiple of block length') } } Decipher.prototype.setAutoPadding = function (setTo) { this._autopadding = !!setTo } function Splitter () { if (!(this instanceof Splitter)) { return new Splitter() } this.cache = new Buffer('') } Splitter.prototype.add = function (data) { this.cache = Buffer.concat([this.cache, data]) } Splitter.prototype.get = function (autoPadding) { var out if (autoPadding) { if (this.cache.length > 16) { out = this.cache.slice(0, 16) this.cache = this.cache.slice(16) return out } } else { if (this.cache.length >= 16) { out = this.cache.slice(0, 16) this.cache = this.cache.slice(16) return out } } return null } Splitter.prototype.flush = function () { if (this.cache.length) { return this.cache } } function unpad (last) { var padded = last[15] var i = -1 while (++i < padded) { if (last[(i + (16 - padded))] !== padded) { throw new Error('unable to decrypt data') } } if (padded === 16) { return } return last.slice(0, 16 - padded) } var modelist = { ECB: require(22), CBC: require(17), CFB: require(18), CFB8: require(20), CFB1: require(19), OFB: require(23), CTR: require(21), GCM: require(21) } function createDecipheriv (suite, password, iv) { var config = modes[suite.toLowerCase()] if (!config) { throw new TypeError('invalid suite type') } if (typeof iv === 'string') { iv = new Buffer(iv) } if (typeof password === 'string') { password = new Buffer(password) } if (password.length !== config.key / 8) { throw new TypeError('invalid key length ' + password.length) } if (iv.length !== config.iv) { throw new TypeError('invalid iv length ' + iv.length) } if (config.type === 'stream') { return new StreamCipher(modelist[config.mode], password, iv, true) } else if (config.type === 'auth') { return new AuthCipher(modelist[config.mode], password, iv, true) } return new Decipher(modelist[config.mode], password, iv) } function createDecipher (suite, password) { var config = modes[suite.toLowerCase()] if (!config) { throw new TypeError('invalid suite type') } var keys = ebtk(password, false, config.key, config.iv) return createDecipheriv(suite, keys.key, keys.iv) } exports.createDecipher = createDecipher exports.createDecipheriv = createDecipheriv }).call(this,require(4).Buffer) },{"10":10,"11":11,"16":16,"17":17,"18":18,"19":19,"196":196,"20":20,"21":21,"22":22,"23":23,"25":25,"26":26,"37":37,"4":4}],14:[function(require,module,exports){ (function (Buffer){ var aes = require(10) var Transform = require(25) var inherits = require(196) var modes = require(16) var ebtk = require(37) var StreamCipher = require(26) var AuthCipher = require(11) inherits(Cipher, Transform) function Cipher (mode, key, iv) { if (!(this instanceof Cipher)) { return new Cipher(mode, key, iv) } Transform.call(this) this._cache = new Splitter() this._cipher = new aes.AES(key) this._prev = new Buffer(iv.length) iv.copy(this._prev) this._mode = mode this._autopadding = true } Cipher.prototype._update = function (data) { this._cache.add(data) var chunk var thing var out = [] while ((chunk = this._cache.get())) { thing = this._mode.encrypt(this, chunk) out.push(thing) } return Buffer.concat(out) } Cipher.prototype._final = function () { var chunk = this._cache.flush() if (this._autopadding) { chunk = this._mode.encrypt(this, chunk) this._cipher.scrub() return chunk } else if (chunk.toString('hex') !== '10101010101010101010101010101010') { this._cipher.scrub() throw new Error('data not multiple of block length') } } Cipher.prototype.setAutoPadding = function (setTo) { this._autopadding = !!setTo } function Splitter () { if (!(this instanceof Splitter)) { return new Splitter() } this.cache = new Buffer('') } Splitter.prototype.add = function (data) { this.cache = Buffer.concat([this.cache, data]) } Splitter.prototype.get = function () { if (this.cache.length > 15) { var out = this.cache.slice(0, 16) this.cache = this.cache.slice(16) return out } return null } Splitter.prototype.flush = function () { var len = 16 - this.cache.length var padBuff = new Buffer(len) var i = -1 while (++i < len) { padBuff.writeUInt8(len, i) } var out = Buffer.concat([this.cache, padBuff]) return out } var modelist = { ECB: require(22), CBC: require(17), CFB: require(18), CFB8: require(20), CFB1: require(19), OFB: require(23), CTR: require(21), GCM: require(21) } function createCipheriv (suite, password, iv) { var config = modes[suite.toLowerCase()] if (!config) { throw new TypeError('invalid suite type') } if (typeof iv === 'string') { iv = new Buffer(iv) } if (typeof password === 'string') { password = new Buffer(password) } if (password.length !== config.key / 8) { throw new TypeError('invalid key length ' + password.length) } if (iv.length !== config.iv) { throw new TypeError('invalid iv length ' + iv.length) } if (config.type === 'stream') { return new StreamCipher(modelist[config.mode], password, iv) } else if (config.type === 'auth') { return new AuthCipher(modelist[config.mode], password, iv) } return new Cipher(modelist[config.mode], password, iv) } function createCipher (suite, password) { var config = modes[suite.toLowerCase()] if (!config) { throw new TypeError('invalid suite type') } var keys = ebtk(password, false, config.key, config.iv) return createCipheriv(suite, keys.key, keys.iv) } exports.createCipheriv = createCipheriv exports.createCipher = createCipher }).call(this,require(4).Buffer) },{"10":10,"11":11,"16":16,"17":17,"18":18,"19":19,"196":196,"20":20,"21":21,"22":22,"23":23,"25":25,"26":26,"37":37,"4":4}],15:[function(require,module,exports){ (function (Buffer){ var zeros = new Buffer(16) zeros.fill(0) module.exports = GHASH function GHASH (key) { this.h = key this.state = new Buffer(16) this.state.fill(0) this.cache = new Buffer('') } // from http://bitwiseshiftleft.github.io/sjcl/doc/symbols/src/core_gcm.js.html // by Juho Vähä-Herttua GHASH.prototype.ghash = function (block) { var i = -1 while (++i < block.length) { this.state[i] ^= block[i] } this._multiply() } GHASH.prototype._multiply = function () { var Vi = toArray(this.h) var Zi = [0, 0, 0, 0] var j, xi, lsb_Vi var i = -1 while (++i < 128) { xi = (this.state[~~(i / 8)] & (1 << (7 - i % 8))) !== 0 if (xi) { // Z_i+1 = Z_i ^ V_i Zi = xor(Zi, Vi) } // Store the value of LSB(V_i) lsb_Vi = (Vi[3] & 1) !== 0 // V_i+1 = V_i >> 1 for (j = 3; j > 0; j--) { Vi[j] = (Vi[j] >>> 1) | ((Vi[j - 1] & 1) << 31) } Vi[0] = Vi[0] >>> 1 // If LSB(V_i) is 1, V_i+1 = (V_i >> 1) ^ R if (lsb_Vi) { Vi[0] = Vi[0] ^ (0xe1 << 24) } } this.state = fromArray(Zi) } GHASH.prototype.update = function (buf) { this.cache = Buffer.concat([this.cache, buf]) var chunk while (this.cache.length >= 16) { chunk = this.cache.slice(0, 16) this.cache = this.cache.slice(16) this.ghash(chunk) } } GHASH.prototype.final = function (abl, bl) { if (this.cache.length) { this.ghash(Buffer.concat([this.cache, zeros], 16)) } this.ghash(fromArray([ 0, abl, 0, bl ])) return this.state } function toArray (buf) { return [ buf.readUInt32BE(0), buf.readUInt32BE(4), buf.readUInt32BE(8), buf.readUInt32BE(12) ] } function fromArray (out) { out = out.map(fixup_uint32) var buf = new Buffer(16) buf.writeUInt32BE(out[0], 0) buf.writeUInt32BE(out[1], 4) buf.writeUInt32BE(out[2], 8) buf.writeUInt32BE(out[3], 12) return buf } var uint_max = Math.pow(2, 32) function fixup_uint32 (x) { var ret, x_pos ret = x > uint_max || x < 0 ? (x_pos = Math.abs(x) % uint_max, x < 0 ? uint_max - x_pos : x_pos) : x return ret } function xor (a, b) { return [ a[0] ^ b[0], a[1] ^ b[1], a[2] ^ b[2], a[3] ^ b[3] ] } }).call(this,require(4).Buffer) },{"4":4}],16:[function(require,module,exports){ exports['aes-128-ecb'] = { cipher: 'AES', key: 128, iv: 0, mode: 'ECB', type: 'block' } exports['aes-192-ecb'] = { cipher: 'AES', key: 192, iv: 0, mode: 'ECB', type: 'block' } exports['aes-256-ecb'] = { cipher: 'AES', key: 256, iv: 0, mode: 'ECB', type: 'block' } exports['aes-128-cbc'] = { cipher: 'AES', key: 128, iv: 16, mode: 'CBC', type: 'block' } exports['aes-192-cbc'] = { cipher: 'AES', key: 192, iv: 16, mode: 'CBC', type: 'block' } exports['aes-256-cbc'] = { cipher: 'AES', key: 256, iv: 16, mode: 'CBC', type: 'block' } exports['aes128'] = exports['aes-128-cbc'] exports['aes192'] = exports['aes-192-cbc'] exports['aes256'] = exports['aes-256-cbc'] exports['aes-128-cfb'] = { cipher: 'AES', key: 128, iv: 16, mode: 'CFB', type: 'stream' } exports['aes-192-cfb'] = { cipher: 'AES', key: 192, iv: 16, mode: 'CFB', type: 'stream' } exports['aes-256-cfb'] = { cipher: 'AES', key: 256, iv: 16, mode: 'CFB', type: 'stream' } exports['aes-128-cfb8'] = { cipher: 'AES', key: 128, iv: 16, mode: 'CFB8', type: 'stream' } exports['aes-192-cfb8'] = { cipher: 'AES', key: 192, iv: 16, mode: 'CFB8', type: 'stream' } exports['aes-256-cfb8'] = { cipher: 'AES', key: 256, iv: 16, mode: 'CFB8', type: 'stream' } exports['aes-128-cfb1'] = { cipher: 'AES', key: 128, iv: 16, mode: 'CFB1', type: 'stream' } exports['aes-192-cfb1'] = { cipher: 'AES', key: 192, iv: 16, mode: 'CFB1', type: 'stream' } exports['aes-256-cfb1'] = { cipher: 'AES', key: 256, iv: 16, mode: 'CFB1', type: 'stream' } exports['aes-128-ofb'] = { cipher: 'AES', key: 128, iv: 16, mode: 'OFB', type: 'stream' } exports['aes-192-ofb'] = { cipher: 'AES', key: 192, iv: 16, mode: 'OFB', type: 'stream' } exports['aes-256-ofb'] = { cipher: 'AES', key: 256, iv: 16, mode: 'OFB', type: 'stream' } exports['aes-128-ctr'] = { cipher: 'AES', key: 128, iv: 16, mode: 'CTR', type: 'stream' } exports['aes-192-ctr'] = { cipher: 'AES', key: 192, iv: 16, mode: 'CTR', type: 'stream' } exports['aes-256-ctr'] = { cipher: 'AES', key: 256, iv: 16, mode: 'CTR', type: 'stream' } exports['aes-128-gcm'] = { cipher: 'AES', key: 128, iv: 12, mode: 'GCM', type: 'auth' } exports['aes-192-gcm'] = { cipher: 'AES', key: 192, iv: 12, mode: 'GCM', type: 'auth' } exports['aes-256-gcm'] = { cipher: 'AES', key: 256, iv: 12, mode: 'GCM', type: 'auth' } },{}],17:[function(require,module,exports){ var xor = require(24) exports.encrypt = function (self, block) { var data = xor(block, self._prev) self._prev = self._cipher.encryptBlock(data) return self._prev } exports.decrypt = function (self, block) { var pad = self._prev self._prev = block var out = self._cipher.decryptBlock(block) return xor(out, pad) } },{"24":24}],18:[function(require,module,exports){ (function (Buffer){ var xor = require(24) exports.encrypt = function (self, data, decrypt) { var out = new Buffer('') var len while (data.length) { if (self._cache.length === 0) { self._cache = self._cipher.encryptBlock(self._prev) self._prev = new Buffer('') } if (self._cache.length <= data.length) { len = self._cache.length out = Buffer.concat([out, encryptStart(self, data.slice(0, len), decrypt)]) data = data.slice(len) } else { out = Buffer.concat([out, encryptStart(self, data, decrypt)]) break } } return out } function encryptStart (self, data, decrypt) { var len = data.length var out = xor(data, self._cache) self._cache = self._cache.slice(len) self._prev = Buffer.concat([self._prev, decrypt ? data : out]) return out } }).call(this,require(4).Buffer) },{"24":24,"4":4}],19:[function(require,module,exports){ (function (Buffer){ function encryptByte (self, byteParam, decrypt) { var pad var i = -1 var len = 8 var out = 0 var bit, value while (++i < len) { pad = self._cipher.encryptBlock(self._prev) bit = (byteParam & (1 << (7 - i))) ? 0x80 : 0 value = pad[0] ^ bit out += ((value & 0x80) >> (i % 8)) self._prev = shiftIn(self._prev, decrypt ? bit : value) } return out } exports.encrypt = function (self, chunk, decrypt) { var len = chunk.length var out = new Buffer(len) var i = -1 while (++i < len) { out[i] = encryptByte(self, chunk[i], decrypt) } return out } function shiftIn (buffer, value) { var len = buffer.length var i = -1 var out = new Buffer(buffer.length) buffer = Buffer.concat([buffer, new Buffer([value])]) while (++i < len) { out[i] = buffer[i] << 1 | buffer[i + 1] >> (7) } return out } }).call(this,require(4).Buffer) },{"4":4}],20:[function(require,module,exports){ (function (Buffer){ function encryptByte (self, byteParam, decrypt) { var pad = self._cipher.encryptBlock(self._prev) var out = pad[0] ^ byteParam self._prev = Buffer.concat([self._prev.slice(1), new Buffer([decrypt ? byteParam : out])]) return out } exports.encrypt = function (self, chunk, decrypt) { var len = chunk.length var out = new Buffer(len) var i = -1 while (++i < len) { out[i] = encryptByte(self, chunk[i], decrypt) } return out } }).call(this,require(4).Buffer) },{"4":4}],21:[function(require,module,exports){ (function (Buffer){ var xor = require(24) function incr32 (iv) { var len = iv.length var item while (len--) { item = iv.readUInt8(len) if (item === 255) { iv.writeUInt8(0, len) } else { item++ iv.writeUInt8(item, len) break } } } function getBlock (self) { var out = self._cipher.encryptBlock(self._prev) incr32(self._prev) return out } exports.encrypt = function (self, chunk) { while (self._cache.length < chunk.length) { self._cache = Buffer.concat([self._cache, getBlock(self)]) } var pad = self._cache.slice(0, chunk.length) self._cache = self._cache.slice(chunk.length) return xor(chunk, pad) } }).call(this,require(4).Buffer) },{"24":24,"4":4}],22:[function(require,module,exports){ exports.encrypt = function (self, block) { return self._cipher.encryptBlock(block) } exports.decrypt = function (self, block) { return self._cipher.decryptBlock(block) } },{}],23:[function(require,module,exports){ (function (Buffer){ var xor = require(24) function getBlock (self) { self._prev = self._cipher.encryptBlock(self._prev) return self._prev } exports.encrypt = function (self, chunk) { while (self._cache.length < chunk.length) { self._cache = Buffer.concat([self._cache, getBlock(self)]) } var pad = self._cache.slice(0, chunk.length) self._cache = self._cache.slice(chunk.length) return xor(chunk, pad) } }).call(this,require(4).Buffer) },{"24":24,"4":4}],24:[function(require,module,exports){ (function (Buffer){ module.exports = function xor (a, b) { var length = Math.min(a.length, b.length) var buffer = new Buffer(length) for (var i = 0; i < length; ++i) { buffer[i] = a[i] ^ b[i] } return buffer } }).call(this,require(4).Buffer) },{"4":4}],25:[function(require,module,exports){ (function (Buffer){ var Transform = require(211).Transform var inherits = require(196) var StringDecoder = require(212).StringDecoder module.exports = CipherBase inherits(CipherBase, Transform) function CipherBase (hashMode) { Transform.call(this) this.hashMode = typeof hashMode === 'string' if (this.hashMode) { this[hashMode] = this._finalOrDigest } else { this.final = this._finalOrDigest } this._decoder = null this._encoding = null } CipherBase.prototype.update = function (data, inputEnc, outputEnc) { if (typeof data === 'string') { data = new Buffer(data, inputEnc) } var outData = this._update(data) if (this.hashMode) { return this } if (outputEnc) { outData = this._toString(outData, outputEnc) } return outData } CipherBase.prototype._transform = function (data, _, next) { var err try { if (this.hashMode) { this._update(data) } else { this.push(this._update(data)) } } catch (e) { err = e } finally { next(err) } } CipherBase.prototype._flush = function (done) { var err try { this.push(this._final()) } catch (e) { err = e } finally { done(err) } } CipherBase.prototype._finalOrDigest = function (outputEnc) { var outData = this._final() || new Buffer('') if (outputEnc) { outData = this._toString(outData, outputEnc, true) } return outData } CipherBase.prototype._toString = function (value, enc, final) { if (!this._decoder) { this._decoder = new StringDecoder(enc) this._encoding = enc } if (this._encoding !== enc) { throw new Error('can\'t switch encodings') } var out = this._decoder.write(value) if (final) { out += this._decoder.end() } return out } }).call(this,require(4).Buffer) },{"196":196,"211":211,"212":212,"4":4}],26:[function(require,module,exports){ (function (Buffer){ var aes = require(10) var Transform = require(25) var inherits = require(196) inherits(StreamCipher, Transform) module.exports = StreamCipher function StreamCipher (mode, key, iv, decrypt) { if (!(this instanceof StreamCipher)) { return new StreamCipher(mode, key, iv) } Transform.call(this) this._cipher = new aes.AES(key) this._prev = new Buffer(iv.length) this._cache = new Buffer('') this._secCache = new Buffer('') this._decrypt = decrypt iv.copy(this._prev) this._mode = mode } StreamCipher.prototype._update = function (chunk) { return this._mode.encrypt(this, chunk, this._decrypt) } StreamCipher.prototype._final = function () { this._cipher.scrub() } }).call(this,require(4).Buffer) },{"10":10,"196":196,"25":25,"4":4}],27:[function(require,module,exports){ (function (Buffer){ var CipherBase = require(29) var des = require(30) var inherits = require(196) var modes = { 'des-ede3-cbc': des.CBC.instantiate(des.EDE), 'des-ede3': des.EDE, 'des-ede-cbc': des.CBC.instantiate(des.EDE), 'des-ede': des.EDE, 'des-cbc': des.CBC.instantiate(des.DES), 'des-ecb': des.DES } modes.des = modes['des-cbc'] modes.des3 = modes['des-ede3-cbc'] module.exports = DES inherits(DES, CipherBase) function DES (opts) { CipherBase.call(this) var modeName = opts.mode.toLowerCase() var mode = modes[modeName] var type if (opts.decrypt) { type = 'decrypt' } else { type = 'encrypt' } var key = opts.key if (modeName === 'des-ede' || modeName === 'des-ede-cbc') { key = Buffer.concat([key, key.slice(0, 8)]) } var iv = opts.iv this._des = mode.create({ key: key, iv: iv, type: type }) } DES.prototype._update = function (data) { return new Buffer(this._des.update(data)) } DES.prototype._final = function () { return new Buffer(this._des.final()) } }).call(this,require(4).Buffer) },{"196":196,"29":29,"30":30,"4":4}],28:[function(require,module,exports){ exports['des-ecb'] = { key: 8, iv: 0 } exports['des-cbc'] = exports.des = { key: 8, iv: 8 } exports['des-ede3-cbc'] = exports.des3 = { key: 24, iv: 8 } exports['des-ede3'] = { key: 24, iv: 0 } exports['des-ede-cbc'] = { key: 16, iv: 8 } exports['des-ede'] = { key: 16, iv: 0 } },{}],29:[function(require,module,exports){ module.exports=require(25) },{"196":196,"211":211,"212":212,"25":25,"4":4}],30:[function(require,module,exports){ 'use strict'; exports.utils = require(35); exports.Cipher = require(32); exports.DES = require(33); exports.CBC = require(31); exports.EDE = require(34); },{"31":31,"32":32,"33":33,"34":34,"35":35}],31:[function(require,module,exports){ 'use strict'; var assert = require(36); var inherits = require(196); var proto = {}; function CBCState(iv) { assert.equal(iv.length, 8, 'Invalid IV length'); this.iv = new Array(8); for (var i = 0; i < this.iv.length; i++) this.iv[i] = iv[i]; } function instantiate(Base) { function CBC(options) { Base.call(this, options); this._cbcInit(); } inherits(CBC, Base); var keys = Object.keys(proto); for (var i = 0; i < keys.length; i++) { var key = keys[i]; CBC.prototype[key] = proto[key]; } CBC.create = function create(options) { return new CBC(options); }; return CBC; } exports.instantiate = instantiate; proto._cbcInit = function _cbcInit() { var state = new CBCState(this.options.iv); this._cbcState = state; }; proto._update = function _update(inp, inOff, out, outOff) { var state = this._cbcState; var superProto = this.constructor.super_.prototype; var iv = state.iv; if (this.type === 'encrypt') { for (var i = 0; i < this.blockSize; i++) iv[i] ^= inp[inOff + i]; superProto._update.call(this, iv, 0, out, outOff); for (var i = 0; i < this.blockSize; i++) iv[i] = out[outOff + i]; } else { superProto._update.call(this, inp, inOff, out, outOff); for (var i = 0; i < this.blockSize; i++) out[outOff + i] ^= iv[i]; for (var i = 0; i < this.blockSize; i++) iv[i] = inp[inOff + i]; } }; },{"196":196,"36":36}],32:[function(require,module,exports){ 'use strict'; var assert = require(36); function Cipher(options) { this.options = options; this.type = this.options.type; this.blockSize = 8; this._init(); this.buffer = new Array(this.blockSize); this.bufferOff = 0; } module.exports = Cipher; Cipher.prototype._init = function _init() { // Might be overrided }; Cipher.prototype.update = function update(data) { if (data.length === 0) return []; if (this.type === 'decrypt') return this._updateDecrypt(data); else return this._updateEncrypt(data); }; Cipher.prototype._buffer = function _buffer(data, off) { // Append data to buffer var min = Math.min(this.buffer.length - this.bufferOff, data.length - off); for (var i = 0; i < min; i++) this.buffer[this.bufferOff + i] = data[off + i]; this.bufferOff += min; // Shift next return min; }; Cipher.prototype._flushBuffer = function _flushBuffer(out, off) { this._update(this.buffer, 0, out, off); this.bufferOff = 0; return this.blockSize; }; Cipher.prototype._updateEncrypt = function _updateEncrypt(data) { var inputOff = 0; var outputOff = 0; var count = ((this.bufferOff + data.length) / this.blockSize) | 0; var out = new Array(count * this.blockSize); if (this.bufferOff !== 0) { inputOff += this._buffer(data, inputOff); if (this.bufferOff === this.buffer.length) outputOff += this._flushBuffer(out, outputOff); } // Write blocks var max = data.length - ((data.length - inputOff) % this.blockSize); for (; inputOff < max; inputOff += this.blockSize) { this._update(data, inputOff, out, outputOff); outputOff += this.blockSize; } // Queue rest for (; inputOff < data.length; inputOff++, this.bufferOff++) this.buffer[this.bufferOff] = data[inputOff]; return out; }; Cipher.prototype._updateDecrypt = function _updateDecrypt(data) { var inputOff = 0; var outputOff = 0; var count = Math.ceil((this.bufferOff + data.length) / this.blockSize) - 1; var out = new Array(count * this.blockSize); // TODO(indutny): optimize it, this is far from optimal for (; count > 0; count--) { inputOff += this._buffer(data, inputOff); outputOff += this._flushBuffer(out, outputOff); } // Buffer rest of the input inputOff += this._buffer(data, inputOff); return out; }; Cipher.prototype.final = function final(buffer) { var first; if (buffer) first = this.update(buffer); var last; if (this.type === 'encrypt') last = this._finalEncrypt(); else last = this._finalDecrypt(); if (first) return first.concat(last); else return last; }; Cipher.prototype._pad = function _pad(buffer, off) { if (off === 0) return false; while (off < buffer.length) buffer[off++] = 0; return true; }; Cipher.prototype._finalEncrypt = function _finalEncrypt() { if (!this._pad(this.buffer, this.bufferOff)) return []; var out = new Array(this.blockSize); this._update(this.buffer, 0, out, 0); return out; }; Cipher.prototype._unpad = function _unpad(buffer) { return buffer; }; Cipher.prototype._finalDecrypt = function _finalDecrypt() { assert.equal(this.bufferOff, this.blockSize, 'Not enough data to decrypt'); var out = new Array(this.blockSize); this._flushBuffer(out, 0); return this._unpad(out); }; },{"36":36}],33:[function(require,module,exports){ 'use strict'; var assert = require(36); var inherits = require(196); var des = require(30); var utils = des.utils; var Cipher = des.Cipher; function DESState() { this.tmp = new Array(2); this.keys = null; } function DES(options) { Cipher.call(this, options); var state = new DESState(); this._desState = state; this.deriveKeys(state, options.key); } inherits(DES, Cipher); module.exports = DES; DES.create = function create(options) { return new DES(options); }; var shiftTable = [ 1, 1, 2, 2, 2, 2, 2, 2, 1, 2, 2, 2, 2, 2, 2, 1 ]; DES.prototype.deriveKeys = function deriveKeys(state, key) { state.keys = new Array(16 * 2); assert.equal(key.length, this.blockSize, 'Invalid key length'); var kL = utils.readUInt32BE(key, 0); var kR = utils.readUInt32BE(key, 4); utils.pc1(kL, kR, state.tmp, 0); kL = state.tmp[0]; kR = state.tmp[1]; for (var i = 0; i < state.keys.length; i += 2) { var shift = shiftTable[i >>> 1]; kL = utils.r28shl(kL, shift); kR = utils.r28shl(kR, shift); utils.pc2(kL, kR, state.keys, i); } }; DES.prototype._update = function _update(inp, inOff, out, outOff) { var state = this._desState; var l = utils.readUInt32BE(inp, inOff); var r = utils.readUInt32BE(inp, inOff + 4); // Initial Permutation utils.ip(l, r, state.tmp, 0); l = state.tmp[0]; r = state.tmp[1]; if (this.type === 'encrypt') this._encrypt(state, l, r, state.tmp, 0); else this._decrypt(state, l, r, state.tmp, 0); l = state.tmp[0]; r = state.tmp[1]; utils.writeUInt32BE(out, l, outOff); utils.writeUInt32BE(out, r, outOff + 4); }; DES.prototype._pad = function _pad(buffer, off) { var value = buffer.length - off; for (var i = off; i < buffer.length; i++) buffer[i] = value; return true; }; DES.prototype._unpad = function _unpad(buffer) { var pad = buffer[buffer.length - 1]; for (var i = buffer.length - pad; i < buffer.length; i++) assert.equal(buffer[i], pad); return buffer.slice(0, buffer.length - pad); }; DES.prototype._encrypt = function _encrypt(state, lStart, rStart, out, off) { var l = lStart; var r = rStart; // Apply f() x16 times for (var i = 0; i < state.keys.length; i += 2) { var keyL = state.keys[i]; var keyR = state.keys[i + 1]; // f(r, k) utils.expand(r, state.tmp, 0); keyL ^= state.tmp[0]; keyR ^= state.tmp[1]; var s = utils.substitute(keyL, keyR); var f = utils.permute(s); var t = r; r = (l ^ f) >>> 0; l = t; } // Reverse Initial Permutation utils.rip(r, l, out, off); }; DES.prototype._decrypt = function _decrypt(state, lStart, rStart, out, off) { var l = rStart; var r = lStart; // Apply f() x16 times for (var i = state.keys.length - 2; i >= 0; i -= 2) { var keyL = state.keys[i]; var keyR = state.keys[i + 1]; // f(r, k) utils.expand(l, state.tmp, 0); keyL ^= state.tmp[0]; keyR ^= state.tmp[1]; var s = utils.substitute(keyL, keyR); var f = utils.permute(s); var t = l; l = (r ^ f) >>> 0; r = t; } // Reverse Initial Permutation utils.rip(l, r, out, off); }; },{"196":196,"30":30,"36":36}],34:[function(require,module,exports){ 'use strict'; var assert = require(36); var inherits = require(196); var des = require(30); var Cipher = des.Cipher; var DES = des.DES; function EDEState(type, key) { assert.equal(key.length, 24, 'Invalid key length'); var k1 = key.slice(0, 8); var k2 = key.slice(8, 16); var k3 = key.slice(16, 24); if (type === 'encrypt') { this.ciphers = [ DES.create({ type: 'encrypt', key: k1 }), DES.create({ type: 'decrypt', key: k2 }), DES.create({ type: 'encrypt', key: k3 }) ]; } else { this.ciphers = [ DES.create({ type: 'decrypt', key: k3 }), DES.create({ type: 'encrypt', key: k2 }), DES.create({ type: 'decrypt', key: k1 }) ]; } } function EDE(options) { Cipher.call(this, options); var state = new EDEState(this.type, this.options.key); this._edeState = state; } inherits(EDE, Cipher); module.exports = EDE; EDE.create = function create(options) { return new EDE(options); }; EDE.prototype._update = function _update(inp, inOff, out, outOff) { var state = this._edeState; state.ciphers[0]._update(inp, inOff, out, outOff); state.ciphers[1]._update(out, outOff, out, outOff); state.ciphers[2]._update(out, outOff, out, outOff); }; EDE.prototype._pad = DES.prototype._pad; EDE.prototype._unpad = DES.prototype._unpad; },{"196":196,"30":30,"36":36}],35:[function(require,module,exports){ 'use strict'; exports.readUInt32BE = function readUInt32BE(bytes, off) { var res = (bytes[0 + off] << 24) | (bytes[1 + off] << 16) | (bytes[2 + off] << 8) | bytes[3 + off]; return res >>> 0; }; exports.writeUInt32BE = function writeUInt32BE(bytes, value, off) { bytes[0 + off] = value >>> 24; bytes[1 + off] = (value >>> 16) & 0xff; bytes[2 + off] = (value >>> 8) & 0xff; bytes[3 + off] = value & 0xff; }; exports.ip = function ip(inL, inR, out, off) { var outL = 0; var outR = 0; for (var i = 6; i >= 0; i -= 2) { for (var j = 0; j <= 24; j += 8) { outL <<= 1; outL |= (inR >>> (j + i)) & 1; } for (var j = 0; j <= 24; j += 8) { outL <<= 1; outL |= (inL >>> (j + i)) & 1; } } for (var i = 6; i >= 0; i -= 2) { for (var j = 1; j <= 25; j += 8) { outR <<= 1; outR |= (inR >>> (j + i)) & 1; } for (var j = 1; j <= 25; j += 8) { outR <<= 1; outR |= (inL >>> (j + i)) & 1; } } out[off + 0] = outL >>> 0; out[off + 1] = outR >>> 0; }; exports.rip = function rip(inL, inR, out, off) { var outL = 0; var outR = 0; for (var i = 0; i < 4; i++) { for (var j = 24; j >= 0; j -= 8) { outL <<= 1; outL |= (inR >>> (j + i)) & 1; outL <<= 1; outL |= (inL >>> (j + i)) & 1; } } for (var i = 4; i < 8; i++) { for (var j = 24; j >= 0; j -= 8) { outR <<= 1; outR |= (inR >>> (j + i)) & 1; outR <<= 1; outR |= (inL >>> (j + i)) & 1; } } out[off + 0] = outL >>> 0; out[off + 1] = outR >>> 0; }; exports.pc1 = function pc1(inL, inR, out, off) { var outL = 0; var outR = 0; // 7, 15, 23, 31, 39, 47, 55, 63 // 6, 14, 22, 30, 39, 47, 55, 63 // 5, 13, 21, 29, 39, 47, 55, 63 // 4, 12, 20, 28 for (var i = 7; i >= 5; i--) { for (var j = 0; j <= 24; j += 8) { outL <<= 1; outL |= (inR >> (j + i)) & 1; } for (var j = 0; j <= 24; j += 8) { outL <<= 1; outL |= (inL >> (j + i)) & 1; } } for (var j = 0; j <= 24; j += 8) { outL <<= 1; outL |= (inR >> (j + i)) & 1; } // 1, 9, 17, 25, 33, 41, 49, 57 // 2, 10, 18, 26, 34, 42, 50, 58 // 3, 11, 19, 27, 35, 43, 51, 59 // 36, 44, 52, 60 for (var i = 1; i <= 3; i++) { for (var j = 0; j <= 24; j += 8) { outR <<= 1; outR |= (inR >> (j + i)) & 1; } for (var j = 0; j <= 24; j += 8) { outR <<= 1; outR |= (inL >> (j + i)) & 1; } } for (var j = 0; j <= 24; j += 8) { outR <<= 1; outR |= (inL >> (j + i)) & 1; } out[off + 0] = outL >>> 0; out[off + 1] = outR >>> 0; }; exports.r28shl = function r28shl(num, shift) { return ((num << shift) & 0xfffffff) | (num >>> (28 - shift)); }; var pc2table = [ // inL => outL 14, 11, 17, 4, 27, 23, 25, 0, 13, 22, 7, 18, 5, 9, 16, 24, 2, 20, 12, 21, 1, 8, 15, 26, // inR => outR 15, 4, 25, 19, 9, 1, 26, 16, 5, 11, 23, 8, 12, 7, 17, 0, 22, 3, 10, 14, 6, 20, 27, 24 ]; exports.pc2 = function pc2(inL, inR, out, off) { var outL = 0; var outR = 0; var len = pc2table.length >>> 1; for (var i = 0; i < len; i++) { outL <<= 1; outL |= (inL >>> pc2table[i]) & 0x1; } for (var i = len; i < pc2table.length; i++) { outR <<= 1; outR |= (inR >>> pc2table[i]) & 0x1; } out[off + 0] = outL >>> 0; out[off + 1] = outR >>> 0; }; exports.expand = function expand(r, out, off) { var outL = 0; var outR = 0; outL = ((r & 1) << 5) | (r >>> 27); for (var i = 23; i >= 15; i -= 4) { outL <<= 6; outL |= (r >>> i) & 0x3f; } for (var i = 11; i >= 3; i -= 4) { outR |= (r >>> i) & 0x3f; outR <<= 6; } outR |= ((r & 0x1f) << 1) | (r >>> 31); out[off + 0] = outL >>> 0; out[off + 1] = outR >>> 0; }; var sTable = [ 14, 0, 4, 15, 13, 7, 1, 4, 2, 14, 15, 2, 11, 13, 8, 1, 3, 10, 10, 6, 6, 12, 12, 11, 5, 9, 9, 5, 0, 3, 7, 8, 4, 15, 1, 12, 14, 8, 8, 2, 13, 4, 6, 9, 2, 1, 11, 7, 15, 5, 12, 11, 9, 3, 7, 14, 3, 10, 10, 0, 5, 6, 0, 13, 15, 3, 1, 13, 8, 4, 14, 7, 6, 15, 11, 2, 3, 8, 4, 14, 9, 12, 7, 0, 2, 1, 13, 10, 12, 6, 0, 9, 5, 11, 10, 5, 0, 13, 14, 8, 7, 10, 11, 1, 10, 3, 4, 15, 13, 4, 1, 2, 5, 11, 8, 6, 12, 7, 6, 12, 9, 0, 3, 5, 2, 14, 15, 9, 10, 13, 0, 7, 9, 0, 14, 9, 6, 3, 3, 4, 15, 6, 5, 10, 1, 2, 13, 8, 12, 5, 7, 14, 11, 12, 4, 11, 2, 15, 8, 1, 13, 1, 6, 10, 4, 13, 9, 0, 8, 6, 15, 9, 3, 8, 0, 7, 11, 4, 1, 15, 2, 14, 12, 3, 5, 11, 10, 5, 14, 2, 7, 12, 7, 13, 13, 8, 14, 11, 3, 5, 0, 6, 6, 15, 9, 0, 10, 3, 1, 4, 2, 7, 8, 2, 5, 12, 11, 1, 12, 10, 4, 14, 15, 9, 10, 3, 6, 15, 9, 0, 0, 6, 12, 10, 11, 1, 7, 13, 13, 8, 15, 9, 1, 4, 3, 5, 14, 11, 5, 12, 2, 7, 8, 2, 4, 14, 2, 14, 12, 11, 4, 2, 1, 12, 7, 4, 10, 7, 11, 13, 6, 1, 8, 5, 5, 0, 3, 15, 15, 10, 13, 3, 0, 9, 14, 8, 9, 6, 4, 11, 2, 8, 1, 12, 11, 7, 10, 1, 13, 14, 7, 2, 8, 13, 15, 6, 9, 15, 12, 0, 5, 9, 6, 10, 3, 4, 0, 5, 14, 3, 12, 10, 1, 15, 10, 4, 15, 2, 9, 7, 2, 12, 6, 9, 8, 5, 0, 6, 13, 1, 3, 13, 4, 14, 14, 0, 7, 11, 5, 3, 11, 8, 9, 4, 14, 3, 15, 2, 5, 12, 2, 9, 8, 5, 12, 15, 3, 10, 7, 11, 0, 14, 4, 1, 10, 7, 1, 6, 13, 0, 11, 8, 6, 13, 4, 13, 11, 0, 2, 11, 14, 7, 15, 4, 0, 9, 8, 1, 13, 10, 3, 14, 12, 3, 9, 5, 7, 12, 5, 2, 10, 15, 6, 8, 1, 6, 1, 6, 4, 11, 11, 13, 13, 8, 12, 1, 3, 4, 7, 10, 14, 7, 10, 9, 15, 5, 6, 0, 8, 15, 0, 14, 5, 2, 9, 3, 2, 12, 13, 1, 2, 15, 8, 13, 4, 8, 6, 10, 15, 3, 11, 7, 1, 4, 10, 12, 9, 5, 3, 6, 14, 11, 5, 0, 0, 14, 12, 9, 7, 2, 7, 2, 11, 1, 4, 14, 1, 7, 9, 4, 12, 10, 14, 8, 2, 13, 0, 15, 6, 12, 10, 9, 13, 0, 15, 3, 3, 5, 5, 6, 8, 11 ]; exports.substitute = function substitute(inL, inR) { var out = 0; for (var i = 0; i < 4; i++) { var b = (inL >>> (18 - i * 6)) & 0x3f; var sb = sTable[i * 0x40 + b]; out <<= 4; out |= sb; } for (var i = 0; i < 4; i++) { var b = (inR >>> (18 - i * 6)) & 0x3f; var sb = sTable[4 * 0x40 + i * 0x40 + b]; out <<= 4; out |= sb; } return out >>> 0; }; var permuteTable = [ 16, 25, 12, 11, 3, 20, 4, 15, 31, 17, 9, 6, 27, 14, 1, 22, 30, 24, 8, 18, 0, 5, 29, 23, 13, 19, 2, 26, 10, 21, 28, 7 ]; exports.permute = function permute(num) { var out = 0; for (var i = 0; i < permuteTable.length; i++) { out <<= 1; out |= (num >>> permuteTable[i]) & 0x1; } return out >>> 0; }; exports.padSplit = function padSplit(num, size, group) { var str = num.toString(2); while (str.length < size) str = '0' + str; var out = []; for (var i = 0; i < size; i += group) out.push(str.slice(i, i + group)); return out.join(' '); }; },{}],36:[function(require,module,exports){ module.exports = assert; function assert(val, msg) { if (!val) throw new Error(msg || 'Assertion failed'); } assert.equal = function assertEqual(l, r, msg) { if (l != r) throw new Error(msg || ('Assertion failed: ' + l + ' != ' + r)); }; },{}],37:[function(require,module,exports){ (function (Buffer){ var md5 = require(129) module.exports = EVP_BytesToKey function EVP_BytesToKey (password, salt, keyLen, ivLen) { if (!Buffer.isBuffer(password)) { password = new Buffer(password, 'binary') } if (salt && !Buffer.isBuffer(salt)) { salt = new Buffer(salt, 'binary') } keyLen = keyLen / 8 ivLen = ivLen || 0 var ki = 0 var ii = 0 var key = new Buffer(keyLen) var iv = new Buffer(ivLen) var addmd = 0 var md_buf var i var bufs = [] while (true) { if (addmd++ > 0) { bufs.push(md_buf) } bufs.push(password) if (salt) { bufs.push(salt) } md_buf = md5(Buffer.concat(bufs)) bufs = [] i = 0 if (keyLen > 0) { while (true) { if (keyLen === 0) { break } if (i === md_buf.length) { break } key[ki++] = md_buf[i] keyLen-- i++ } } if (ivLen > 0 && i !== md_buf.length) { while (true) { if (ivLen === 0) { break } if (i === md_buf.length) { break } iv[ii++] = md_buf[i] ivLen-- i++ } } if (keyLen === 0 && ivLen === 0) { break } } for (i = 0; i < md_buf.length; i++) { md_buf[i] = 0 } return { key: key, iv: iv } } }).call(this,require(4).Buffer) },{"129":129,"4":4}],38:[function(require,module,exports){ (function (Buffer){ 'use strict' exports['RSA-SHA224'] = exports.sha224WithRSAEncryption = { sign: 'rsa', hash: 'sha224', id: new Buffer('302d300d06096086480165030402040500041c', 'hex') } exports['RSA-SHA256'] = exports.sha256WithRSAEncryption = { sign: 'rsa', hash: 'sha256', id: new Buffer('3031300d060960864801650304020105000420', 'hex') } exports['RSA-SHA384'] = exports.sha384WithRSAEncryption = { sign: 'rsa', hash: 'sha384', id: new Buffer('3041300d060960864801650304020205000430', 'hex') } exports['RSA-SHA512'] = exports.sha512WithRSAEncryption = { sign: 'rsa', hash: 'sha512', id: new Buffer('3051300d060960864801650304020305000440', 'hex') } exports['RSA-SHA1'] = { sign: 'rsa', hash: 'sha1', id: new Buffer('3021300906052b0e03021a05000414', 'hex') } exports['ecdsa-with-SHA1'] = { sign: 'ecdsa', hash: 'sha1', id: new Buffer('', 'hex') } exports.DSA = exports['DSA-SHA1'] = exports['DSA-SHA'] = { sign: 'dsa', hash: 'sha1', id: new Buffer('', 'hex') } exports['DSA-SHA224'] = exports['DSA-WITH-SHA224'] = { sign: 'dsa', hash: 'sha224', id: new Buffer('', 'hex') } exports['DSA-SHA256'] = exports['DSA-WITH-SHA256'] = { sign: 'dsa', hash: 'sha256', id: new Buffer('', 'hex') } exports['DSA-SHA384'] = exports['DSA-WITH-SHA384'] = { sign: 'dsa', hash: 'sha384', id: new Buffer('', 'hex') } exports['DSA-SHA512'] = exports['DSA-WITH-SHA512'] = { sign: 'dsa', hash: 'sha512', id: new Buffer('', 'hex') } exports['DSA-RIPEMD160'] = { sign: 'dsa', hash: 'rmd160', id: new Buffer('', 'hex') } exports['RSA-RIPEMD160'] = exports.ripemd160WithRSA = { sign: 'rsa', hash: 'rmd160', id: new Buffer('3021300906052b2403020105000414', 'hex') } exports['RSA-MD5'] = exports.md5WithRSAEncryption = { sign: 'rsa', hash: 'md5', id: new Buffer('3020300c06082a864886f70d020505000410', 'hex') } }).call(this,require(4).Buffer) },{"4":4}],39:[function(require,module,exports){ (function (Buffer){ var _algos = require(38) var createHash = require(127) var inherits = require(196) var sign = require(101) var stream = require(211) var verify = require(102) var algos = {} Object.keys(_algos).forEach(function (key) { algos[key] = algos[key.toLowerCase()] = _algos[key] }) function Sign (algorithm) { stream.Writable.call(this) var data = algos[algorithm] if (!data) { throw new Error('Unknown message digest') } this._hashType = data.hash this._hash = createHash(data.hash) this._tag = data.id this._signType = data.sign } inherits(Sign, stream.Writable) Sign.prototype._write = function _write (data, _, done) { this._hash.update(data) done() } Sign.prototype.update = function update (data, enc) { if (typeof data === 'string') { data = new Buffer(data, enc) } this._hash.update(data) return this } Sign.prototype.sign = function signMethod (key, enc) { this.end() var hash = this._hash.digest() var sig = sign(Buffer.concat([this._tag, hash]), key, this._hashType, this._signType) return enc ? sig.toString(enc) : sig } function Verify (algorithm) { stream.Writable.call(this) var data = algos[algorithm] if (!data) { throw new Error('Unknown message digest') } this._hash = createHash(data.hash) this._tag = data.id this._signType = data.sign } inherits(Verify, stream.Writable) Verify.prototype._write = function _write (data, _, done) { this._hash.update(data) done() } Verify.prototype.update = function update (data, enc) { if (typeof data === 'string') { data = new Buffer(data, enc) } this._hash.update(data) return this } Verify.prototype.verify = function verifyMethod (key, sig, enc) { if (typeof sig === 'string') { sig = new Buffer(sig, enc) } this.end() var hash = this._hash.digest() return verify(sig, Buffer.concat([this._tag, hash]), key, this._signType) } function createSign (algorithm) { return new Sign(algorithm) } function createVerify (algorithm) { return new Verify(algorithm) } module.exports = { Sign: createSign, Verify: createVerify, createSign: createSign, createVerify: createVerify } }).call(this,require(4).Buffer) },{"101":101,"102":102,"127":127,"196":196,"211":211,"38":38,"4":4}],40:[function(require,module,exports){ 'use strict' exports['1.3.132.0.10'] = 'secp256k1' exports['1.3.132.0.33'] = 'p224' exports['1.2.840.10045.3.1.1'] = 'p192' exports['1.2.840.10045.3.1.7'] = 'p256' },{}],41:[function(require,module,exports){ (function (module, exports) { 'use strict'; // Utils function assert(val, msg) { if (!val) throw new Error(msg || 'Assertion failed'); } // Could use `inherits` module, but don't want to move from single file // architecture yet. function inherits(ctor, superCtor) { ctor.super_ = superCtor; var TempCtor = function () {}; TempCtor.prototype = superCtor.prototype; ctor.prototype = new TempCtor(); ctor.prototype.constructor = ctor; } // BN function BN(number, base, endian) { // May be `new BN(bn)` ? if (number !== null && typeof number === 'object' && Array.isArray(number.words)) { return number; } this.sign = false; this.words = null; this.length = 0; // Reduction context this.red = null; if (base === 'le' || base === 'be') { endian = base; base = 10; } if (number !== null) this._init(number || 0, base || 10, endian || 'be'); } if (typeof module === 'object') module.exports = BN; else exports.BN = BN; BN.BN = BN; BN.wordSize = 26; BN.prototype._init = function init(number, base, endian) { if (typeof number === 'number') { return this._initNumber(number, base, endian); } else if (typeof number === 'object') { return this._initArray(number, base, endian); } if (base === 'hex') base = 16; assert(base === (base | 0) && base >= 2 && base <= 36); number = number.toString().replace(/\s+/g, ''); var start = 0; if (number[0] === '-') start++; if (base === 16) this._parseHex(number, start); else this._parseBase(number, base, start); if (number[0] === '-') this.sign = true; this.strip(); if (endian !== 'le') return; this._initArray(this.toArray(), base, endian); }; BN.prototype._initNumber = function _initNumber(number, base, endian) { if (number < 0) { this.sign = true; number = -number; } if (number < 0x4000000) { this.words = [ number & 0x3ffffff ]; this.length = 1; } else if (number < 0x10000000000000) { this.words = [ number & 0x3ffffff, (number / 0x4000000) & 0x3ffffff ]; this.length = 2; } else { assert(number < 0x20000000000000); // 2 ^ 53 (unsafe) this.words = [ number & 0x3ffffff, (number / 0x4000000) & 0x3ffffff, 1 ]; this.length = 3; } if (endian !== 'le') return; // Reverse the bytes this._initArray(this.toArray(), base, endian); }; BN.prototype._initArray = function _initArray(number, base, endian) { // Perhaps a Uint8Array assert(typeof number.length === 'number'); if (number.length <= 0) { this.words = [ 0 ]; this.length = 1; return this; } this.length = Math.ceil(number.length / 3); this.words = new Array(this.length); for (var i = 0; i < this.length; i++) this.words[i] = 0; var off = 0; if (endian === 'be') { for (var i = number.length - 1, j = 0; i >= 0; i -= 3) { var w = number[i] | (number[i - 1] << 8) | (number[i - 2] << 16); this.words[j] |= (w << off) & 0x3ffffff; this.words[j + 1] = (w >>> (26 - off)) & 0x3ffffff; off += 24; if (off >= 26) { off -= 26; j++; } } } else if (endian === 'le') { for (var i = 0, j = 0; i < number.length; i += 3) { var w = number[i] | (number[i + 1] << 8) | (number[i + 2] << 16); this.words[j] |= (w << off) & 0x3ffffff; this.words[j + 1] = (w >>> (26 - off)) & 0x3ffffff; off += 24; if (off >= 26) { off -= 26; j++; } } } return this.strip(); }; function parseHex(str, start, end) { var r = 0; var len = Math.min(str.length, end); for (var i = start; i < len; i++) { var c = str.charCodeAt(i) - 48; r <<= 4; // 'a' - 'f' if (c >= 49 && c <= 54) r |= c - 49 + 0xa; // 'A' - 'F' else if (c >= 17 && c <= 22) r |= c - 17 + 0xa; // '0' - '9' else r |= c & 0xf; } return r; } BN.prototype._parseHex = function _parseHex(number, start) { // Create possibly bigger array to ensure that it fits the number this.length = Math.ceil((number.length - start) / 6); this.words = new Array(this.length); for (var i = 0; i < this.length; i++) this.words[i] = 0; // Scan 24-bit chunks and add them to the number var off = 0; for (var i = number.length - 6, j = 0; i >= start; i -= 6) { var w = parseHex(number, i, i + 6); this.words[j] |= (w << off) & 0x3ffffff; this.words[j + 1] |= w >>> (26 - off) & 0x3fffff; off += 24; if (off >= 26) { off -= 26; j++; } } if (i + 6 !== start) { var w = parseHex(number, start, i + 6); this.words[j] |= (w << off) & 0x3ffffff; this.words[j + 1] |= w >>> (26 - off) & 0x3fffff; } this.strip(); }; function parseBase(str, start, end, mul) { var r = 0; var len = Math.min(str.length, end); for (var i = start; i < len; i++) { var c = str.charCodeAt(i) - 48; r *= mul; // 'a' if (c >= 49) r += c - 49 + 0xa; // 'A' else if (c >= 17) r += c - 17 + 0xa; // '0' - '9' else r += c; } return r; } BN.prototype._parseBase = function _parseBase(number, base, start) { // Initialize as zero this.words = [ 0 ]; this.length = 1; // Find length of limb in base for (var limbLen = 0, limbPow = 1; limbPow <= 0x3ffffff; limbPow *= base) limbLen++; limbLen--; limbPow = (limbPow / base) | 0; var total = number.length - start; var mod = total % limbLen; var end = Math.min(total, total - mod) + start; var word = 0; for (var i = start; i < end; i += limbLen) { word = parseBase(number, i, i + limbLen, base); this.imuln(limbPow); if (this.words[0] + word < 0x4000000) this.words[0] += word; else this._iaddn(word); } if (mod !== 0) { var pow = 1; var word = parseBase(number, i, number.length, base); for (var i = 0; i < mod; i++) pow *= base; this.imuln(pow); if (this.words[0] + word < 0x4000000) this.words[0] += word; else this._iaddn(word); } }; BN.prototype.copy = function copy(dest) { dest.words = new Array(this.length); for (var i = 0; i < this.length; i++) dest.words[i] = this.words[i]; dest.length = this.length; dest.sign = this.sign; dest.red = this.red; }; BN.prototype.clone = function clone() { var r = new BN(null); this.copy(r); return r; }; // Remove leading `0` from `this` BN.prototype.strip = function strip() { while (this.length > 1 && this.words[this.length - 1] === 0) this.length--; return this._normSign(); }; BN.prototype._normSign = function _normSign() { // -0 = 0 if (this.length === 1 && this.words[0] === 0) this.sign = false; return this; }; BN.prototype.inspect = function inspect() { return (this.red ? ''; }; /* var zeros = []; var groupSizes = []; var groupBases = []; var s = ''; var i = -1; while (++i < BN.wordSize) { zeros[i] = s; s += '0'; } groupSizes[0] = 0; groupSizes[1] = 0; groupBases[0] = 0; groupBases[1] = 0; var base = 2 - 1; while (++base < 36 + 1) { var groupSize = 0; var groupBase = 1; while (groupBase < (1 << BN.wordSize) / base) { groupBase *= base; groupSize += 1; } groupSizes[base] = groupSize; groupBases[base] = groupBase; } */ var zeros = [ '', '0', '00', '000', '0000', '00000', '000000', '0000000', '00000000', '000000000', '0000000000', '00000000000', '000000000000', '0000000000000', '00000000000000', '000000000000000', '0000000000000000', '00000000000000000', '000000000000000000', '0000000000000000000', '00000000000000000000', '000000000000000000000', '0000000000000000000000', '00000000000000000000000', '000000000000000000000000', '0000000000000000000000000' ]; var groupSizes = [ 0, 0, 25, 16, 12, 11, 10, 9, 8, 8, 7, 7, 7, 7, 6, 6, 6, 6, 6, 6, 6, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5 ]; var groupBases = [ 0, 0, 33554432, 43046721, 16777216, 48828125, 60466176, 40353607, 16777216, 43046721, 10000000, 19487171, 35831808, 62748517, 7529536, 11390625, 16777216, 24137569, 34012224, 47045881, 64000000, 4084101, 5153632, 6436343, 7962624, 9765625, 11881376, 14348907, 17210368, 20511149, 24300000, 28629151, 33554432, 39135393, 45435424, 52521875, 60466176 ]; BN.prototype.toString = function toString(base, padding) { base = base || 10; if (base === 16 || base === 'hex') { var out = ''; var off = 0; var padding = padding | 0 || 1; var carry = 0; for (var i = 0; i < this.length; i++) { var w = this.words[i]; var word = (((w << off) | carry) & 0xffffff).toString(16); carry = (w >>> (24 - off)) & 0xffffff; if (carry !== 0 || i !== this.length - 1) out = zeros[6 - word.length] + word + out; else out = word + out; off += 2; if (off >= 26) { off -= 26; i--; } } if (carry !== 0) out = carry.toString(16) + out; while (out.length % padding !== 0) out = '0' + out; if (this.sign) out = '-' + out; return out; } else if (base === (base | 0) && base >= 2 && base <= 36) { // var groupSize = Math.floor(BN.wordSize * Math.LN2 / Math.log(base)); var groupSize = groupSizes[base]; // var groupBase = Math.pow(base, groupSize); var groupBase = groupBases[base]; var out = ''; var c = this.clone(); c.sign = false; while (c.cmpn(0) !== 0) { var r = c.modn(groupBase).toString(base); c = c.idivn(groupBase); if (c.cmpn(0) !== 0) out = zeros[groupSize - r.length] + r + out; else out = r + out; } if (this.cmpn(0) === 0) out = '0' + out; if (this.sign) out = '-' + out; return out; } else { assert(false, 'Base should be between 2 and 36'); } }; BN.prototype.toJSON = function toJSON() { return this.toString(16); }; BN.prototype.toArray = function toArray(endian) { this.strip(); var res = new Array(this.byteLength()); res[0] = 0; var q = this.clone(); if (endian !== 'le') { // Assume big-endian for (var i = 0; q.cmpn(0) !== 0; i++) { var b = q.andln(0xff); q.ishrn(8); res[res.length - i - 1] = b; } } else { // Assume little-endian for (var i = 0; q.cmpn(0) !== 0; i++) { var b = q.andln(0xff); q.ishrn(8); res[i] = b; } } return res; }; if (Math.clz32) { BN.prototype._countBits = function _countBits(w) { return 32 - Math.clz32(w); }; } else { BN.prototype._countBits = function _countBits(w) { var t = w; var r = 0; if (t >= 0x1000) { r += 13; t >>>= 13; } if (t >= 0x40) { r += 7; t >>>= 7; } if (t >= 0x8) { r += 4; t >>>= 4; } if (t >= 0x02) { r += 2; t >>>= 2; } return r + t; }; } BN.prototype._zeroBits = function _zeroBits(w) { // Short-cut if (w === 0) return 26; var t = w; var r = 0; if ((t & 0x1fff) === 0) { r += 13; t >>>= 13; } if ((t & 0x7f) === 0) { r += 7; t >>>= 7; } if ((t & 0xf) === 0) { r += 4; t >>>= 4; } if ((t & 0x3) === 0) { r += 2; t >>>= 2; } if ((t & 0x1) === 0) r++; return r; }; // Return number of used bits in a BN BN.prototype.bitLength = function bitLength() { var hi = 0; var w = this.words[this.length - 1]; var hi = this._countBits(w); return (this.length - 1) * 26 + hi; }; // Number of trailing zero bits BN.prototype.zeroBits = function zeroBits() { if (this.cmpn(0) === 0) return 0; var r = 0; for (var i = 0; i < this.length; i++) { var b = this._zeroBits(this.words[i]); r += b; if (b !== 26) break; } return r; }; BN.prototype.byteLength = function byteLength() { return Math.ceil(this.bitLength() / 8); }; // Return negative clone of `this` BN.prototype.neg = function neg() { if (this.cmpn(0) === 0) return this.clone(); var r = this.clone(); r.sign = !this.sign; return r; }; // Or `num` with `this` in-place BN.prototype.ior = function ior(num) { this.sign = this.sign || num.sign; while (this.length < num.length) this.words[this.length++] = 0; for (var i = 0; i < num.length; i++) this.words[i] = this.words[i] | num.words[i]; return this.strip(); }; // Or `num` with `this` BN.prototype.or = function or(num) { if (this.length > num.length) return this.clone().ior(num); else return num.clone().ior(this); }; // And `num` with `this` in-place BN.prototype.iand = function iand(num) { this.sign = this.sign && num.sign; // b = min-length(num, this) var b; if (this.length > num.length) b = num; else b = this; for (var i = 0; i < b.length; i++) this.words[i] = this.words[i] & num.words[i]; this.length = b.length; return this.strip(); }; // And `num` with `this` BN.prototype.and = function and(num) { if (this.length > num.length) return this.clone().iand(num); else return num.clone().iand(this); }; // Xor `num` with `this` in-place BN.prototype.ixor = function ixor(num) { this.sign = this.sign || num.sign; // a.length > b.length var a; var b; if (this.length > num.length) { a = this; b = num; } else { a = num; b = this; } for (var i = 0; i < b.length; i++) this.words[i] = a.words[i] ^ b.words[i]; if (this !== a) for (; i < a.length; i++) this.words[i] = a.words[i]; this.length = a.length; return this.strip(); }; // Xor `num` with `this` BN.prototype.xor = function xor(num) { if (this.length > num.length) return this.clone().ixor(num); else return num.clone().ixor(this); }; // Set `bit` of `this` BN.prototype.setn = function setn(bit, val) { assert(typeof bit === 'number' && bit >= 0); var off = (bit / 26) | 0; var wbit = bit % 26; while (this.length <= off) this.words[this.length++] = 0; if (val) this.words[off] = this.words[off] | (1 << wbit); else this.words[off] = this.words[off] & ~(1 << wbit); return this.strip(); }; // Add `num` to `this` in-place BN.prototype.iadd = function iadd(num) { // negative + positive if (this.sign && !num.sign) { this.sign = false; var r = this.isub(num); this.sign = !this.sign; return this._normSign(); // positive + negative } else if (!this.sign && num.sign) { num.sign = false; var r = this.isub(num); num.sign = true; return r._normSign(); } // a.length > b.length var a; var b; if (this.length > num.length) { a = this; b = num; } else { a = num; b = this; } var carry = 0; for (var i = 0; i < b.length; i++) { var r = a.words[i] + b.words[i] + carry; this.words[i] = r & 0x3ffffff; carry = r >>> 26; } for (; carry !== 0 && i < a.length; i++) { var r = a.words[i] + carry; this.words[i] = r & 0x3ffffff; carry = r >>> 26; } this.length = a.length; if (carry !== 0) { this.words[this.length] = carry; this.length++; // Copy the rest of the words } else if (a !== this) { for (; i < a.length; i++) this.words[i] = a.words[i]; } return this; }; // Add `num` to `this` BN.prototype.add = function add(num) { if (num.sign && !this.sign) { num.sign = false; var res = this.sub(num); num.sign = true; return res; } else if (!num.sign && this.sign) { this.sign = false; var res = num.sub(this); this.sign = true; return res; } if (this.length > num.length) return this.clone().iadd(num); else return num.clone().iadd(this); }; // Subtract `num` from `this` in-place BN.prototype.isub = function isub(num) { // this - (-num) = this + num if (num.sign) { num.sign = false; var r = this.iadd(num); num.sign = true; return r._normSign(); // -this - num = -(this + num) } else if (this.sign) { this.sign = false; this.iadd(num); this.sign = true; return this._normSign(); } // At this point both numbers are positive var cmp = this.cmp(num); // Optimization - zeroify if (cmp === 0) { this.sign = false; this.length = 1; this.words[0] = 0; return this; } // a > b var a; var b; if (cmp > 0) { a = this; b = num; } else { a = num; b = this; } var carry = 0; for (var i = 0; i < b.length; i++) { var r = a.words[i] - b.words[i] + carry; carry = r >> 26; this.words[i] = r & 0x3ffffff; } for (; carry !== 0 && i < a.length; i++) { var r = a.words[i] + carry; carry = r >> 26; this.words[i] = r & 0x3ffffff; } // Copy rest of the words if (carry === 0 && i < a.length && a !== this) for (; i < a.length; i++) this.words[i] = a.words[i]; this.length = Math.max(this.length, i); if (a !== this) this.sign = true; return this.strip(); }; // Subtract `num` from `this` BN.prototype.sub = function sub(num) { return this.clone().isub(num); }; /* // NOTE: This could be potentionally used to generate loop-less multiplications function _genCombMulTo(alen, blen) { var len = alen + blen - 1; var src = [ 'var a = this.words, b = num.words, o = out.words, c = 0, w, ' + 'mask = 0x3ffffff, shift = 0x4000000;', 'out.length = ' + len + ';' ]; for (var k = 0; k < len; k++) { var minJ = Math.max(0, k - alen + 1); var maxJ = Math.min(k, blen - 1); for (var j = minJ; j <= maxJ; j++) { var i = k - j; var mul = 'a[' + i + '] * b[' + j + ']'; if (j === minJ) { src.push('w = ' + mul + ' + c;'); src.push('c = (w / shift) | 0;'); } else { src.push('w += ' + mul + ';'); src.push('c += (w / shift) | 0;'); } src.push('w &= mask;'); } src.push('o[' + k + '] = w;'); } src.push('if (c !== 0) {', ' o[' + k + '] = c;', ' out.length++;', '}', 'return out;'); return src.join('\n'); } */ BN.prototype._smallMulTo = function _smallMulTo(num, out) { out.sign = num.sign !== this.sign; out.length = this.length + num.length; var carry = 0; for (var k = 0; k < out.length - 1; k++) { // Sum all words with the same `i + j = k` and accumulate `ncarry`, // note that ncarry could be >= 0x3ffffff var ncarry = carry >>> 26; var rword = carry & 0x3ffffff; var maxJ = Math.min(k, num.length - 1); for (var j = Math.max(0, k - this.length + 1); j <= maxJ; j++) { var i = k - j; var a = this.words[i] | 0; var b = num.words[j] | 0; var r = a * b; var lo = r & 0x3ffffff; ncarry = (ncarry + ((r / 0x4000000) | 0)) | 0; lo = (lo + rword) | 0; rword = lo & 0x3ffffff; ncarry = (ncarry + (lo >>> 26)) | 0; } out.words[k] = rword; carry = ncarry; } if (carry !== 0) { out.words[k] = carry; } else { out.length--; } return out.strip(); }; BN.prototype._bigMulTo = function _bigMulTo(num, out) { out.sign = num.sign !== this.sign; out.length = this.length + num.length; var carry = 0; var hncarry = 0; for (var k = 0; k < out.length - 1; k++) { // Sum all words with the same `i + j = k` and accumulate `ncarry`, // note that ncarry could be >= 0x3ffffff var ncarry = hncarry; hncarry = 0; var rword = carry & 0x3ffffff; var maxJ = Math.min(k, num.length - 1); for (var j = Math.max(0, k - this.length + 1); j <= maxJ; j++) { var i = k - j; var a = this.words[i] | 0; var b = num.words[j] | 0; var r = a * b; var lo = r & 0x3ffffff; ncarry = (ncarry + ((r / 0x4000000) | 0)) | 0; lo = (lo + rword) | 0; rword = lo & 0x3ffffff; ncarry = (ncarry + (lo >>> 26)) | 0; hncarry += ncarry >>> 26; ncarry &= 0x3ffffff; } out.words[k] = rword; carry = ncarry; ncarry = hncarry; } if (carry !== 0) { out.words[k] = carry; } else { out.length--; } return out.strip(); }; BN.prototype.mulTo = function mulTo(num, out) { var res; if (this.length + num.length < 63) res = this._smallMulTo(num, out); else res = this._bigMulTo(num, out); return res; }; // Multiply `this` by `num` BN.prototype.mul = function mul(num) { var out = new BN(null); out.words = new Array(this.length + num.length); return this.mulTo(num, out); }; // In-place Multiplication BN.prototype.imul = function imul(num) { if (this.cmpn(0) === 0 || num.cmpn(0) === 0) { this.words[0] = 0; this.length = 1; return this; } var tlen = this.length; var nlen = num.length; this.sign = num.sign !== this.sign; this.length = this.length + num.length; this.words[this.length - 1] = 0; for (var k = this.length - 2; k >= 0; k--) { // Sum all words with the same `i + j = k` and accumulate `carry`, // note that carry could be >= 0x3ffffff var carry = 0; var rword = 0; var maxJ = Math.min(k, nlen - 1); for (var j = Math.max(0, k - tlen + 1); j <= maxJ; j++) { var i = k - j; var a = this.words[i]; var b = num.words[j]; var r = a * b; var lo = r & 0x3ffffff; carry += (r / 0x4000000) | 0; lo += rword; rword = lo & 0x3ffffff; carry += lo >>> 26; } this.words[k] = rword; this.words[k + 1] += carry; carry = 0; } // Propagate overflows var carry = 0; for (var i = 1; i < this.length; i++) { var w = this.words[i] + carry; this.words[i] = w & 0x3ffffff; carry = w >>> 26; } return this.strip(); }; BN.prototype.imuln = function imuln(num) { assert(typeof num === 'number'); // Carry var carry = 0; for (var i = 0; i < this.length; i++) { var w = this.words[i] * num; var lo = (w & 0x3ffffff) + (carry & 0x3ffffff); carry >>= 26; carry += (w / 0x4000000) | 0; // NOTE: lo is 27bit maximum carry += lo >>> 26; this.words[i] = lo & 0x3ffffff; } if (carry !== 0) { this.words[i] = carry; this.length++; } return this; }; BN.prototype.muln = function muln(num) { return this.clone().imuln(num); }; // `this` * `this` BN.prototype.sqr = function sqr() { return this.mul(this); }; // `this` * `this` in-place BN.prototype.isqr = function isqr() { return this.mul(this); }; // Shift-left in-place BN.prototype.ishln = function ishln(bits) { assert(typeof bits === 'number' && bits >= 0); var r = bits % 26; var s = (bits - r) / 26; var carryMask = (0x3ffffff >>> (26 - r)) << (26 - r); if (r !== 0) { var carry = 0; for (var i = 0; i < this.length; i++) { var newCarry = this.words[i] & carryMask; var c = (this.words[i] - newCarry) << r; this.words[i] = c | carry; carry = newCarry >>> (26 - r); } if (carry) { this.words[i] = carry; this.length++; } } if (s !== 0) { for (var i = this.length - 1; i >= 0; i--) this.words[i + s] = this.words[i]; for (var i = 0; i < s; i++) this.words[i] = 0; this.length += s; } return this.strip(); }; // Shift-right in-place // NOTE: `hint` is a lowest bit before trailing zeroes // NOTE: if `extended` is present - it will be filled with destroyed bits BN.prototype.ishrn = function ishrn(bits, hint, extended) { assert(typeof bits === 'number' && bits >= 0); var h; if (hint) h = (hint - (hint % 26)) / 26; else h = 0; var r = bits % 26; var s = Math.min((bits - r) / 26, this.length); var mask = 0x3ffffff ^ ((0x3ffffff >>> r) << r); var maskedWords = extended; h -= s; h = Math.max(0, h); // Extended mode, copy masked part if (maskedWords) { for (var i = 0; i < s; i++) maskedWords.words[i] = this.words[i]; maskedWords.length = s; } if (s === 0) { // No-op, we should not move anything at all } else if (this.length > s) { this.length -= s; for (var i = 0; i < this.length; i++) this.words[i] = this.words[i + s]; } else { this.words[0] = 0; this.length = 1; } var carry = 0; for (var i = this.length - 1; i >= 0 && (carry !== 0 || i >= h); i--) { var word = this.words[i]; this.words[i] = (carry << (26 - r)) | (word >>> r); carry = word & mask; } // Push carried bits as a mask if (maskedWords && carry !== 0) maskedWords.words[maskedWords.length++] = carry; if (this.length === 0) { this.words[0] = 0; this.length = 1; } this.strip(); return this; }; // Shift-left BN.prototype.shln = function shln(bits) { return this.clone().ishln(bits); }; // Shift-right BN.prototype.shrn = function shrn(bits) { return this.clone().ishrn(bits); }; // Test if n bit is set BN.prototype.testn = function testn(bit) { assert(typeof bit === 'number' && bit >= 0); var r = bit % 26; var s = (bit - r) / 26; var q = 1 << r; // Fast case: bit is much higher than all existing words if (this.length <= s) { return false; } // Check bit and return var w = this.words[s]; return !!(w & q); }; // Return only lowers bits of number (in-place) BN.prototype.imaskn = function imaskn(bits) { assert(typeof bits === 'number' && bits >= 0); var r = bits % 26; var s = (bits - r) / 26; assert(!this.sign, 'imaskn works only with positive numbers'); if (r !== 0) s++; this.length = Math.min(s, this.length); if (r !== 0) { var mask = 0x3ffffff ^ ((0x3ffffff >>> r) << r); this.words[this.length - 1] &= mask; } return this.strip(); }; // Return only lowers bits of number BN.prototype.maskn = function maskn(bits) { return this.clone().imaskn(bits); }; // Add plain number `num` to `this` BN.prototype.iaddn = function iaddn(num) { assert(typeof num === 'number'); if (num < 0) return this.isubn(-num); // Possible sign change if (this.sign) { if (this.length === 1 && this.words[0] < num) { this.words[0] = num - this.words[0]; this.sign = false; return this; } this.sign = false; this.isubn(num); this.sign = true; return this; } // Add without checks return this._iaddn(num); }; BN.prototype._iaddn = function _iaddn(num) { this.words[0] += num; // Carry for (var i = 0; i < this.length && this.words[i] >= 0x4000000; i++) { this.words[i] -= 0x4000000; if (i === this.length - 1) this.words[i + 1] = 1; else this.words[i + 1]++; } this.length = Math.max(this.length, i + 1); return this; }; // Subtract plain number `num` from `this` BN.prototype.isubn = function isubn(num) { assert(typeof num === 'number'); if (num < 0) return this.iaddn(-num); if (this.sign) { this.sign = false; this.iaddn(num); this.sign = true; return this; } this.words[0] -= num; // Carry for (var i = 0; i < this.length && this.words[i] < 0; i++) { this.words[i] += 0x4000000; this.words[i + 1] -= 1; } return this.strip(); }; BN.prototype.addn = function addn(num) { return this.clone().iaddn(num); }; BN.prototype.subn = function subn(num) { return this.clone().isubn(num); }; BN.prototype.iabs = function iabs() { this.sign = false; return this; }; BN.prototype.abs = function abs() { return this.clone().iabs(); }; BN.prototype._ishlnsubmul = function _ishlnsubmul(num, mul, shift) { // Bigger storage is needed var len = num.length + shift; var i; if (this.words.length < len) { var t = new Array(len); for (var i = 0; i < this.length; i++) t[i] = this.words[i]; this.words = t; } else { i = this.length; } // Zeroify rest this.length = Math.max(this.length, len); for (; i < this.length; i++) this.words[i] = 0; var carry = 0; for (var i = 0; i < num.length; i++) { var w = this.words[i + shift] + carry; var right = num.words[i] * mul; w -= right & 0x3ffffff; carry = (w >> 26) - ((right / 0x4000000) | 0); this.words[i + shift] = w & 0x3ffffff; } for (; i < this.length - shift; i++) { var w = this.words[i + shift] + carry; carry = w >> 26; this.words[i + shift] = w & 0x3ffffff; } if (carry === 0) return this.strip(); // Subtraction overflow assert(carry === -1); carry = 0; for (var i = 0; i < this.length; i++) { var w = -this.words[i] + carry; carry = w >> 26; this.words[i] = w & 0x3ffffff; } this.sign = true; return this.strip(); }; BN.prototype._wordDiv = function _wordDiv(num, mode) { var shift = this.length - num.length; var a = this.clone(); var b = num; // Normalize var bhi = b.words[b.length - 1]; var bhiBits = this._countBits(bhi); shift = 26 - bhiBits; if (shift !== 0) { b = b.shln(shift); a.ishln(shift); bhi = b.words[b.length - 1]; } // Initialize quotient var m = a.length - b.length; var q; if (mode !== 'mod') { q = new BN(null); q.length = m + 1; q.words = new Array(q.length); for (var i = 0; i < q.length; i++) q.words[i] = 0; } var diff = a.clone()._ishlnsubmul(b, 1, m); if (!diff.sign) { a = diff; if (q) q.words[m] = 1; } for (var j = m - 1; j >= 0; j--) { var qj = a.words[b.length + j] * 0x4000000 + a.words[b.length + j - 1]; // NOTE: (qj / bhi) is (0x3ffffff * 0x4000000 + 0x3ffffff) / 0x2000000 max // (0x7ffffff) qj = Math.min((qj / bhi) | 0, 0x3ffffff); a._ishlnsubmul(b, qj, j); while (a.sign) { qj--; a.sign = false; a._ishlnsubmul(b, 1, j); if (a.cmpn(0) !== 0) a.sign = !a.sign; } if (q) q.words[j] = qj; } if (q) q.strip(); a.strip(); // Denormalize if (mode !== 'div' && shift !== 0) a.ishrn(shift); return { div: q ? q : null, mod: a }; }; BN.prototype.divmod = function divmod(num, mode) { assert(num.cmpn(0) !== 0); if (this.sign && !num.sign) { var res = this.neg().divmod(num, mode); var div; var mod; if (mode !== 'mod') div = res.div.neg(); if (mode !== 'div') mod = res.mod.cmpn(0) === 0 ? res.mod : num.sub(res.mod); return { div: div, mod: mod }; } else if (!this.sign && num.sign) { var res = this.divmod(num.neg(), mode); var div; if (mode !== 'mod') div = res.div.neg(); return { div: div, mod: res.mod }; } else if (this.sign && num.sign) { return this.neg().divmod(num.neg(), mode); } // Both numbers are positive at this point // Strip both numbers to approximate shift value if (num.length > this.length || this.cmp(num) < 0) return { div: new BN(0), mod: this }; // Very short reduction if (num.length === 1) { if (mode === 'div') return { div: this.divn(num.words[0]), mod: null }; else if (mode === 'mod') return { div: null, mod: new BN(this.modn(num.words[0])) }; return { div: this.divn(num.words[0]), mod: new BN(this.modn(num.words[0])) }; } return this._wordDiv(num, mode); }; // Find `this` / `num` BN.prototype.div = function div(num) { return this.divmod(num, 'div').div; }; // Find `this` % `num` BN.prototype.mod = function mod(num) { return this.divmod(num, 'mod').mod; }; // Find Round(`this` / `num`) BN.prototype.divRound = function divRound(num) { var dm = this.divmod(num); // Fast case - exact division if (dm.mod.cmpn(0) === 0) return dm.div; var mod = dm.div.sign ? dm.mod.isub(num) : dm.mod; var half = num.shrn(1); var r2 = num.andln(1); var cmp = mod.cmp(half); // Round down if (cmp < 0 || r2 === 1 && cmp === 0) return dm.div; // Round up return dm.div.sign ? dm.div.isubn(1) : dm.div.iaddn(1); }; BN.prototype.modn = function modn(num) { assert(num <= 0x3ffffff); var p = (1 << 26) % num; var acc = 0; for (var i = this.length - 1; i >= 0; i--) acc = (p * acc + this.words[i]) % num; return acc; }; // In-place division by number BN.prototype.idivn = function idivn(num) { assert(num <= 0x3ffffff); var carry = 0; for (var i = this.length - 1; i >= 0; i--) { var w = this.words[i] + carry * 0x4000000; this.words[i] = (w / num) | 0; carry = w % num; } return this.strip(); }; BN.prototype.divn = function divn(num) { return this.clone().idivn(num); }; BN.prototype.egcd = function egcd(p) { assert(!p.sign); assert(p.cmpn(0) !== 0); var x = this; var y = p.clone(); if (x.sign) x = x.mod(p); else x = x.clone(); // A * x + B * y = x var A = new BN(1); var B = new BN(0); // C * x + D * y = y var C = new BN(0); var D = new BN(1); var g = 0; while (x.isEven() && y.isEven()) { x.ishrn(1); y.ishrn(1); ++g; } var yp = y.clone(); var xp = x.clone(); while (x.cmpn(0) !== 0) { while (x.isEven()) { x.ishrn(1); if (A.isEven() && B.isEven()) { A.ishrn(1); B.ishrn(1); } else { A.iadd(yp).ishrn(1); B.isub(xp).ishrn(1); } } while (y.isEven()) { y.ishrn(1); if (C.isEven() && D.isEven()) { C.ishrn(1); D.ishrn(1); } else { C.iadd(yp).ishrn(1); D.isub(xp).ishrn(1); } } if (x.cmp(y) >= 0) { x.isub(y); A.isub(C); B.isub(D); } else { y.isub(x); C.isub(A); D.isub(B); } } return { a: C, b: D, gcd: y.ishln(g) }; }; // This is reduced incarnation of the binary EEA // above, designated to invert members of the // _prime_ fields F(p) at a maximal speed BN.prototype._invmp = function _invmp(p) { assert(!p.sign); assert(p.cmpn(0) !== 0); var a = this; var b = p.clone(); if (a.sign) a = a.mod(p); else a = a.clone(); var x1 = new BN(1); var x2 = new BN(0); var delta = b.clone(); while (a.cmpn(1) > 0 && b.cmpn(1) > 0) { while (a.isEven()) { a.ishrn(1); if (x1.isEven()) x1.ishrn(1); else x1.iadd(delta).ishrn(1); } while (b.isEven()) { b.ishrn(1); if (x2.isEven()) x2.ishrn(1); else x2.iadd(delta).ishrn(1); } if (a.cmp(b) >= 0) { a.isub(b); x1.isub(x2); } else { b.isub(a); x2.isub(x1); } } if (a.cmpn(1) === 0) return x1; else return x2; }; BN.prototype.gcd = function gcd(num) { if (this.cmpn(0) === 0) return num.clone(); if (num.cmpn(0) === 0) return this.clone(); var a = this.clone(); var b = num.clone(); a.sign = false; b.sign = false; // Remove common factor of two for (var shift = 0; a.isEven() && b.isEven(); shift++) { a.ishrn(1); b.ishrn(1); } do { while (a.isEven()) a.ishrn(1); while (b.isEven()) b.ishrn(1); var r = a.cmp(b); if (r < 0) { // Swap `a` and `b` to make `a` always bigger than `b` var t = a; a = b; b = t; } else if (r === 0 || b.cmpn(1) === 0) { break; } a.isub(b); } while (true); return b.ishln(shift); }; // Invert number in the field F(num) BN.prototype.invm = function invm(num) { return this.egcd(num).a.mod(num); }; BN.prototype.isEven = function isEven() { return (this.words[0] & 1) === 0; }; BN.prototype.isOdd = function isOdd() { return (this.words[0] & 1) === 1; }; // And first word and num BN.prototype.andln = function andln(num) { return this.words[0] & num; }; // Increment at the bit position in-line BN.prototype.bincn = function bincn(bit) { assert(typeof bit === 'number'); var r = bit % 26; var s = (bit - r) / 26; var q = 1 << r; // Fast case: bit is much higher than all existing words if (this.length <= s) { for (var i = this.length; i < s + 1; i++) this.words[i] = 0; this.words[s] |= q; this.length = s + 1; return this; } // Add bit and propagate, if needed var carry = q; for (var i = s; carry !== 0 && i < this.length; i++) { var w = this.words[i]; w += carry; carry = w >>> 26; w &= 0x3ffffff; this.words[i] = w; } if (carry !== 0) { this.words[i] = carry; this.length++; } return this; }; BN.prototype.cmpn = function cmpn(num) { var sign = num < 0; if (sign) num = -num; if (this.sign && !sign) return -1; else if (!this.sign && sign) return 1; num &= 0x3ffffff; this.strip(); var res; if (this.length > 1) { res = 1; } else { var w = this.words[0]; res = w === num ? 0 : w < num ? -1 : 1; } if (this.sign) res = -res; return res; }; // Compare two numbers and return: // 1 - if `this` > `num` // 0 - if `this` == `num` // -1 - if `this` < `num` BN.prototype.cmp = function cmp(num) { if (this.sign && !num.sign) return -1; else if (!this.sign && num.sign) return 1; var res = this.ucmp(num); if (this.sign) return -res; else return res; }; // Unsigned comparison BN.prototype.ucmp = function ucmp(num) { // At this point both numbers have the same sign if (this.length > num.length) return 1; else if (this.length < num.length) return -1; var res = 0; for (var i = this.length - 1; i >= 0; i--) { var a = this.words[i]; var b = num.words[i]; if (a === b) continue; if (a < b) res = -1; else if (a > b) res = 1; break; } return res; }; // // A reduce context, could be using montgomery or something better, depending // on the `m` itself. // BN.red = function red(num) { return new Red(num); }; BN.prototype.toRed = function toRed(ctx) { assert(!this.red, 'Already a number in reduction context'); assert(!this.sign, 'red works only with positives'); return ctx.convertTo(this)._forceRed(ctx); }; BN.prototype.fromRed = function fromRed() { assert(this.red, 'fromRed works only with numbers in reduction context'); return this.red.convertFrom(this); }; BN.prototype._forceRed = function _forceRed(ctx) { this.red = ctx; return this; }; BN.prototype.forceRed = function forceRed(ctx) { assert(!this.red, 'Already a number in reduction context'); return this._forceRed(ctx); }; BN.prototype.redAdd = function redAdd(num) { assert(this.red, 'redAdd works only with red numbers'); return this.red.add(this, num); }; BN.prototype.redIAdd = function redIAdd(num) { assert(this.red, 'redIAdd works only with red numbers'); return this.red.iadd(this, num); }; BN.prototype.redSub = function redSub(num) { assert(this.red, 'redSub works only with red numbers'); return this.red.sub(this, num); }; BN.prototype.redISub = function redISub(num) { assert(this.red, 'redISub works only with red numbers'); return this.red.isub(this, num); }; BN.prototype.redShl = function redShl(num) { assert(this.red, 'redShl works only with red numbers'); return this.red.shl(this, num); }; BN.prototype.redMul = function redMul(num) { assert(this.red, 'redMul works only with red numbers'); this.red._verify2(this, num); return this.red.mul(this, num); }; BN.prototype.redIMul = function redIMul(num) { assert(this.red, 'redMul works only with red numbers'); this.red._verify2(this, num); return this.red.imul(this, num); }; BN.prototype.redSqr = function redSqr() { assert(this.red, 'redSqr works only with red numbers'); this.red._verify1(this); return this.red.sqr(this); }; BN.prototype.redISqr = function redISqr() { assert(this.red, 'redISqr works only with red numbers'); this.red._verify1(this); return this.red.isqr(this); }; // Square root over p BN.prototype.redSqrt = function redSqrt() { assert(this.red, 'redSqrt works only with red numbers'); this.red._verify1(this); return this.red.sqrt(this); }; BN.prototype.redInvm = function redInvm() { assert(this.red, 'redInvm works only with red numbers'); this.red._verify1(this); return this.red.invm(this); }; // Return negative clone of `this` % `red modulo` BN.prototype.redNeg = function redNeg() { assert(this.red, 'redNeg works only with red numbers'); this.red._verify1(this); return this.red.neg(this); }; BN.prototype.redPow = function redPow(num) { assert(this.red && !num.red, 'redPow(normalNum)'); this.red._verify1(this); return this.red.pow(this, num); }; // Prime numbers with efficient reduction var primes = { k256: null, p224: null, p192: null, p25519: null }; // Pseudo-Mersenne prime function MPrime(name, p) { // P = 2 ^ N - K this.name = name; this.p = new BN(p, 16); this.n = this.p.bitLength(); this.k = new BN(1).ishln(this.n).isub(this.p); this.tmp = this._tmp(); } MPrime.prototype._tmp = function _tmp() { var tmp = new BN(null); tmp.words = new Array(Math.ceil(this.n / 13)); return tmp; }; MPrime.prototype.ireduce = function ireduce(num) { // Assumes that `num` is less than `P^2` // num = HI * (2 ^ N - K) + HI * K + LO = HI * K + LO (mod P) var r = num; var rlen; do { this.split(r, this.tmp); r = this.imulK(r); r = r.iadd(this.tmp); rlen = r.bitLength(); } while (rlen > this.n); var cmp = rlen < this.n ? -1 : r.ucmp(this.p); if (cmp === 0) { r.words[0] = 0; r.length = 1; } else if (cmp > 0) { r.isub(this.p); } else { r.strip(); } return r; }; MPrime.prototype.split = function split(input, out) { input.ishrn(this.n, 0, out); }; MPrime.prototype.imulK = function imulK(num) { return num.imul(this.k); }; function K256() { MPrime.call( this, 'k256', 'ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffe fffffc2f'); } inherits(K256, MPrime); K256.prototype.split = function split(input, output) { // 256 = 9 * 26 + 22 var mask = 0x3fffff; var outLen = Math.min(input.length, 9); for (var i = 0; i < outLen; i++) output.words[i] = input.words[i]; output.length = outLen; if (input.length <= 9) { input.words[0] = 0; input.length = 1; return; } // Shift by 9 limbs var prev = input.words[9]; output.words[output.length++] = prev & mask; for (var i = 10; i < input.length; i++) { var next = input.words[i]; input.words[i - 10] = ((next & mask) << 4) | (prev >>> 22); prev = next; } input.words[i - 10] = prev >>> 22; input.length -= 9; }; K256.prototype.imulK = function imulK(num) { // K = 0x1000003d1 = [ 0x40, 0x3d1 ] num.words[num.length] = 0; num.words[num.length + 1] = 0; num.length += 2; // bounded at: 0x40 * 0x3ffffff + 0x3d0 = 0x100000390 var hi; var lo = 0; for (var i = 0; i < num.length; i++) { var w = num.words[i]; hi = w * 0x40; lo += w * 0x3d1; hi += (lo / 0x4000000) | 0; lo &= 0x3ffffff; num.words[i] = lo; lo = hi; } // Fast length reduction if (num.words[num.length - 1] === 0) { num.length--; if (num.words[num.length - 1] === 0) num.length--; } return num; }; function P224() { MPrime.call( this, 'p224', 'ffffffff ffffffff ffffffff ffffffff 00000000 00000000 00000001'); } inherits(P224, MPrime); function P192() { MPrime.call( this, 'p192', 'ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff'); } inherits(P192, MPrime); function P25519() { // 2 ^ 255 - 19 MPrime.call( this, '25519', '7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed'); } inherits(P25519, MPrime); P25519.prototype.imulK = function imulK(num) { // K = 0x13 var carry = 0; for (var i = 0; i < num.length; i++) { var hi = num.words[i] * 0x13 + carry; var lo = hi & 0x3ffffff; hi >>>= 26; num.words[i] = lo; carry = hi; } if (carry !== 0) num.words[num.length++] = carry; return num; }; // Exported mostly for testing purposes, use plain name instead BN._prime = function prime(name) { // Cached version of prime if (primes[name]) return primes[name]; var prime; if (name === 'k256') prime = new K256(); else if (name === 'p224') prime = new P224(); else if (name === 'p192') prime = new P192(); else if (name === 'p25519') prime = new P25519(); else throw new Error('Unknown prime ' + name); primes[name] = prime; return prime; }; // // Base reduction engine // function Red(m) { if (typeof m === 'string') { var prime = BN._prime(m); this.m = prime.p; this.prime = prime; } else { this.m = m; this.prime = null; } } Red.prototype._verify1 = function _verify1(a) { assert(!a.sign, 'red works only with positives'); assert(a.red, 'red works only with red numbers'); }; Red.prototype._verify2 = function _verify2(a, b) { assert(!a.sign && !b.sign, 'red works only with positives'); assert(a.red && a.red === b.red, 'red works only with red numbers'); }; Red.prototype.imod = function imod(a) { if (this.prime) return this.prime.ireduce(a)._forceRed(this); return a.mod(this.m)._forceRed(this); }; Red.prototype.neg = function neg(a) { var r = a.clone(); r.sign = !r.sign; return r.iadd(this.m)._forceRed(this); }; Red.prototype.add = function add(a, b) { this._verify2(a, b); var res = a.add(b); if (res.cmp(this.m) >= 0) res.isub(this.m); return res._forceRed(this); }; Red.prototype.iadd = function iadd(a, b) { this._verify2(a, b); var res = a.iadd(b); if (res.cmp(this.m) >= 0) res.isub(this.m); return res; }; Red.prototype.sub = function sub(a, b) { this._verify2(a, b); var res = a.sub(b); if (res.cmpn(0) < 0) res.iadd(this.m); return res._forceRed(this); }; Red.prototype.isub = function isub(a, b) { this._verify2(a, b); var res = a.isub(b); if (res.cmpn(0) < 0) res.iadd(this.m); return res; }; Red.prototype.shl = function shl(a, num) { this._verify1(a); return this.imod(a.shln(num)); }; Red.prototype.imul = function imul(a, b) { this._verify2(a, b); return this.imod(a.imul(b)); }; Red.prototype.mul = function mul(a, b) { this._verify2(a, b); return this.imod(a.mul(b)); }; Red.prototype.isqr = function isqr(a) { return this.imul(a, a); }; Red.prototype.sqr = function sqr(a) { return this.mul(a, a); }; Red.prototype.sqrt = function sqrt(a) { if (a.cmpn(0) === 0) return a.clone(); var mod3 = this.m.andln(3); assert(mod3 % 2 === 1); // Fast case if (mod3 === 3) { var pow = this.m.add(new BN(1)).ishrn(2); var r = this.pow(a, pow); return r; } // Tonelli-Shanks algorithm (Totally unoptimized and slow) // // Find Q and S, that Q * 2 ^ S = (P - 1) var q = this.m.subn(1); var s = 0; while (q.cmpn(0) !== 0 && q.andln(1) === 0) { s++; q.ishrn(1); } assert(q.cmpn(0) !== 0); var one = new BN(1).toRed(this); var nOne = one.redNeg(); // Find quadratic non-residue // NOTE: Max is such because of generalized Riemann hypothesis. var lpow = this.m.subn(1).ishrn(1); var z = this.m.bitLength(); z = new BN(2 * z * z).toRed(this); while (this.pow(z, lpow).cmp(nOne) !== 0) z.redIAdd(nOne); var c = this.pow(z, q); var r = this.pow(a, q.addn(1).ishrn(1)); var t = this.pow(a, q); var m = s; while (t.cmp(one) !== 0) { var tmp = t; for (var i = 0; tmp.cmp(one) !== 0; i++) tmp = tmp.redSqr(); assert(i < m); var b = this.pow(c, new BN(1).ishln(m - i - 1)); r = r.redMul(b); c = b.redSqr(); t = t.redMul(c); m = i; } return r; }; Red.prototype.invm = function invm(a) { var inv = a._invmp(this.m); if (inv.sign) { inv.sign = false; return this.imod(inv).redNeg(); } else { return this.imod(inv); } }; Red.prototype.pow = function pow(a, num) { var w = []; if (num.cmpn(0) === 0) return new BN(1); var q = num.clone(); while (q.cmpn(0) !== 0) { w.push(q.andln(1)); q.ishrn(1); } // Skip leading zeroes var res = a; for (var i = 0; i < w.length; i++, res = this.sqr(res)) if (w[i] !== 0) break; if (++i < w.length) { for (var q = this.sqr(res); i < w.length; i++, q = this.sqr(q)) { if (w[i] === 0) continue; res = this.mul(res, q); } } return res; }; Red.prototype.convertTo = function convertTo(num) { var r = num.mod(this.m); if (r === num) return r.clone(); else return r; }; Red.prototype.convertFrom = function convertFrom(num) { var res = num.clone(); res.red = null; return res; }; // // Montgomery method engine // BN.mont = function mont(num) { return new Mont(num); }; function Mont(m) { Red.call(this, m); this.shift = this.m.bitLength(); if (this.shift % 26 !== 0) this.shift += 26 - (this.shift % 26); this.r = new BN(1).ishln(this.shift); this.r2 = this.imod(this.r.sqr()); this.rinv = this.r._invmp(this.m); this.minv = this.rinv.mul(this.r).isubn(1).div(this.m); this.minv.sign = true; this.minv = this.minv.mod(this.r); } inherits(Mont, Red); Mont.prototype.convertTo = function convertTo(num) { return this.imod(num.shln(this.shift)); }; Mont.prototype.convertFrom = function convertFrom(num) { var r = this.imod(num.mul(this.rinv)); r.red = null; return r; }; Mont.prototype.imul = function imul(a, b) { if (a.cmpn(0) === 0 || b.cmpn(0) === 0) { a.words[0] = 0; a.length = 1; return a; } var t = a.imul(b); var c = t.maskn(this.shift).mul(this.minv).imaskn(this.shift).mul(this.m); var u = t.isub(c).ishrn(this.shift); var res = u; if (u.cmp(this.m) >= 0) res = u.isub(this.m); else if (u.cmpn(0) < 0) res = u.iadd(this.m); return res._forceRed(this); }; Mont.prototype.mul = function mul(a, b) { if (a.cmpn(0) === 0 || b.cmpn(0) === 0) return new BN(0)._forceRed(this); var t = a.mul(b); var c = t.maskn(this.shift).mul(this.minv).imaskn(this.shift).mul(this.m); var u = t.isub(c).ishrn(this.shift); var res = u; if (u.cmp(this.m) >= 0) res = u.isub(this.m); else if (u.cmpn(0) < 0) res = u.iadd(this.m); return res._forceRed(this); }; Mont.prototype.invm = function invm(a) { // (AR)^-1 * R^2 = (A^-1 * R^-1) * R^2 = A^-1 * R var res = this.imod(a._invmp(this.m).mul(this.r2)); return res._forceRed(this); }; })(typeof module === 'undefined' || module, this); },{}],42:[function(require,module,exports){ (function (Buffer){ var bn = require(41); var randomBytes = require(194); module.exports = crt; function blind(priv) { var r = getr(priv); var blinder = r.toRed(bn.mont(priv.modulus)) .redPow(new bn(priv.publicExponent)).fromRed(); return { blinder: blinder, unblinder:r.invm(priv.modulus) }; } function crt(msg, priv) { var blinds = blind(priv); var len = priv.modulus.byteLength(); var mod = bn.mont(priv.modulus); var blinded = new bn(msg).mul(blinds.blinder).mod(priv.modulus); var c1 = blinded.toRed(bn.mont(priv.prime1)); var c2 = blinded.toRed(bn.mont(priv.prime2)); var qinv = priv.coefficient; var p = priv.prime1; var q = priv.prime2; var m1 = c1.redPow(priv.exponent1); var m2 = c2.redPow(priv.exponent2); m1 = m1.fromRed(); m2 = m2.fromRed(); var h = m1.isub(m2).imul(qinv).mod(p); h.imul(q); m2.iadd(h); var out = new Buffer(m2.imul(blinds.unblinder).mod(priv.modulus).toArray()); if (out.length < len) { var prefix = new Buffer(len - out.length); prefix.fill(0); out = Buffer.concat([prefix, out], len); } return out; } crt.getr = getr; function getr(priv) { var len = priv.modulus.byteLength(); var r = new bn(randomBytes(len)); while (r.cmp(priv.modulus) >= 0 || !r.mod(priv.prime1) || !r.mod(priv.prime2)) { r = new bn(randomBytes(len)); } return r; } }).call(this,require(4).Buffer) },{"194":194,"4":4,"41":41}],43:[function(require,module,exports){ 'use strict'; var elliptic = exports; elliptic.version = require(63).version; elliptic.utils = require(55); elliptic.rand = require(56); elliptic.hmacDRBG = require(53); elliptic.curve = require(46); elliptic.curves = require(49); // Protocols elliptic.ec = require(50); },{"46":46,"49":49,"50":50,"53":53,"55":55,"56":56,"63":63}],44:[function(require,module,exports){ 'use strict'; var bn = require(41); var elliptic = require(43); var getNAF = elliptic.utils.getNAF; var getJSF = elliptic.utils.getJSF; var assert = elliptic.utils.assert; function BaseCurve(type, conf) { this.type = type; this.p = new bn(conf.p, 16); // Use Montgomery, when there is no fast reduction for the prime this.red = conf.prime ? bn.red(conf.prime) : bn.mont(this.p); // Useful for many curves this.zero = new bn(0).toRed(this.red); this.one = new bn(1).toRed(this.red); this.two = new bn(2).toRed(this.red); // Curve configuration, optional this.n = conf.n && new bn(conf.n, 16); this.g = conf.g && this.pointFromJSON(conf.g, conf.gRed); // Temporary arrays this._wnafT1 = new Array(4); this._wnafT2 = new Array(4); this._wnafT3 = new Array(4); this._wnafT4 = new Array(4); } module.exports = BaseCurve; BaseCurve.prototype.point = function point() { throw new Error('Not implemented'); }; BaseCurve.prototype.validate = function validate() { throw new Error('Not implemented'); }; BaseCurve.prototype._fixedNafMul = function _fixedNafMul(p, k) { assert(p.precomputed); var doubles = p._getDoubles(); var naf = getNAF(k, 1); var I = (1 << (doubles.step + 1)) - (doubles.step % 2 === 0 ? 2 : 1); I /= 3; // Translate into more windowed form var repr = []; for (var j = 0; j < naf.length; j += doubles.step) { var nafW = 0; for (var k = j + doubles.step - 1; k >= j; k--) nafW = (nafW << 1) + naf[k]; repr.push(nafW); } var a = this.jpoint(null, null, null); var b = this.jpoint(null, null, null); for (var i = I; i > 0; i--) { for (var j = 0; j < repr.length; j++) { var nafW = repr[j]; if (nafW === i) b = b.mixedAdd(doubles.points[j]); else if (nafW === -i) b = b.mixedAdd(doubles.points[j].neg()); } a = a.add(b); } return a.toP(); }; BaseCurve.prototype._wnafMul = function _wnafMul(p, k) { var w = 4; // Precompute window var nafPoints = p._getNAFPoints(w); w = nafPoints.wnd; var wnd = nafPoints.points; // Get NAF form var naf = getNAF(k, w); // Add `this`*(N+1) for every w-NAF index var acc = this.jpoint(null, null, null); for (var i = naf.length - 1; i >= 0; i--) { // Count zeroes for (var k = 0; i >= 0 && naf[i] === 0; i--) k++; if (i >= 0) k++; acc = acc.dblp(k); if (i < 0) break; var z = naf[i]; assert(z !== 0); if (p.type === 'affine') { // J +- P if (z > 0) acc = acc.mixedAdd(wnd[(z - 1) >> 1]); else acc = acc.mixedAdd(wnd[(-z - 1) >> 1].neg()); } else { // J +- J if (z > 0) acc = acc.add(wnd[(z - 1) >> 1]); else acc = acc.add(wnd[(-z - 1) >> 1].neg()); } } return p.type === 'affine' ? acc.toP() : acc; }; BaseCurve.prototype._wnafMulAdd = function _wnafMulAdd(defW, points, coeffs, len) { var wndWidth = this._wnafT1; var wnd = this._wnafT2; var naf = this._wnafT3; // Fill all arrays var max = 0; for (var i = 0; i < len; i++) { var p = points[i]; var nafPoints = p._getNAFPoints(defW); wndWidth[i] = nafPoints.wnd; wnd[i] = nafPoints.points; } // Comb small window NAFs for (var i = len - 1; i >= 1; i -= 2) { var a = i - 1; var b = i; if (wndWidth[a] !== 1 || wndWidth[b] !== 1) { naf[a] = getNAF(coeffs[a], wndWidth[a]); naf[b] = getNAF(coeffs[b], wndWidth[b]); max = Math.max(naf[a].length, max); max = Math.max(naf[b].length, max); continue; } var comb = [ points[a], /* 1 */ null, /* 3 */ null, /* 5 */ points[b] /* 7 */ ]; // Try to avoid Projective points, if possible if (points[a].y.cmp(points[b].y) === 0) { comb[1] = points[a].add(points[b]); comb[2] = points[a].toJ().mixedAdd(points[b].neg()); } else if (points[a].y.cmp(points[b].y.redNeg()) === 0) { comb[1] = points[a].toJ().mixedAdd(points[b]); comb[2] = points[a].add(points[b].neg()); } else { comb[1] = points[a].toJ().mixedAdd(points[b]); comb[2] = points[a].toJ().mixedAdd(points[b].neg()); } var index = [ -3, /* -1 -1 */ -1, /* -1 0 */ -5, /* -1 1 */ -7, /* 0 -1 */ 0, /* 0 0 */ 7, /* 0 1 */ 5, /* 1 -1 */ 1, /* 1 0 */ 3 /* 1 1 */ ]; var jsf = getJSF(coeffs[a], coeffs[b]); max = Math.max(jsf[0].length, max); naf[a] = new Array(max); naf[b] = new Array(max); for (var j = 0; j < max; j++) { var ja = jsf[0][j] | 0; var jb = jsf[1][j] | 0; naf[a][j] = index[(ja + 1) * 3 + (jb + 1)]; naf[b][j] = 0; wnd[a] = comb; } } var acc = this.jpoint(null, null, null); var tmp = this._wnafT4; for (var i = max; i >= 0; i--) { var k = 0; while (i >= 0) { var zero = true; for (var j = 0; j < len; j++) { tmp[j] = naf[j][i] | 0; if (tmp[j] !== 0) zero = false; } if (!zero) break; k++; i--; } if (i >= 0) k++; acc = acc.dblp(k); if (i < 0) break; for (var j = 0; j < len; j++) { var z = tmp[j]; var p; if (z === 0) continue; else if (z > 0) p = wnd[j][(z - 1) >> 1]; else if (z < 0) p = wnd[j][(-z - 1) >> 1].neg(); if (p.type === 'affine') acc = acc.mixedAdd(p); else acc = acc.add(p); } } // Zeroify references for (var i = 0; i < len; i++) wnd[i] = null; return acc.toP(); }; function BasePoint(curve, type) { this.curve = curve; this.type = type; this.precomputed = null; } BaseCurve.BasePoint = BasePoint; BasePoint.prototype.validate = function validate() { return this.curve.validate(this); }; BasePoint.prototype.precompute = function precompute(power) { if (this.precomputed) return this; var precomputed = { doubles: null, naf: null, beta: null }; precomputed.naf = this._getNAFPoints(8); precomputed.doubles = this._getDoubles(4, power); precomputed.beta = this._getBeta(); this.precomputed = precomputed; return this; }; BasePoint.prototype._hasDoubles = function _hasDoubles(k) { if (!this.precomputed) return false; var doubles = this.precomputed.doubles; if (!doubles) return false; return doubles.points.length >= Math.ceil((k.bitLength() + 1) / doubles.step); }; BasePoint.prototype._getDoubles = function _getDoubles(step, power) { if (this.precomputed && this.precomputed.doubles) return this.precomputed.doubles; var doubles = [ this ]; var acc = this; for (var i = 0; i < power; i += step) { for (var j = 0; j < step; j++) acc = acc.dbl(); doubles.push(acc); } return { step: step, points: doubles }; }; BasePoint.prototype._getNAFPoints = function _getNAFPoints(wnd) { if (this.precomputed && this.precomputed.naf) return this.precomputed.naf; var res = [ this ]; var max = (1 << wnd) - 1; var dbl = max === 1 ? null : this.dbl(); for (var i = 1; i < max; i++) res[i] = res[i - 1].add(dbl); return { wnd: wnd, points: res }; }; BasePoint.prototype._getBeta = function _getBeta() { return null; }; BasePoint.prototype.dblp = function dblp(k) { var r = this; for (var i = 0; i < k; i++) r = r.dbl(); return r; }; },{"41":41,"43":43}],45:[function(require,module,exports){ 'use strict'; var curve = require(46); var elliptic = require(43); var bn = require(41); var inherits = require(196); var Base = curve.base; var assert = elliptic.utils.assert; function EdwardsCurve(conf) { // NOTE: Important as we are creating point in Base.call() this.twisted = (conf.a | 0) !== 1; this.mOneA = this.twisted && (conf.a | 0) === -1; this.extended = this.mOneA; Base.call(this, 'edwards', conf); this.a = new bn(conf.a, 16).mod(this.red.m).toRed(this.red); this.c = new bn(conf.c, 16).toRed(this.red); this.c2 = this.c.redSqr(); this.d = new bn(conf.d, 16).toRed(this.red); this.dd = this.d.redAdd(this.d); assert(!this.twisted || this.c.fromRed().cmpn(1) === 0); this.oneC = (conf.c | 0) === 1; } inherits(EdwardsCurve, Base); module.exports = EdwardsCurve; EdwardsCurve.prototype._mulA = function _mulA(num) { if (this.mOneA) return num.redNeg(); else return this.a.redMul(num); }; EdwardsCurve.prototype._mulC = function _mulC(num) { if (this.oneC) return num; else return this.c.redMul(num); }; // Just for compatibility with Short curve EdwardsCurve.prototype.jpoint = function jpoint(x, y, z, t) { return this.point(x, y, z, t); }; EdwardsCurve.prototype.pointFromX = function pointFromX(odd, x) { x = new bn(x, 16); if (!x.red) x = x.toRed(this.red); var x2 = x.redSqr(); var rhs = this.c2.redSub(this.a.redMul(x2)); var lhs = this.one.redSub(this.c2.redMul(this.d).redMul(x2)); var y = rhs.redMul(lhs.redInvm()).redSqrt(); var isOdd = y.fromRed().isOdd(); if (odd && !isOdd || !odd && isOdd) y = y.redNeg(); return this.point(x, y, curve.one); }; EdwardsCurve.prototype.validate = function validate(point) { if (point.isInfinity()) return true; // Curve: A * X^2 + Y^2 = C^2 * (1 + D * X^2 * Y^2) point.normalize(); var x2 = point.x.redSqr(); var y2 = point.y.redSqr(); var lhs = x2.redMul(this.a).redAdd(y2); var rhs = this.c2.redMul(this.one.redAdd(this.d.redMul(x2).redMul(y2))); return lhs.cmp(rhs) === 0; }; function Point(curve, x, y, z, t) { Base.BasePoint.call(this, curve, 'projective'); if (x === null && y === null && z === null) { this.x = this.curve.zero; this.y = this.curve.one; this.z = this.curve.one; this.t = this.curve.zero; this.zOne = true; } else { this.x = new bn(x, 16); this.y = new bn(y, 16); this.z = z ? new bn(z, 16) : this.curve.one; this.t = t && new bn(t, 16); if (!this.x.red) this.x = this.x.toRed(this.curve.red); if (!this.y.red) this.y = this.y.toRed(this.curve.red); if (!this.z.red) this.z = this.z.toRed(this.curve.red); if (this.t && !this.t.red) this.t = this.t.toRed(this.curve.red); this.zOne = this.z === this.curve.one; // Use extended coordinates if (this.curve.extended && !this.t) { this.t = this.x.redMul(this.y); if (!this.zOne) this.t = this.t.redMul(this.z.redInvm()); } } } inherits(Point, Base.BasePoint); EdwardsCurve.prototype.pointFromJSON = function pointFromJSON(obj) { return Point.fromJSON(this, obj); }; EdwardsCurve.prototype.point = function point(x, y, z, t) { return new Point(this, x, y, z, t); }; Point.fromJSON = function fromJSON(curve, obj) { return new Point(curve, obj[0], obj[1], obj[2]); }; Point.prototype.inspect = function inspect() { if (this.isInfinity()) return ''; return ''; }; Point.prototype.isInfinity = function isInfinity() { // XXX This code assumes that zero is always zero in red return this.x.cmpn(0) === 0 && this.y.cmp(this.z) === 0; }; Point.prototype._extDbl = function _extDbl() { // hyperelliptic.org/EFD/g1p/auto-twisted-extended-1.html // #doubling-dbl-2008-hwcd // 4M + 4S // A = X1^2 var a = this.x.redSqr(); // B = Y1^2 var b = this.y.redSqr(); // C = 2 * Z1^2 var c = this.z.redSqr(); c = c.redIAdd(c); // D = a * A var d = this.curve._mulA(a); // E = (X1 + Y1)^2 - A - B var e = this.x.redAdd(this.y).redSqr().redISub(a).redISub(b); // G = D + B var g = d.redAdd(b); // F = G - C var f = g.redSub(c); // H = D - B var h = d.redSub(b); // X3 = E * F var nx = e.redMul(f); // Y3 = G * H var ny = g.redMul(h); // T3 = E * H var nt = e.redMul(h); // Z3 = F * G var nz = f.redMul(g); return this.curve.point(nx, ny, nz, nt); }; Point.prototype._projDbl = function _projDbl() { // hyperelliptic.org/EFD/g1p/auto-twisted-projective.html // #doubling-dbl-2008-bbjlp // #doubling-dbl-2007-bl // and others // Generally 3M + 4S or 2M + 4S // B = (X1 + Y1)^2 var b = this.x.redAdd(this.y).redSqr(); // C = X1^2 var c = this.x.redSqr(); // D = Y1^2 var d = this.y.redSqr(); var nx; var ny; var nz; if (this.curve.twisted) { // E = a * C var e = this.curve._mulA(c); // F = E + D var f = e.redAdd(d); if (this.zOne) { // X3 = (B - C - D) * (F - 2) nx = b.redSub(c).redSub(d).redMul(f.redSub(this.curve.two)); // Y3 = F * (E - D) ny = f.redMul(e.redSub(d)); // Z3 = F^2 - 2 * F nz = f.redSqr().redSub(f).redSub(f); } else { // H = Z1^2 var h = this.z.redSqr(); // J = F - 2 * H var j = f.redSub(h).redISub(h); // X3 = (B-C-D)*J nx = b.redSub(c).redISub(d).redMul(j); // Y3 = F * (E - D) ny = f.redMul(e.redSub(d)); // Z3 = F * J nz = f.redMul(j); } } else { // E = C + D var e = c.redAdd(d); // H = (c * Z1)^2 var h = this.curve._mulC(this.c.redMul(this.z)).redSqr(); // J = E - 2 * H var j = e.redSub(h).redSub(h); // X3 = c * (B - E) * J nx = this.curve._mulC(b.redISub(e)).redMul(j); // Y3 = c * E * (C - D) ny = this.curve._mulC(e).redMul(c.redISub(d)); // Z3 = E * J nz = e.redMul(j); } return this.curve.point(nx, ny, nz); }; Point.prototype.dbl = function dbl() { if (this.isInfinity()) return this; // Double in extended coordinates if (this.curve.extended) return this._extDbl(); else return this._projDbl(); }; Point.prototype._extAdd = function _extAdd(p) { // hyperelliptic.org/EFD/g1p/auto-twisted-extended-1.html // #addition-add-2008-hwcd-3 // 8M // A = (Y1 - X1) * (Y2 - X2) var a = this.y.redSub(this.x).redMul(p.y.redSub(p.x)); // B = (Y1 + X1) * (Y2 + X2) var b = this.y.redAdd(this.x).redMul(p.y.redAdd(p.x)); // C = T1 * k * T2 var c = this.t.redMul(this.curve.dd).redMul(p.t); // D = Z1 * 2 * Z2 var d = this.z.redMul(p.z.redAdd(p.z)); // E = B - A var e = b.redSub(a); // F = D - C var f = d.redSub(c); // G = D + C var g = d.redAdd(c); // H = B + A var h = b.redAdd(a); // X3 = E * F var nx = e.redMul(f); // Y3 = G * H var ny = g.redMul(h); // T3 = E * H var nt = e.redMul(h); // Z3 = F * G var nz = f.redMul(g); return this.curve.point(nx, ny, nz, nt); }; Point.prototype._projAdd = function _projAdd(p) { // hyperelliptic.org/EFD/g1p/auto-twisted-projective.html // #addition-add-2008-bbjlp // #addition-add-2007-bl // 10M + 1S // A = Z1 * Z2 var a = this.z.redMul(p.z); // B = A^2 var b = a.redSqr(); // C = X1 * X2 var c = this.x.redMul(p.x); // D = Y1 * Y2 var d = this.y.redMul(p.y); // E = d * C * D var e = this.curve.d.redMul(c).redMul(d); // F = B - E var f = b.redSub(e); // G = B + E var g = b.redAdd(e); // X3 = A * F * ((X1 + Y1) * (X2 + Y2) - C - D) var tmp = this.x.redAdd(this.y).redMul(p.x.redAdd(p.y)).redISub(c).redISub(d); var nx = a.redMul(f).redMul(tmp); var ny; var nz; if (this.curve.twisted) { // Y3 = A * G * (D - a * C) ny = a.redMul(g).redMul(d.redSub(this.curve._mulA(c))); // Z3 = F * G nz = f.redMul(g); } else { // Y3 = A * G * (D - C) ny = a.redMul(g).redMul(d.redSub(c)); // Z3 = c * F * G nz = this.curve._mulC(f).redMul(g); } return this.curve.point(nx, ny, nz); }; Point.prototype.add = function add(p) { if (this.isInfinity()) return p; if (p.isInfinity()) return this; if (this.curve.extended) return this._extAdd(p); else return this._projAdd(p); }; Point.prototype.mul = function mul(k) { if (this._hasDoubles(k)) return this.curve._fixedNafMul(this, k); else return this.curve._wnafMul(this, k); }; Point.prototype.mulAdd = function mulAdd(k1, p, k2) { return this.curve._wnafMulAdd(1, [ this, p ], [ k1, k2 ], 2); }; Point.prototype.normalize = function normalize() { if (this.zOne) return this; // Normalize coordinates var zi = this.z.redInvm(); this.x = this.x.redMul(zi); this.y = this.y.redMul(zi); if (this.t) this.t = this.t.redMul(zi); this.z = this.curve.one; this.zOne = true; return this; }; Point.prototype.neg = function neg() { return this.curve.point(this.x.redNeg(), this.y, this.z, this.t && this.t.redNeg()); }; Point.prototype.getX = function getX() { this.normalize(); return this.x.fromRed(); }; Point.prototype.getY = function getY() { this.normalize(); return this.y.fromRed(); }; // Compatibility with BaseCurve Point.prototype.toP = Point.prototype.normalize; Point.prototype.mixedAdd = Point.prototype.add; },{"196":196,"41":41,"43":43,"46":46}],46:[function(require,module,exports){ 'use strict'; var curve = exports; curve.base = require(44); curve.short = require(48); curve.mont = require(47); curve.edwards = require(45); },{"44":44,"45":45,"47":47,"48":48}],47:[function(require,module,exports){ 'use strict'; var curve = require(46); var bn = require(41); var inherits = require(196); var Base = curve.base; function MontCurve(conf) { Base.call(this, 'mont', conf); this.a = new bn(conf.a, 16).toRed(this.red); this.b = new bn(conf.b, 16).toRed(this.red); this.i4 = new bn(4).toRed(this.red).redInvm(); this.two = new bn(2).toRed(this.red); this.a24 = this.i4.redMul(this.a.redAdd(this.two)); } inherits(MontCurve, Base); module.exports = MontCurve; MontCurve.prototype.validate = function validate(point) { var x = point.normalize().x; var x2 = x.redSqr(); var rhs = x2.redMul(x).redAdd(x2.redMul(this.a)).redAdd(x); var y = rhs.redSqrt(); return y.redSqr().cmp(rhs) === 0; }; function Point(curve, x, z) { Base.BasePoint.call(this, curve, 'projective'); if (x === null && z === null) { this.x = this.curve.one; this.z = this.curve.zero; } else { this.x = new bn(x, 16); this.z = new bn(z, 16); if (!this.x.red) this.x = this.x.toRed(this.curve.red); if (!this.z.red) this.z = this.z.toRed(this.curve.red); } } inherits(Point, Base.BasePoint); MontCurve.prototype.point = function point(x, z) { return new Point(this, x, z); }; MontCurve.prototype.pointFromJSON = function pointFromJSON(obj) { return Point.fromJSON(this, obj); }; Point.prototype.precompute = function precompute() { // No-op }; Point.fromJSON = function fromJSON(curve, obj) { return new Point(curve, obj[0], obj[1] || curve.one); }; Point.prototype.inspect = function inspect() { if (this.isInfinity()) return ''; return ''; }; Point.prototype.isInfinity = function isInfinity() { // XXX This code assumes that zero is always zero in red return this.z.cmpn(0) === 0; }; Point.prototype.dbl = function dbl() { // http://hyperelliptic.org/EFD/g1p/auto-montgom-xz.html#doubling-dbl-1987-m-3 // 2M + 2S + 4A // A = X1 + Z1 var a = this.x.redAdd(this.z); // AA = A^2 var aa = a.redSqr(); // B = X1 - Z1 var b = this.x.redSub(this.z); // BB = B^2 var bb = b.redSqr(); // C = AA - BB var c = aa.redSub(bb); // X3 = AA * BB var nx = aa.redMul(bb); // Z3 = C * (BB + A24 * C) var nz = c.redMul(bb.redAdd(this.curve.a24.redMul(c))); return this.curve.point(nx, nz); }; Point.prototype.add = function add() { throw new Error('Not supported on Montgomery curve'); }; Point.prototype.diffAdd = function diffAdd(p, diff) { // http://hyperelliptic.org/EFD/g1p/auto-montgom-xz.html#diffadd-dadd-1987-m-3 // 4M + 2S + 6A // A = X2 + Z2 var a = this.x.redAdd(this.z); // B = X2 - Z2 var b = this.x.redSub(this.z); // C = X3 + Z3 var c = p.x.redAdd(p.z); // D = X3 - Z3 var d = p.x.redSub(p.z); // DA = D * A var da = d.redMul(a); // CB = C * B var cb = c.redMul(b); // X5 = Z1 * (DA + CB)^2 var nx = diff.z.redMul(da.redAdd(cb).redSqr()); // Z5 = X1 * (DA - CB)^2 var nz = diff.x.redMul(da.redISub(cb).redSqr()); return this.curve.point(nx, nz); }; Point.prototype.mul = function mul(k) { var t = k.clone(); var a = this; // (N / 2) * Q + Q var b = this.curve.point(null, null); // (N / 2) * Q var c = this; // Q for (var bits = []; t.cmpn(0) !== 0; t.ishrn(1)) bits.push(t.andln(1)); for (var i = bits.length - 1; i >= 0; i--) { if (bits[i] === 0) { // N * Q + Q = ((N / 2) * Q + Q)) + (N / 2) * Q a = a.diffAdd(b, c); // N * Q = 2 * ((N / 2) * Q + Q)) b = b.dbl(); } else { // N * Q = ((N / 2) * Q + Q) + ((N / 2) * Q) b = a.diffAdd(b, c); // N * Q + Q = 2 * ((N / 2) * Q + Q) a = a.dbl(); } } return b; }; Point.prototype.mulAdd = function mulAdd() { throw new Error('Not supported on Montgomery curve'); }; Point.prototype.normalize = function normalize() { this.x = this.x.redMul(this.z.redInvm()); this.z = this.curve.one; return this; }; Point.prototype.getX = function getX() { // Normalize coordinates this.normalize(); return this.x.fromRed(); }; },{"196":196,"41":41,"46":46}],48:[function(require,module,exports){ 'use strict'; var curve = require(46); var elliptic = require(43); var bn = require(41); var inherits = require(196); var Base = curve.base; var assert = elliptic.utils.assert; function ShortCurve(conf) { Base.call(this, 'short', conf); this.a = new bn(conf.a, 16).toRed(this.red); this.b = new bn(conf.b, 16).toRed(this.red); this.tinv = this.two.redInvm(); this.zeroA = this.a.fromRed().cmpn(0) === 0; this.threeA = this.a.fromRed().sub(this.p).cmpn(-3) === 0; // If the curve is endomorphic, precalculate beta and lambda this.endo = this._getEndomorphism(conf); this._endoWnafT1 = new Array(4); this._endoWnafT2 = new Array(4); } inherits(ShortCurve, Base); module.exports = ShortCurve; ShortCurve.prototype._getEndomorphism = function _getEndomorphism(conf) { // No efficient endomorphism if (!this.zeroA || !this.g || !this.n || this.p.modn(3) !== 1) return; // Compute beta and lambda, that lambda * P = (beta * Px; Py) var beta; var lambda; if (conf.beta) { beta = new bn(conf.beta, 16).toRed(this.red); } else { var betas = this._getEndoRoots(this.p); // Choose the smallest beta beta = betas[0].cmp(betas[1]) < 0 ? betas[0] : betas[1]; beta = beta.toRed(this.red); } if (conf.lambda) { lambda = new bn(conf.lambda, 16); } else { // Choose the lambda that is matching selected beta var lambdas = this._getEndoRoots(this.n); if (this.g.mul(lambdas[0]).x.cmp(this.g.x.redMul(beta)) === 0) { lambda = lambdas[0]; } else { lambda = lambdas[1]; assert(this.g.mul(lambda).x.cmp(this.g.x.redMul(beta)) === 0); } } // Get basis vectors, used for balanced length-two representation var basis; if (conf.basis) { basis = conf.basis.map(function(vec) { return { a: new bn(vec.a, 16), b: new bn(vec.b, 16) }; }); } else { basis = this._getEndoBasis(lambda); } return { beta: beta, lambda: lambda, basis: basis }; }; ShortCurve.prototype._getEndoRoots = function _getEndoRoots(num) { // Find roots of for x^2 + x + 1 in F // Root = (-1 +- Sqrt(-3)) / 2 // var red = num === this.p ? this.red : bn.mont(num); var tinv = new bn(2).toRed(red).redInvm(); var ntinv = tinv.redNeg(); var s = new bn(3).toRed(red).redNeg().redSqrt().redMul(tinv); var l1 = ntinv.redAdd(s).fromRed(); var l2 = ntinv.redSub(s).fromRed(); return [ l1, l2 ]; }; ShortCurve.prototype._getEndoBasis = function _getEndoBasis(lambda) { // aprxSqrt >= sqrt(this.n) var aprxSqrt = this.n.shrn(Math.floor(this.n.bitLength() / 2)); // 3.74 // Run EGCD, until r(L + 1) < aprxSqrt var u = lambda; var v = this.n.clone(); var x1 = new bn(1); var y1 = new bn(0); var x2 = new bn(0); var y2 = new bn(1); // NOTE: all vectors are roots of: a + b * lambda = 0 (mod n) var a0; var b0; // First vector var a1; var b1; // Second vector var a2; var b2; var prevR; var i = 0; var r; var x; while (u.cmpn(0) !== 0) { var q = v.div(u); r = v.sub(q.mul(u)); x = x2.sub(q.mul(x1)); var y = y2.sub(q.mul(y1)); if (!a1 && r.cmp(aprxSqrt) < 0) { a0 = prevR.neg(); b0 = x1; a1 = r.neg(); b1 = x; } else if (a1 && ++i === 2) { break; } prevR = r; v = u; u = r; x2 = x1; x1 = x; y2 = y1; y1 = y; } a2 = r.neg(); b2 = x; var len1 = a1.sqr().add(b1.sqr()); var len2 = a2.sqr().add(b2.sqr()); if (len2.cmp(len1) >= 0) { a2 = a0; b2 = b0; } // Normalize signs if (a1.sign) { a1 = a1.neg(); b1 = b1.neg(); } if (a2.sign) { a2 = a2.neg(); b2 = b2.neg(); } return [ { a: a1, b: b1 }, { a: a2, b: b2 } ]; }; ShortCurve.prototype._endoSplit = function _endoSplit(k) { var basis = this.endo.basis; var v1 = basis[0]; var v2 = basis[1]; var c1 = v2.b.mul(k).divRound(this.n); var c2 = v1.b.neg().mul(k).divRound(this.n); var p1 = c1.mul(v1.a); var p2 = c2.mul(v2.a); var q1 = c1.mul(v1.b); var q2 = c2.mul(v2.b); // Calculate answer var k1 = k.sub(p1).sub(p2); var k2 = q1.add(q2).neg(); return { k1: k1, k2: k2 }; }; ShortCurve.prototype.pointFromX = function pointFromX(odd, x) { x = new bn(x, 16); if (!x.red) x = x.toRed(this.red); var y2 = x.redSqr().redMul(x).redIAdd(x.redMul(this.a)).redIAdd(this.b); var y = y2.redSqrt(); // XXX Is there any way to tell if the number is odd without converting it // to non-red form? var isOdd = y.fromRed().isOdd(); if (odd && !isOdd || !odd && isOdd) y = y.redNeg(); return this.point(x, y); }; ShortCurve.prototype.validate = function validate(point) { if (point.inf) return true; var x = point.x; var y = point.y; var ax = this.a.redMul(x); var rhs = x.redSqr().redMul(x).redIAdd(ax).redIAdd(this.b); return y.redSqr().redISub(rhs).cmpn(0) === 0; }; ShortCurve.prototype._endoWnafMulAdd = function _endoWnafMulAdd(points, coeffs) { var npoints = this._endoWnafT1; var ncoeffs = this._endoWnafT2; for (var i = 0; i < points.length; i++) { var split = this._endoSplit(coeffs[i]); var p = points[i]; var beta = p._getBeta(); if (split.k1.sign) { split.k1.sign = !split.k1.sign; p = p.neg(true); } if (split.k2.sign) { split.k2.sign = !split.k2.sign; beta = beta.neg(true); } npoints[i * 2] = p; npoints[i * 2 + 1] = beta; ncoeffs[i * 2] = split.k1; ncoeffs[i * 2 + 1] = split.k2; } var res = this._wnafMulAdd(1, npoints, ncoeffs, i * 2); // Clean-up references to points and coefficients for (var j = 0; j < i * 2; j++) { npoints[j] = null; ncoeffs[j] = null; } return res; }; function Point(curve, x, y, isRed) { Base.BasePoint.call(this, curve, 'affine'); if (x === null && y === null) { this.x = null; this.y = null; this.inf = true; } else { this.x = new bn(x, 16); this.y = new bn(y, 16); // Force redgomery representation when loading from JSON if (isRed) { this.x.forceRed(this.curve.red); this.y.forceRed(this.curve.red); } if (!this.x.red) this.x = this.x.toRed(this.curve.red); if (!this.y.red) this.y = this.y.toRed(this.curve.red); this.inf = false; } } inherits(Point, Base.BasePoint); ShortCurve.prototype.point = function point(x, y, isRed) { return new Point(this, x, y, isRed); }; ShortCurve.prototype.pointFromJSON = function pointFromJSON(obj, red) { return Point.fromJSON(this, obj, red); }; Point.prototype._getBeta = function _getBeta() { if (!this.curve.endo) return; var pre = this.precomputed; if (pre && pre.beta) return pre.beta; var beta = this.curve.point(this.x.redMul(this.curve.endo.beta), this.y); if (pre) { var curve = this.curve; var endoMul = function(p) { return curve.point(p.x.redMul(curve.endo.beta), p.y); }; pre.beta = beta; beta.precomputed = { beta: null, naf: pre.naf && { wnd: pre.naf.wnd, points: pre.naf.points.map(endoMul) }, doubles: pre.doubles && { step: pre.doubles.step, points: pre.doubles.points.map(endoMul) } }; } return beta; }; Point.prototype.toJSON = function toJSON() { if (!this.precomputed) return [ this.x, this.y ]; return [ this.x, this.y, this.precomputed && { doubles: this.precomputed.doubles && { step: this.precomputed.doubles.step, points: this.precomputed.doubles.points.slice(1) }, naf: this.precomputed.naf && { wnd: this.precomputed.naf.wnd, points: this.precomputed.naf.points.slice(1) } } ]; }; Point.fromJSON = function fromJSON(curve, obj, red) { if (typeof obj === 'string') obj = JSON.parse(obj); var res = curve.point(obj[0], obj[1], red); if (!obj[2]) return res; function obj2point(obj) { return curve.point(obj[0], obj[1], red); } var pre = obj[2]; res.precomputed = { beta: null, doubles: pre.doubles && { step: pre.doubles.step, points: [ res ].concat(pre.doubles.points.map(obj2point)) }, naf: pre.naf && { wnd: pre.naf.wnd, points: [ res ].concat(pre.naf.points.map(obj2point)) } }; return res; }; Point.prototype.inspect = function inspect() { if (this.isInfinity()) return ''; return ''; }; Point.prototype.isInfinity = function isInfinity() { return this.inf; }; Point.prototype.add = function add(p) { // O + P = P if (this.inf) return p; // P + O = P if (p.inf) return this; // P + P = 2P if (this.eq(p)) return this.dbl(); // P + (-P) = O if (this.neg().eq(p)) return this.curve.point(null, null); // P + Q = O if (this.x.cmp(p.x) === 0) return this.curve.point(null, null); var c = this.y.redSub(p.y); if (c.cmpn(0) !== 0) c = c.redMul(this.x.redSub(p.x).redInvm()); var nx = c.redSqr().redISub(this.x).redISub(p.x); var ny = c.redMul(this.x.redSub(nx)).redISub(this.y); return this.curve.point(nx, ny); }; Point.prototype.dbl = function dbl() { if (this.inf) return this; // 2P = O var ys1 = this.y.redAdd(this.y); if (ys1.cmpn(0) === 0) return this.curve.point(null, null); var a = this.curve.a; var x2 = this.x.redSqr(); var dyinv = ys1.redInvm(); var c = x2.redAdd(x2).redIAdd(x2).redIAdd(a).redMul(dyinv); var nx = c.redSqr().redISub(this.x.redAdd(this.x)); var ny = c.redMul(this.x.redSub(nx)).redISub(this.y); return this.curve.point(nx, ny); }; Point.prototype.getX = function getX() { return this.x.fromRed(); }; Point.prototype.getY = function getY() { return this.y.fromRed(); }; Point.prototype.mul = function mul(k) { k = new bn(k, 16); if (this._hasDoubles(k)) return this.curve._fixedNafMul(this, k); else if (this.curve.endo) return this.curve._endoWnafMulAdd([ this ], [ k ]); else return this.curve._wnafMul(this, k); }; Point.prototype.mulAdd = function mulAdd(k1, p2, k2) { var points = [ this, p2 ]; var coeffs = [ k1, k2 ]; if (this.curve.endo) return this.curve._endoWnafMulAdd(points, coeffs); else return this.curve._wnafMulAdd(1, points, coeffs, 2); }; Point.prototype.eq = function eq(p) { return this === p || this.inf === p.inf && (this.inf || this.x.cmp(p.x) === 0 && this.y.cmp(p.y) === 0); }; Point.prototype.neg = function neg(_precompute) { if (this.inf) return this; var res = this.curve.point(this.x, this.y.redNeg()); if (_precompute && this.precomputed) { var pre = this.precomputed; var negate = function(p) { return p.neg(); }; res.precomputed = { naf: pre.naf && { wnd: pre.naf.wnd, points: pre.naf.points.map(negate) }, doubles: pre.doubles && { step: pre.doubles.step, points: pre.doubles.points.map(negate) } }; } return res; }; Point.prototype.toJ = function toJ() { if (this.inf) return this.curve.jpoint(null, null, null); var res = this.curve.jpoint(this.x, this.y, this.curve.one); return res; }; function JPoint(curve, x, y, z) { Base.BasePoint.call(this, curve, 'jacobian'); if (x === null && y === null && z === null) { this.x = this.curve.one; this.y = this.curve.one; this.z = new bn(0); } else { this.x = new bn(x, 16); this.y = new bn(y, 16); this.z = new bn(z, 16); } if (!this.x.red) this.x = this.x.toRed(this.curve.red); if (!this.y.red) this.y = this.y.toRed(this.curve.red); if (!this.z.red) this.z = this.z.toRed(this.curve.red); this.zOne = this.z === this.curve.one; } inherits(JPoint, Base.BasePoint); ShortCurve.prototype.jpoint = function jpoint(x, y, z) { return new JPoint(this, x, y, z); }; JPoint.prototype.toP = function toP() { if (this.isInfinity()) return this.curve.point(null, null); var zinv = this.z.redInvm(); var zinv2 = zinv.redSqr(); var ax = this.x.redMul(zinv2); var ay = this.y.redMul(zinv2).redMul(zinv); return this.curve.point(ax, ay); }; JPoint.prototype.neg = function neg() { return this.curve.jpoint(this.x, this.y.redNeg(), this.z); }; JPoint.prototype.add = function add(p) { // O + P = P if (this.isInfinity()) return p; // P + O = P if (p.isInfinity()) return this; // 12M + 4S + 7A var pz2 = p.z.redSqr(); var z2 = this.z.redSqr(); var u1 = this.x.redMul(pz2); var u2 = p.x.redMul(z2); var s1 = this.y.redMul(pz2.redMul(p.z)); var s2 = p.y.redMul(z2.redMul(this.z)); var h = u1.redSub(u2); var r = s1.redSub(s2); if (h.cmpn(0) === 0) { if (r.cmpn(0) !== 0) return this.curve.jpoint(null, null, null); else return this.dbl(); } var h2 = h.redSqr(); var h3 = h2.redMul(h); var v = u1.redMul(h2); var nx = r.redSqr().redIAdd(h3).redISub(v).redISub(v); var ny = r.redMul(v.redISub(nx)).redISub(s1.redMul(h3)); var nz = this.z.redMul(p.z).redMul(h); return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype.mixedAdd = function mixedAdd(p) { // O + P = P if (this.isInfinity()) return p.toJ(); // P + O = P if (p.isInfinity()) return this; // 8M + 3S + 7A var z2 = this.z.redSqr(); var u1 = this.x; var u2 = p.x.redMul(z2); var s1 = this.y; var s2 = p.y.redMul(z2).redMul(this.z); var h = u1.redSub(u2); var r = s1.redSub(s2); if (h.cmpn(0) === 0) { if (r.cmpn(0) !== 0) return this.curve.jpoint(null, null, null); else return this.dbl(); } var h2 = h.redSqr(); var h3 = h2.redMul(h); var v = u1.redMul(h2); var nx = r.redSqr().redIAdd(h3).redISub(v).redISub(v); var ny = r.redMul(v.redISub(nx)).redISub(s1.redMul(h3)); var nz = this.z.redMul(h); return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype.dblp = function dblp(pow) { if (pow === 0) return this; if (this.isInfinity()) return this; if (!pow) return this.dbl(); if (this.curve.zeroA || this.curve.threeA) { var r = this; for (var i = 0; i < pow; i++) r = r.dbl(); return r; } // 1M + 2S + 1A + N * (4S + 5M + 8A) // N = 1 => 6M + 6S + 9A var a = this.curve.a; var tinv = this.curve.tinv; var jx = this.x; var jy = this.y; var jz = this.z; var jz4 = jz.redSqr().redSqr(); // Reuse results var jyd = jy.redAdd(jy); for (var i = 0; i < pow; i++) { var jx2 = jx.redSqr(); var jyd2 = jyd.redSqr(); var jyd4 = jyd2.redSqr(); var c = jx2.redAdd(jx2).redIAdd(jx2).redIAdd(a.redMul(jz4)); var t1 = jx.redMul(jyd2); var nx = c.redSqr().redISub(t1.redAdd(t1)); var t2 = t1.redISub(nx); var dny = c.redMul(t2); dny = dny.redIAdd(dny).redISub(jyd4); var nz = jyd.redMul(jz); if (i + 1 < pow) jz4 = jz4.redMul(jyd4); jx = nx; jz = nz; jyd = dny; } return this.curve.jpoint(jx, jyd.redMul(tinv), jz); }; JPoint.prototype.dbl = function dbl() { if (this.isInfinity()) return this; if (this.curve.zeroA) return this._zeroDbl(); else if (this.curve.threeA) return this._threeDbl(); else return this._dbl(); }; JPoint.prototype._zeroDbl = function _zeroDbl() { var nx; var ny; var nz; // Z = 1 if (this.zOne) { // hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html // #doubling-mdbl-2007-bl // 1M + 5S + 14A // XX = X1^2 var xx = this.x.redSqr(); // YY = Y1^2 var yy = this.y.redSqr(); // YYYY = YY^2 var yyyy = yy.redSqr(); // S = 2 * ((X1 + YY)^2 - XX - YYYY) var s = this.x.redAdd(yy).redSqr().redISub(xx).redISub(yyyy); s = s.redIAdd(s); // M = 3 * XX + a; a = 0 var m = xx.redAdd(xx).redIAdd(xx); // T = M ^ 2 - 2*S var t = m.redSqr().redISub(s).redISub(s); // 8 * YYYY var yyyy8 = yyyy.redIAdd(yyyy); yyyy8 = yyyy8.redIAdd(yyyy8); yyyy8 = yyyy8.redIAdd(yyyy8); // X3 = T nx = t; // Y3 = M * (S - T) - 8 * YYYY ny = m.redMul(s.redISub(t)).redISub(yyyy8); // Z3 = 2*Y1 nz = this.y.redAdd(this.y); } else { // hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html // #doubling-dbl-2009-l // 2M + 5S + 13A // A = X1^2 var a = this.x.redSqr(); // B = Y1^2 var b = this.y.redSqr(); // C = B^2 var c = b.redSqr(); // D = 2 * ((X1 + B)^2 - A - C) var d = this.x.redAdd(b).redSqr().redISub(a).redISub(c); d = d.redIAdd(d); // E = 3 * A var e = a.redAdd(a).redIAdd(a); // F = E^2 var f = e.redSqr(); // 8 * C var c8 = c.redIAdd(c); c8 = c8.redIAdd(c8); c8 = c8.redIAdd(c8); // X3 = F - 2 * D nx = f.redISub(d).redISub(d); // Y3 = E * (D - X3) - 8 * C ny = e.redMul(d.redISub(nx)).redISub(c8); // Z3 = 2 * Y1 * Z1 nz = this.y.redMul(this.z); nz = nz.redIAdd(nz); } return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype._threeDbl = function _threeDbl() { var nx; var ny; var nz; // Z = 1 if (this.zOne) { // hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-3.html // #doubling-mdbl-2007-bl // 1M + 5S + 15A // XX = X1^2 var xx = this.x.redSqr(); // YY = Y1^2 var yy = this.y.redSqr(); // YYYY = YY^2 var yyyy = yy.redSqr(); // S = 2 * ((X1 + YY)^2 - XX - YYYY) var s = this.x.redAdd(yy).redSqr().redISub(xx).redISub(yyyy); s = s.redIAdd(s); // M = 3 * XX + a var m = xx.redAdd(xx).redIAdd(xx).redIAdd(this.curve.a); // T = M^2 - 2 * S var t = m.redSqr().redISub(s).redISub(s); // X3 = T nx = t; // Y3 = M * (S - T) - 8 * YYYY var yyyy8 = yyyy.redIAdd(yyyy); yyyy8 = yyyy8.redIAdd(yyyy8); yyyy8 = yyyy8.redIAdd(yyyy8); ny = m.redMul(s.redISub(t)).redISub(yyyy8); // Z3 = 2 * Y1 nz = this.y.redAdd(this.y); } else { // hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-3.html#doubling-dbl-2001-b // 3M + 5S // delta = Z1^2 var delta = this.z.redSqr(); // gamma = Y1^2 var gamma = this.y.redSqr(); // beta = X1 * gamma var beta = this.x.redMul(gamma); // alpha = 3 * (X1 - delta) * (X1 + delta) var alpha = this.x.redSub(delta).redMul(this.x.redAdd(delta)); alpha = alpha.redAdd(alpha).redIAdd(alpha); // X3 = alpha^2 - 8 * beta var beta4 = beta.redIAdd(beta); beta4 = beta4.redIAdd(beta4); var beta8 = beta4.redAdd(beta4); nx = alpha.redSqr().redISub(beta8); // Z3 = (Y1 + Z1)^2 - gamma - delta nz = this.y.redAdd(this.z).redSqr().redISub(gamma).redISub(delta); // Y3 = alpha * (4 * beta - X3) - 8 * gamma^2 var ggamma8 = gamma.redSqr(); ggamma8 = ggamma8.redIAdd(ggamma8); ggamma8 = ggamma8.redIAdd(ggamma8); ggamma8 = ggamma8.redIAdd(ggamma8); ny = alpha.redMul(beta4.redISub(nx)).redISub(ggamma8); } return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype._dbl = function _dbl() { var a = this.curve.a; // 4M + 6S + 10A var jx = this.x; var jy = this.y; var jz = this.z; var jz4 = jz.redSqr().redSqr(); var jx2 = jx.redSqr(); var jy2 = jy.redSqr(); var c = jx2.redAdd(jx2).redIAdd(jx2).redIAdd(a.redMul(jz4)); var jxd4 = jx.redAdd(jx); jxd4 = jxd4.redIAdd(jxd4); var t1 = jxd4.redMul(jy2); var nx = c.redSqr().redISub(t1.redAdd(t1)); var t2 = t1.redISub(nx); var jyd8 = jy2.redSqr(); jyd8 = jyd8.redIAdd(jyd8); jyd8 = jyd8.redIAdd(jyd8); jyd8 = jyd8.redIAdd(jyd8); var ny = c.redMul(t2).redISub(jyd8); var nz = jy.redAdd(jy).redMul(jz); return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype.trpl = function trpl() { if (!this.curve.zeroA) return this.dbl().add(this); // hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#tripling-tpl-2007-bl // 5M + 10S + ... // XX = X1^2 var xx = this.x.redSqr(); // YY = Y1^2 var yy = this.y.redSqr(); // ZZ = Z1^2 var zz = this.z.redSqr(); // YYYY = YY^2 var yyyy = yy.redSqr(); // M = 3 * XX + a * ZZ2; a = 0 var m = xx.redAdd(xx).redIAdd(xx); // MM = M^2 var mm = m.redSqr(); // E = 6 * ((X1 + YY)^2 - XX - YYYY) - MM var e = this.x.redAdd(yy).redSqr().redISub(xx).redISub(yyyy); e = e.redIAdd(e); e = e.redAdd(e).redIAdd(e); e = e.redISub(mm); // EE = E^2 var ee = e.redSqr(); // T = 16*YYYY var t = yyyy.redIAdd(yyyy); t = t.redIAdd(t); t = t.redIAdd(t); t = t.redIAdd(t); // U = (M + E)^2 - MM - EE - T var u = m.redIAdd(e).redSqr().redISub(mm).redISub(ee).redISub(t); // X3 = 4 * (X1 * EE - 4 * YY * U) var yyu4 = yy.redMul(u); yyu4 = yyu4.redIAdd(yyu4); yyu4 = yyu4.redIAdd(yyu4); var nx = this.x.redMul(ee).redISub(yyu4); nx = nx.redIAdd(nx); nx = nx.redIAdd(nx); // Y3 = 8 * Y1 * (U * (T - U) - E * EE) var ny = this.y.redMul(u.redMul(t.redISub(u)).redISub(e.redMul(ee))); ny = ny.redIAdd(ny); ny = ny.redIAdd(ny); ny = ny.redIAdd(ny); // Z3 = (Z1 + E)^2 - ZZ - EE var nz = this.z.redAdd(e).redSqr().redISub(zz).redISub(ee); return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype.mul = function mul(k, kbase) { k = new bn(k, kbase); return this.curve._wnafMul(this, k); }; JPoint.prototype.eq = function eq(p) { if (p.type === 'affine') return this.eq(p.toJ()); if (this === p) return true; // x1 * z2^2 == x2 * z1^2 var z2 = this.z.redSqr(); var pz2 = p.z.redSqr(); if (this.x.redMul(pz2).redISub(p.x.redMul(z2)).cmpn(0) !== 0) return false; // y1 * z2^3 == y2 * z1^3 var z3 = z2.redMul(this.z); var pz3 = pz2.redMul(p.z); return this.y.redMul(pz3).redISub(p.y.redMul(z3)).cmpn(0) === 0; }; JPoint.prototype.inspect = function inspect() { if (this.isInfinity()) return ''; return ''; }; JPoint.prototype.isInfinity = function isInfinity() { // XXX This code assumes that zero is always zero in red return this.z.cmpn(0) === 0; }; },{"196":196,"41":41,"43":43,"46":46}],49:[function(require,module,exports){ 'use strict'; var curves = exports; var hash = require(57); var elliptic = require(43); var assert = elliptic.utils.assert; function PresetCurve(options) { if (options.type === 'short') this.curve = new elliptic.curve.short(options); else if (options.type === 'edwards') this.curve = new elliptic.curve.edwards(options); else this.curve = new elliptic.curve.mont(options); this.g = this.curve.g; this.n = this.curve.n; this.hash = options.hash; assert(this.g.validate(), 'Invalid curve'); assert(this.g.mul(this.n).isInfinity(), 'Invalid curve, G*N != O'); } curves.PresetCurve = PresetCurve; function defineCurve(name, options) { Object.defineProperty(curves, name, { configurable: true, enumerable: true, get: function() { var curve = new PresetCurve(options); Object.defineProperty(curves, name, { configurable: true, enumerable: true, value: curve }); return curve; } }); } defineCurve('p192', { type: 'short', prime: 'p192', p: 'ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff', a: 'ffffffff ffffffff ffffffff fffffffe ffffffff fffffffc', b: '64210519 e59c80e7 0fa7e9ab 72243049 feb8deec c146b9b1', n: 'ffffffff ffffffff ffffffff 99def836 146bc9b1 b4d22831', hash: hash.sha256, gRed: false, g: [ '188da80e b03090f6 7cbf20eb 43a18800 f4ff0afd 82ff1012', '07192b95 ffc8da78 631011ed 6b24cdd5 73f977a1 1e794811' ] }); defineCurve('p224', { type: 'short', prime: 'p224', p: 'ffffffff ffffffff ffffffff ffffffff 00000000 00000000 00000001', a: 'ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff fffffffe', b: 'b4050a85 0c04b3ab f5413256 5044b0b7 d7bfd8ba 270b3943 2355ffb4', n: 'ffffffff ffffffff ffffffff ffff16a2 e0b8f03e 13dd2945 5c5c2a3d', hash: hash.sha256, gRed: false, g: [ 'b70e0cbd 6bb4bf7f 321390b9 4a03c1d3 56c21122 343280d6 115c1d21', 'bd376388 b5f723fb 4c22dfe6 cd4375a0 5a074764 44d58199 85007e34' ] }); defineCurve('p256', { type: 'short', prime: null, p: 'ffffffff 00000001 00000000 00000000 00000000 ffffffff ffffffff ffffffff', a: 'ffffffff 00000001 00000000 00000000 00000000 ffffffff ffffffff fffffffc', b: '5ac635d8 aa3a93e7 b3ebbd55 769886bc 651d06b0 cc53b0f6 3bce3c3e 27d2604b', n: 'ffffffff 00000000 ffffffff ffffffff bce6faad a7179e84 f3b9cac2 fc632551', hash: hash.sha256, gRed: false, g: [ '6b17d1f2 e12c4247 f8bce6e5 63a440f2 77037d81 2deb33a0 f4a13945 d898c296', '4fe342e2 fe1a7f9b 8ee7eb4a 7c0f9e16 2bce3357 6b315ece cbb64068 37bf51f5' ] }); defineCurve('curve25519', { type: 'mont', prime: 'p25519', p: '7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed', a: '76d06', b: '0', n: '1000000000000000 0000000000000000 14def9dea2f79cd6 5812631a5cf5d3ed', hash: hash.sha256, gRed: false, g: [ '9' ] }); defineCurve('ed25519', { type: 'edwards', prime: 'p25519', p: '7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed', a: '-1', c: '1', // -121665 * (121666^(-1)) (mod P) d: '52036cee2b6ffe73 8cc740797779e898 00700a4d4141d8ab 75eb4dca135978a3', n: '1000000000000000 0000000000000000 14def9dea2f79cd6 5812631a5cf5d3ed', hash: hash.sha256, gRed: false, g: [ '216936d3cd6e53fec0a4e231fdd6dc5c692cc7609525a7b2c9562d608f25d51a', // 4/5 '6666666666666666666666666666666666666666666666666666666666666658' ] }); var pre; try { pre = require(54); } catch (e) { pre = undefined; } defineCurve('secp256k1', { type: 'short', prime: 'k256', p: 'ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffe fffffc2f', a: '0', b: '7', n: 'ffffffff ffffffff ffffffff fffffffe baaedce6 af48a03b bfd25e8c d0364141', h: '1', hash: hash.sha256, // Precomputed endomorphism beta: '7ae96a2b657c07106e64479eac3434e99cf0497512f58995c1396c28719501ee', lambda: '5363ad4cc05c30e0a5261c028812645a122e22ea20816678df02967c1b23bd72', basis: [ { a: '3086d221a7d46bcde86c90e49284eb15', b: '-e4437ed6010e88286f547fa90abfe4c3' }, { a: '114ca50f7a8e2f3f657c1108d9d44cfd8', b: '3086d221a7d46bcde86c90e49284eb15' } ], gRed: false, g: [ '79be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798', '483ada7726a3c4655da4fbfc0e1108a8fd17b448a68554199c47d08ffb10d4b8', pre ] }); },{"43":43,"54":54,"57":57}],50:[function(require,module,exports){ 'use strict'; var bn = require(41); var elliptic = require(43); var utils = elliptic.utils; var assert = utils.assert; var KeyPair = require(51); var Signature = require(52); function EC(options) { if (!(this instanceof EC)) return new EC(options); // Shortcut `elliptic.ec(curve-name)` if (typeof options === 'string') { assert(elliptic.curves.hasOwnProperty(options), 'Unknown curve ' + options); options = elliptic.curves[options]; } // Shortcut for `elliptic.ec(elliptic.curves.curveName)` if (options instanceof elliptic.curves.PresetCurve) options = { curve: options }; this.curve = options.curve.curve; this.n = this.curve.n; this.nh = this.n.shrn(1); this.g = this.curve.g; // Point on curve this.g = options.curve.g; this.g.precompute(options.curve.n.bitLength() + 1); // Hash for function for DRBG this.hash = options.hash || options.curve.hash; } module.exports = EC; EC.prototype.keyPair = function keyPair(options) { return new KeyPair(this, options); }; EC.prototype.keyFromPrivate = function keyFromPrivate(priv, enc) { return KeyPair.fromPrivate(this, priv, enc); }; EC.prototype.keyFromPublic = function keyFromPublic(pub, enc) { return KeyPair.fromPublic(this, pub, enc); }; EC.prototype.genKeyPair = function genKeyPair(options) { if (!options) options = {}; // Instantiate Hmac_DRBG var drbg = new elliptic.hmacDRBG({ hash: this.hash, pers: options.pers, entropy: options.entropy || elliptic.rand(this.hash.hmacStrength), nonce: this.n.toArray() }); var bytes = this.n.byteLength(); var ns2 = this.n.sub(new bn(2)); do { var priv = new bn(drbg.generate(bytes)); if (priv.cmp(ns2) > 0) continue; priv.iaddn(1); return this.keyFromPrivate(priv); } while (true); }; EC.prototype._truncateToN = function truncateToN(msg, truncOnly) { var delta = msg.byteLength() * 8 - this.n.bitLength(); if (delta > 0) msg = msg.shrn(delta); if (!truncOnly && msg.cmp(this.n) >= 0) return msg.sub(this.n); else return msg; }; EC.prototype.sign = function sign(msg, key, enc, options) { if (typeof enc === 'object') { options = enc; enc = null; } if (!options) options = {}; key = this.keyFromPrivate(key, enc); msg = this._truncateToN(new bn(msg, 16)); // Zero-extend key to provide enough entropy var bytes = this.n.byteLength(); var bkey = key.getPrivate().toArray(); for (var i = bkey.length; i < 21; i++) bkey.unshift(0); // Zero-extend nonce to have the same byte size as N var nonce = msg.toArray(); for (var i = nonce.length; i < bytes; i++) nonce.unshift(0); // Instantiate Hmac_DRBG var drbg = new elliptic.hmacDRBG({ hash: this.hash, entropy: bkey, nonce: nonce }); // Number of bytes to generate var ns1 = this.n.sub(new bn(1)); do { var k = new bn(drbg.generate(this.n.byteLength())); k = this._truncateToN(k, true); if (k.cmpn(1) <= 0 || k.cmp(ns1) >= 0) continue; var kp = this.g.mul(k); if (kp.isInfinity()) continue; var kpX = kp.getX(); var r = kpX.mod(this.n); if (r.cmpn(0) === 0) continue; var s = k.invm(this.n).mul(r.mul(key.getPrivate()).iadd(msg)).mod(this.n); if (s.cmpn(0) === 0) continue; // Use complement of `s`, if it is > `n / 2` if (options.canonical && s.cmp(this.nh) > 0) s = this.n.sub(s); var recoveryParam = (kp.getY().isOdd() ? 1 : 0) | (kpX.cmp(r) !== 0 ? 2 : 0); return new Signature({ r: r, s: s, recoveryParam: recoveryParam }); } while (true); }; EC.prototype.verify = function verify(msg, signature, key, enc) { msg = this._truncateToN(new bn(msg, 16)); key = this.keyFromPublic(key, enc); signature = new Signature(signature, 'hex'); // Perform primitive values validation var r = signature.r; var s = signature.s; if (r.cmpn(1) < 0 || r.cmp(this.n) >= 0) return false; if (s.cmpn(1) < 0 || s.cmp(this.n) >= 0) return false; // Validate signature var sinv = s.invm(this.n); var u1 = sinv.mul(msg).mod(this.n); var u2 = sinv.mul(r).mod(this.n); var p = this.g.mulAdd(u1, key.getPublic(), u2); if (p.isInfinity()) return false; return p.getX().mod(this.n).cmp(r) === 0; }; EC.prototype.recoverPubKey = function(msg, signature, j, enc) { assert((3 & j) === j, 'The recovery param is more than two bits'); signature = new Signature(signature, enc); var n = this.n; var e = new bn(msg); var r = signature.r; var s = signature.s; // A set LSB signifies that the y-coordinate is odd var isYOdd = j & 1; var isSecondKey = j >> 1; if (r.cmp(this.curve.p.mod(this.curve.n)) >= 0 && isSecondKey) throw new Error('Unable to find sencond key candinate'); // 1.1. Let x = r + jn. r = this.curve.pointFromX(isYOdd, r); var eNeg = e.neg().mod(n); // 1.6.1 Compute Q = r^-1 (sR - eG) // Q = r^-1 (sR + -eG) var rInv = signature.r.invm(n); return r.mul(s).add(this.g.mul(eNeg)).mul(rInv); }; EC.prototype.getKeyRecoveryParam = function(e, signature, Q, enc) { signature = new Signature(signature, enc); if (signature.recoveryParam !== null) return signature.recoveryParam; for (var i = 0; i < 4; i++) { var Qprime = this.recoverPubKey(e, signature, i); if (Qprime.eq(Q)) return i; } throw new Error('Unable to find valid recovery factor'); }; },{"41":41,"43":43,"51":51,"52":52}],51:[function(require,module,exports){ 'use strict'; var bn = require(41); var elliptic = require(43); var utils = elliptic.utils; function KeyPair(ec, options) { this.ec = ec; this.priv = null; this.pub = null; // KeyPair(ec, { priv: ..., pub: ... }) if (options.priv) this._importPrivate(options.priv, options.privEnc); if (options.pub) this._importPublic(options.pub, options.pubEnc); } module.exports = KeyPair; KeyPair.fromPublic = function fromPublic(ec, pub, enc) { if (pub instanceof KeyPair) return pub; return new KeyPair(ec, { pub: pub, pubEnc: enc }); }; KeyPair.fromPrivate = function fromPrivate(ec, priv, enc) { if (priv instanceof KeyPair) return priv; return new KeyPair(ec, { priv: priv, privEnc: enc }); }; KeyPair.prototype.validate = function validate() { var pub = this.getPublic(); if (pub.isInfinity()) return { result: false, reason: 'Invalid public key' }; if (!pub.validate()) return { result: false, reason: 'Public key is not a point' }; if (!pub.mul(this.ec.curve.n).isInfinity()) return { result: false, reason: 'Public key * N != O' }; return { result: true, reason: null }; }; KeyPair.prototype.getPublic = function getPublic(compact, enc) { if (!this.pub) this.pub = this.ec.g.mul(this.priv); // compact is optional argument if (typeof compact === 'string') { enc = compact; compact = null; } if (!enc) return this.pub; var len = this.ec.curve.p.byteLength(); var x = this.pub.getX().toArray(); for (var i = x.length; i < len; i++) x.unshift(0); var res; if (this.ec.curve.type !== 'mont') { if (compact) { res = [ this.pub.getY().isEven() ? 0x02 : 0x03 ].concat(x); } else { var y = this.pub.getY().toArray(); for (var i = y.length; i < len; i++) y.unshift(0); var res = [ 0x04 ].concat(x, y); } } else { res = x; } return utils.encode(res, enc); }; KeyPair.prototype.getPrivate = function getPrivate(enc) { if (enc === 'hex') return this.priv.toString(16, 2); else return this.priv; }; KeyPair.prototype._importPrivate = function _importPrivate(key, enc) { this.priv = new bn(key, enc || 16); // Ensure that the priv won't be bigger than n, otherwise we may fail // in fixed multiplication method this.priv = this.priv.mod(this.ec.curve.n); }; KeyPair.prototype._importPublic = function _importPublic(key, enc) { if (key.x || key.y) { this.pub = this.ec.curve.point(key.x, key.y); return; } key = utils.toArray(key, enc); if (this.ec.curve.type !== 'mont') return this._importPublicShort(key); else return this._importPublicMont(key); }; KeyPair.prototype._importPublicShort = function _importPublicShort(key) { var len = this.ec.curve.p.byteLength(); if (key[0] === 0x04 && key.length - 1 === 2 * len) { this.pub = this.ec.curve.point( key.slice(1, 1 + len), key.slice(1 + len, 1 + 2 * len)); } else if ((key[0] === 0x02 || key[0] === 0x03) && key.length - 1 === len) { this.pub = this.ec.curve.pointFromX(key[0] === 0x03, key.slice(1, 1 + len)); } }; KeyPair.prototype._importPublicMont = function _importPublicMont(key) { this.pub = this.ec.curve.point(key, 1); }; // ECDH KeyPair.prototype.derive = function derive(pub) { return pub.mul(this.priv).getX(); }; // ECDSA KeyPair.prototype.sign = function sign(msg) { return this.ec.sign(msg, this); }; KeyPair.prototype.verify = function verify(msg, signature) { return this.ec.verify(msg, signature, this); }; KeyPair.prototype.inspect = function inspect() { return ''; }; },{"41":41,"43":43}],52:[function(require,module,exports){ 'use strict'; var bn = require(41); var elliptic = require(43); var utils = elliptic.utils; var assert = utils.assert; function Signature(options, enc) { if (options instanceof Signature) return options; if (this._importDER(options, enc)) return; assert(options.r && options.s, 'Signature without r or s'); this.r = new bn(options.r, 16); this.s = new bn(options.s, 16); if (options.recoveryParam !== null) this.recoveryParam = options.recoveryParam; else this.recoveryParam = null; } module.exports = Signature; Signature.prototype._importDER = function _importDER(data, enc) { data = utils.toArray(data, enc); if (data.length < 6 || data[0] !== 0x30 || data[2] !== 0x02) return false; var total = data[1]; if (1 + total > data.length) return false; var rlen = data[3]; // Short length notation if (rlen >= 0x80) return false; if (4 + rlen + 2 >= data.length) return false; if (data[4 + rlen] !== 0x02) return false; var slen = data[5 + rlen]; // Short length notation if (slen >= 0x80) return false; if (4 + rlen + 2 + slen > data.length) return false; this.r = new bn(data.slice(4, 4 + rlen)); this.s = new bn(data.slice(4 + rlen + 2, 4 + rlen + 2 + slen)); this.recoveryParam = null; return true; }; Signature.prototype.toDER = function toDER(enc) { var r = this.r.toArray(); var s = this.s.toArray(); // Pad values if (r[0] & 0x80) r = [ 0 ].concat(r); // Pad values if (s[0] & 0x80) s = [ 0 ].concat(s); var total = r.length + s.length + 4; var res = [ 0x30, total, 0x02, r.length ]; res = res.concat(r, [ 0x02, s.length ], s); return utils.encode(res, enc); }; },{"41":41,"43":43}],53:[function(require,module,exports){ 'use strict'; var hash = require(57); var elliptic = require(43); var utils = elliptic.utils; var assert = utils.assert; function HmacDRBG(options) { if (!(this instanceof HmacDRBG)) return new HmacDRBG(options); this.hash = options.hash; this.predResist = !!options.predResist; this.outLen = this.hash.outSize; this.minEntropy = options.minEntropy || this.hash.hmacStrength; this.reseed = null; this.reseedInterval = null; this.K = null; this.V = null; var entropy = utils.toArray(options.entropy, options.entropyEnc); var nonce = utils.toArray(options.nonce, options.nonceEnc); var pers = utils.toArray(options.pers, options.persEnc); assert(entropy.length >= (this.minEntropy / 8), 'Not enough entropy. Minimum is: ' + this.minEntropy + ' bits'); this._init(entropy, nonce, pers); } module.exports = HmacDRBG; HmacDRBG.prototype._init = function init(entropy, nonce, pers) { var seed = entropy.concat(nonce).concat(pers); this.K = new Array(this.outLen / 8); this.V = new Array(this.outLen / 8); for (var i = 0; i < this.V.length; i++) { this.K[i] = 0x00; this.V[i] = 0x01; } this._update(seed); this.reseed = 1; this.reseedInterval = 0x1000000000000; // 2^48 }; HmacDRBG.prototype._hmac = function hmac() { return new hash.hmac(this.hash, this.K); }; HmacDRBG.prototype._update = function update(seed) { var kmac = this._hmac() .update(this.V) .update([ 0x00 ]); if (seed) kmac = kmac.update(seed); this.K = kmac.digest(); this.V = this._hmac().update(this.V).digest(); if (!seed) return; this.K = this._hmac() .update(this.V) .update([ 0x01 ]) .update(seed) .digest(); this.V = this._hmac().update(this.V).digest(); }; HmacDRBG.prototype.reseed = function reseed(entropy, entropyEnc, add, addEnc) { // Optional entropy enc if (typeof entropyEnc !== 'string') { addEnc = add; add = entropyEnc; entropyEnc = null; } entropy = utils.toBuffer(entropy, entropyEnc); add = utils.toBuffer(add, addEnc); assert(entropy.length >= (this.minEntropy / 8), 'Not enough entropy. Minimum is: ' + this.minEntropy + ' bits'); this._update(entropy.concat(add || [])); this.reseed = 1; }; HmacDRBG.prototype.generate = function generate(len, enc, add, addEnc) { if (this.reseed > this.reseedInterval) throw new Error('Reseed is required'); // Optional encoding if (typeof enc !== 'string') { addEnc = add; add = enc; enc = null; } // Optional additional data if (add) { add = utils.toArray(add, addEnc); this._update(add); } var temp = []; while (temp.length < len) { this.V = this._hmac().update(this.V).digest(); temp = temp.concat(this.V); } var res = temp.slice(0, len); this._update(add); this.reseed++; return utils.encode(res, enc); }; },{"43":43,"57":57}],54:[function(require,module,exports){ module.exports = { doubles: { step: 4, points: [ [ 'e60fce93b59e9ec53011aabc21c23e97b2a31369b87a5ae9c44ee89e2a6dec0a', 'f7e3507399e595929db99f34f57937101296891e44d23f0be1f32cce69616821' ], [ '8282263212c609d9ea2a6e3e172de238d8c39cabd5ac1ca10646e23fd5f51508', 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'809a20c67d64900ffb698c4c825f6d5f2310fb0451c869345b7319f645605721', '9e994980d9917e22b76b061927fa04143d096ccc54963e6a5ebfa5f3f8e286c1' ], [ '1b38903a43f7f114ed4500b4eac7083fdefece1cf29c63528d563446f972c180', '4036edc931a60ae889353f77fd53de4a2708b26b6f5da72ad3394119daf408f9' ] ] } }; },{}],55:[function(require,module,exports){ 'use strict'; var utils = exports; utils.assert = function assert(val, msg) { if (!val) throw new Error(msg || 'Assertion failed'); }; function toArray(msg, enc) { if (Array.isArray(msg)) return msg.slice(); if (!msg) return []; var res = []; if (typeof msg !== 'string') { for (var i = 0; i < msg.length; i++) res[i] = msg[i] | 0; return res; } if (!enc) { for (var i = 0; i < msg.length; i++) { var c = msg.charCodeAt(i); var hi = c >> 8; var lo = c & 0xff; if (hi) res.push(hi, lo); else res.push(lo); } } else if (enc === 'hex') { msg = msg.replace(/[^a-z0-9]+/ig, ''); if (msg.length % 2 !== 0) msg = '0' + msg; for (var i = 0; i < msg.length; i += 2) res.push(parseInt(msg[i] + msg[i + 1], 16)); } return res; } utils.toArray = toArray; function zero2(word) { if (word.length === 1) return '0' + word; else return word; } utils.zero2 = zero2; function toHex(msg) { var res = ''; for (var i = 0; i < msg.length; i++) res += zero2(msg[i].toString(16)); return res; } utils.toHex = toHex; utils.encode = function encode(arr, enc) { if (enc === 'hex') return toHex(arr); else return arr; }; // Represent num in a w-NAF form function getNAF(num, w) { var naf = []; var ws = 1 << (w + 1); var k = num.clone(); while (k.cmpn(1) >= 0) { var z; if (k.isOdd()) { var mod = k.andln(ws - 1); if (mod > (ws >> 1) - 1) z = (ws >> 1) - mod; else z = mod; k.isubn(z); } else { z = 0; } naf.push(z); // Optimization, shift by word if possible var shift = (k.cmpn(0) !== 0 && k.andln(ws - 1) === 0) ? (w + 1) : 1; for (var i = 1; i < shift; i++) naf.push(0); k.ishrn(shift); } return naf; } utils.getNAF = getNAF; // Represent k1, k2 in a Joint Sparse Form function getJSF(k1, k2) { var jsf = [ [], [] ]; k1 = k1.clone(); k2 = k2.clone(); var d1 = 0; var d2 = 0; while (k1.cmpn(-d1) > 0 || k2.cmpn(-d2) > 0) { // First phase var m14 = (k1.andln(3) + d1) & 3; var m24 = (k2.andln(3) + d2) & 3; if (m14 === 3) m14 = -1; if (m24 === 3) m24 = -1; var u1; if ((m14 & 1) === 0) { u1 = 0; } else { var m8 = (k1.andln(7) + d1) & 7; if ((m8 === 3 || m8 === 5) && m24 === 2) u1 = -m14; else u1 = m14; } jsf[0].push(u1); var u2; if ((m24 & 1) === 0) { u2 = 0; } else { var m8 = (k2.andln(7) + d2) & 7; if ((m8 === 3 || m8 === 5) && m14 === 2) u2 = -m24; else u2 = m24; } jsf[1].push(u2); // Second phase if (2 * d1 === u1 + 1) d1 = 1 - d1; if (2 * d2 === u2 + 1) d2 = 1 - d2; k1.ishrn(1); k2.ishrn(1); } return jsf; } utils.getJSF = getJSF; },{}],56:[function(require,module,exports){ var r; module.exports = function rand(len) { if (!r) r = new Rand(null); return r.generate(len); }; function Rand(rand) { this.rand = rand; } module.exports.Rand = Rand; Rand.prototype.generate = function generate(len) { return this._rand(len); }; if (typeof window === 'object') { if (window.crypto && window.crypto.getRandomValues) { // Modern browsers Rand.prototype._rand = function _rand(n) { var arr = new Uint8Array(n); window.crypto.getRandomValues(arr); return arr; }; } else if (window.msCrypto && window.msCrypto.getRandomValues) { // IE Rand.prototype._rand = function _rand(n) { var arr = new Uint8Array(n); window.msCrypto.getRandomValues(arr); return arr; }; } else { // Old junk Rand.prototype._rand = function() { throw new Error('Not implemented yet'); }; } } else { // Node.js or Web worker try { var crypto = require('cry' + 'pto'); Rand.prototype._rand = function _rand(n) { return crypto.randomBytes(n); }; } catch (e) { // Emulate crypto API using randy Rand.prototype._rand = function _rand(n) { var res = new Uint8Array(n); for (var i = 0; i < res.length; i++) res[i] = this.rand.getByte(); return res; }; } } },{}],57:[function(require,module,exports){ var hash = exports; hash.utils = require(62); hash.common = require(58); hash.sha = require(61); hash.ripemd = require(60); hash.hmac = require(59); // Proxy hash functions to the main object hash.sha1 = hash.sha.sha1; hash.sha256 = hash.sha.sha256; hash.sha224 = hash.sha.sha224; hash.sha384 = hash.sha.sha384; hash.sha512 = hash.sha.sha512; hash.ripemd160 = hash.ripemd.ripemd160; },{"58":58,"59":59,"60":60,"61":61,"62":62}],58:[function(require,module,exports){ var hash = require(57); var utils = hash.utils; var assert = utils.assert; function BlockHash() { this.pending = null; this.pendingTotal = 0; this.blockSize = this.constructor.blockSize; this.outSize = this.constructor.outSize; this.hmacStrength = this.constructor.hmacStrength; this.padLength = this.constructor.padLength / 8; this.endian = 'big'; this._delta8 = this.blockSize / 8; this._delta32 = this.blockSize / 32; } exports.BlockHash = BlockHash; BlockHash.prototype.update = function update(msg, enc) { // Convert message to array, pad it, and join into 32bit blocks msg = utils.toArray(msg, enc); if (!this.pending) this.pending = msg; else this.pending = this.pending.concat(msg); this.pendingTotal += msg.length; // Enough data, try updating if (this.pending.length >= this._delta8) { msg = this.pending; // Process pending data in blocks var r = msg.length % this._delta8; this.pending = msg.slice(msg.length - r, msg.length); if (this.pending.length === 0) this.pending = null; msg = utils.join32(msg, 0, msg.length - r, this.endian); for (var i = 0; i < msg.length; i += this._delta32) this._update(msg, i, i + this._delta32); } return this; }; BlockHash.prototype.digest = function digest(enc) { this.update(this._pad()); assert(this.pending === null); return this._digest(enc); }; BlockHash.prototype._pad = function pad() { var len = this.pendingTotal; var bytes = this._delta8; var k = bytes - ((len + this.padLength) % bytes); var res = new Array(k + this.padLength); res[0] = 0x80; for (var i = 1; i < k; i++) res[i] = 0; // Append length len <<= 3; if (this.endian === 'big') { for (var t = 8; t < this.padLength; t++) res[i++] = 0; res[i++] = 0; res[i++] = 0; res[i++] = 0; res[i++] = 0; res[i++] = (len >>> 24) & 0xff; res[i++] = (len >>> 16) & 0xff; res[i++] = (len >>> 8) & 0xff; res[i++] = len & 0xff; } else { res[i++] = len & 0xff; res[i++] = (len >>> 8) & 0xff; res[i++] = (len >>> 16) & 0xff; res[i++] = (len >>> 24) & 0xff; res[i++] = 0; res[i++] = 0; res[i++] = 0; res[i++] = 0; for (var t = 8; t < this.padLength; t++) res[i++] = 0; } return res; }; },{"57":57}],59:[function(require,module,exports){ var hmac = exports; var hash = require(57); var utils = hash.utils; var assert = utils.assert; function Hmac(hash, key, enc) { if (!(this instanceof Hmac)) return new Hmac(hash, key, enc); this.Hash = hash; this.blockSize = hash.blockSize / 8; this.outSize = hash.outSize / 8; this.inner = null; this.outer = null; this._init(utils.toArray(key, enc)); } module.exports = Hmac; Hmac.prototype._init = function init(key) { // Shorten key, if needed if (key.length > this.blockSize) key = new this.Hash().update(key).digest(); assert(key.length <= this.blockSize); // Add padding to key for (var i = key.length; i < this.blockSize; i++) key.push(0); for (var i = 0; i < key.length; i++) key[i] ^= 0x36; this.inner = new this.Hash().update(key); // 0x36 ^ 0x5c = 0x6a for (var i = 0; i < key.length; i++) key[i] ^= 0x6a; this.outer = new this.Hash().update(key); }; Hmac.prototype.update = function update(msg, enc) { this.inner.update(msg, enc); return this; }; Hmac.prototype.digest = function digest(enc) { this.outer.update(this.inner.digest()); return this.outer.digest(enc); }; },{"57":57}],60:[function(require,module,exports){ var hash = require(57); var utils = hash.utils; var rotl32 = utils.rotl32; var sum32 = utils.sum32; var sum32_3 = utils.sum32_3; var sum32_4 = utils.sum32_4; var BlockHash = hash.common.BlockHash; function RIPEMD160() { if (!(this instanceof RIPEMD160)) return new RIPEMD160(); BlockHash.call(this); this.h = [ 0x67452301, 0xefcdab89, 0x98badcfe, 0x10325476, 0xc3d2e1f0 ]; this.endian = 'little'; } utils.inherits(RIPEMD160, BlockHash); exports.ripemd160 = RIPEMD160; RIPEMD160.blockSize = 512; RIPEMD160.outSize = 160; RIPEMD160.hmacStrength = 192; RIPEMD160.padLength = 64; RIPEMD160.prototype._update = function update(msg, start) { var A = this.h[0]; var B = this.h[1]; var C = this.h[2]; var D = this.h[3]; var E = this.h[4]; var Ah = A; var Bh = B; var Ch = C; var Dh = D; var Eh = E; for (var j = 0; j < 80; j++) { var T = sum32( rotl32( sum32_4(A, f(j, B, C, D), msg[r[j] + start], K(j)), s[j]), E); A = E; E = D; D = rotl32(C, 10); C = B; B = T; T = sum32( rotl32( sum32_4(Ah, f(79 - j, Bh, Ch, Dh), msg[rh[j] + start], Kh(j)), sh[j]), Eh); Ah = Eh; Eh = Dh; Dh = rotl32(Ch, 10); Ch = Bh; Bh = T; } T = sum32_3(this.h[1], C, Dh); this.h[1] = sum32_3(this.h[2], D, Eh); this.h[2] = sum32_3(this.h[3], E, Ah); this.h[3] = sum32_3(this.h[4], A, Bh); this.h[4] = sum32_3(this.h[0], B, Ch); this.h[0] = T; }; RIPEMD160.prototype._digest = function digest(enc) { if (enc === 'hex') return utils.toHex32(this.h, 'little'); else return utils.split32(this.h, 'little'); }; function f(j, x, y, z) { if (j <= 15) return x ^ y ^ z; else if (j <= 31) return (x & y) | ((~x) & z); else if (j <= 47) return (x | (~y)) ^ z; else if (j <= 63) return (x & z) | (y & (~z)); else return x ^ (y | (~z)); } function K(j) { if (j <= 15) return 0x00000000; else if (j <= 31) return 0x5a827999; else if (j <= 47) return 0x6ed9eba1; else if (j <= 63) return 0x8f1bbcdc; else return 0xa953fd4e; } function Kh(j) { if (j <= 15) return 0x50a28be6; else if (j <= 31) return 0x5c4dd124; else if (j <= 47) return 0x6d703ef3; else if (j <= 63) return 0x7a6d76e9; else return 0x00000000; } var r = [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 7, 4, 13, 1, 10, 6, 15, 3, 12, 0, 9, 5, 2, 14, 11, 8, 3, 10, 14, 4, 9, 15, 8, 1, 2, 7, 0, 6, 13, 11, 5, 12, 1, 9, 11, 10, 0, 8, 12, 4, 13, 3, 7, 15, 14, 5, 6, 2, 4, 0, 5, 9, 7, 12, 2, 10, 14, 1, 3, 8, 11, 6, 15, 13 ]; var rh = [ 5, 14, 7, 0, 9, 2, 11, 4, 13, 6, 15, 8, 1, 10, 3, 12, 6, 11, 3, 7, 0, 13, 5, 10, 14, 15, 8, 12, 4, 9, 1, 2, 15, 5, 1, 3, 7, 14, 6, 9, 11, 8, 12, 2, 10, 0, 4, 13, 8, 6, 4, 1, 3, 11, 15, 0, 5, 12, 2, 13, 9, 7, 10, 14, 12, 15, 10, 4, 1, 5, 8, 7, 6, 2, 13, 14, 0, 3, 9, 11 ]; var s = [ 11, 14, 15, 12, 5, 8, 7, 9, 11, 13, 14, 15, 6, 7, 9, 8, 7, 6, 8, 13, 11, 9, 7, 15, 7, 12, 15, 9, 11, 7, 13, 12, 11, 13, 6, 7, 14, 9, 13, 15, 14, 8, 13, 6, 5, 12, 7, 5, 11, 12, 14, 15, 14, 15, 9, 8, 9, 14, 5, 6, 8, 6, 5, 12, 9, 15, 5, 11, 6, 8, 13, 12, 5, 12, 13, 14, 11, 8, 5, 6 ]; var sh = [ 8, 9, 9, 11, 13, 15, 15, 5, 7, 7, 8, 11, 14, 14, 12, 6, 9, 13, 15, 7, 12, 8, 9, 11, 7, 7, 12, 7, 6, 15, 13, 11, 9, 7, 15, 11, 8, 6, 6, 14, 12, 13, 5, 14, 13, 13, 7, 5, 15, 5, 8, 11, 14, 14, 6, 14, 6, 9, 12, 9, 12, 5, 15, 8, 8, 5, 12, 9, 12, 5, 14, 6, 8, 13, 6, 5, 15, 13, 11, 11 ]; },{"57":57}],61:[function(require,module,exports){ var hash = require(57); var utils = hash.utils; var assert = utils.assert; var rotr32 = utils.rotr32; var rotl32 = utils.rotl32; var sum32 = utils.sum32; var sum32_4 = utils.sum32_4; var sum32_5 = utils.sum32_5; var rotr64_hi = utils.rotr64_hi; var rotr64_lo = utils.rotr64_lo; var shr64_hi = utils.shr64_hi; var shr64_lo = utils.shr64_lo; var sum64 = utils.sum64; var sum64_hi = utils.sum64_hi; var sum64_lo = utils.sum64_lo; var sum64_4_hi = utils.sum64_4_hi; var sum64_4_lo = utils.sum64_4_lo; var sum64_5_hi = utils.sum64_5_hi; var sum64_5_lo = utils.sum64_5_lo; var BlockHash = hash.common.BlockHash; var sha256_K = [ 0x428a2f98, 0x71374491, 0xb5c0fbcf, 0xe9b5dba5, 0x3956c25b, 0x59f111f1, 0x923f82a4, 0xab1c5ed5, 0xd807aa98, 0x12835b01, 0x243185be, 0x550c7dc3, 0x72be5d74, 0x80deb1fe, 0x9bdc06a7, 0xc19bf174, 0xe49b69c1, 0xefbe4786, 0x0fc19dc6, 0x240ca1cc, 0x2de92c6f, 0x4a7484aa, 0x5cb0a9dc, 0x76f988da, 0x983e5152, 0xa831c66d, 0xb00327c8, 0xbf597fc7, 0xc6e00bf3, 0xd5a79147, 0x06ca6351, 0x14292967, 0x27b70a85, 0x2e1b2138, 0x4d2c6dfc, 0x53380d13, 0x650a7354, 0x766a0abb, 0x81c2c92e, 0x92722c85, 0xa2bfe8a1, 0xa81a664b, 0xc24b8b70, 0xc76c51a3, 0xd192e819, 0xd6990624, 0xf40e3585, 0x106aa070, 0x19a4c116, 0x1e376c08, 0x2748774c, 0x34b0bcb5, 0x391c0cb3, 0x4ed8aa4a, 0x5b9cca4f, 0x682e6ff3, 0x748f82ee, 0x78a5636f, 0x84c87814, 0x8cc70208, 0x90befffa, 0xa4506ceb, 0xbef9a3f7, 0xc67178f2 ]; var sha512_K = [ 0x428a2f98, 0xd728ae22, 0x71374491, 0x23ef65cd, 0xb5c0fbcf, 0xec4d3b2f, 0xe9b5dba5, 0x8189dbbc, 0x3956c25b, 0xf348b538, 0x59f111f1, 0xb605d019, 0x923f82a4, 0xaf194f9b, 0xab1c5ed5, 0xda6d8118, 0xd807aa98, 0xa3030242, 0x12835b01, 0x45706fbe, 0x243185be, 0x4ee4b28c, 0x550c7dc3, 0xd5ffb4e2, 0x72be5d74, 0xf27b896f, 0x80deb1fe, 0x3b1696b1, 0x9bdc06a7, 0x25c71235, 0xc19bf174, 0xcf692694, 0xe49b69c1, 0x9ef14ad2, 0xefbe4786, 0x384f25e3, 0x0fc19dc6, 0x8b8cd5b5, 0x240ca1cc, 0x77ac9c65, 0x2de92c6f, 0x592b0275, 0x4a7484aa, 0x6ea6e483, 0x5cb0a9dc, 0xbd41fbd4, 0x76f988da, 0x831153b5, 0x983e5152, 0xee66dfab, 0xa831c66d, 0x2db43210, 0xb00327c8, 0x98fb213f, 0xbf597fc7, 0xbeef0ee4, 0xc6e00bf3, 0x3da88fc2, 0xd5a79147, 0x930aa725, 0x06ca6351, 0xe003826f, 0x14292967, 0x0a0e6e70, 0x27b70a85, 0x46d22ffc, 0x2e1b2138, 0x5c26c926, 0x4d2c6dfc, 0x5ac42aed, 0x53380d13, 0x9d95b3df, 0x650a7354, 0x8baf63de, 0x766a0abb, 0x3c77b2a8, 0x81c2c92e, 0x47edaee6, 0x92722c85, 0x1482353b, 0xa2bfe8a1, 0x4cf10364, 0xa81a664b, 0xbc423001, 0xc24b8b70, 0xd0f89791, 0xc76c51a3, 0x0654be30, 0xd192e819, 0xd6ef5218, 0xd6990624, 0x5565a910, 0xf40e3585, 0x5771202a, 0x106aa070, 0x32bbd1b8, 0x19a4c116, 0xb8d2d0c8, 0x1e376c08, 0x5141ab53, 0x2748774c, 0xdf8eeb99, 0x34b0bcb5, 0xe19b48a8, 0x391c0cb3, 0xc5c95a63, 0x4ed8aa4a, 0xe3418acb, 0x5b9cca4f, 0x7763e373, 0x682e6ff3, 0xd6b2b8a3, 0x748f82ee, 0x5defb2fc, 0x78a5636f, 0x43172f60, 0x84c87814, 0xa1f0ab72, 0x8cc70208, 0x1a6439ec, 0x90befffa, 0x23631e28, 0xa4506ceb, 0xde82bde9, 0xbef9a3f7, 0xb2c67915, 0xc67178f2, 0xe372532b, 0xca273ece, 0xea26619c, 0xd186b8c7, 0x21c0c207, 0xeada7dd6, 0xcde0eb1e, 0xf57d4f7f, 0xee6ed178, 0x06f067aa, 0x72176fba, 0x0a637dc5, 0xa2c898a6, 0x113f9804, 0xbef90dae, 0x1b710b35, 0x131c471b, 0x28db77f5, 0x23047d84, 0x32caab7b, 0x40c72493, 0x3c9ebe0a, 0x15c9bebc, 0x431d67c4, 0x9c100d4c, 0x4cc5d4be, 0xcb3e42b6, 0x597f299c, 0xfc657e2a, 0x5fcb6fab, 0x3ad6faec, 0x6c44198c, 0x4a475817 ]; var sha1_K = [ 0x5A827999, 0x6ED9EBA1, 0x8F1BBCDC, 0xCA62C1D6 ]; function SHA256() { if (!(this instanceof SHA256)) return new SHA256(); BlockHash.call(this); this.h = [ 0x6a09e667, 0xbb67ae85, 0x3c6ef372, 0xa54ff53a, 0x510e527f, 0x9b05688c, 0x1f83d9ab, 0x5be0cd19 ]; this.k = sha256_K; this.W = new Array(64); } utils.inherits(SHA256, BlockHash); exports.sha256 = SHA256; SHA256.blockSize = 512; SHA256.outSize = 256; SHA256.hmacStrength = 192; SHA256.padLength = 64; SHA256.prototype._update = function _update(msg, start) { var W = this.W; for (var i = 0; i < 16; i++) W[i] = msg[start + i]; for (; i < W.length; i++) W[i] = sum32_4(g1_256(W[i - 2]), W[i - 7], g0_256(W[i - 15]), W[i - 16]); var a = this.h[0]; var b = this.h[1]; var c = this.h[2]; var d = this.h[3]; var e = this.h[4]; var f = this.h[5]; var g = this.h[6]; var h = this.h[7]; assert(this.k.length === W.length); for (var i = 0; i < W.length; i++) { var T1 = sum32_5(h, s1_256(e), ch32(e, f, g), this.k[i], W[i]); var T2 = sum32(s0_256(a), maj32(a, b, c)); h = g; g = f; f = e; e = sum32(d, T1); d = c; c = b; b = a; a = sum32(T1, T2); } this.h[0] = sum32(this.h[0], a); this.h[1] = sum32(this.h[1], b); this.h[2] = sum32(this.h[2], c); this.h[3] = sum32(this.h[3], d); this.h[4] = sum32(this.h[4], e); this.h[5] = sum32(this.h[5], f); this.h[6] = sum32(this.h[6], g); this.h[7] = sum32(this.h[7], h); }; SHA256.prototype._digest = function digest(enc) { if (enc === 'hex') return utils.toHex32(this.h, 'big'); else return utils.split32(this.h, 'big'); }; function SHA224() { if (!(this instanceof SHA224)) return new SHA224(); SHA256.call(this); this.h = [ 0xc1059ed8, 0x367cd507, 0x3070dd17, 0xf70e5939, 0xffc00b31, 0x68581511, 0x64f98fa7, 0xbefa4fa4 ]; } utils.inherits(SHA224, SHA256); exports.sha224 = SHA224; SHA224.blockSize = 512; SHA224.outSize = 224; SHA224.hmacStrength = 192; SHA224.padLength = 64; SHA224.prototype._digest = function digest(enc) { // Just truncate output if (enc === 'hex') return utils.toHex32(this.h.slice(0, 7), 'big'); else return utils.split32(this.h.slice(0, 7), 'big'); }; function SHA512() { if (!(this instanceof SHA512)) return new SHA512(); BlockHash.call(this); this.h = [ 0x6a09e667, 0xf3bcc908, 0xbb67ae85, 0x84caa73b, 0x3c6ef372, 0xfe94f82b, 0xa54ff53a, 0x5f1d36f1, 0x510e527f, 0xade682d1, 0x9b05688c, 0x2b3e6c1f, 0x1f83d9ab, 0xfb41bd6b, 0x5be0cd19, 0x137e2179 ]; this.k = sha512_K; this.W = new Array(160); } utils.inherits(SHA512, BlockHash); exports.sha512 = SHA512; SHA512.blockSize = 1024; SHA512.outSize = 512; SHA512.hmacStrength = 192; SHA512.padLength = 128; SHA512.prototype._prepareBlock = function _prepareBlock(msg, start) { var W = this.W; // 32 x 32bit words for (var i = 0; i < 32; i++) W[i] = msg[start + i]; for (; i < W.length; i += 2) { var c0_hi = g1_512_hi(W[i - 4], W[i - 3]); // i - 2 var c0_lo = g1_512_lo(W[i - 4], W[i - 3]); var c1_hi = W[i - 14]; // i - 7 var c1_lo = W[i - 13]; var c2_hi = g0_512_hi(W[i - 30], W[i - 29]); // i - 15 var c2_lo = g0_512_lo(W[i - 30], W[i - 29]); var c3_hi = W[i - 32]; // i - 16 var c3_lo = W[i - 31]; W[i] = sum64_4_hi(c0_hi, c0_lo, c1_hi, c1_lo, c2_hi, c2_lo, c3_hi, c3_lo); W[i + 1] = sum64_4_lo(c0_hi, c0_lo, c1_hi, c1_lo, c2_hi, c2_lo, c3_hi, c3_lo); } }; SHA512.prototype._update = function _update(msg, start) { this._prepareBlock(msg, start); var W = this.W; var ah = this.h[0]; var al = this.h[1]; var bh = this.h[2]; var bl = this.h[3]; var ch = this.h[4]; var cl = this.h[5]; var dh = this.h[6]; var dl = this.h[7]; var eh = this.h[8]; var el = this.h[9]; var fh = this.h[10]; var fl = this.h[11]; var gh = this.h[12]; var gl = this.h[13]; var hh = this.h[14]; var hl = this.h[15]; assert(this.k.length === W.length); for (var i = 0; i < W.length; i += 2) { var c0_hi = hh; var c0_lo = hl; var c1_hi = s1_512_hi(eh, el); var c1_lo = s1_512_lo(eh, el); var c2_hi = ch64_hi(eh, el, fh, fl, gh, gl); var c2_lo = ch64_lo(eh, el, fh, fl, gh, gl); var c3_hi = this.k[i]; var c3_lo = this.k[i + 1]; var c4_hi = W[i]; var c4_lo = W[i + 1]; var T1_hi = sum64_5_hi(c0_hi, c0_lo, c1_hi, c1_lo, c2_hi, c2_lo, c3_hi, c3_lo, c4_hi, c4_lo); var T1_lo = sum64_5_lo(c0_hi, c0_lo, c1_hi, c1_lo, c2_hi, c2_lo, c3_hi, c3_lo, c4_hi, c4_lo); var c0_hi = s0_512_hi(ah, al); var c0_lo = s0_512_lo(ah, al); var c1_hi = maj64_hi(ah, al, bh, bl, ch, cl); var c1_lo = maj64_lo(ah, al, bh, bl, ch, cl); var T2_hi = sum64_hi(c0_hi, c0_lo, c1_hi, c1_lo); var T2_lo = sum64_lo(c0_hi, c0_lo, c1_hi, c1_lo); hh = gh; hl = gl; gh = fh; gl = fl; fh = eh; fl = el; eh = sum64_hi(dh, dl, T1_hi, T1_lo); el = sum64_lo(dl, dl, T1_hi, T1_lo); dh = ch; dl = cl; ch = bh; cl = bl; bh = ah; bl = al; ah = sum64_hi(T1_hi, T1_lo, T2_hi, T2_lo); al = sum64_lo(T1_hi, T1_lo, T2_hi, T2_lo); } sum64(this.h, 0, ah, al); sum64(this.h, 2, bh, bl); sum64(this.h, 4, ch, cl); sum64(this.h, 6, dh, dl); sum64(this.h, 8, eh, el); sum64(this.h, 10, fh, fl); sum64(this.h, 12, gh, gl); sum64(this.h, 14, hh, hl); }; SHA512.prototype._digest = function digest(enc) { if (enc === 'hex') return utils.toHex32(this.h, 'big'); else return utils.split32(this.h, 'big'); }; function SHA384() { if (!(this instanceof SHA384)) return new SHA384(); SHA512.call(this); this.h = [ 0xcbbb9d5d, 0xc1059ed8, 0x629a292a, 0x367cd507, 0x9159015a, 0x3070dd17, 0x152fecd8, 0xf70e5939, 0x67332667, 0xffc00b31, 0x8eb44a87, 0x68581511, 0xdb0c2e0d, 0x64f98fa7, 0x47b5481d, 0xbefa4fa4 ]; } utils.inherits(SHA384, SHA512); exports.sha384 = SHA384; SHA384.blockSize = 1024; SHA384.outSize = 384; SHA384.hmacStrength = 192; SHA384.padLength = 128; SHA384.prototype._digest = function digest(enc) { if (enc === 'hex') return utils.toHex32(this.h.slice(0, 12), 'big'); else return utils.split32(this.h.slice(0, 12), 'big'); }; function SHA1() { if (!(this instanceof SHA1)) return new SHA1(); BlockHash.call(this); this.h = [ 0x67452301, 0xefcdab89, 0x98badcfe, 0x10325476, 0xc3d2e1f0 ]; this.W = new Array(80); } utils.inherits(SHA1, BlockHash); exports.sha1 = SHA1; SHA1.blockSize = 512; SHA1.outSize = 160; SHA1.hmacStrength = 80; SHA1.padLength = 64; SHA1.prototype._update = function _update(msg, start) { var W = this.W; for (var i = 0; i < 16; i++) W[i] = msg[start + i]; for(; i < W.length; i++) W[i] = rotl32(W[i - 3] ^ W[i - 8] ^ W[i - 14] ^ W[i - 16], 1); var a = this.h[0]; var b = this.h[1]; var c = this.h[2]; var d = this.h[3]; var e = this.h[4]; for (var i = 0; i < W.length; i++) { var s = ~~(i / 20); var t = sum32_5(rotl32(a, 5), ft_1(s, b, c, d), e, W[i], sha1_K[s]); e = d; d = c; c = rotl32(b, 30); b = a; a = t; } this.h[0] = sum32(this.h[0], a); this.h[1] = sum32(this.h[1], b); this.h[2] = sum32(this.h[2], c); this.h[3] = sum32(this.h[3], d); this.h[4] = sum32(this.h[4], e); }; SHA1.prototype._digest = function digest(enc) { if (enc === 'hex') return utils.toHex32(this.h, 'big'); else return utils.split32(this.h, 'big'); }; function ch32(x, y, z) { return (x & y) ^ ((~x) & z); } function maj32(x, y, z) { return (x & y) ^ (x & z) ^ (y & z); } function p32(x, y, z) { return x ^ y ^ z; } function s0_256(x) { return rotr32(x, 2) ^ rotr32(x, 13) ^ rotr32(x, 22); } function s1_256(x) { return rotr32(x, 6) ^ rotr32(x, 11) ^ rotr32(x, 25); } function g0_256(x) { return rotr32(x, 7) ^ rotr32(x, 18) ^ (x >>> 3); } function g1_256(x) { return rotr32(x, 17) ^ rotr32(x, 19) ^ (x >>> 10); } function ft_1(s, x, y, z) { if (s === 0) return ch32(x, y, z); if (s === 1 || s === 3) return p32(x, y, z); if (s === 2) return maj32(x, y, z); } function ch64_hi(xh, xl, yh, yl, zh, zl) { var r = (xh & yh) ^ ((~xh) & zh); if (r < 0) r += 0x100000000; return r; } function ch64_lo(xh, xl, yh, yl, zh, zl) { var r = (xl & yl) ^ ((~xl) & zl); if (r < 0) r += 0x100000000; return r; } function maj64_hi(xh, xl, yh, yl, zh, zl) { var r = (xh & yh) ^ (xh & zh) ^ (yh & zh); if (r < 0) r += 0x100000000; return r; } function maj64_lo(xh, xl, yh, yl, zh, zl) { var r = (xl & yl) ^ (xl & zl) ^ (yl & zl); if (r < 0) r += 0x100000000; return r; } function s0_512_hi(xh, xl) { var c0_hi = rotr64_hi(xh, xl, 28); var c1_hi = rotr64_hi(xl, xh, 2); // 34 var c2_hi = rotr64_hi(xl, xh, 7); // 39 var r = c0_hi ^ c1_hi ^ c2_hi; if (r < 0) r += 0x100000000; return r; } function s0_512_lo(xh, xl) { var c0_lo = rotr64_lo(xh, xl, 28); var c1_lo = rotr64_lo(xl, xh, 2); // 34 var c2_lo = rotr64_lo(xl, xh, 7); // 39 var r = c0_lo ^ c1_lo ^ c2_lo; if (r < 0) r += 0x100000000; return r; } function s1_512_hi(xh, xl) { var c0_hi = rotr64_hi(xh, xl, 14); var c1_hi = rotr64_hi(xh, xl, 18); var c2_hi = rotr64_hi(xl, xh, 9); // 41 var r = c0_hi ^ c1_hi ^ c2_hi; if (r < 0) r += 0x100000000; return r; } function s1_512_lo(xh, xl) { var c0_lo = rotr64_lo(xh, xl, 14); var c1_lo = rotr64_lo(xh, xl, 18); var c2_lo = rotr64_lo(xl, xh, 9); // 41 var r = c0_lo ^ c1_lo ^ c2_lo; if (r < 0) r += 0x100000000; return r; } function g0_512_hi(xh, xl) { var c0_hi = rotr64_hi(xh, xl, 1); var c1_hi = rotr64_hi(xh, xl, 8); var c2_hi = shr64_hi(xh, xl, 7); var r = c0_hi ^ c1_hi ^ c2_hi; if (r < 0) r += 0x100000000; return r; } function g0_512_lo(xh, xl) { var c0_lo = rotr64_lo(xh, xl, 1); var c1_lo = rotr64_lo(xh, xl, 8); var c2_lo = shr64_lo(xh, xl, 7); var r = c0_lo ^ c1_lo ^ c2_lo; if (r < 0) r += 0x100000000; return r; } function g1_512_hi(xh, xl) { var c0_hi = rotr64_hi(xh, xl, 19); var c1_hi = rotr64_hi(xl, xh, 29); // 61 var c2_hi = shr64_hi(xh, xl, 6); var r = c0_hi ^ c1_hi ^ c2_hi; if (r < 0) r += 0x100000000; return r; } function g1_512_lo(xh, xl) { var c0_lo = rotr64_lo(xh, xl, 19); var c1_lo = rotr64_lo(xl, xh, 29); // 61 var c2_lo = shr64_lo(xh, xl, 6); var r = c0_lo ^ c1_lo ^ c2_lo; if (r < 0) r += 0x100000000; return r; } },{"57":57}],62:[function(require,module,exports){ var utils = exports; var inherits = require(196); function toArray(msg, enc) { if (Array.isArray(msg)) return msg.slice(); if (!msg) return []; var res = []; if (typeof msg === 'string') { if (!enc) { for (var i = 0; i < msg.length; i++) { var c = msg.charCodeAt(i); var hi = c >> 8; var lo = c & 0xff; if (hi) res.push(hi, lo); else res.push(lo); } } else if (enc === 'hex') { msg = msg.replace(/[^a-z0-9]+/ig, ''); if (msg.length % 2 !== 0) msg = '0' + msg; for (var i = 0; i < msg.length; i += 2) res.push(parseInt(msg[i] + msg[i + 1], 16)); } } else { for (var i = 0; i < msg.length; i++) res[i] = msg[i] | 0; } return res; } utils.toArray = toArray; function toHex(msg) { var res = ''; for (var i = 0; i < msg.length; i++) res += zero2(msg[i].toString(16)); return res; } utils.toHex = toHex; function htonl(w) { var res = (w >>> 24) | ((w >>> 8) & 0xff00) | ((w << 8) & 0xff0000) | ((w & 0xff) << 24); return res >>> 0; } utils.htonl = htonl; function toHex32(msg, endian) { var res = ''; for (var i = 0; i < msg.length; i++) { var w = msg[i]; if (endian === 'little') w = htonl(w); res += zero8(w.toString(16)); } return res; } utils.toHex32 = toHex32; function zero2(word) { if (word.length === 1) return '0' + word; else return word; } utils.zero2 = zero2; function zero8(word) { if (word.length === 7) return '0' + word; else if (word.length === 6) return '00' + word; else if (word.length === 5) return '000' + word; else if (word.length === 4) return '0000' + word; else if (word.length === 3) return '00000' + word; else if (word.length === 2) return '000000' + word; else if (word.length === 1) return '0000000' + word; else return word; } utils.zero8 = zero8; function join32(msg, start, end, endian) { var len = end - start; assert(len % 4 === 0); var res = new Array(len / 4); for (var i = 0, k = start; i < res.length; i++, k += 4) { var w; if (endian === 'big') w = (msg[k] << 24) | (msg[k + 1] << 16) | (msg[k + 2] << 8) | msg[k + 3]; else w = (msg[k + 3] << 24) | (msg[k + 2] << 16) | (msg[k + 1] << 8) | msg[k]; res[i] = w >>> 0; } return res; } utils.join32 = join32; function split32(msg, endian) { var res = new Array(msg.length * 4); for (var i = 0, k = 0; i < msg.length; i++, k += 4) { var m = msg[i]; if (endian === 'big') { res[k] = m >>> 24; res[k + 1] = (m >>> 16) & 0xff; res[k + 2] = (m >>> 8) & 0xff; res[k + 3] = m & 0xff; } else { res[k + 3] = m >>> 24; res[k + 2] = (m >>> 16) & 0xff; res[k + 1] = (m >>> 8) & 0xff; res[k] = m & 0xff; } } return res; } utils.split32 = split32; function rotr32(w, b) { return (w >>> b) | (w << (32 - b)); } utils.rotr32 = rotr32; function rotl32(w, b) { return (w << b) | (w >>> (32 - b)); } utils.rotl32 = rotl32; function sum32(a, b) { return (a + b) >>> 0; } utils.sum32 = sum32; function sum32_3(a, b, c) { return (a + b + c) >>> 0; } utils.sum32_3 = sum32_3; function sum32_4(a, b, c, d) { return (a + b + c + d) >>> 0; } utils.sum32_4 = sum32_4; function sum32_5(a, b, c, d, e) { return (a + b + c + d + e) >>> 0; } utils.sum32_5 = sum32_5; function assert(cond, msg) { if (!cond) throw new Error(msg || 'Assertion failed'); } utils.assert = assert; utils.inherits = inherits; function sum64(buf, pos, ah, al) { var bh = buf[pos]; var bl = buf[pos + 1]; var lo = (al + bl) >>> 0; var hi = (lo < al ? 1 : 0) + ah + bh; buf[pos] = hi >>> 0; buf[pos + 1] = lo; } exports.sum64 = sum64; function sum64_hi(ah, al, bh, bl) { var lo = (al + bl) >>> 0; var hi = (lo < al ? 1 : 0) + ah + bh; return hi >>> 0; }; exports.sum64_hi = sum64_hi; function sum64_lo(ah, al, bh, bl) { var lo = al + bl; return lo >>> 0; }; exports.sum64_lo = sum64_lo; function sum64_4_hi(ah, al, bh, bl, ch, cl, dh, dl) { var carry = 0; var lo = al; lo = (lo + bl) >>> 0; carry += lo < al ? 1 : 0; lo = (lo + cl) >>> 0; carry += lo < cl ? 1 : 0; lo = (lo + dl) >>> 0; carry += lo < dl ? 1 : 0; var hi = ah + bh + ch + dh + carry; return hi >>> 0; }; exports.sum64_4_hi = sum64_4_hi; function sum64_4_lo(ah, al, bh, bl, ch, cl, dh, dl) { var lo = al + bl + cl + dl; return lo >>> 0; }; exports.sum64_4_lo = sum64_4_lo; function sum64_5_hi(ah, al, bh, bl, ch, cl, dh, dl, eh, el) { var carry = 0; var lo = al; lo = (lo + bl) >>> 0; carry += lo < al ? 1 : 0; lo = (lo + cl) >>> 0; carry += lo < cl ? 1 : 0; lo = (lo + dl) >>> 0; carry += lo < dl ? 1 : 0; lo = (lo + el) >>> 0; carry += lo < el ? 1 : 0; var hi = ah + bh + ch + dh + eh + carry; return hi >>> 0; }; exports.sum64_5_hi = sum64_5_hi; function sum64_5_lo(ah, al, bh, bl, ch, cl, dh, dl, eh, el) { var lo = al + bl + cl + dl + el; return lo >>> 0; }; exports.sum64_5_lo = sum64_5_lo; function rotr64_hi(ah, al, num) { var r = (al << (32 - num)) | (ah >>> num); return r >>> 0; }; exports.rotr64_hi = rotr64_hi; function rotr64_lo(ah, al, num) { var r = (ah << (32 - num)) | (al >>> num); return r >>> 0; }; exports.rotr64_lo = rotr64_lo; function shr64_hi(ah, al, num) { return ah >>> num; }; exports.shr64_hi = shr64_hi; function shr64_lo(ah, al, num) { var r = (ah << (32 - num)) | (al >>> num); return r >>> 0; }; exports.shr64_lo = shr64_lo; },{"196":196}],63:[function(require,module,exports){ module.exports={ "name": "elliptic", "version": "3.1.0", "description": "EC cryptography", "main": "lib/elliptic.js", "scripts": { "test": "make lint && mocha --reporter=spec test/*-test.js" }, "repository": { "type": "git", "url": "git+ssh://git@github.com/indutny/elliptic.git" }, "keywords": [ "EC", "Elliptic", "curve", "Cryptography" ], "author": { "name": "Fedor Indutny", "email": "fedor@indutny.com" }, "license": "MIT", "bugs": { "url": "https://github.com/indutny/elliptic/issues" }, "homepage": "https://github.com/indutny/elliptic", "devDependencies": { "browserify": "^3.44.2", "jscs": "^1.11.3", "jshint": "^2.6.0", "mocha": "^2.1.0", "uglify-js": "^2.4.13" }, "dependencies": { "bn.js": "^2.0.3", "brorand": "^1.0.1", "hash.js": "^1.0.0", "inherits": "^2.0.1" }, "gitHead": "d86cd2a8178f7e7cecbd6dd92eea084e2ab44c13", "_id": "elliptic@3.1.0", "_shasum": "c21682ef762769b56a74201609105da11d5f60cc", "_from": "elliptic@>=3.0.0 <4.0.0", "_npmVersion": "2.11.0", "_nodeVersion": "2.2.1", "_npmUser": { "name": "indutny", "email": "fedor@indutny.com" }, "maintainers": [ { "name": "indutny", "email": "fedor@indutny.com" } ], "dist": { "shasum": "c21682ef762769b56a74201609105da11d5f60cc", "tarball": "http://registry.npmjs.org/elliptic/-/elliptic-3.1.0.tgz" }, "directories": {}, "_resolved": "https://registry.npmjs.org/elliptic/-/elliptic-3.1.0.tgz" } },{}],64:[function(require,module,exports){ module.exports={"2.16.840.1.101.3.4.1.1": "aes-128-ecb", "2.16.840.1.101.3.4.1.2": "aes-128-cbc", "2.16.840.1.101.3.4.1.3": "aes-128-ofb", "2.16.840.1.101.3.4.1.4": "aes-128-cfb", "2.16.840.1.101.3.4.1.21": "aes-192-ecb", "2.16.840.1.101.3.4.1.22": "aes-192-cbc", "2.16.840.1.101.3.4.1.23": "aes-192-ofb", "2.16.840.1.101.3.4.1.24": "aes-192-cfb", "2.16.840.1.101.3.4.1.41": "aes-256-ecb", "2.16.840.1.101.3.4.1.42": "aes-256-cbc", "2.16.840.1.101.3.4.1.43": "aes-256-ofb", "2.16.840.1.101.3.4.1.44": "aes-256-cfb" } },{}],65:[function(require,module,exports){ // from https://github.com/indutny/self-signed/blob/gh-pages/lib/asn1.js // Fedor, you are amazing. var asn1 = require(68) var RSAPrivateKey = asn1.define('RSAPrivateKey', function () { this.seq().obj( this.key('version').int(), this.key('modulus').int(), this.key('publicExponent').int(), this.key('privateExponent').int(), this.key('prime1').int(), this.key('prime2').int(), this.key('exponent1').int(), this.key('exponent2').int(), this.key('coefficient').int() ) }) exports.RSAPrivateKey = RSAPrivateKey var RSAPublicKey = asn1.define('RSAPublicKey', function () { this.seq().obj( this.key('modulus').int(), this.key('publicExponent').int() ) }) exports.RSAPublicKey = RSAPublicKey var PublicKey = asn1.define('SubjectPublicKeyInfo', function () { this.seq().obj( this.key('algorithm').use(AlgorithmIdentifier), this.key('subjectPublicKey').bitstr() ) }) exports.PublicKey = PublicKey var AlgorithmIdentifier = asn1.define('AlgorithmIdentifier', function () { this.seq().obj( this.key('algorithm').objid(), this.key('none').null_().optional(), this.key('curve').objid().optional(), this.key('params').seq().obj( this.key('p').int(), this.key('q').int(), this.key('g').int() ).optional() ) }) var PrivateKeyInfo = asn1.define('PrivateKeyInfo', function () { this.seq().obj( this.key('version').int(), this.key('algorithm').use(AlgorithmIdentifier), this.key('subjectPrivateKey').octstr() ) }) exports.PrivateKey = PrivateKeyInfo var EncryptedPrivateKeyInfo = asn1.define('EncryptedPrivateKeyInfo', function () { this.seq().obj( this.key('algorithm').seq().obj( this.key('id').objid(), this.key('decrypt').seq().obj( this.key('kde').seq().obj( this.key('id').objid(), this.key('kdeparams').seq().obj( this.key('salt').octstr(), this.key('iters').int() ) ), this.key('cipher').seq().obj( this.key('algo').objid(), this.key('iv').octstr() ) ) ), this.key('subjectPrivateKey').octstr() ) }) exports.EncryptedPrivateKey = EncryptedPrivateKeyInfo var DSAPrivateKey = asn1.define('DSAPrivateKey', function () { this.seq().obj( this.key('version').int(), this.key('p').int(), this.key('q').int(), this.key('g').int(), this.key('pub_key').int(), this.key('priv_key').int() ) }) exports.DSAPrivateKey = DSAPrivateKey exports.DSAparam = asn1.define('DSAparam', function () { this.int() }) var ECPrivateKey = asn1.define('ECPrivateKey', function () { this.seq().obj( this.key('version').int(), this.key('privateKey').octstr(), this.key('parameters').optional().explicit(0).use(ECParameters), this.key('publicKey').optional().explicit(1).bitstr() ) }) exports.ECPrivateKey = ECPrivateKey var ECParameters = asn1.define('ECParameters', function () { this.choice({ namedCurve: this.objid() }) }) exports.signature = asn1.define('signature', function () { this.seq().obj( this.key('r').int(), this.key('s').int() ) }) },{"68":68}],66:[function(require,module,exports){ (function (Buffer){ // adapted from https://github.com/apatil/pemstrip var findProc = /Proc-Type: 4,ENCRYPTED\r?\nDEK-Info: AES-((?:128)|(?:192)|(?:256))-CBC,([0-9A-H]+)\r?\n\r?\n([0-9A-z\n\r\+\/\=]+)\r?\n/m var startRegex = /^-----BEGIN (.*) KEY-----\r?\n/m var fullRegex = /^-----BEGIN (.*) KEY-----\r?\n([0-9A-z\n\r\+\/\=]+)\r?\n-----END \1 KEY-----$/m var evp = require(100) var ciphers = require(85) module.exports = function (okey, password) { var key = okey.toString() var match = key.match(findProc) var decrypted if (!match) { var match2 = key.match(fullRegex) decrypted = new Buffer(match2[2].replace(/\r?\n/g, ''), 'base64') } else { var suite = 'aes' + match[1] var iv = new Buffer(match[2], 'hex') var cipherText = new Buffer(match[3].replace(/\r?\n/g, ''), 'base64') var cipherKey = evp(password, iv.slice(0, 8), parseInt(match[1], 10)).key var out = [] var cipher = ciphers.createDecipheriv(suite, cipherKey, iv) out.push(cipher.update(cipherText)) out.push(cipher.final()) decrypted = Buffer.concat(out) } var tag = key.match(startRegex)[1] + ' KEY' return { tag: tag, data: decrypted } } }).call(this,require(4).Buffer) },{"100":100,"4":4,"85":85}],67:[function(require,module,exports){ (function (Buffer){ var asn1 = require(65) var aesid = require(64) var fixProc = require(66) var ciphers = require(85) var compat = require(148) module.exports = parseKeys function parseKeys (buffer) { var password if (typeof buffer === 'object' && !Buffer.isBuffer(buffer)) { password = buffer.passphrase buffer = buffer.key } if (typeof buffer === 'string') { buffer = new Buffer(buffer) } var stripped = fixProc(buffer, password) var type = stripped.tag var data = stripped.data var subtype, ndata switch (type) { case 'PUBLIC KEY': ndata = asn1.PublicKey.decode(data, 'der') subtype = ndata.algorithm.algorithm.join('.') switch (subtype) { case '1.2.840.113549.1.1.1': return asn1.RSAPublicKey.decode(ndata.subjectPublicKey.data, 'der') case '1.2.840.10045.2.1': ndata.subjectPrivateKey = ndata.subjectPublicKey return { type: 'ec', data: ndata } case '1.2.840.10040.4.1': ndata.algorithm.params.pub_key = asn1.DSAparam.decode(ndata.subjectPublicKey.data, 'der') return { type: 'dsa', data: ndata.algorithm.params } default: throw new Error('unknown key id ' + subtype) } throw new Error('unknown key type ' + type) case 'ENCRYPTED PRIVATE KEY': data = asn1.EncryptedPrivateKey.decode(data, 'der') data = decrypt(data, password) // falls through case 'PRIVATE KEY': ndata = asn1.PrivateKey.decode(data, 'der') subtype = ndata.algorithm.algorithm.join('.') switch (subtype) { case '1.2.840.113549.1.1.1': return asn1.RSAPrivateKey.decode(ndata.subjectPrivateKey, 'der') case '1.2.840.10045.2.1': return { curve: ndata.algorithm.curve, privateKey: asn1.ECPrivateKey.decode(ndata.subjectPrivateKey, 'der').privateKey } case '1.2.840.10040.4.1': ndata.algorithm.params.priv_key = asn1.DSAparam.decode(ndata.subjectPrivateKey, 'der') return { type: 'dsa', params: ndata.algorithm.params } default: throw new Error('unknown key id ' + subtype) } throw new Error('unknown key type ' + type) case 'RSA PUBLIC KEY': return asn1.RSAPublicKey.decode(data, 'der') case 'RSA PRIVATE KEY': return asn1.RSAPrivateKey.decode(data, 'der') case 'DSA PRIVATE KEY': return { type: 'dsa', params: asn1.DSAPrivateKey.decode(data, 'der') } case 'EC PRIVATE KEY': data = asn1.ECPrivateKey.decode(data, 'der') return { curve: data.parameters.value, privateKey: data.privateKey } default: throw new Error('unknown key type ' + type) } } parseKeys.signature = asn1.signature function decrypt (data, password) { var salt = data.algorithm.decrypt.kde.kdeparams.salt var iters = parseInt(data.algorithm.decrypt.kde.kdeparams.iters.toString(), 10) var algo = aesid[data.algorithm.decrypt.cipher.algo.join('.')] var iv = data.algorithm.decrypt.cipher.iv var cipherText = data.subjectPrivateKey var keylen = parseInt(algo.split('-')[1], 10) / 8 var key = compat.pbkdf2Sync(password, salt, iters, keylen) var cipher = ciphers.createDecipheriv(algo, key, iv) var out = [] out.push(cipher.update(cipherText)) out.push(cipher.final()) return Buffer.concat(out) } }).call(this,require(4).Buffer) },{"148":148,"4":4,"64":64,"65":65,"66":66,"85":85}],68:[function(require,module,exports){ var asn1 = exports; asn1.bignum = require(41); asn1.define = require(69).define; asn1.base = require(71); asn1.constants = require(75); asn1.decoders = require(77); asn1.encoders = require(80); },{"41":41,"69":69,"71":71,"75":75,"77":77,"80":80}],69:[function(require,module,exports){ var asn1 = require(68); var inherits = require(196); var api = exports; api.define = function define(name, body) { return new Entity(name, body); }; function Entity(name, body) { this.name = name; this.body = body; this.decoders = {}; this.encoders = {}; }; Entity.prototype._createNamed = function createNamed(base) { var named; try { named = require(215).runInThisContext( '(function ' + this.name + '(entity) {\n' + ' this._initNamed(entity);\n' + '})' ); } catch (e) { named = function (entity) { this._initNamed(entity); }; } inherits(named, base); named.prototype._initNamed = function initnamed(entity) { base.call(this, entity); }; return new named(this); }; Entity.prototype._getDecoder = function _getDecoder(enc) { // Lazily create decoder if (!this.decoders.hasOwnProperty(enc)) this.decoders[enc] = this._createNamed(asn1.decoders[enc]); return this.decoders[enc]; }; Entity.prototype.decode = function decode(data, enc, options) { return this._getDecoder(enc).decode(data, options); }; Entity.prototype._getEncoder = function _getEncoder(enc) { // Lazily create encoder if (!this.encoders.hasOwnProperty(enc)) this.encoders[enc] = this._createNamed(asn1.encoders[enc]); return this.encoders[enc]; }; Entity.prototype.encode = function encode(data, enc, /* internal */ reporter) { return this._getEncoder(enc).encode(data, reporter); }; },{"196":196,"215":215,"68":68}],70:[function(require,module,exports){ var inherits = require(196); var Reporter = require(71).Reporter; var Buffer = require(4).Buffer; function DecoderBuffer(base, options) { Reporter.call(this, options); if (!Buffer.isBuffer(base)) { this.error('Input not Buffer'); return; } this.base = base; this.offset = 0; this.length = base.length; } inherits(DecoderBuffer, Reporter); exports.DecoderBuffer = DecoderBuffer; DecoderBuffer.prototype.save = function save() { return { offset: this.offset, reporter: Reporter.prototype.save.call(this) }; }; DecoderBuffer.prototype.restore = function restore(save) { // Return skipped data var res = new DecoderBuffer(this.base); res.offset = save.offset; res.length = this.offset; this.offset = save.offset; Reporter.prototype.restore.call(this, save.reporter); return res; }; DecoderBuffer.prototype.isEmpty = function isEmpty() { return this.offset === this.length; }; DecoderBuffer.prototype.readUInt8 = function readUInt8(fail) { if (this.offset + 1 <= this.length) return this.base.readUInt8(this.offset++, true); else return this.error(fail || 'DecoderBuffer overrun'); } DecoderBuffer.prototype.skip = function skip(bytes, fail) { if (!(this.offset + bytes <= this.length)) return this.error(fail || 'DecoderBuffer overrun'); var res = new DecoderBuffer(this.base); // Share reporter state res._reporterState = this._reporterState; res.offset = this.offset; res.length = this.offset + bytes; this.offset += bytes; return res; } DecoderBuffer.prototype.raw = function raw(save) { return this.base.slice(save ? save.offset : this.offset, this.length); } function EncoderBuffer(value, reporter) { if (Array.isArray(value)) { this.length = 0; this.value = value.map(function(item) { if (!(item instanceof EncoderBuffer)) item = new EncoderBuffer(item, reporter); this.length += item.length; return item; }, this); } else if (typeof value === 'number') { if (!(0 <= value && value <= 0xff)) return reporter.error('non-byte EncoderBuffer value'); this.value = value; this.length = 1; } else if (typeof value === 'string') { this.value = value; this.length = Buffer.byteLength(value); } else if (Buffer.isBuffer(value)) { this.value = value; this.length = value.length; } else { return reporter.error('Unsupported type: ' + typeof value); } } exports.EncoderBuffer = EncoderBuffer; EncoderBuffer.prototype.join = function join(out, offset) { if (!out) out = new Buffer(this.length); if (!offset) offset = 0; if (this.length === 0) return out; if (Array.isArray(this.value)) { this.value.forEach(function(item) { item.join(out, offset); offset += item.length; }); } else { if (typeof this.value === 'number') out[offset] = this.value; else if (typeof this.value === 'string') out.write(this.value, offset); else if (Buffer.isBuffer(this.value)) this.value.copy(out, offset); offset += this.length; } return out; }; },{"196":196,"4":4,"71":71}],71:[function(require,module,exports){ var base = exports; base.Reporter = require(73).Reporter; base.DecoderBuffer = require(70).DecoderBuffer; base.EncoderBuffer = require(70).EncoderBuffer; base.Node = require(72); },{"70":70,"72":72,"73":73}],72:[function(require,module,exports){ var Reporter = require(71).Reporter; var EncoderBuffer = require(71).EncoderBuffer; var assert = require(82); // Supported tags var tags = [ 'seq', 'seqof', 'set', 'setof', 'octstr', 'bitstr', 'objid', 'bool', 'gentime', 'utctime', 'null_', 'enum', 'int', 'ia5str', 'utf8str' ]; // Public methods list var methods = [ 'key', 'obj', 'use', 'optional', 'explicit', 'implicit', 'def', 'choice', 'any' ].concat(tags); // Overrided methods list var overrided = [ '_peekTag', '_decodeTag', '_use', '_decodeStr', '_decodeObjid', '_decodeTime', '_decodeNull', '_decodeInt', '_decodeBool', '_decodeList', '_encodeComposite', '_encodeStr', '_encodeObjid', '_encodeTime', '_encodeNull', '_encodeInt', '_encodeBool' ]; function Node(enc, parent) { var state = {}; this._baseState = state; state.enc = enc; state.parent = parent || null; state.children = null; // State state.tag = null; state.args = null; state.reverseArgs = null; state.choice = null; state.optional = false; state.any = false; state.obj = false; state.use = null; state.useDecoder = null; state.key = null; state['default'] = null; state.explicit = null; state.implicit = null; // Should create new instance on each method if (!state.parent) { state.children = []; this._wrap(); } } module.exports = Node; var stateProps = [ 'enc', 'parent', 'children', 'tag', 'args', 'reverseArgs', 'choice', 'optional', 'any', 'obj', 'use', 'alteredUse', 'key', 'default', 'explicit', 'implicit' ]; Node.prototype.clone = function clone() { var state = this._baseState; var cstate = {}; stateProps.forEach(function(prop) { cstate[prop] = state[prop]; }); var res = new this.constructor(cstate.parent); res._baseState = cstate; return res; }; Node.prototype._wrap = function wrap() { var state = this._baseState; methods.forEach(function(method) { this[method] = function _wrappedMethod() { var clone = new this.constructor(this); state.children.push(clone); return clone[method].apply(clone, arguments); }; }, this); }; Node.prototype._init = function init(body) { var state = this._baseState; assert(state.parent === null); body.call(this); // Filter children state.children = state.children.filter(function(child) { return child._baseState.parent === this; }, this); assert.equal(state.children.length, 1, 'Root node can have only one child'); }; Node.prototype._useArgs = function useArgs(args) { var state = this._baseState; // Filter children and args var children = args.filter(function(arg) { return arg instanceof this.constructor; }, this); args = args.filter(function(arg) { return !(arg instanceof this.constructor); }, this); if (children.length !== 0) { assert(state.children === null); state.children = children; // Replace parent to maintain backward link children.forEach(function(child) { child._baseState.parent = this; }, this); } if (args.length !== 0) { assert(state.args === null); state.args = args; state.reverseArgs = args.map(function(arg) { if (typeof arg !== 'object' || arg.constructor !== Object) return arg; var res = {}; Object.keys(arg).forEach(function(key) { if (key == (key | 0)) key |= 0; var value = arg[key]; res[value] = key; }); return res; }); } }; // // Overrided methods // overrided.forEach(function(method) { Node.prototype[method] = function _overrided() { var state = this._baseState; throw new Error(method + ' not implemented for encoding: ' + state.enc); }; }); // // Public methods // tags.forEach(function(tag) { Node.prototype[tag] = function _tagMethod() { var state = this._baseState; var args = Array.prototype.slice.call(arguments); assert(state.tag === null); state.tag = tag; this._useArgs(args); return this; }; }); Node.prototype.use = function use(item) { var state = this._baseState; assert(state.use === null); state.use = item; return this; }; Node.prototype.optional = function optional() { var state = this._baseState; state.optional = true; return this; }; Node.prototype.def = function def(val) { var state = this._baseState; assert(state['default'] === null); state['default'] = val; state.optional = true; return this; }; Node.prototype.explicit = function explicit(num) { var state = this._baseState; assert(state.explicit === null && state.implicit === null); state.explicit = num; return this; }; Node.prototype.implicit = function implicit(num) { var state = this._baseState; assert(state.explicit === null && state.implicit === null); state.implicit = num; return this; }; Node.prototype.obj = function obj() { var state = this._baseState; var args = Array.prototype.slice.call(arguments); state.obj = true; if (args.length !== 0) this._useArgs(args); return this; }; Node.prototype.key = function key(newKey) { var state = this._baseState; assert(state.key === null); state.key = newKey; return this; }; Node.prototype.any = function any() { var state = this._baseState; state.any = true; return this; }; Node.prototype.choice = function choice(obj) { var state = this._baseState; assert(state.choice === null); state.choice = obj; this._useArgs(Object.keys(obj).map(function(key) { return obj[key]; })); return this; }; // // Decoding // Node.prototype._decode = function decode(input) { var state = this._baseState; // Decode root node if (state.parent === null) return input.wrapResult(state.children[0]._decode(input)); var result = state['default']; var present = true; var prevKey; if (state.key !== null) prevKey = input.enterKey(state.key); // Check if tag is there if (state.optional) { var tag = null; if (state.explicit !== null) tag = state.explicit; else if (state.implicit !== null) tag = state.implicit; else if (state.tag !== null) tag = state.tag; if (tag === null && !state.any) { // Trial and Error var save = input.save(); try { if (state.choice === null) this._decodeGeneric(state.tag, input); else this._decodeChoice(input); present = true; } catch (e) { present = false; } input.restore(save); } else { present = this._peekTag(input, tag, state.any); if (input.isError(present)) return present; } } // Push object on stack var prevObj; if (state.obj && present) prevObj = input.enterObject(); if (present) { // Unwrap explicit values if (state.explicit !== null) { var explicit = this._decodeTag(input, state.explicit); if (input.isError(explicit)) return explicit; input = explicit; } // Unwrap implicit and normal values if (state.use === null && state.choice === null) { if (state.any) var save = input.save(); var body = this._decodeTag( input, state.implicit !== null ? state.implicit : state.tag, state.any ); if (input.isError(body)) return body; if (state.any) result = input.raw(save); else input = body; } // Select proper method for tag if (state.any) result = result; else if (state.choice === null) result = this._decodeGeneric(state.tag, input); else result = this._decodeChoice(input); if (input.isError(result)) return result; // Decode children if (!state.any && state.choice === null && state.children !== null) { var fail = state.children.some(function decodeChildren(child) { // NOTE: We are ignoring errors here, to let parser continue with other // parts of encoded data child._decode(input); }); if (fail) return err; } } // Pop object if (state.obj && present) result = input.leaveObject(prevObj); // Set key if (state.key !== null && (result !== null || present === true)) input.leaveKey(prevKey, state.key, result); return result; }; Node.prototype._decodeGeneric = function decodeGeneric(tag, input) { var state = this._baseState; if (tag === 'seq' || tag === 'set') return null; if (tag === 'seqof' || tag === 'setof') return this._decodeList(input, tag, state.args[0]); else if (tag === 'octstr' || tag === 'bitstr') return this._decodeStr(input, tag); else if (tag === 'ia5str' || tag === 'utf8str') return this._decodeStr(input, tag); else if (tag === 'objid' && state.args) return this._decodeObjid(input, state.args[0], state.args[1]); else if (tag === 'objid') return this._decodeObjid(input, null, null); else if (tag === 'gentime' || tag === 'utctime') return this._decodeTime(input, tag); else if (tag === 'null_') return this._decodeNull(input); else if (tag === 'bool') return this._decodeBool(input); else if (tag === 'int' || tag === 'enum') return this._decodeInt(input, state.args && state.args[0]); else if (state.use !== null) return this._getUse(state.use, input._reporterState.obj)._decode(input); else return input.error('unknown tag: ' + tag); return null; }; Node.prototype._getUse = function _getUse(entity, obj) { var state = this._baseState; // Create altered use decoder if implicit is set state.useDecoder = this._use(entity, obj); assert(state.useDecoder._baseState.parent === null); state.useDecoder = state.useDecoder._baseState.children[0]; if (state.implicit !== state.useDecoder._baseState.implicit) { state.useDecoder = state.useDecoder.clone(); state.useDecoder._baseState.implicit = state.implicit; } return state.useDecoder; }; Node.prototype._decodeChoice = function decodeChoice(input) { var state = this._baseState; var result = null; var match = false; Object.keys(state.choice).some(function(key) { var save = input.save(); var node = state.choice[key]; try { var value = node._decode(input); if (input.isError(value)) return false; result = { type: key, value: value }; match = true; } catch (e) { input.restore(save); return false; } return true; }, this); if (!match) return input.error('Choice not matched'); return result; }; // // Encoding // Node.prototype._createEncoderBuffer = function createEncoderBuffer(data) { return new EncoderBuffer(data, this.reporter); }; Node.prototype._encode = function encode(data, reporter, parent) { var state = this._baseState; if (state['default'] !== null && state['default'] === data) return; var result = this._encodeValue(data, reporter, parent); if (result === undefined) return; if (this._skipDefault(result, reporter, parent)) return; return result; }; Node.prototype._encodeValue = function encode(data, reporter, parent) { var state = this._baseState; // Decode root node if (state.parent === null) return state.children[0]._encode(data, reporter || new Reporter()); var result = null; var present = true; // Set reporter to share it with a child class this.reporter = reporter; // Check if data is there if (state.optional && data === undefined) { if (state['default'] !== null) data = state['default'] else return; } // For error reporting var prevKey; // Encode children first var content = null; var primitive = false; if (state.any) { // Anything that was given is translated to buffer result = this._createEncoderBuffer(data); } else if (state.choice) { result = this._encodeChoice(data, reporter); } else if (state.children) { content = state.children.map(function(child) { if (child._baseState.tag === 'null_') return child._encode(null, reporter, data); if (child._baseState.key === null) return reporter.error('Child should have a key'); var prevKey = reporter.enterKey(child._baseState.key); if (typeof data !== 'object') return reporter.error('Child expected, but input is not object'); var res = child._encode(data[child._baseState.key], reporter, data); reporter.leaveKey(prevKey); return res; }, this).filter(function(child) { return child; }); content = this._createEncoderBuffer(content); } else { if (state.tag === 'seqof' || state.tag === 'setof') { // TODO(indutny): this should be thrown on DSL level if (!(state.args && state.args.length === 1)) return reporter.error('Too many args for : ' + state.tag); if (!Array.isArray(data)) return reporter.error('seqof/setof, but data is not Array'); var child = this.clone(); child._baseState.implicit = null; content = this._createEncoderBuffer(data.map(function(item) { var state = this._baseState; return this._getUse(state.args[0], data)._encode(item, reporter); }, child)); } else if (state.use !== null) { result = this._getUse(state.use, parent)._encode(data, reporter); } else { content = this._encodePrimitive(state.tag, data); primitive = true; } } // Encode data itself var result; if (!state.any && state.choice === null) { var tag = state.implicit !== null ? state.implicit : state.tag; var cls = state.implicit === null ? 'universal' : 'context'; if (tag === null) { if (state.use === null) reporter.error('Tag could be ommited only for .use()'); } else { if (state.use === null) result = this._encodeComposite(tag, primitive, cls, content); } } // Wrap in explicit if (state.explicit !== null) result = this._encodeComposite(state.explicit, false, 'context', result); return result; }; Node.prototype._encodeChoice = function encodeChoice(data, reporter) { var state = this._baseState; var node = state.choice[data.type]; if (!node) { assert( false, data.type + ' not found in ' + JSON.stringify(Object.keys(state.choice))); } return node._encode(data.value, reporter); }; Node.prototype._encodePrimitive = function encodePrimitive(tag, data) { var state = this._baseState; if (tag === 'octstr' || tag === 'bitstr' || tag === 'ia5str') return this._encodeStr(data, tag); else if (tag === 'utf8str') return this._encodeStr(data, tag); else if (tag === 'objid' && state.args) return this._encodeObjid(data, state.reverseArgs[0], state.args[1]); else if (tag === 'objid') return this._encodeObjid(data, null, null); else if (tag === 'gentime' || tag === 'utctime') return this._encodeTime(data, tag); else if (tag === 'null_') return this._encodeNull(); else if (tag === 'int' || tag === 'enum') return this._encodeInt(data, state.args && state.reverseArgs[0]); else if (tag === 'bool') return this._encodeBool(data); else throw new Error('Unsupported tag: ' + tag); }; },{"71":71,"82":82}],73:[function(require,module,exports){ var inherits = require(196); function Reporter(options) { this._reporterState = { obj: null, path: [], options: options || {}, errors: [] }; } exports.Reporter = Reporter; Reporter.prototype.isError = function isError(obj) { return obj instanceof ReporterError; }; Reporter.prototype.save = function save() { var state = this._reporterState; return { obj: state.obj, pathLen: state.path.length }; }; Reporter.prototype.restore = function restore(data) { var state = this._reporterState; state.obj = data.obj; state.path = state.path.slice(0, data.pathLen); }; Reporter.prototype.enterKey = function enterKey(key) { return this._reporterState.path.push(key); }; Reporter.prototype.leaveKey = function leaveKey(index, key, value) { var state = this._reporterState; state.path = state.path.slice(0, index - 1); if (state.obj !== null) state.obj[key] = value; }; Reporter.prototype.enterObject = function enterObject() { var state = this._reporterState; var prev = state.obj; state.obj = {}; return prev; }; Reporter.prototype.leaveObject = function leaveObject(prev) { var state = this._reporterState; var now = state.obj; state.obj = prev; return now; }; Reporter.prototype.error = function error(msg) { var err; var state = this._reporterState; var inherited = msg instanceof ReporterError; if (inherited) { err = msg; } else { err = new ReporterError(state.path.map(function(elem) { return '[' + JSON.stringify(elem) + ']'; }).join(''), msg.message || msg, msg.stack); } if (!state.options.partial) throw err; if (!inherited) state.errors.push(err); return err; }; Reporter.prototype.wrapResult = function wrapResult(result) { var state = this._reporterState; if (!state.options.partial) return result; return { result: this.isError(result) ? null : result, errors: state.errors }; }; function ReporterError(path, msg) { this.path = path; this.rethrow(msg); }; inherits(ReporterError, Error); ReporterError.prototype.rethrow = function rethrow(msg) { this.message = msg + ' at: ' + (this.path || '(shallow)'); Error.captureStackTrace(this, ReporterError); return this; }; },{"196":196}],74:[function(require,module,exports){ var constants = require(75); exports.tagClass = { 0: 'universal', 1: 'application', 2: 'context', 3: 'private' }; exports.tagClassByName = constants._reverse(exports.tagClass); exports.tag = { 0x00: 'end', 0x01: 'bool', 0x02: 'int', 0x03: 'bitstr', 0x04: 'octstr', 0x05: 'null_', 0x06: 'objid', 0x07: 'objDesc', 0x08: 'external', 0x09: 'real', 0x0a: 'enum', 0x0b: 'embed', 0x0c: 'utf8str', 0x0d: 'relativeOid', 0x10: 'seq', 0x11: 'set', 0x12: 'numstr', 0x13: 'printstr', 0x14: 't61str', 0x15: 'videostr', 0x16: 'ia5str', 0x17: 'utctime', 0x18: 'gentime', 0x19: 'graphstr', 0x1a: 'iso646str', 0x1b: 'genstr', 0x1c: 'unistr', 0x1d: 'charstr', 0x1e: 'bmpstr' }; exports.tagByName = constants._reverse(exports.tag); },{"75":75}],75:[function(require,module,exports){ var constants = exports; // Helper constants._reverse = function reverse(map) { var res = {}; Object.keys(map).forEach(function(key) { // Convert key to integer if it is stringified if ((key | 0) == key) key = key | 0; var value = map[key]; res[value] = key; }); return res; }; constants.der = require(74); },{"74":74}],76:[function(require,module,exports){ var inherits = require(196); var asn1 = require(68); var base = asn1.base; var bignum = asn1.bignum; // Import DER constants var der = asn1.constants.der; function DERDecoder(entity) { this.enc = 'der'; this.name = entity.name; this.entity = entity; // Construct base tree this.tree = new DERNode(); this.tree._init(entity.body); }; module.exports = DERDecoder; DERDecoder.prototype.decode = function decode(data, options) { if (!(data instanceof base.DecoderBuffer)) data = new base.DecoderBuffer(data, options); return this.tree._decode(data, options); }; // Tree methods function DERNode(parent) { base.Node.call(this, 'der', parent); } inherits(DERNode, base.Node); DERNode.prototype._peekTag = function peekTag(buffer, tag, any) { if (buffer.isEmpty()) return false; var state = buffer.save(); var decodedTag = derDecodeTag(buffer, 'Failed to peek tag: "' + tag + '"'); if (buffer.isError(decodedTag)) return decodedTag; buffer.restore(state); return decodedTag.tag === tag || decodedTag.tagStr === tag || any; }; DERNode.prototype._decodeTag = function decodeTag(buffer, tag, any) { var decodedTag = derDecodeTag(buffer, 'Failed to decode tag of "' + tag + '"'); if (buffer.isError(decodedTag)) return decodedTag; var len = derDecodeLen(buffer, decodedTag.primitive, 'Failed to get length of "' + tag + '"'); // Failure if (buffer.isError(len)) return len; if (!any && decodedTag.tag !== tag && decodedTag.tagStr !== tag && decodedTag.tagStr + 'of' !== tag) { return buffer.error('Failed to match tag: "' + tag + '"'); } if (decodedTag.primitive || len !== null) return buffer.skip(len, 'Failed to match body of: "' + tag + '"'); // Indefinite length... find END tag var state = buffer.save(); var res = this._skipUntilEnd( buffer, 'Failed to skip indefinite length body: "' + this.tag + '"'); if (buffer.isError(res)) return res; len = buffer.offset - state.offset; buffer.restore(state); return buffer.skip(len, 'Failed to match body of: "' + tag + '"'); }; DERNode.prototype._skipUntilEnd = function skipUntilEnd(buffer, fail) { while (true) { var tag = derDecodeTag(buffer, fail); if (buffer.isError(tag)) return tag; var len = derDecodeLen(buffer, tag.primitive, fail); if (buffer.isError(len)) return len; var res; if (tag.primitive || len !== null) res = buffer.skip(len) else res = this._skipUntilEnd(buffer, fail); // Failure if (buffer.isError(res)) return res; if (tag.tagStr === 'end') break; } }; DERNode.prototype._decodeList = function decodeList(buffer, tag, decoder) { var result = []; while (!buffer.isEmpty()) { var possibleEnd = this._peekTag(buffer, 'end'); if (buffer.isError(possibleEnd)) return possibleEnd; var res = decoder.decode(buffer, 'der'); if (buffer.isError(res) && possibleEnd) break; result.push(res); } return result; }; DERNode.prototype._decodeStr = function decodeStr(buffer, tag) { if (tag === 'octstr') { return buffer.raw(); } else if (tag === 'bitstr') { var unused = buffer.readUInt8(); if (buffer.isError(unused)) return unused; return { unused: unused, data: buffer.raw() }; } else if (tag === 'ia5str' || tag === 'utf8str') { return buffer.raw().toString(); } else { return this.error('Decoding of string type: ' + tag + ' unsupported'); } }; DERNode.prototype._decodeObjid = function decodeObjid(buffer, values, relative) { var identifiers = []; var ident = 0; while (!buffer.isEmpty()) { var subident = buffer.readUInt8(); ident <<= 7; ident |= subident & 0x7f; if ((subident & 0x80) === 0) { identifiers.push(ident); ident = 0; } } if (subident & 0x80) identifiers.push(ident); var first = (identifiers[0] / 40) | 0; var second = identifiers[0] % 40; if (relative) result = identifiers; else result = [first, second].concat(identifiers.slice(1)); if (values) result = values[result.join(' ')]; return result; }; DERNode.prototype._decodeTime = function decodeTime(buffer, tag) { var str = buffer.raw().toString(); if (tag === 'gentime') { var year = str.slice(0, 4) | 0; var mon = str.slice(4, 6) | 0; var day = str.slice(6, 8) | 0; var hour = str.slice(8, 10) | 0; var min = str.slice(10, 12) | 0; var sec = str.slice(12, 14) | 0; } else if (tag === 'utctime') { var year = str.slice(0, 2) | 0; var mon = str.slice(2, 4) | 0; var day = str.slice(4, 6) | 0; var hour = str.slice(6, 8) | 0; var min = str.slice(8, 10) | 0; var sec = str.slice(10, 12) | 0; if (year < 70) year = 2000 + year; else year = 1900 + year; } else { return this.error('Decoding ' + tag + ' time is not supported yet'); } return Date.UTC(year, mon - 1, day, hour, min, sec, 0); }; DERNode.prototype._decodeNull = function decodeNull(buffer) { return null; }; DERNode.prototype._decodeBool = function decodeBool(buffer) { var res = buffer.readUInt8(); if (buffer.isError(res)) return res; else return res !== 0; }; DERNode.prototype._decodeInt = function decodeInt(buffer, values) { // Bigint, return as it is (assume big endian) var raw = buffer.raw(); var res = new bignum(raw); if (values) res = values[res.toString(10)] || res; return res; }; DERNode.prototype._use = function use(entity, obj) { if (typeof entity === 'function') entity = entity(obj); return entity._getDecoder('der').tree; }; // Utility methods function derDecodeTag(buf, fail) { var tag = buf.readUInt8(fail); if (buf.isError(tag)) return tag; var cls = der.tagClass[tag >> 6]; var primitive = (tag & 0x20) === 0; // Multi-octet tag - load if ((tag & 0x1f) === 0x1f) { var oct = tag; tag = 0; while ((oct & 0x80) === 0x80) { oct = buf.readUInt8(fail); if (buf.isError(oct)) return oct; tag <<= 7; tag |= oct & 0x7f; } } else { tag &= 0x1f; } var tagStr = der.tag[tag]; return { cls: cls, primitive: primitive, tag: tag, tagStr: tagStr }; } function derDecodeLen(buf, primitive, fail) { var len = buf.readUInt8(fail); if (buf.isError(len)) return len; // Indefinite form if (!primitive && len === 0x80) return null; // Definite form if ((len & 0x80) === 0) { // Short form return len; } // Long form var num = len & 0x7f; if (num >= 4) return buf.error('length octect is too long'); len = 0; for (var i = 0; i < num; i++) { len <<= 8; var j = buf.readUInt8(fail); if (buf.isError(j)) return j; len |= j; } return len; } },{"196":196,"68":68}],77:[function(require,module,exports){ var decoders = exports; decoders.der = require(76); decoders.pem = require(78); },{"76":76,"78":78}],78:[function(require,module,exports){ var inherits = require(196); var Buffer = require(4).Buffer; var asn1 = require(68); var DERDecoder = require(76); function PEMDecoder(entity) { DERDecoder.call(this, entity); this.enc = 'pem'; }; inherits(PEMDecoder, DERDecoder); module.exports = PEMDecoder; PEMDecoder.prototype.decode = function decode(data, options) { var lines = data.toString().split(/[\r\n]+/g); var label = options.label.toUpperCase(); var re = /^-----(BEGIN|END) ([^-]+)-----$/; var start = -1; var end = -1; for (var i = 0; i < lines.length; i++) { var match = lines[i].match(re); if (match === null) continue; if (match[2] !== label) continue; if (start === -1) { if (match[1] !== 'BEGIN') break; start = i; } else { if (match[1] !== 'END') break; end = i; break; } } if (start === -1 || end === -1) throw new Error('PEM section not found for: ' + label); var base64 = lines.slice(start + 1, end).join(''); // Remove excessive symbols base64.replace(/[^a-z0-9\+\/=]+/gi, ''); var input = new Buffer(base64, 'base64'); return DERDecoder.prototype.decode.call(this, input, options); }; },{"196":196,"4":4,"68":68,"76":76}],79:[function(require,module,exports){ var inherits = require(196); var Buffer = require(4).Buffer; var asn1 = require(68); var base = asn1.base; var bignum = asn1.bignum; // Import DER constants var der = asn1.constants.der; function DEREncoder(entity) { this.enc = 'der'; this.name = entity.name; this.entity = entity; // Construct base tree this.tree = new DERNode(); this.tree._init(entity.body); }; module.exports = DEREncoder; DEREncoder.prototype.encode = function encode(data, reporter) { return this.tree._encode(data, reporter).join(); }; // Tree methods function DERNode(parent) { base.Node.call(this, 'der', parent); } inherits(DERNode, base.Node); DERNode.prototype._encodeComposite = function encodeComposite(tag, primitive, cls, content) { var encodedTag = encodeTag(tag, primitive, cls, this.reporter); // Short form if (content.length < 0x80) { var header = new Buffer(2); header[0] = encodedTag; header[1] = content.length; return this._createEncoderBuffer([ header, content ]); } // Long form // Count octets required to store length var lenOctets = 1; for (var i = content.length; i >= 0x100; i >>= 8) lenOctets++; var header = new Buffer(1 + 1 + lenOctets); header[0] = encodedTag; header[1] = 0x80 | lenOctets; for (var i = 1 + lenOctets, j = content.length; j > 0; i--, j >>= 8) header[i] = j & 0xff; return this._createEncoderBuffer([ header, content ]); }; DERNode.prototype._encodeStr = function encodeStr(str, tag) { if (tag === 'octstr') return this._createEncoderBuffer(str); else if (tag === 'bitstr') return this._createEncoderBuffer([ str.unused | 0, str.data ]); else if (tag === 'ia5str' || tag === 'utf8str') return this._createEncoderBuffer(str); return this.reporter.error('Encoding of string type: ' + tag + ' unsupported'); }; DERNode.prototype._encodeObjid = function encodeObjid(id, values, relative) { if (typeof id === 'string') { if (!values) return this.reporter.error('string objid given, but no values map found'); if (!values.hasOwnProperty(id)) return this.reporter.error('objid not found in values map'); id = values[id].split(/[\s\.]+/g); for (var i = 0; i < id.length; i++) id[i] |= 0; } else if (Array.isArray(id)) { id = id.slice(); for (var i = 0; i < id.length; i++) id[i] |= 0; } if (!Array.isArray(id)) { return this.reporter.error('objid() should be either array or string, ' + 'got: ' + JSON.stringify(id)); } if (!relative) { if (id[1] >= 40) return this.reporter.error('Second objid identifier OOB'); id.splice(0, 2, id[0] * 40 + id[1]); } // Count number of octets var size = 0; for (var i = 0; i < id.length; i++) { var ident = id[i]; for (size++; ident >= 0x80; ident >>= 7) size++; } var objid = new Buffer(size); var offset = objid.length - 1; for (var i = id.length - 1; i >= 0; i--) { var ident = id[i]; objid[offset--] = ident & 0x7f; while ((ident >>= 7) > 0) objid[offset--] = 0x80 | (ident & 0x7f); } return this._createEncoderBuffer(objid); }; function two(num) { if (num < 10) return '0' + num; else return num; } DERNode.prototype._encodeTime = function encodeTime(time, tag) { var str; var date = new Date(time); if (tag === 'gentime') { str = [ two(date.getFullYear()), two(date.getUTCMonth() + 1), two(date.getUTCDate()), two(date.getUTCHours()), two(date.getUTCMinutes()), two(date.getUTCSeconds()), 'Z' ].join(''); } else if (tag === 'utctime') { str = [ two(date.getFullYear() % 100), two(date.getUTCMonth() + 1), two(date.getUTCDate()), two(date.getUTCHours()), two(date.getUTCMinutes()), two(date.getUTCSeconds()), 'Z' ].join(''); } else { this.reporter.error('Encoding ' + tag + ' time is not supported yet'); } return this._encodeStr(str, 'octstr'); }; DERNode.prototype._encodeNull = function encodeNull() { return this._createEncoderBuffer(''); }; DERNode.prototype._encodeInt = function encodeInt(num, values) { if (typeof num === 'string') { if (!values) return this.reporter.error('String int or enum given, but no values map'); if (!values.hasOwnProperty(num)) { return this.reporter.error('Values map doesn\'t contain: ' + JSON.stringify(num)); } num = values[num]; } // Bignum, assume big endian if (typeof num !== 'number' && !Buffer.isBuffer(num)) { var numArray = num.toArray(); if (num.sign === false && numArray[0] & 0x80) { numArray.unshift(0); } num = new Buffer(numArray); } if (Buffer.isBuffer(num)) { var size = num.length; if (num.length === 0) size++; var out = new Buffer(size); num.copy(out); if (num.length === 0) out[0] = 0 return this._createEncoderBuffer(out); } if (num < 0x80) return this._createEncoderBuffer(num); if (num < 0x100) return this._createEncoderBuffer([0, num]); var size = 1; for (var i = num; i >= 0x100; i >>= 8) size++; var out = new Array(size); for (var i = out.length - 1; i >= 0; i--) { out[i] = num & 0xff; num >>= 8; } if(out[0] & 0x80) { out.unshift(0); } return this._createEncoderBuffer(new Buffer(out)); }; DERNode.prototype._encodeBool = function encodeBool(value) { return this._createEncoderBuffer(value ? 0xff : 0); }; DERNode.prototype._use = function use(entity, obj) { if (typeof entity === 'function') entity = entity(obj); return entity._getEncoder('der').tree; }; DERNode.prototype._skipDefault = function skipDefault(dataBuffer, reporter, parent) { var state = this._baseState; var i; if (state['default'] === null) return false; var data = dataBuffer.join(); if (state.defaultBuffer === undefined) state.defaultBuffer = this._encodeValue(state['default'], reporter, parent).join(); if (data.length !== state.defaultBuffer.length) return false; for (i=0; i < data.length; i++) if (data[i] !== state.defaultBuffer[i]) return false; return true; }; // Utility methods function encodeTag(tag, primitive, cls, reporter) { var res; if (tag === 'seqof') tag = 'seq'; else if (tag === 'setof') tag = 'set'; if (der.tagByName.hasOwnProperty(tag)) res = der.tagByName[tag]; else if (typeof tag === 'number' && (tag | 0) === tag) res = tag; else return reporter.error('Unknown tag: ' + tag); if (res >= 0x1f) return reporter.error('Multi-octet tag encoding unsupported'); if (!primitive) res |= 0x20; res |= (der.tagClassByName[cls || 'universal'] << 6); return res; } },{"196":196,"4":4,"68":68}],80:[function(require,module,exports){ var encoders = exports; encoders.der = require(79); encoders.pem = require(81); },{"79":79,"81":81}],81:[function(require,module,exports){ var inherits = require(196); var Buffer = require(4).Buffer; var asn1 = require(68); var DEREncoder = require(79); function PEMEncoder(entity) { DEREncoder.call(this, entity); this.enc = 'pem'; }; inherits(PEMEncoder, DEREncoder); module.exports = PEMEncoder; PEMEncoder.prototype.encode = function encode(data, options) { var buf = DEREncoder.prototype.encode.call(this, data); var p = buf.toString('base64'); var out = [ '-----BEGIN ' + options.label + '-----' ]; for (var i = 0; i < p.length; i += 64) out.push(p.slice(i, i + 64)); out.push('-----END ' + options.label + '-----'); return out.join('\n'); }; },{"196":196,"4":4,"68":68,"79":79}],82:[function(require,module,exports){ module.exports=require(36) },{"36":36}],83:[function(require,module,exports){ module.exports=require(10) },{"10":10,"4":4}],84:[function(require,module,exports){ module.exports=require(11) },{"11":11,"196":196,"4":4,"83":83,"88":88,"97":97,"98":98}],85:[function(require,module,exports){ module.exports=require(12) },{"12":12,"86":86,"87":87,"89":89}],86:[function(require,module,exports){ module.exports=require(13) },{"100":100,"13":13,"196":196,"4":4,"83":83,"84":84,"89":89,"90":90,"91":91,"92":92,"93":93,"94":94,"95":95,"96":96,"98":98,"99":99}],87:[function(require,module,exports){ module.exports=require(14) },{"100":100,"14":14,"196":196,"4":4,"83":83,"84":84,"89":89,"90":90,"91":91,"92":92,"93":93,"94":94,"95":95,"96":96,"98":98,"99":99}],88:[function(require,module,exports){ module.exports=require(15) },{"15":15,"4":4}],89:[function(require,module,exports){ module.exports=require(16) },{"16":16}],90:[function(require,module,exports){ module.exports=require(17) },{"17":17,"97":97}],91:[function(require,module,exports){ module.exports=require(18) },{"18":18,"4":4,"97":97}],92:[function(require,module,exports){ module.exports=require(19) },{"19":19,"4":4}],93:[function(require,module,exports){ module.exports=require(20) },{"20":20,"4":4}],94:[function(require,module,exports){ module.exports=require(21) },{"21":21,"4":4,"97":97}],95:[function(require,module,exports){ module.exports=require(22) },{"22":22}],96:[function(require,module,exports){ module.exports=require(23) },{"23":23,"4":4,"97":97}],97:[function(require,module,exports){ module.exports=require(24) },{"24":24,"4":4}],98:[function(require,module,exports){ module.exports=require(25) },{"196":196,"211":211,"212":212,"25":25,"4":4}],99:[function(require,module,exports){ module.exports=require(26) },{"196":196,"26":26,"4":4,"83":83,"98":98}],100:[function(require,module,exports){ module.exports=require(37) },{"129":129,"37":37,"4":4}],101:[function(require,module,exports){ (function (Buffer){ // much of this based on https://github.com/indutny/self-signed/blob/gh-pages/lib/rsa.js var createHmac = require(140) var crt = require(42) var curves = require(40) var elliptic = require(43) var parseKeys = require(67) var BN = require(41) var EC = elliptic.ec function sign (hash, key, hashType, signType) { var priv = parseKeys(key) if (priv.curve) { if (signType !== 'ecdsa') throw new Error('wrong private key type') return ecSign(hash, priv) } else if (priv.type === 'dsa') { if (signType !== 'dsa') { throw new Error('wrong private key type') } return dsaSign(hash, priv, hashType) } else { if (signType !== 'rsa') throw new Error('wrong private key type') } var len = priv.modulus.byteLength() var pad = [ 0, 1 ] while (hash.length + pad.length + 1 < len) { pad.push(0xff) } pad.push(0x00) var i = -1 while (++i < hash.length) { pad.push(hash[i]) } var out = crt(pad, priv) return out } function ecSign (hash, priv) { var curveId = curves[priv.curve.join('.')] if (!curveId) throw new Error('unknown curve ' + priv.curve.join('.')) var curve = new EC(curveId) var key = curve.genKeyPair() key._importPrivate(priv.privateKey) var out = key.sign(hash) return new Buffer(out.toDER()) } function dsaSign (hash, priv, algo) { var x = priv.params.priv_key var p = priv.params.p var q = priv.params.q var g = priv.params.g var r = new BN(0) var k var H = bits2int(hash, q).mod(q) var s = false var kv = getKey(x, q, hash, algo) while (s === false) { k = makeKey(q, kv, algo) r = makeR(g, k, p, q) s = k.invm(q).imul(H.add(x.mul(r))).mod(q) if (!s.cmpn(0)) { s = false r = new BN(0) } } return toDER(r, s) } function toDER (r, s) { r = r.toArray() s = s.toArray() // Pad values if (r[0] & 0x80) { r = [ 0 ].concat(r) } // Pad values if (s[0] & 0x80) { s = [0].concat(s) } var total = r.length + s.length + 4 var res = [ 0x30, total, 0x02, r.length ] res = res.concat(r, [ 0x02, s.length ], s) return new Buffer(res) } function getKey (x, q, hash, algo) { x = new Buffer(x.toArray()) if (x.length < q.byteLength()) { var zeros = new Buffer(q.byteLength() - x.length) zeros.fill(0) x = Buffer.concat([zeros, x]) } var hlen = hash.length var hbits = bits2octets(hash, q) var v = new Buffer(hlen) v.fill(1) var k = new Buffer(hlen) k.fill(0) k = createHmac(algo, k) .update(v) .update(new Buffer([0])) .update(x) .update(hbits) .digest() v = createHmac(algo, k) .update(v) .digest() k = createHmac(algo, k) .update(v) .update(new Buffer([1])) .update(x) .update(hbits) .digest() v = createHmac(algo, k) .update(v) .digest() return { k: k, v: v } } function bits2int (obits, q) { var bits = new BN(obits) var shift = (obits.length << 3) - q.bitLength() if (shift > 0) { bits.ishrn(shift) } return bits } function bits2octets (bits, q) { bits = bits2int(bits, q) bits = bits.mod(q) var out = new Buffer(bits.toArray()) if (out.length < q.byteLength()) { var zeros = new Buffer(q.byteLength() - out.length) zeros.fill(0) out = Buffer.concat([zeros, out]) } return out } function makeKey (q, kv, algo) { var t, k do { t = new Buffer('') while (t.length * 8 < q.bitLength()) { kv.v = createHmac(algo, kv.k) .update(kv.v) .digest() t = Buffer.concat([t, kv.v]) } k = bits2int(t, q) kv.k = createHmac(algo, kv.k) .update(kv.v) .update(new Buffer([0])) .digest() kv.v = createHmac(algo, kv.k) .update(kv.v) .digest() } while (k.cmp(q) !== -1) return k } function makeR (g, k, p, q) { return g.toRed(BN.mont(p)).redPow(k).fromRed().mod(q) } module.exports = sign module.exports.getKey = getKey module.exports.makeKey = makeKey }).call(this,require(4).Buffer) },{"140":140,"4":4,"40":40,"41":41,"42":42,"43":43,"67":67}],102:[function(require,module,exports){ (function (Buffer){ // much of this based on https://github.com/indutny/self-signed/blob/gh-pages/lib/rsa.js var curves = require(40) var elliptic = require(43) var parseKeys = require(67) var BN = require(41) var EC = elliptic.ec function verify (sig, hash, key, signType) { var pub = parseKeys(key) if (pub.type === 'ec') { if (signType !== 'ecdsa') { throw new Error('wrong public key type') } return ecVerify(sig, hash, pub) } else if (pub.type === 'dsa') { if (signType !== 'dsa') { throw new Error('wrong public key type') } return dsaVerify(sig, hash, pub) } else { if (signType !== 'rsa') { throw new Error('wrong public key type') } } var len = pub.modulus.byteLength() var pad = [ 1 ] var padNum = 0 while (hash.length + pad.length + 2 < len) { pad.push(0xff) padNum++ } pad.push(0x00) var i = -1 while (++i < hash.length) { pad.push(hash[i]) } pad = new Buffer(pad) var red = BN.mont(pub.modulus) sig = new BN(sig).toRed(red) sig = sig.redPow(new BN(pub.publicExponent)) sig = new Buffer(sig.fromRed().toArray()) var out = 0 if (padNum < 8) { out = 1 } len = Math.min(sig.length, pad.length) if (sig.length !== pad.length) { out = 1 } i = -1 while (++i < len) { out |= (sig[i] ^ pad[i]) } return out === 0 } function ecVerify (sig, hash, pub) { var curveId = curves[pub.data.algorithm.curve.join('.')] if (!curveId) throw new Error('unknown curve ' + pub.data.algorithm.curve.join('.')) var curve = new EC(curveId) var pubkey = pub.data.subjectPrivateKey.data return curve.verify(hash, sig, pubkey) } function dsaVerify (sig, hash, pub) { var p = pub.data.p var q = pub.data.q var g = pub.data.g var y = pub.data.pub_key var unpacked = parseKeys.signature.decode(sig, 'der') var s = unpacked.s var r = unpacked.r checkValue(s, q) checkValue(r, q) var montp = BN.mont(p) var w = s.invm(q) var v = g.toRed(montp) .redPow(new BN(hash).mul(w).mod(q)) .fromRed() .mul( y.toRed(montp) .redPow(r.mul(w).mod(q)) .fromRed() ).mod(p).mod(q) return !v.cmp(r) } function checkValue (b, q) { if (b.cmpn(0) <= 0) { throw new Error('invalid sig') } if (b.cmp(q) >= q) { throw new Error('invalid sig') } } module.exports = verify }).call(this,require(4).Buffer) },{"4":4,"40":40,"41":41,"43":43,"67":67}],103:[function(require,module,exports){ (function (Buffer){ var elliptic = require(106); var BN = require(105); module.exports = function createECDH(curve) { return new ECDH(curve); }; var aliases = { secp256k1: { name: 'secp256k1', byteLength: 32 }, secp224r1: { name: 'p224', byteLength: 28 }, prime256v1: { name: 'p256', byteLength: 32 }, prime192v1: { name: 'p192', byteLength: 24 }, ed25519: { name: 'ed25519', byteLength: 32 } }; aliases.p224 = aliases.secp224r1; aliases.p256 = aliases.secp256r1 = aliases.prime256v1; aliases.p192 = aliases.secp192r1 = aliases.prime192v1; function ECDH(curve) { this.curveType = aliases[curve]; if (!this.curveType ) { this.curveType = { name: curve }; } this.curve = new elliptic.ec(this.curveType.name); this.keys = void 0; } ECDH.prototype.generateKeys = function (enc, format) { this.keys = this.curve.genKeyPair(); return this.getPublicKey(enc, format); }; ECDH.prototype.computeSecret = function (other, inenc, enc) { inenc = inenc || 'utf8'; if (!Buffer.isBuffer(other)) { other = new Buffer(other, inenc); } var otherPub = this.curve.keyFromPublic(other).getPublic(); var out = otherPub.mul(this.keys.getPrivate()).getX(); return formatReturnValue(out, enc, this.curveType.byteLength); }; ECDH.prototype.getPublicKey = function (enc, format) { var key = this.keys.getPublic(format === 'compressed', true); if (format === 'hybrid') { if (key[key.length - 1] % 2) { key[0] = 7; } else { key [0] = 6; } } return formatReturnValue(key, enc); }; ECDH.prototype.getPrivateKey = function (enc) { return formatReturnValue(this.keys.getPrivate(), enc); }; ECDH.prototype.setPublicKey = function (pub, enc) { enc = enc || 'utf8'; if (!Buffer.isBuffer(pub)) { pub = new Buffer(pub, enc); } this.keys._importPublic(pub); return this; }; ECDH.prototype.setPrivateKey = function (priv, enc) { enc = enc || 'utf8'; if (!Buffer.isBuffer(priv)) { priv = new Buffer(priv, enc); } var _priv = new BN(priv); _priv = _priv.toString(16); this.keys._importPrivate(_priv); return this; }; function formatReturnValue(bn, enc, len) { if (!Array.isArray(bn)) { bn = bn.toArray(); } var buf = new Buffer(bn); if (len && buf.length < len) { var zeros = new Buffer(len - buf.length); zeros.fill(0); buf = Buffer.concat([zeros, buf]); } if (!enc) { return buf; } else { return buf.toString(enc); } } }).call(this,require(4).Buffer) },{"105":105,"106":106,"4":4}],104:[function(require,module,exports){ var createECDH = require(8).createECDH; module.exports = createECDH || require(103); },{"103":103,"8":8}],105:[function(require,module,exports){ module.exports=require(41) },{"41":41}],106:[function(require,module,exports){ module.exports=require(43) },{"109":109,"112":112,"113":113,"116":116,"118":118,"119":119,"126":126,"43":43}],107:[function(require,module,exports){ module.exports=require(44) },{"105":105,"106":106,"44":44}],108:[function(require,module,exports){ module.exports=require(45) },{"105":105,"106":106,"109":109,"196":196,"45":45}],109:[function(require,module,exports){ module.exports=require(46) },{"107":107,"108":108,"110":110,"111":111,"46":46}],110:[function(require,module,exports){ module.exports=require(47) },{"105":105,"109":109,"196":196,"47":47}],111:[function(require,module,exports){ module.exports=require(48) },{"105":105,"106":106,"109":109,"196":196,"48":48}],112:[function(require,module,exports){ module.exports=require(49) },{"106":106,"117":117,"120":120,"49":49}],113:[function(require,module,exports){ module.exports=require(50) },{"105":105,"106":106,"114":114,"115":115,"50":50}],114:[function(require,module,exports){ module.exports=require(51) },{"105":105,"106":106,"51":51}],115:[function(require,module,exports){ module.exports=require(52) },{"105":105,"106":106,"52":52}],116:[function(require,module,exports){ module.exports=require(53) },{"106":106,"120":120,"53":53}],117:[function(require,module,exports){ module.exports=require(54) },{"54":54}],118:[function(require,module,exports){ module.exports=require(55) },{"55":55}],119:[function(require,module,exports){ module.exports=require(56) },{"56":56}],120:[function(require,module,exports){ module.exports=require(57) },{"121":121,"122":122,"123":123,"124":124,"125":125,"57":57}],121:[function(require,module,exports){ module.exports=require(58) },{"120":120,"58":58}],122:[function(require,module,exports){ module.exports=require(59) },{"120":120,"59":59}],123:[function(require,module,exports){ module.exports=require(60) },{"120":120,"60":60}],124:[function(require,module,exports){ module.exports=require(61) },{"120":120,"61":61}],125:[function(require,module,exports){ module.exports=require(62) },{"196":196,"62":62}],126:[function(require,module,exports){ module.exports=require(63) },{"63":63}],127:[function(require,module,exports){ (function (Buffer){ 'use strict'; var inherits = require(196) var md5 = require(129) var rmd160 = require(131) var sha = require(133) var Base = require(130) function HashNoConstructor(hash) { Base.call(this, 'digest') this._hash = hash this.buffers = [] } inherits(HashNoConstructor, Base) HashNoConstructor.prototype._update = function (data) { this.buffers.push(data) } HashNoConstructor.prototype._final = function () { var buf = Buffer.concat(this.buffers) var r = this._hash(buf) this.buffers = null return r } function Hash(hash) { Base.call(this, 'digest') this._hash = hash } inherits(Hash, Base) Hash.prototype._update = function (data) { this._hash.update(data) } Hash.prototype._final = function () { return this._hash.digest() } module.exports = function createHash (alg) { alg = alg.toLowerCase() if ('md5' === alg) return new HashNoConstructor(md5) if ('rmd160' === alg || 'ripemd160' === alg) return new HashNoConstructor(rmd160) return new Hash(sha(alg)) } }).call(this,require(4).Buffer) },{"129":129,"130":130,"131":131,"133":133,"196":196,"4":4}],128:[function(require,module,exports){ (function (Buffer){ 'use strict'; var intSize = 4; var zeroBuffer = new Buffer(intSize); zeroBuffer.fill(0); var chrsz = 8; function toArray(buf, bigEndian) { if ((buf.length % intSize) !== 0) { var len = buf.length + (intSize - (buf.length % intSize)); buf = Buffer.concat([buf, zeroBuffer], len); } var arr = []; var fn = bigEndian ? buf.readInt32BE : buf.readInt32LE; for (var i = 0; i < buf.length; i += intSize) { arr.push(fn.call(buf, i)); } return arr; } function toBuffer(arr, size, bigEndian) { var buf = new Buffer(size); var fn = bigEndian ? buf.writeInt32BE : buf.writeInt32LE; for (var i = 0; i < arr.length; i++) { fn.call(buf, arr[i], i * 4, true); } return buf; } function hash(buf, fn, hashSize, bigEndian) { if (!Buffer.isBuffer(buf)) buf = new Buffer(buf); var arr = fn(toArray(buf, bigEndian), buf.length * chrsz); return toBuffer(arr, hashSize, bigEndian); } exports.hash = hash; }).call(this,require(4).Buffer) },{"4":4}],129:[function(require,module,exports){ 'use strict'; /* * A JavaScript implementation of the RSA Data Security, Inc. MD5 Message * Digest Algorithm, as defined in RFC 1321. * Version 2.1 Copyright (C) Paul Johnston 1999 - 2002. * Other contributors: Greg Holt, Andrew Kepert, Ydnar, Lostinet * Distributed under the BSD License * See http://pajhome.org.uk/crypt/md5 for more info. */ var helpers = require(128); /* * Calculate the MD5 of an array of little-endian words, and a bit length */ function core_md5(x, len) { /* append padding */ x[len >> 5] |= 0x80 << ((len) % 32); x[(((len + 64) >>> 9) << 4) + 14] = len; var a = 1732584193; var b = -271733879; var c = -1732584194; var d = 271733878; for(var i = 0; i < x.length; i += 16) { var olda = a; var oldb = b; var oldc = c; var oldd = d; a = md5_ff(a, b, c, d, x[i+ 0], 7 , -680876936); d = md5_ff(d, a, b, c, x[i+ 1], 12, -389564586); c = md5_ff(c, d, a, b, x[i+ 2], 17, 606105819); b = md5_ff(b, c, d, a, x[i+ 3], 22, -1044525330); a = md5_ff(a, b, c, d, x[i+ 4], 7 , -176418897); d = md5_ff(d, a, b, c, x[i+ 5], 12, 1200080426); c = md5_ff(c, d, a, b, x[i+ 6], 17, -1473231341); b = md5_ff(b, c, d, a, x[i+ 7], 22, -45705983); a = md5_ff(a, b, c, d, x[i+ 8], 7 , 1770035416); d = md5_ff(d, a, b, c, x[i+ 9], 12, -1958414417); c = md5_ff(c, d, a, b, x[i+10], 17, -42063); b = md5_ff(b, c, d, a, x[i+11], 22, -1990404162); a = md5_ff(a, b, c, d, x[i+12], 7 , 1804603682); d = md5_ff(d, a, b, c, x[i+13], 12, -40341101); c = md5_ff(c, d, a, b, x[i+14], 17, -1502002290); b = md5_ff(b, c, d, a, x[i+15], 22, 1236535329); a = md5_gg(a, b, c, d, x[i+ 1], 5 , -165796510); d = md5_gg(d, a, b, c, x[i+ 6], 9 , -1069501632); c = md5_gg(c, d, a, b, x[i+11], 14, 643717713); b = md5_gg(b, c, d, a, x[i+ 0], 20, -373897302); a = md5_gg(a, b, c, d, x[i+ 5], 5 , -701558691); d = md5_gg(d, a, b, c, x[i+10], 9 , 38016083); c = md5_gg(c, d, a, b, x[i+15], 14, -660478335); b = md5_gg(b, c, d, a, x[i+ 4], 20, -405537848); a = md5_gg(a, b, c, d, x[i+ 9], 5 , 568446438); d = md5_gg(d, a, b, c, x[i+14], 9 , -1019803690); c = md5_gg(c, d, a, b, x[i+ 3], 14, -187363961); b = md5_gg(b, c, d, a, x[i+ 8], 20, 1163531501); a = md5_gg(a, b, c, d, x[i+13], 5 , -1444681467); d = md5_gg(d, a, b, c, x[i+ 2], 9 , -51403784); c = md5_gg(c, d, a, b, x[i+ 7], 14, 1735328473); b = md5_gg(b, c, d, a, x[i+12], 20, -1926607734); a = md5_hh(a, b, c, d, x[i+ 5], 4 , -378558); d = md5_hh(d, a, b, c, x[i+ 8], 11, -2022574463); c = md5_hh(c, d, a, b, x[i+11], 16, 1839030562); b = md5_hh(b, c, d, a, x[i+14], 23, -35309556); a = md5_hh(a, b, c, d, x[i+ 1], 4 , -1530992060); d = md5_hh(d, a, b, c, x[i+ 4], 11, 1272893353); c = md5_hh(c, d, a, b, x[i+ 7], 16, -155497632); b = md5_hh(b, c, d, a, x[i+10], 23, -1094730640); a = md5_hh(a, b, c, d, x[i+13], 4 , 681279174); d = md5_hh(d, a, b, c, x[i+ 0], 11, -358537222); c = md5_hh(c, d, a, b, x[i+ 3], 16, -722521979); b = md5_hh(b, c, d, a, x[i+ 6], 23, 76029189); a = md5_hh(a, b, c, d, x[i+ 9], 4 , -640364487); d = md5_hh(d, a, b, c, x[i+12], 11, -421815835); c = md5_hh(c, d, a, b, x[i+15], 16, 530742520); b = md5_hh(b, c, d, a, x[i+ 2], 23, -995338651); a = md5_ii(a, b, c, d, x[i+ 0], 6 , -198630844); d = md5_ii(d, a, b, c, x[i+ 7], 10, 1126891415); c = md5_ii(c, d, a, b, x[i+14], 15, -1416354905); b = md5_ii(b, c, d, a, x[i+ 5], 21, -57434055); a = md5_ii(a, b, c, d, x[i+12], 6 , 1700485571); d = md5_ii(d, a, b, c, x[i+ 3], 10, -1894986606); c = md5_ii(c, d, a, b, x[i+10], 15, -1051523); b = md5_ii(b, c, d, a, x[i+ 1], 21, -2054922799); a = md5_ii(a, b, c, d, x[i+ 8], 6 , 1873313359); d = md5_ii(d, a, b, c, x[i+15], 10, -30611744); c = md5_ii(c, d, a, b, x[i+ 6], 15, -1560198380); b = md5_ii(b, c, d, a, x[i+13], 21, 1309151649); a = md5_ii(a, b, c, d, x[i+ 4], 6 , -145523070); d = md5_ii(d, a, b, c, x[i+11], 10, -1120210379); c = md5_ii(c, d, a, b, x[i+ 2], 15, 718787259); b = md5_ii(b, c, d, a, x[i+ 9], 21, -343485551); a = safe_add(a, olda); b = safe_add(b, oldb); c = safe_add(c, oldc); d = safe_add(d, oldd); } return Array(a, b, c, d); } /* * These functions implement the four basic operations the algorithm uses. */ function md5_cmn(q, a, b, x, s, t) { return safe_add(bit_rol(safe_add(safe_add(a, q), safe_add(x, t)), s),b); } function md5_ff(a, b, c, d, x, s, t) { return md5_cmn((b & c) | ((~b) & d), a, b, x, s, t); } function md5_gg(a, b, c, d, x, s, t) { return md5_cmn((b & d) | (c & (~d)), a, b, x, s, t); } function md5_hh(a, b, c, d, x, s, t) { return md5_cmn(b ^ c ^ d, a, b, x, s, t); } function md5_ii(a, b, c, d, x, s, t) { return md5_cmn(c ^ (b | (~d)), a, b, x, s, t); } /* * Add integers, wrapping at 2^32. This uses 16-bit operations internally * to work around bugs in some JS interpreters. */ function safe_add(x, y) { var lsw = (x & 0xFFFF) + (y & 0xFFFF); var msw = (x >> 16) + (y >> 16) + (lsw >> 16); return (msw << 16) | (lsw & 0xFFFF); } /* * Bitwise rotate a 32-bit number to the left. */ function bit_rol(num, cnt) { return (num << cnt) | (num >>> (32 - cnt)); } module.exports = function md5(buf) { return helpers.hash(buf, core_md5, 16); }; },{"128":128}],130:[function(require,module,exports){ module.exports=require(25) },{"196":196,"211":211,"212":212,"25":25,"4":4}],131:[function(require,module,exports){ (function (Buffer){ /* CryptoJS v3.1.2 code.google.com/p/crypto-js (c) 2009-2013 by Jeff Mott. All rights reserved. code.google.com/p/crypto-js/wiki/License */ /** @preserve (c) 2012 by Cédric Mesnil. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: - Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. - Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ // constants table var zl = [ 0, 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 7, 4, 13, 1, 10, 6, 15, 3, 12, 0, 9, 5, 2, 14, 11, 8, 3, 10, 14, 4, 9, 15, 8, 1, 2, 7, 0, 6, 13, 11, 5, 12, 1, 9, 11, 10, 0, 8, 12, 4, 13, 3, 7, 15, 14, 5, 6, 2, 4, 0, 5, 9, 7, 12, 2, 10, 14, 1, 3, 8, 11, 6, 15, 13 ] var zr = [ 5, 14, 7, 0, 9, 2, 11, 4, 13, 6, 15, 8, 1, 10, 3, 12, 6, 11, 3, 7, 0, 13, 5, 10, 14, 15, 8, 12, 4, 9, 1, 2, 15, 5, 1, 3, 7, 14, 6, 9, 11, 8, 12, 2, 10, 0, 4, 13, 8, 6, 4, 1, 3, 11, 15, 0, 5, 12, 2, 13, 9, 7, 10, 14, 12, 15, 10, 4, 1, 5, 8, 7, 6, 2, 13, 14, 0, 3, 9, 11 ] var sl = [ 11, 14, 15, 12, 5, 8, 7, 9, 11, 13, 14, 15, 6, 7, 9, 8, 7, 6, 8, 13, 11, 9, 7, 15, 7, 12, 15, 9, 11, 7, 13, 12, 11, 13, 6, 7, 14, 9, 13, 15, 14, 8, 13, 6, 5, 12, 7, 5, 11, 12, 14, 15, 14, 15, 9, 8, 9, 14, 5, 6, 8, 6, 5, 12, 9, 15, 5, 11, 6, 8, 13, 12, 5, 12, 13, 14, 11, 8, 5, 6 ] var sr = [ 8, 9, 9, 11, 13, 15, 15, 5, 7, 7, 8, 11, 14, 14, 12, 6, 9, 13, 15, 7, 12, 8, 9, 11, 7, 7, 12, 7, 6, 15, 13, 11, 9, 7, 15, 11, 8, 6, 6, 14, 12, 13, 5, 14, 13, 13, 7, 5, 15, 5, 8, 11, 14, 14, 6, 14, 6, 9, 12, 9, 12, 5, 15, 8, 8, 5, 12, 9, 12, 5, 14, 6, 8, 13, 6, 5, 15, 13, 11, 11 ] var hl = [0x00000000, 0x5A827999, 0x6ED9EBA1, 0x8F1BBCDC, 0xA953FD4E] var hr = [0x50A28BE6, 0x5C4DD124, 0x6D703EF3, 0x7A6D76E9, 0x00000000] function bytesToWords (bytes) { var words = [] for (var i = 0, b = 0; i < bytes.length; i++, b += 8) { words[b >>> 5] |= bytes[i] << (24 - b % 32) } return words } function wordsToBytes (words) { var bytes = [] for (var b = 0; b < words.length * 32; b += 8) { bytes.push((words[b >>> 5] >>> (24 - b % 32)) & 0xFF) } return bytes } function processBlock (H, M, offset) { // swap endian for (var i = 0; i < 16; i++) { var offset_i = offset + i var M_offset_i = M[offset_i] // Swap M[offset_i] = ( (((M_offset_i << 8) | (M_offset_i >>> 24)) & 0x00ff00ff) | (((M_offset_i << 24) | (M_offset_i >>> 8)) & 0xff00ff00) ) } // Working variables var al, bl, cl, dl, el var ar, br, cr, dr, er ar = al = H[0] br = bl = H[1] cr = cl = H[2] dr = dl = H[3] er = el = H[4] // computation var t for (i = 0; i < 80; i += 1) { t = (al + M[offset + zl[i]]) | 0 if (i < 16) { t += f1(bl, cl, dl) + hl[0] } else if (i < 32) { t += f2(bl, cl, dl) + hl[1] } else if (i < 48) { t += f3(bl, cl, dl) + hl[2] } else if (i < 64) { t += f4(bl, cl, dl) + hl[3] } else {// if (i<80) { t += f5(bl, cl, dl) + hl[4] } t = t | 0 t = rotl(t, sl[i]) t = (t + el) | 0 al = el el = dl dl = rotl(cl, 10) cl = bl bl = t t = (ar + M[offset + zr[i]]) | 0 if (i < 16) { t += f5(br, cr, dr) + hr[0] } else if (i < 32) { t += f4(br, cr, dr) + hr[1] } else if (i < 48) { t += f3(br, cr, dr) + hr[2] } else if (i < 64) { t += f2(br, cr, dr) + hr[3] } else {// if (i<80) { t += f1(br, cr, dr) + hr[4] } t = t | 0 t = rotl(t, sr[i]) t = (t + er) | 0 ar = er er = dr dr = rotl(cr, 10) cr = br br = t } // intermediate hash value t = (H[1] + cl + dr) | 0 H[1] = (H[2] + dl + er) | 0 H[2] = (H[3] + el + ar) | 0 H[3] = (H[4] + al + br) | 0 H[4] = (H[0] + bl + cr) | 0 H[0] = t } function f1 (x, y, z) { return ((x) ^ (y) ^ (z)) } function f2 (x, y, z) { return (((x) & (y)) | ((~x) & (z))) } function f3 (x, y, z) { return (((x) | (~(y))) ^ (z)) } function f4 (x, y, z) { return (((x) & (z)) | ((y) & (~(z)))) } function f5 (x, y, z) { return ((x) ^ ((y) | (~(z)))) } function rotl (x, n) { return (x << n) | (x >>> (32 - n)) } function ripemd160 (message) { var H = [0x67452301, 0xEFCDAB89, 0x98BADCFE, 0x10325476, 0xC3D2E1F0] if (typeof message === 'string') { message = new Buffer(message, 'utf8') } var m = bytesToWords(message) var nBitsLeft = message.length * 8 var nBitsTotal = message.length * 8 // Add padding m[nBitsLeft >>> 5] |= 0x80 << (24 - nBitsLeft % 32) m[(((nBitsLeft + 64) >>> 9) << 4) + 14] = ( (((nBitsTotal << 8) | (nBitsTotal >>> 24)) & 0x00ff00ff) | (((nBitsTotal << 24) | (nBitsTotal >>> 8)) & 0xff00ff00) ) for (var i = 0; i < m.length; i += 16) { processBlock(H, m, i) } // swap endian for (i = 0; i < 5; i++) { // shortcut var H_i = H[i] // Swap H[i] = (((H_i << 8) | (H_i >>> 24)) & 0x00ff00ff) | (((H_i << 24) | (H_i >>> 8)) & 0xff00ff00) } var digestbytes = wordsToBytes(H) return new Buffer(digestbytes) } module.exports = ripemd160 }).call(this,require(4).Buffer) },{"4":4}],132:[function(require,module,exports){ (function (Buffer){ // prototype class for hash functions function Hash (blockSize, finalSize) { this._block = new Buffer(blockSize) this._finalSize = finalSize this._blockSize = blockSize this._len = 0 this._s = 0 } Hash.prototype.update = function (data, enc) { if (typeof data === 'string') { enc = enc || 'utf8' data = new Buffer(data, enc) } var l = this._len += data.length var s = this._s || 0 var f = 0 var buffer = this._block while (s < l) { var t = Math.min(data.length, f + this._blockSize - (s % this._blockSize)) var ch = (t - f) for (var i = 0; i < ch; i++) { buffer[(s % this._blockSize) + i] = data[i + f] } s += ch f += ch if ((s % this._blockSize) === 0) { this._update(buffer) } } this._s = s return this } Hash.prototype.digest = function (enc) { // Suppose the length of the message M, in bits, is l var l = this._len * 8 // Append the bit 1 to the end of the message this._block[this._len % this._blockSize] = 0x80 // and then k zero bits, where k is the smallest non-negative solution to the equation (l + 1 + k) === finalSize mod blockSize this._block.fill(0, this._len % this._blockSize + 1) if (l % (this._blockSize * 8) >= this._finalSize * 8) { this._update(this._block) this._block.fill(0) } // to this append the block which is equal to the number l written in binary // TODO: handle case where l is > Math.pow(2, 29) this._block.writeInt32BE(l, this._blockSize - 4) var hash = this._update(this._block) || this._hash() return enc ? hash.toString(enc) : hash } Hash.prototype._update = function () { throw new Error('_update must be implemented by subclass') } module.exports = Hash }).call(this,require(4).Buffer) },{"4":4}],133:[function(require,module,exports){ var exports = module.exports = function SHA (algorithm) { algorithm = algorithm.toLowerCase() var Algorithm = exports[algorithm] if (!Algorithm) throw new Error(algorithm + ' is not supported (we accept pull requests)') return new Algorithm() } exports.sha = require(134) exports.sha1 = require(135) exports.sha224 = require(136) exports.sha256 = require(137) exports.sha384 = require(138) exports.sha512 = require(139) },{"134":134,"135":135,"136":136,"137":137,"138":138,"139":139}],134:[function(require,module,exports){ (function (Buffer){ /* * A JavaScript implementation of the Secure Hash Algorithm, SHA-0, as defined * in FIPS PUB 180-1 * This source code is derived from sha1.js of the same repository. * The difference between SHA-0 and SHA-1 is just a bitwise rotate left * operation was added. */ var inherits = require(196) var Hash = require(132) var W = new Array(80) function Sha () { this.init() this._w = W Hash.call(this, 64, 56) } inherits(Sha, Hash) Sha.prototype.init = function () { this._a = 0x67452301 | 0 this._b = 0xefcdab89 | 0 this._c = 0x98badcfe | 0 this._d = 0x10325476 | 0 this._e = 0xc3d2e1f0 | 0 return this } /* * Bitwise rotate a 32-bit number to the left. */ function rol (num, cnt) { return (num << cnt) | (num >>> (32 - cnt)) } Sha.prototype._update = function (M) { var W = this._w var a = this._a var b = this._b var c = this._c var d = this._d var e = this._e var j = 0 var k /* * SHA-1 has a bitwise rotate left operation. But, SHA is not * function calcW() { return rol(W[j - 3] ^ W[j - 8] ^ W[j - 14] ^ W[j - 16], 1) } */ function calcW () { return W[j - 3] ^ W[j - 8] ^ W[j - 14] ^ W[j - 16] } function loop (w, f) { W[j] = w var t = rol(a, 5) + f + e + w + k e = d d = c c = rol(b, 30) b = a a = t j++ } k = 1518500249 while (j < 16) loop(M.readInt32BE(j * 4), (b & c) | ((~b) & d)) while (j < 20) loop(calcW(), (b & c) | ((~b) & d)) k = 1859775393 while (j < 40) loop(calcW(), b ^ c ^ d) k = -1894007588 while (j < 60) loop(calcW(), (b & c) | (b & d) | (c & d)) k = -899497514 while (j < 80) loop(calcW(), b ^ c ^ d) this._a = (a + this._a) | 0 this._b = (b + this._b) | 0 this._c = (c + this._c) | 0 this._d = (d + this._d) | 0 this._e = (e + this._e) | 0 } Sha.prototype._hash = function () { var H = new Buffer(20) H.writeInt32BE(this._a | 0, 0) H.writeInt32BE(this._b | 0, 4) H.writeInt32BE(this._c | 0, 8) H.writeInt32BE(this._d | 0, 12) H.writeInt32BE(this._e | 0, 16) return H } module.exports = Sha }).call(this,require(4).Buffer) },{"132":132,"196":196,"4":4}],135:[function(require,module,exports){ (function (Buffer){ /* * A JavaScript implementation of the Secure Hash Algorithm, SHA-1, as defined * in FIPS PUB 180-1 * Version 2.1a Copyright Paul Johnston 2000 - 2002. * Other contributors: Greg Holt, Andrew Kepert, Ydnar, Lostinet * Distributed under the BSD License * See http://pajhome.org.uk/crypt/md5 for details. */ var inherits = require(196) var Hash = require(132) var W = new Array(80) function Sha1 () { this.init() this._w = W Hash.call(this, 64, 56) } inherits(Sha1, Hash) Sha1.prototype.init = function () { this._a = 0x67452301 | 0 this._b = 0xefcdab89 | 0 this._c = 0x98badcfe | 0 this._d = 0x10325476 | 0 this._e = 0xc3d2e1f0 | 0 return this } /* * Bitwise rotate a 32-bit number to the left. */ function rol (num, cnt) { return (num << cnt) | (num >>> (32 - cnt)) } Sha1.prototype._update = function (M) { var W = this._w var a = this._a var b = this._b var c = this._c var d = this._d var e = this._e var j = 0 var k function calcW () { return rol(W[j - 3] ^ W[j - 8] ^ W[j - 14] ^ W[j - 16], 1) } function loop (w, f) { W[j] = w var t = rol(a, 5) + f + e + w + k e = d d = c c = rol(b, 30) b = a a = t j++ } k = 1518500249 while (j < 16) loop(M.readInt32BE(j * 4), (b & c) | ((~b) & d)) while (j < 20) loop(calcW(), (b & c) | ((~b) & d)) k = 1859775393 while (j < 40) loop(calcW(), b ^ c ^ d) k = -1894007588 while (j < 60) loop(calcW(), (b & c) | (b & d) | (c & d)) k = -899497514 while (j < 80) loop(calcW(), b ^ c ^ d) this._a = (a + this._a) | 0 this._b = (b + this._b) | 0 this._c = (c + this._c) | 0 this._d = (d + this._d) | 0 this._e = (e + this._e) | 0 } Sha1.prototype._hash = function () { var H = new Buffer(20) H.writeInt32BE(this._a | 0, 0) H.writeInt32BE(this._b | 0, 4) H.writeInt32BE(this._c | 0, 8) H.writeInt32BE(this._d | 0, 12) H.writeInt32BE(this._e | 0, 16) return H } module.exports = Sha1 }).call(this,require(4).Buffer) },{"132":132,"196":196,"4":4}],136:[function(require,module,exports){ (function (Buffer){ /** * A JavaScript implementation of the Secure Hash Algorithm, SHA-256, as defined * in FIPS 180-2 * Version 2.2-beta Copyright Angel Marin, Paul Johnston 2000 - 2009. * Other contributors: Greg Holt, Andrew Kepert, Ydnar, Lostinet * */ var inherits = require(196) var Sha256 = require(137) var Hash = require(132) var W = new Array(64) function Sha224 () { this.init() this._w = W // new Array(64) Hash.call(this, 64, 56) } inherits(Sha224, Sha256) Sha224.prototype.init = function () { this._a = 0xc1059ed8 | 0 this._b = 0x367cd507 | 0 this._c = 0x3070dd17 | 0 this._d = 0xf70e5939 | 0 this._e = 0xffc00b31 | 0 this._f = 0x68581511 | 0 this._g = 0x64f98fa7 | 0 this._h = 0xbefa4fa4 | 0 return this } Sha224.prototype._hash = function () { var H = new Buffer(28) H.writeInt32BE(this._a, 0) H.writeInt32BE(this._b, 4) H.writeInt32BE(this._c, 8) H.writeInt32BE(this._d, 12) H.writeInt32BE(this._e, 16) H.writeInt32BE(this._f, 20) H.writeInt32BE(this._g, 24) return H } module.exports = Sha224 }).call(this,require(4).Buffer) },{"132":132,"137":137,"196":196,"4":4}],137:[function(require,module,exports){ (function (Buffer){ /** * A JavaScript implementation of the Secure Hash Algorithm, SHA-256, as defined * in FIPS 180-2 * Version 2.2-beta Copyright Angel Marin, Paul Johnston 2000 - 2009. * Other contributors: Greg Holt, Andrew Kepert, Ydnar, Lostinet * */ var inherits = require(196) var Hash = require(132) var K = [ 0x428A2F98, 0x71374491, 0xB5C0FBCF, 0xE9B5DBA5, 0x3956C25B, 0x59F111F1, 0x923F82A4, 0xAB1C5ED5, 0xD807AA98, 0x12835B01, 0x243185BE, 0x550C7DC3, 0x72BE5D74, 0x80DEB1FE, 0x9BDC06A7, 0xC19BF174, 0xE49B69C1, 0xEFBE4786, 0x0FC19DC6, 0x240CA1CC, 0x2DE92C6F, 0x4A7484AA, 0x5CB0A9DC, 0x76F988DA, 0x983E5152, 0xA831C66D, 0xB00327C8, 0xBF597FC7, 0xC6E00BF3, 0xD5A79147, 0x06CA6351, 0x14292967, 0x27B70A85, 0x2E1B2138, 0x4D2C6DFC, 0x53380D13, 0x650A7354, 0x766A0ABB, 0x81C2C92E, 0x92722C85, 0xA2BFE8A1, 0xA81A664B, 0xC24B8B70, 0xC76C51A3, 0xD192E819, 0xD6990624, 0xF40E3585, 0x106AA070, 0x19A4C116, 0x1E376C08, 0x2748774C, 0x34B0BCB5, 0x391C0CB3, 0x4ED8AA4A, 0x5B9CCA4F, 0x682E6FF3, 0x748F82EE, 0x78A5636F, 0x84C87814, 0x8CC70208, 0x90BEFFFA, 0xA4506CEB, 0xBEF9A3F7, 0xC67178F2 ] var W = new Array(64) function Sha256 () { this.init() this._w = W // new Array(64) Hash.call(this, 64, 56) } inherits(Sha256, Hash) Sha256.prototype.init = function () { this._a = 0x6a09e667 | 0 this._b = 0xbb67ae85 | 0 this._c = 0x3c6ef372 | 0 this._d = 0xa54ff53a | 0 this._e = 0x510e527f | 0 this._f = 0x9b05688c | 0 this._g = 0x1f83d9ab | 0 this._h = 0x5be0cd19 | 0 return this } function Ch (x, y, z) { return z ^ (x & (y ^ z)) } function Maj (x, y, z) { return (x & y) | (z & (x | y)) } function Sigma0 (x) { return (x >>> 2 | x << 30) ^ (x >>> 13 | x << 19) ^ (x >>> 22 | x << 10) } function Sigma1 (x) { return (x >>> 6 | x << 26) ^ (x >>> 11 | x << 21) ^ (x >>> 25 | x << 7) } function Gamma0 (x) { return (x >>> 7 | x << 25) ^ (x >>> 18 | x << 14) ^ (x >>> 3) } function Gamma1 (x) { return (x >>> 17 | x << 15) ^ (x >>> 19 | x << 13) ^ (x >>> 10) } Sha256.prototype._update = function (M) { var W = this._w var a = this._a | 0 var b = this._b | 0 var c = this._c | 0 var d = this._d | 0 var e = this._e | 0 var f = this._f | 0 var g = this._g | 0 var h = this._h | 0 var j = 0 function calcW () { return Gamma1(W[j - 2]) + W[j - 7] + Gamma0(W[j - 15]) + W[j - 16] } function loop (w) { W[j] = w var T1 = h + Sigma1(e) + Ch(e, f, g) + K[j] + w var T2 = Sigma0(a) + Maj(a, b, c) h = g g = f f = e e = d + T1 d = c c = b b = a a = T1 + T2 j++ } while (j < 16) loop(M.readInt32BE(j * 4)) while (j < 64) loop(calcW()) this._a = (a + this._a) | 0 this._b = (b + this._b) | 0 this._c = (c + this._c) | 0 this._d = (d + this._d) | 0 this._e = (e + this._e) | 0 this._f = (f + this._f) | 0 this._g = (g + this._g) | 0 this._h = (h + this._h) | 0 } Sha256.prototype._hash = function () { var H = new Buffer(32) H.writeInt32BE(this._a, 0) H.writeInt32BE(this._b, 4) H.writeInt32BE(this._c, 8) H.writeInt32BE(this._d, 12) H.writeInt32BE(this._e, 16) H.writeInt32BE(this._f, 20) H.writeInt32BE(this._g, 24) H.writeInt32BE(this._h, 28) return H } module.exports = Sha256 }).call(this,require(4).Buffer) },{"132":132,"196":196,"4":4}],138:[function(require,module,exports){ (function (Buffer){ var inherits = require(196) var SHA512 = require(139) var Hash = require(132) var W = new Array(160) function Sha384 () { this.init() this._w = W Hash.call(this, 128, 112) } inherits(Sha384, SHA512) Sha384.prototype.init = function () { this._a = 0xcbbb9d5d | 0 this._b = 0x629a292a | 0 this._c = 0x9159015a | 0 this._d = 0x152fecd8 | 0 this._e = 0x67332667 | 0 this._f = 0x8eb44a87 | 0 this._g = 0xdb0c2e0d | 0 this._h = 0x47b5481d | 0 this._al = 0xc1059ed8 | 0 this._bl = 0x367cd507 | 0 this._cl = 0x3070dd17 | 0 this._dl = 0xf70e5939 | 0 this._el = 0xffc00b31 | 0 this._fl = 0x68581511 | 0 this._gl = 0x64f98fa7 | 0 this._hl = 0xbefa4fa4 | 0 return this } Sha384.prototype._hash = function () { var H = new Buffer(48) function writeInt64BE (h, l, offset) { H.writeInt32BE(h, offset) H.writeInt32BE(l, offset + 4) } writeInt64BE(this._a, this._al, 0) writeInt64BE(this._b, this._bl, 8) writeInt64BE(this._c, this._cl, 16) writeInt64BE(this._d, this._dl, 24) writeInt64BE(this._e, this._el, 32) writeInt64BE(this._f, this._fl, 40) return H } module.exports = Sha384 }).call(this,require(4).Buffer) },{"132":132,"139":139,"196":196,"4":4}],139:[function(require,module,exports){ (function (Buffer){ var inherits = require(196) var Hash = require(132) var K = [ 0x428a2f98, 0xd728ae22, 0x71374491, 0x23ef65cd, 0xb5c0fbcf, 0xec4d3b2f, 0xe9b5dba5, 0x8189dbbc, 0x3956c25b, 0xf348b538, 0x59f111f1, 0xb605d019, 0x923f82a4, 0xaf194f9b, 0xab1c5ed5, 0xda6d8118, 0xd807aa98, 0xa3030242, 0x12835b01, 0x45706fbe, 0x243185be, 0x4ee4b28c, 0x550c7dc3, 0xd5ffb4e2, 0x72be5d74, 0xf27b896f, 0x80deb1fe, 0x3b1696b1, 0x9bdc06a7, 0x25c71235, 0xc19bf174, 0xcf692694, 0xe49b69c1, 0x9ef14ad2, 0xefbe4786, 0x384f25e3, 0x0fc19dc6, 0x8b8cd5b5, 0x240ca1cc, 0x77ac9c65, 0x2de92c6f, 0x592b0275, 0x4a7484aa, 0x6ea6e483, 0x5cb0a9dc, 0xbd41fbd4, 0x76f988da, 0x831153b5, 0x983e5152, 0xee66dfab, 0xa831c66d, 0x2db43210, 0xb00327c8, 0x98fb213f, 0xbf597fc7, 0xbeef0ee4, 0xc6e00bf3, 0x3da88fc2, 0xd5a79147, 0x930aa725, 0x06ca6351, 0xe003826f, 0x14292967, 0x0a0e6e70, 0x27b70a85, 0x46d22ffc, 0x2e1b2138, 0x5c26c926, 0x4d2c6dfc, 0x5ac42aed, 0x53380d13, 0x9d95b3df, 0x650a7354, 0x8baf63de, 0x766a0abb, 0x3c77b2a8, 0x81c2c92e, 0x47edaee6, 0x92722c85, 0x1482353b, 0xa2bfe8a1, 0x4cf10364, 0xa81a664b, 0xbc423001, 0xc24b8b70, 0xd0f89791, 0xc76c51a3, 0x0654be30, 0xd192e819, 0xd6ef5218, 0xd6990624, 0x5565a910, 0xf40e3585, 0x5771202a, 0x106aa070, 0x32bbd1b8, 0x19a4c116, 0xb8d2d0c8, 0x1e376c08, 0x5141ab53, 0x2748774c, 0xdf8eeb99, 0x34b0bcb5, 0xe19b48a8, 0x391c0cb3, 0xc5c95a63, 0x4ed8aa4a, 0xe3418acb, 0x5b9cca4f, 0x7763e373, 0x682e6ff3, 0xd6b2b8a3, 0x748f82ee, 0x5defb2fc, 0x78a5636f, 0x43172f60, 0x84c87814, 0xa1f0ab72, 0x8cc70208, 0x1a6439ec, 0x90befffa, 0x23631e28, 0xa4506ceb, 0xde82bde9, 0xbef9a3f7, 0xb2c67915, 0xc67178f2, 0xe372532b, 0xca273ece, 0xea26619c, 0xd186b8c7, 0x21c0c207, 0xeada7dd6, 0xcde0eb1e, 0xf57d4f7f, 0xee6ed178, 0x06f067aa, 0x72176fba, 0x0a637dc5, 0xa2c898a6, 0x113f9804, 0xbef90dae, 0x1b710b35, 0x131c471b, 0x28db77f5, 0x23047d84, 0x32caab7b, 0x40c72493, 0x3c9ebe0a, 0x15c9bebc, 0x431d67c4, 0x9c100d4c, 0x4cc5d4be, 0xcb3e42b6, 0x597f299c, 0xfc657e2a, 0x5fcb6fab, 0x3ad6faec, 0x6c44198c, 0x4a475817 ] var W = new Array(160) function Sha512 () { this.init() this._w = W Hash.call(this, 128, 112) } inherits(Sha512, Hash) Sha512.prototype.init = function () { this._a = 0x6a09e667 | 0 this._b = 0xbb67ae85 | 0 this._c = 0x3c6ef372 | 0 this._d = 0xa54ff53a | 0 this._e = 0x510e527f | 0 this._f = 0x9b05688c | 0 this._g = 0x1f83d9ab | 0 this._h = 0x5be0cd19 | 0 this._al = 0xf3bcc908 | 0 this._bl = 0x84caa73b | 0 this._cl = 0xfe94f82b | 0 this._dl = 0x5f1d36f1 | 0 this._el = 0xade682d1 | 0 this._fl = 0x2b3e6c1f | 0 this._gl = 0xfb41bd6b | 0 this._hl = 0x137e2179 | 0 return this } function Ch (x, y, z) { return z ^ (x & (y ^ z)) } function Maj (x, y, z) { return (x & y) | (z & (x | y)) } function Sigma0 (x, xl) { return (x >>> 28 | xl << 4) ^ (xl >>> 2 | x << 30) ^ (xl >>> 7 | x << 25) } function Sigma1 (x, xl) { return (x >>> 14 | xl << 18) ^ (x >>> 18 | xl << 14) ^ (xl >>> 9 | x << 23) } function Gamma0 (x, xl) { return (x >>> 1 | xl << 31) ^ (x >>> 8 | xl << 24) ^ (x >>> 7) } function Gamma0l (x, xl) { return (x >>> 1 | xl << 31) ^ (x >>> 8 | xl << 24) ^ (x >>> 7 | xl << 25) } function Gamma1 (x, xl) { return (x >>> 19 | xl << 13) ^ (xl >>> 29 | x << 3) ^ (x >>> 6) } function Gamma1l (x, xl) { return (x >>> 19 | xl << 13) ^ (xl >>> 29 | x << 3) ^ (x >>> 6 | xl << 26) } Sha512.prototype._update = function (M) { var W = this._w var a = this._a | 0 var b = this._b | 0 var c = this._c | 0 var d = this._d | 0 var e = this._e | 0 var f = this._f | 0 var g = this._g | 0 var h = this._h | 0 var al = this._al | 0 var bl = this._bl | 0 var cl = this._cl | 0 var dl = this._dl | 0 var el = this._el | 0 var fl = this._fl | 0 var gl = this._gl | 0 var hl = this._hl | 0 var i = 0 var j = 0 var Wi, Wil function calcW () { var x = W[j - 15 * 2] var xl = W[j - 15 * 2 + 1] var gamma0 = Gamma0(x, xl) var gamma0l = Gamma0l(xl, x) x = W[j - 2 * 2] xl = W[j - 2 * 2 + 1] var gamma1 = Gamma1(x, xl) var gamma1l = Gamma1l(xl, x) // W[i] = gamma0 + W[i - 7] + gamma1 + W[i - 16] var Wi7 = W[j - 7 * 2] var Wi7l = W[j - 7 * 2 + 1] var Wi16 = W[j - 16 * 2] var Wi16l = W[j - 16 * 2 + 1] Wil = gamma0l + Wi7l Wi = gamma0 + Wi7 + ((Wil >>> 0) < (gamma0l >>> 0) ? 1 : 0) Wil = Wil + gamma1l Wi = Wi + gamma1 + ((Wil >>> 0) < (gamma1l >>> 0) ? 1 : 0) Wil = Wil + Wi16l Wi = Wi + Wi16 + ((Wil >>> 0) < (Wi16l >>> 0) ? 1 : 0) } function loop () { W[j] = Wi W[j + 1] = Wil var maj = Maj(a, b, c) var majl = Maj(al, bl, cl) var sigma0h = Sigma0(a, al) var sigma0l = Sigma0(al, a) var sigma1h = Sigma1(e, el) var sigma1l = Sigma1(el, e) // t1 = h + sigma1 + ch + K[i] + W[i] var Ki = K[j] var Kil = K[j + 1] var ch = Ch(e, f, g) var chl = Ch(el, fl, gl) var t1l = hl + sigma1l var t1 = h + sigma1h + ((t1l >>> 0) < (hl >>> 0) ? 1 : 0) t1l = t1l + chl t1 = t1 + ch + ((t1l >>> 0) < (chl >>> 0) ? 1 : 0) t1l = t1l + Kil t1 = t1 + Ki + ((t1l >>> 0) < (Kil >>> 0) ? 1 : 0) t1l = t1l + Wil t1 = t1 + Wi + ((t1l >>> 0) < (Wil >>> 0) ? 1 : 0) // t2 = sigma0 + maj var t2l = sigma0l + majl var t2 = sigma0h + maj + ((t2l >>> 0) < (sigma0l >>> 0) ? 1 : 0) h = g hl = gl g = f gl = fl f = e fl = el el = (dl + t1l) | 0 e = (d + t1 + ((el >>> 0) < (dl >>> 0) ? 1 : 0)) | 0 d = c dl = cl c = b cl = bl b = a bl = al al = (t1l + t2l) | 0 a = (t1 + t2 + ((al >>> 0) < (t1l >>> 0) ? 1 : 0)) | 0 i++ j += 2 } while (i < 16) { Wi = M.readInt32BE(j * 4) Wil = M.readInt32BE(j * 4 + 4) loop() } while (i < 80) { calcW() loop() } this._al = (this._al + al) | 0 this._bl = (this._bl + bl) | 0 this._cl = (this._cl + cl) | 0 this._dl = (this._dl + dl) | 0 this._el = (this._el + el) | 0 this._fl = (this._fl + fl) | 0 this._gl = (this._gl + gl) | 0 this._hl = (this._hl + hl) | 0 this._a = (this._a + a + ((this._al >>> 0) < (al >>> 0) ? 1 : 0)) | 0 this._b = (this._b + b + ((this._bl >>> 0) < (bl >>> 0) ? 1 : 0)) | 0 this._c = (this._c + c + ((this._cl >>> 0) < (cl >>> 0) ? 1 : 0)) | 0 this._d = (this._d + d + ((this._dl >>> 0) < (dl >>> 0) ? 1 : 0)) | 0 this._e = (this._e + e + ((this._el >>> 0) < (el >>> 0) ? 1 : 0)) | 0 this._f = (this._f + f + ((this._fl >>> 0) < (fl >>> 0) ? 1 : 0)) | 0 this._g = (this._g + g + ((this._gl >>> 0) < (gl >>> 0) ? 1 : 0)) | 0 this._h = (this._h + h + ((this._hl >>> 0) < (hl >>> 0) ? 1 : 0)) | 0 } Sha512.prototype._hash = function () { var H = new Buffer(64) function writeInt64BE (h, l, offset) { H.writeInt32BE(h, offset) H.writeInt32BE(l, offset + 4) } writeInt64BE(this._a, this._al, 0) writeInt64BE(this._b, this._bl, 8) writeInt64BE(this._c, this._cl, 16) writeInt64BE(this._d, this._dl, 24) writeInt64BE(this._e, this._el, 32) writeInt64BE(this._f, this._fl, 40) writeInt64BE(this._g, this._gl, 48) writeInt64BE(this._h, this._hl, 56) return H } module.exports = Sha512 }).call(this,require(4).Buffer) },{"132":132,"196":196,"4":4}],140:[function(require,module,exports){ (function (Buffer){ 'use strict'; var createHash = require(127); var inherits = require(196) var Transform = require(211).Transform var ZEROS = new Buffer(128) ZEROS.fill(0) function Hmac(alg, key) { Transform.call(this) alg = alg.toLowerCase() if (typeof key === 'string') { key = new Buffer(key) } var blocksize = (alg === 'sha512' || alg === 'sha384') ? 128 : 64 this._alg = alg this._key = key if (key.length > blocksize) { key = createHash(alg).update(key).digest() } else if (key.length < blocksize) { key = Buffer.concat([key, ZEROS], blocksize) } var ipad = this._ipad = new Buffer(blocksize) var opad = this._opad = new Buffer(blocksize) for (var i = 0; i < blocksize; i++) { ipad[i] = key[i] ^ 0x36 opad[i] = key[i] ^ 0x5C } this._hash = createHash(alg).update(ipad) } inherits(Hmac, Transform) Hmac.prototype.update = function (data, enc) { this._hash.update(data, enc) return this } Hmac.prototype._transform = function (data, _, next) { this._hash.update(data) next() } Hmac.prototype._flush = function (next) { this.push(this.digest()) next() } Hmac.prototype.digest = function (enc) { var h = this._hash.digest() return createHash(this._alg).update(this._opad).update(h).digest(enc) } module.exports = function createHmac(alg, key) { return new Hmac(alg, key) } }).call(this,require(4).Buffer) },{"127":127,"196":196,"211":211,"4":4}],141:[function(require,module,exports){ (function (Buffer){ var generatePrime = require(143); var primes = require(144); var DH = require(142); function getDiffieHellman(mod) { var prime = new Buffer(primes[mod].prime, 'hex'); var gen = new Buffer(primes[mod].gen, 'hex'); return new DH(prime, gen); } function createDiffieHellman(prime, enc, generator, genc) { if (Buffer.isBuffer(enc) || (typeof enc === 'string' && ['hex', 'binary', 'base64'].indexOf(enc) === -1)) { genc = generator; generator = enc; enc = undefined; } enc = enc || 'binary'; genc = genc || 'binary'; generator = generator || new Buffer([2]); if (!Buffer.isBuffer(generator)) { generator = new Buffer(generator, genc); } if (typeof prime === 'number') { return new DH(generatePrime(prime, generator), generator, true); } if (!Buffer.isBuffer(prime)) { prime = new Buffer(prime, enc); } return new DH(prime, generator, true); } exports.DiffieHellmanGroup = exports.createDiffieHellmanGroup = exports.getDiffieHellman = getDiffieHellman; exports.createDiffieHellman = exports.DiffieHellman = createDiffieHellman; }).call(this,require(4).Buffer) },{"142":142,"143":143,"144":144,"4":4}],142:[function(require,module,exports){ (function (Buffer){ var BN = require(145); var MillerRabin = require(146); var millerRabin = new MillerRabin(); var TWENTYFOUR = new BN(24); var ELEVEN = new BN(11); var TEN = new BN(10); var THREE = new BN(3); var SEVEN = new BN(7); var primes = require(143); var randomBytes = require(194); module.exports = DH; function setPublicKey(pub, enc) { enc = enc || 'utf8'; if (!Buffer.isBuffer(pub)) { pub = new Buffer(pub, enc); } this._pub = new BN(pub); return this; } function setPrivateKey(priv, enc) { enc = enc || 'utf8'; if (!Buffer.isBuffer(priv)) { priv = new Buffer(priv, enc); } this._priv = new BN(priv); return this; } var primeCache = {}; function checkPrime(prime, generator) { var gen = generator.toString('hex'); var hex = [gen, prime.toString(16)].join('_'); if (hex in primeCache) { return primeCache[hex]; } var error = 0; if (prime.isEven() || !primes.simpleSieve || !primes.fermatTest(prime) || !millerRabin.test(prime)) { //not a prime so +1 error += 1; if (gen === '02' || gen === '05') { // we'd be able to check the generator // it would fail so +8 error += 8; } else { //we wouldn't be able to test the generator // so +4 error += 4; } primeCache[hex] = error; return error; } if (!millerRabin.test(prime.shrn(1))) { //not a safe prime error += 2; } var rem; switch (gen) { case '02': if (prime.mod(TWENTYFOUR).cmp(ELEVEN)) { // unsuidable generator error += 8; } break; case '05': rem = prime.mod(TEN); if (rem.cmp(THREE) && rem.cmp(SEVEN)) { // prime mod 10 needs to equal 3 or 7 error += 8; } break; default: error += 4; } primeCache[hex] = error; return error; } function defineError (self, error) { try { Object.defineProperty(self, 'verifyError', { enumerable: true, value: error, writable: false }); } catch(e) { self.verifyError = error; } } function DH(prime, generator, malleable) { this.setGenerator(generator); this.__prime = new BN(prime); this._prime = BN.mont(this.__prime); this._primeLen = prime.length; this._pub = void 0; this._priv = void 0; if (malleable) { this.setPublicKey = setPublicKey; this.setPrivateKey = setPrivateKey; defineError(this, checkPrime(this.__prime, generator)); } else { defineError(this, 8); } } DH.prototype.generateKeys = function () { if (!this._priv) { this._priv = new BN(randomBytes(this._primeLen)); } this._pub = this._gen.toRed(this._prime).redPow(this._priv).fromRed(); return this.getPublicKey(); }; DH.prototype.computeSecret = function (other) { other = new BN(other); other = other.toRed(this._prime); var secret = other.redPow(this._priv).fromRed(); var out = new Buffer(secret.toArray()); var prime = this.getPrime(); if (out.length < prime.length) { var front = new Buffer(prime.length - out.length); front.fill(0); out = Buffer.concat([front, out]); } return out; }; DH.prototype.getPublicKey = function getPublicKey(enc) { return formatReturnValue(this._pub, enc); }; DH.prototype.getPrivateKey = function getPrivateKey(enc) { return formatReturnValue(this._priv, enc); }; DH.prototype.getPrime = function (enc) { return formatReturnValue(this.__prime, enc); }; DH.prototype.getGenerator = function (enc) { return formatReturnValue(this._gen, enc); }; DH.prototype.setGenerator = function (gen, enc) { enc = enc || 'utf8'; if (!Buffer.isBuffer(gen)) { gen = new Buffer(gen, enc); } this._gen = new BN(gen); return this; }; function formatReturnValue(bn, enc) { var buf = new Buffer(bn.toArray()); if (!enc) { return buf; } else { return buf.toString(enc); } } }).call(this,require(4).Buffer) },{"143":143,"145":145,"146":146,"194":194,"4":4}],143:[function(require,module,exports){ var randomBytes = require(194); module.exports = findPrime; findPrime.simpleSieve = simpleSieve; findPrime.fermatTest = fermatTest; var BN = require(145); var TWENTYFOUR = new BN(24); var MillerRabin = require(146); var millerRabin = new MillerRabin(); var ONE = new BN(1); var TWO = new BN(2); var FIVE = new BN(5); var SIXTEEN = new BN(16); var EIGHT = new BN(8); var TEN = new BN(10); var THREE = new BN(3); var SEVEN = new BN(7); var ELEVEN = new BN(11); var FOUR = new BN(4); var TWELVE = new BN(12); var primes = null; function _getPrimes() { if (primes !== null) return primes; var limit = 0x100000; var res = []; res[0] = 2; for (var i = 1, k = 3; k < limit; k += 2) { var sqrt = Math.ceil(Math.sqrt(k)); for (var j = 0; j < i && res[j] <= sqrt; j++) if (k % res[j] === 0) break; if (i !== j && res[j] <= sqrt) continue; res[i++] = k; } primes = res; return res; } function simpleSieve(p) { var primes = _getPrimes(); for (var i = 0; i < primes.length; i++) if (p.modn(primes[i]) === 0) { if (p.cmpn(primes[i]) === 0) { return true; } else { return false; } } return true; } function fermatTest(p) { var red = BN.mont(p); return TWO.toRed(red).redPow(p.subn(1)).fromRed().cmpn(1) === 0; } function findPrime(bits, gen) { if (bits < 16) { // this is what openssl does if (gen === 2 || gen === 5) { return new BN([0x8c, 0x7b]); } else { return new BN([0x8c, 0x27]); } } gen = new BN(gen); var runs, comp; function generateRandom(bits) { runs = -1; var out = new BN(randomBytes(Math.ceil(bits / 8))); while (out.bitLength() > bits) { out.ishrn(1); } if (out.isEven()) { out.iadd(ONE); } if (!out.testn(1)) { out.iadd(TWO); } if (!gen.cmp(TWO)) { while (out.mod(TWENTYFOUR).cmp(ELEVEN)) { out.iadd(FOUR); } comp = { major: [TWENTYFOUR], minor: [TWELVE] }; } else if (!gen.cmp(FIVE)) { rem = out.mod(TEN); while (rem.cmp(THREE)) { out.iadd(FOUR); rem = out.mod(TEN); } comp = { major: [FOUR, SIXTEEN], minor: [TWO, EIGHT] }; } else { comp = { major: [FOUR], minor: [TWO] }; } return out; } var num = generateRandom(bits); var n2 = num.shrn(1); while (true) { while (num.bitLength() > bits) { num = generateRandom(bits); n2 = num.shrn(1); } runs++; if (simpleSieve(n2) && simpleSieve(num) && fermatTest(n2) && fermatTest(num) && millerRabin.test(n2) && millerRabin.test(num)) { return num; } num.iadd(comp.major[runs%comp.major.length]); n2.iadd(comp.minor[runs%comp.minor.length]); } } },{"145":145,"146":146,"194":194}],144:[function(require,module,exports){ module.exports={ "modp1": { "gen": "02", "prime": "ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd129024e088a67cc74020bbea63b139b22514a08798e3404ddef9519b3cd3a431b302b0a6df25f14374fe1356d6d51c245e485b576625e7ec6f44c42e9a63a3620ffffffffffffffff" }, "modp2": { "gen": "02", "prime": "ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd129024e088a67cc74020bbea63b139b22514a08798e3404ddef9519b3cd3a431b302b0a6df25f14374fe1356d6d51c245e485b576625e7ec6f44c42e9a637ed6b0bff5cb6f406b7edee386bfb5a899fa5ae9f24117c4b1fe649286651ece65381ffffffffffffffff" }, "modp5": { "gen": "02", "prime": "ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd129024e088a67cc74020bbea63b139b22514a08798e3404ddef9519b3cd3a431b302b0a6df25f14374fe1356d6d51c245e485b576625e7ec6f44c42e9a637ed6b0bff5cb6f406b7edee386bfb5a899fa5ae9f24117c4b1fe649286651ece45b3dc2007cb8a163bf0598da48361c55d39a69163fa8fd24cf5f83655d23dca3ad961c62f356208552bb9ed529077096966d670c354e4abc9804f1746c08ca237327ffffffffffffffff" }, "modp14": { "gen": "02", "prime": "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" }, "modp15": { "gen": "02", "prime": "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" }, "modp16": { "gen": "02", "prime": "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" }, "modp17": { "gen": "02", "prime": "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" }, "modp18": { "gen": "02", "prime": "ffffffffffffffffc90fdaa22168c234c4c6628b80dc1cd129024e088a67cc74020bbea63b139b22514a08798e3404ddef9519b3cd3a431b302b0a6df25f14374fe1356d6d51c245e485b576625e7ec6f44c42e9a637ed6b0bff5cb6f406b7edee386bfb5a899fa5ae9f24117c4b1fe649286651ece45b3dc2007cb8a163bf0598da48361c55d39a69163fa8fd24cf5f83655d23dca3ad961c62f356208552bb9ed529077096966d670c354e4abc9804f1746c08ca18217c32905e462e36ce3be39e772c180e86039b2783a2ec07a28fb5c55df06f4c52c9de2bcbf6955817183995497cea956ae515d2261898fa051015728e5a8aaac42dad33170d04507a33a85521abdf1cba64ecfb850458dbef0a8aea71575d060c7db3970f85a6e1e4c7abf5ae8cdb0933d71e8c94e04a25619dcee3d2261ad2ee6bf12ffa06d98a0864d87602733ec86a64521f2b18177b200cbbe117577a615d6c770988c0bad946e208e24fa074e5ab3143db5bfce0fd108e4b82d120a92108011a723c12a787e6d788719a10bdba5b2699c327186af4e23c1a946834b6150bda2583e9ca2ad44ce8dbbbc2db04de8ef92e8efc141fbecaa6287c59474e6bc05d99b2964fa090c3a2233ba186515be7ed1f612970cee2d7afb81bdd762170481cd0069127d5b05aa993b4ea988d8fddc186ffb7dc90a6c08f4df435c93402849236c3fab4d27c7026c1d4dcb2602646dec9751e763dba37bdf8ff9406ad9e530ee5db382f413001aeb06a53ed9027d831179727b0865a8918da3edbebcf9b14ed44ce6cbaced4bb1bdb7f1447e6cc254b332051512bd7af426fb8f401378cd2bf5983ca01c64b92ecf032ea15d1721d03f482d7ce6e74fef6d55e702f46980c82b5a84031900b1c9e59e7c97fbec7e8f323a97a7e36cc88be0f1d45b7ff585ac54bd407b22b4154aacc8f6d7ebf48e1d814cc5ed20f8037e0a79715eef29be32806a1d58bb7c5da76f550aa3d8a1fbff0eb19ccb1a313d55cda56c9ec2ef29632387fe8d76e3c0468043e8f663f4860ee12bf2d5b0b7474d6e694f91e6dbe115974a3926f12fee5e438777cb6a932df8cd8bec4d073b931ba3bc832b68d9dd300741fa7bf8afc47ed2576f6936ba424663aab639c5ae4f5683423b4742bf1c978238f16cbe39d652de3fdb8befc848ad922222e04a4037c0713eb57a81a23f0c73473fc646cea306b4bcbc8862f8385ddfa9d4b7fa2c087e879683303ed5bdd3a062b3cf5b3a278a66d2a13f83f44f82ddf310ee074ab6a364597e899a0255dc164f31cc50846851df9ab48195ded7ea1b1d510bd7ee74d73faf36bc31ecfa268359046f4eb879f924009438b481c6cd7889a002ed5ee382bc9190da6fc026e479558e4475677e9aa9e3050e2765694dfc81f56e880b96e7160c980dd98edd3dfffffffffffffffff" } } },{}],145:[function(require,module,exports){ module.exports=require(41) },{"41":41}],146:[function(require,module,exports){ var bn = require(145); var brorand = require(147); function MillerRabin(rand) { this.rand = rand || new brorand.Rand(); } module.exports = MillerRabin; MillerRabin.create = function create(rand) { return new MillerRabin(rand); }; MillerRabin.prototype._rand = function _rand(n) { var len = n.bitLength(); var buf = this.rand.generate(Math.ceil(len / 8)); // Set low bits buf[0] |= 3; // Mask high bits var mask = len & 0x7; if (mask !== 0) buf[buf.length - 1] >>= 7 - mask; return new bn(buf); } MillerRabin.prototype.test = function test(n, k, cb) { var len = n.bitLength(); var red = bn.mont(n); var rone = new bn(1).toRed(red); if (!k) k = Math.max(1, (len / 48) | 0); // Find d and s, (n - 1) = (2 ^ s) * d; var n1 = n.subn(1); var n2 = n1.subn(1); for (var s = 0; !n1.testn(s); s++) {} var d = n.shrn(s); var rn1 = n1.toRed(red); var prime = true; for (; k > 0; k--) { var a = this._rand(n2); if (cb) cb(a); var x = a.toRed(red).redPow(d); if (x.cmp(rone) === 0 || x.cmp(rn1) === 0) continue; for (var i = 1; i < s; i++) { x = x.redSqr(); if (x.cmp(rone) === 0) return false; if (x.cmp(rn1) === 0) break; } if (i === s) return false; } return prime; }; MillerRabin.prototype.getDivisor = function getDivisor(n, k) { var len = n.bitLength(); var red = bn.mont(n); var rone = new bn(1).toRed(red); if (!k) k = Math.max(1, (len / 48) | 0); // Find d and s, (n - 1) = (2 ^ s) * d; var n1 = n.subn(1); var n2 = n1.subn(1); for (var s = 0; !n1.testn(s); s++) {} var d = n.shrn(s); var rn1 = n1.toRed(red); for (; k > 0; k--) { var a = this._rand(n2); var g = n.gcd(a); if (g.cmpn(1) !== 0) return g; var x = a.toRed(red).redPow(d); if (x.cmp(rone) === 0 || x.cmp(rn1) === 0) continue; for (var i = 1; i < s; i++) { x = x.redSqr(); if (x.cmp(rone) === 0) return x.fromRed().subn(1).gcd(n); if (x.cmp(rn1) === 0) break; } if (i === s) { x = x.redSqr(); return x.fromRed().subn(1).gcd(n); } } return false; }; },{"145":145,"147":147}],147:[function(require,module,exports){ module.exports=require(56) },{"56":56}],148:[function(require,module,exports){ (function (Buffer){ var createHmac = require(140) var MAX_ALLOC = Math.pow(2, 30) - 1 // default in iojs exports.pbkdf2 = pbkdf2 function pbkdf2 (password, salt, iterations, keylen, digest, callback) { if (typeof digest === 'function') { callback = digest digest = undefined } if (typeof callback !== 'function') { throw new Error('No callback provided to pbkdf2') } var result = pbkdf2Sync(password, salt, iterations, keylen, digest) setTimeout(function () { callback(undefined, result) }) } exports.pbkdf2Sync = pbkdf2Sync function pbkdf2Sync (password, salt, iterations, keylen, digest) { if (typeof iterations !== 'number') { throw new TypeError('Iterations not a number') } if (iterations < 0) { throw new TypeError('Bad iterations') } if (typeof keylen !== 'number') { throw new TypeError('Key length not a number') } if (keylen < 0 || keylen > MAX_ALLOC) { throw new TypeError('Bad key length') } digest = digest || 'sha1' if (!Buffer.isBuffer(password)) password = new Buffer(password, 'binary') if (!Buffer.isBuffer(salt)) salt = new Buffer(salt, 'binary') var hLen var l = 1 var DK = new Buffer(keylen) var block1 = new Buffer(salt.length + 4) salt.copy(block1, 0, 0, salt.length) var r var T for (var i = 1; i <= l; i++) { block1.writeUInt32BE(i, salt.length) var U = createHmac(digest, password).update(block1).digest() if (!hLen) { hLen = U.length T = new Buffer(hLen) l = Math.ceil(keylen / hLen) r = keylen - (l - 1) * hLen } U.copy(T, 0, 0, hLen) for (var j = 1; j < iterations; j++) { U = createHmac(digest, password).update(U).digest() for (var k = 0; k < hLen; k++) { T[k] ^= U[k] } } var destPos = (i - 1) * hLen var len = (i === l ? r : hLen) T.copy(DK, destPos, 0, len) } return DK } }).call(this,require(4).Buffer) },{"140":140,"4":4}],149:[function(require,module,exports){ exports.publicEncrypt = require(191); exports.privateDecrypt = require(190); exports.privateEncrypt = function privateEncrypt(key, buf) { return exports.publicEncrypt(key, buf, true); }; exports.publicDecrypt = function publicDecrypt(key, buf) { return exports.privateDecrypt(key, buf, true); }; },{"190":190,"191":191}],150:[function(require,module,exports){ (function (Buffer){ var createHash = require(127); module.exports = function (seed, len) { var t = new Buffer(''); var i = 0, c; while (t.length < len) { c = i2ops(i++); t = Buffer.concat([t, createHash('sha1').update(seed).update(c).digest()]); } return t.slice(0, len); }; function i2ops(c) { var out = new Buffer(4); out.writeUInt32BE(c,0); return out; } }).call(this,require(4).Buffer) },{"127":127,"4":4}],151:[function(require,module,exports){ module.exports=require(41) },{"41":41}],152:[function(require,module,exports){ module.exports=require(42) },{"151":151,"194":194,"4":4,"42":42}],153:[function(require,module,exports){ module.exports=require(64) },{"64":64}],154:[function(require,module,exports){ module.exports=require(65) },{"157":157,"65":65}],155:[function(require,module,exports){ module.exports=require(66) },{"174":174,"189":189,"4":4,"66":66}],156:[function(require,module,exports){ module.exports=require(67) },{"148":148,"153":153,"154":154,"155":155,"174":174,"4":4,"67":67}],157:[function(require,module,exports){ module.exports=require(68) },{"151":151,"158":158,"160":160,"164":164,"166":166,"169":169,"68":68}],158:[function(require,module,exports){ module.exports=require(69) },{"157":157,"196":196,"215":215,"69":69}],159:[function(require,module,exports){ module.exports=require(70) },{"160":160,"196":196,"4":4,"70":70}],160:[function(require,module,exports){ module.exports=require(71) },{"159":159,"161":161,"162":162,"71":71}],161:[function(require,module,exports){ module.exports=require(72) },{"160":160,"171":171,"72":72}],162:[function(require,module,exports){ module.exports=require(73) },{"196":196,"73":73}],163:[function(require,module,exports){ module.exports=require(74) },{"164":164,"74":74}],164:[function(require,module,exports){ module.exports=require(75) },{"163":163,"75":75}],165:[function(require,module,exports){ module.exports=require(76) },{"157":157,"196":196,"76":76}],166:[function(require,module,exports){ module.exports=require(77) },{"165":165,"167":167,"77":77}],167:[function(require,module,exports){ module.exports=require(78) },{"157":157,"165":165,"196":196,"4":4,"78":78}],168:[function(require,module,exports){ module.exports=require(79) },{"157":157,"196":196,"4":4,"79":79}],169:[function(require,module,exports){ module.exports=require(80) },{"168":168,"170":170,"80":80}],170:[function(require,module,exports){ module.exports=require(81) },{"157":157,"168":168,"196":196,"4":4,"81":81}],171:[function(require,module,exports){ module.exports=require(36) },{"36":36}],172:[function(require,module,exports){ module.exports=require(10) },{"10":10,"4":4}],173:[function(require,module,exports){ module.exports=require(11) },{"11":11,"172":172,"177":177,"186":186,"187":187,"196":196,"4":4}],174:[function(require,module,exports){ module.exports=require(12) },{"12":12,"175":175,"176":176,"178":178}],175:[function(require,module,exports){ module.exports=require(13) },{"13":13,"172":172,"173":173,"178":178,"179":179,"180":180,"181":181,"182":182,"183":183,"184":184,"185":185,"187":187,"188":188,"189":189,"196":196,"4":4}],176:[function(require,module,exports){ module.exports=require(14) },{"14":14,"172":172,"173":173,"178":178,"179":179,"180":180,"181":181,"182":182,"183":183,"184":184,"185":185,"187":187,"188":188,"189":189,"196":196,"4":4}],177:[function(require,module,exports){ module.exports=require(15) },{"15":15,"4":4}],178:[function(require,module,exports){ module.exports=require(16) },{"16":16}],179:[function(require,module,exports){ module.exports=require(17) },{"17":17,"186":186}],180:[function(require,module,exports){ module.exports=require(18) },{"18":18,"186":186,"4":4}],181:[function(require,module,exports){ module.exports=require(19) },{"19":19,"4":4}],182:[function(require,module,exports){ module.exports=require(20) },{"20":20,"4":4}],183:[function(require,module,exports){ module.exports=require(21) },{"186":186,"21":21,"4":4}],184:[function(require,module,exports){ module.exports=require(22) },{"22":22}],185:[function(require,module,exports){ module.exports=require(23) },{"186":186,"23":23,"4":4}],186:[function(require,module,exports){ module.exports=require(24) },{"24":24,"4":4}],187:[function(require,module,exports){ module.exports=require(25) },{"196":196,"211":211,"212":212,"25":25,"4":4}],188:[function(require,module,exports){ module.exports=require(26) },{"172":172,"187":187,"196":196,"26":26,"4":4}],189:[function(require,module,exports){ module.exports=require(37) },{"129":129,"37":37,"4":4}],190:[function(require,module,exports){ (function (Buffer){ var parseKeys = require(156); var mgf = require(150); var xor = require(193); var bn = require(151); var crt = require(152); var createHash = require(127); var withPublic = require(192); module.exports = function privateDecrypt(private_key, enc, reverse) { var padding; if (private_key.padding) { padding = private_key.padding; } else if (reverse) { padding = 1; } else { padding = 4; } var key = parseKeys(private_key); var k = key.modulus.byteLength(); if (enc.length > k || new bn(enc).cmp(key.modulus) >= 0) { throw new Error('decryption error'); } var msg; if (reverse) { msg = withPublic(new bn(enc), key); } else { msg = crt(enc, key); } var zBuffer = new Buffer(k - msg.length); zBuffer.fill(0); msg = Buffer.concat([zBuffer, msg], k); if (padding === 4) { return oaep(key, msg); } else if (padding === 1) { return pkcs1(key, msg, reverse); } else if (padding === 3) { return msg; } else { throw new Error('unknown padding'); } }; function oaep(key, msg){ var n = key.modulus; var k = key.modulus.byteLength(); var mLen = msg.length; var iHash = createHash('sha1').update(new Buffer('')).digest(); var hLen = iHash.length; var hLen2 = 2 * hLen; if (msg[0] !== 0) { throw new Error('decryption error'); } var maskedSeed = msg.slice(1, hLen + 1); var maskedDb = msg.slice(hLen + 1); var seed = xor(maskedSeed, mgf(maskedDb, hLen)); var db = xor(maskedDb, mgf(seed, k - hLen - 1)); if (compare(iHash, db.slice(0, hLen))) { throw new Error('decryption error'); } var i = hLen; while (db[i] === 0) { i++; } if (db[i++] !== 1) { throw new Error('decryption error'); } return db.slice(i); } function pkcs1(key, msg, reverse){ var p1 = msg.slice(0, 2); var i = 2; var status = 0; while (msg[i++] !== 0) { if (i >= msg.length) { status++; break; } } var ps = msg.slice(2, i - 1); var p2 = msg.slice(i - 1, i); if ((p1.toString('hex') !== '0002' && !reverse) || (p1.toString('hex') !== '0001' && reverse)){ status++; } if (ps.length < 8) { status++; } if (status) { throw new Error('decryption error'); } return msg.slice(i); } function compare(a, b){ a = new Buffer(a); b = new Buffer(b); var dif = 0; var len = a.length; if (a.length !== b.length) { dif++; len = Math.min(a.length, b.length); } var i = -1; while (++i < len) { dif += (a[i] ^ b[i]); } return dif; } }).call(this,require(4).Buffer) },{"127":127,"150":150,"151":151,"152":152,"156":156,"192":192,"193":193,"4":4}],191:[function(require,module,exports){ (function (Buffer){ var parseKeys = require(156); var randomBytes = require(194); var createHash = require(127); var mgf = require(150); var xor = require(193); var bn = require(151); var withPublic = require(192); var crt = require(152); var constants = { RSA_PKCS1_OAEP_PADDING: 4, RSA_PKCS1_PADDIN: 1, RSA_NO_PADDING: 3 }; module.exports = function publicEncrypt(public_key, msg, reverse) { var padding; if (public_key.padding) { padding = public_key.padding; } else if (reverse) { padding = 1; } else { padding = 4; } var key = parseKeys(public_key); var paddedMsg; if (padding === 4) { paddedMsg = oaep(key, msg); } else if (padding === 1) { paddedMsg = pkcs1(key, msg, reverse); } else if (padding === 3) { paddedMsg = new bn(msg); if (paddedMsg.cmp(key.modulus) >= 0) { throw new Error('data too long for modulus'); } } else { throw new Error('unknown padding'); } if (reverse) { return crt(paddedMsg, key); } else { return withPublic(paddedMsg, key); } }; function oaep(key, msg){ var k = key.modulus.byteLength(); var mLen = msg.length; var iHash = createHash('sha1').update(new Buffer('')).digest(); var hLen = iHash.length; var hLen2 = 2 * hLen; if (mLen > k - hLen2 - 2) { throw new Error('message too long'); } var ps = new Buffer(k - mLen - hLen2 - 2); ps.fill(0); var dblen = k - hLen - 1; var seed = randomBytes(hLen); var maskedDb = xor(Buffer.concat([iHash, ps, new Buffer([1]), msg], dblen), mgf(seed, dblen)); var maskedSeed = xor(seed, mgf(maskedDb, hLen)); return new bn(Buffer.concat([new Buffer([0]), maskedSeed, maskedDb], k)); } function pkcs1(key, msg, reverse){ var mLen = msg.length; var k = key.modulus.byteLength(); if (mLen > k - 11) { throw new Error('message too long'); } var ps; if (reverse) { ps = new Buffer(k - mLen - 3); ps.fill(0xff); } else { ps = nonZero(k - mLen - 3); } return new bn(Buffer.concat([new Buffer([0, reverse?1:2]), ps, new Buffer([0]), msg], k)); } function nonZero(len, crypto) { var out = new Buffer(len); var i = 0; var cache = randomBytes(len*2); var cur = 0; var num; while (i < len) { if (cur === cache.length) { cache = randomBytes(len*2); cur = 0; } num = cache[cur++]; if (num) { out[i++] = num; } } return out; } }).call(this,require(4).Buffer) },{"127":127,"150":150,"151":151,"152":152,"156":156,"192":192,"193":193,"194":194,"4":4}],192:[function(require,module,exports){ (function (Buffer){ var bn = require(151); function withPublic(paddedMsg, key) { return new Buffer(paddedMsg .toRed(bn.mont(key.modulus)) .redPow(new bn(key.publicExponent)) .fromRed() .toArray()); } module.exports = withPublic; }).call(this,require(4).Buffer) },{"151":151,"4":4}],193:[function(require,module,exports){ module.exports = function xor(a, b) { var len = a.length; var i = -1; while (++i < len) { a[i] ^= b[i]; } return a }; },{}],194:[function(require,module,exports){ (function (process,global,Buffer){ 'use strict'; var crypto = global.crypto || global.msCrypto if(crypto && crypto.getRandomValues) { module.exports = randomBytes; } else { module.exports = oldBrowser; } function randomBytes(size, cb) { var bytes = new Buffer(size); //in browserify, this is an extended Uint8Array /* This will not work in older browsers. * See https://developer.mozilla.org/en-US/docs/Web/API/window.crypto.getRandomValues */ crypto.getRandomValues(bytes); if (typeof cb === 'function') { return process.nextTick(function () { cb(null, bytes); }); } return bytes; } function oldBrowser() { throw new Error( 'secure random number generation not supported by this browser\n'+ 'use chrome, FireFox or Internet Explorer 11' ) } }).call(this,require(199),typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {},require(4).Buffer) },{"199":199,"4":4}],195:[function(require,module,exports){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. function EventEmitter() { this._events = this._events || {}; this._maxListeners = this._maxListeners || undefined; } module.exports = EventEmitter; // Backwards-compat with node 0.10.x EventEmitter.EventEmitter = EventEmitter; EventEmitter.prototype._events = undefined; EventEmitter.prototype._maxListeners = undefined; // By default EventEmitters will print a warning if more than 10 listeners are // added to it. This is a useful default which helps finding memory leaks. EventEmitter.defaultMaxListeners = 10; // Obviously not all Emitters should be limited to 10. This function allows // that to be increased. Set to zero for unlimited. EventEmitter.prototype.setMaxListeners = function(n) { if (!isNumber(n) || n < 0 || isNaN(n)) throw TypeError('n must be a positive number'); this._maxListeners = n; return this; }; EventEmitter.prototype.emit = function(type) { var er, handler, len, args, i, listeners; if (!this._events) this._events = {}; // If there is no 'error' event listener then throw. if (type === 'error') { if (!this._events.error || (isObject(this._events.error) && !this._events.error.length)) { er = arguments[1]; if (er instanceof Error) { throw er; // Unhandled 'error' event } throw TypeError('Uncaught, unspecified "error" event.'); } } handler = this._events[type]; if (isUndefined(handler)) return false; if (isFunction(handler)) { switch (arguments.length) { // fast cases case 1: handler.call(this); break; case 2: handler.call(this, arguments[1]); break; case 3: handler.call(this, arguments[1], arguments[2]); break; // slower default: len = arguments.length; args = new Array(len - 1); for (i = 1; i < len; i++) args[i - 1] = arguments[i]; handler.apply(this, args); } } else if (isObject(handler)) { len = arguments.length; args = new Array(len - 1); for (i = 1; i < len; i++) args[i - 1] = arguments[i]; listeners = handler.slice(); len = listeners.length; for (i = 0; i < len; i++) listeners[i].apply(this, args); } return true; }; EventEmitter.prototype.addListener = function(type, listener) { var m; if (!isFunction(listener)) throw TypeError('listener must be a function'); if (!this._events) this._events = {}; // To avoid recursion in the case that type === "newListener"! Before // adding it to the listeners, first emit "newListener". if (this._events.newListener) this.emit('newListener', type, isFunction(listener.listener) ? listener.listener : listener); if (!this._events[type]) // Optimize the case of one listener. Don't need the extra array object. this._events[type] = listener; else if (isObject(this._events[type])) // If we've already got an array, just append. this._events[type].push(listener); else // Adding the second element, need to change to array. this._events[type] = [this._events[type], listener]; // Check for listener leak if (isObject(this._events[type]) && !this._events[type].warned) { var m; if (!isUndefined(this._maxListeners)) { m = this._maxListeners; } else { m = EventEmitter.defaultMaxListeners; } if (m && m > 0 && this._events[type].length > m) { this._events[type].warned = true; console.error('(node) warning: possible EventEmitter memory ' + 'leak detected. %d listeners added. ' + 'Use emitter.setMaxListeners() to increase limit.', this._events[type].length); if (typeof console.trace === 'function') { // not supported in IE 10 console.trace(); } } } return this; }; EventEmitter.prototype.on = EventEmitter.prototype.addListener; EventEmitter.prototype.once = function(type, listener) { if (!isFunction(listener)) throw TypeError('listener must be a function'); var fired = false; function g() { this.removeListener(type, g); if (!fired) { fired = true; listener.apply(this, arguments); } } g.listener = listener; this.on(type, g); return this; }; // emits a 'removeListener' event iff the listener was removed EventEmitter.prototype.removeListener = function(type, listener) { var list, position, length, i; if (!isFunction(listener)) throw TypeError('listener must be a function'); if (!this._events || !this._events[type]) return this; list = this._events[type]; length = list.length; position = -1; if (list === listener || (isFunction(list.listener) && list.listener === listener)) { delete this._events[type]; if (this._events.removeListener) this.emit('removeListener', type, listener); } else if (isObject(list)) { for (i = length; i-- > 0;) { if (list[i] === listener || (list[i].listener && list[i].listener === listener)) { position = i; break; } } if (position < 0) return this; if (list.length === 1) { list.length = 0; delete this._events[type]; } else { list.splice(position, 1); } if (this._events.removeListener) this.emit('removeListener', type, listener); } return this; }; EventEmitter.prototype.removeAllListeners = function(type) { var key, listeners; if (!this._events) return this; // not listening for removeListener, no need to emit if (!this._events.removeListener) { if (arguments.length === 0) this._events = {}; else if (this._events[type]) delete this._events[type]; return this; } // emit removeListener for all listeners on all events if (arguments.length === 0) { for (key in this._events) { if (key === 'removeListener') continue; this.removeAllListeners(key); } this.removeAllListeners('removeListener'); this._events = {}; return this; } listeners = this._events[type]; if (isFunction(listeners)) { this.removeListener(type, listeners); } else { // LIFO order while (listeners.length) this.removeListener(type, listeners[listeners.length - 1]); } delete this._events[type]; return this; }; EventEmitter.prototype.listeners = function(type) { var ret; if (!this._events || !this._events[type]) ret = []; else if (isFunction(this._events[type])) ret = [this._events[type]]; else ret = this._events[type].slice(); return ret; }; EventEmitter.listenerCount = function(emitter, type) { var ret; if (!emitter._events || !emitter._events[type]) ret = 0; else if (isFunction(emitter._events[type])) ret = 1; else ret = emitter._events[type].length; return ret; }; function isFunction(arg) { return typeof arg === 'function'; } function isNumber(arg) { return typeof arg === 'number'; } function isObject(arg) { return typeof arg === 'object' && arg !== null; } function isUndefined(arg) { return arg === void 0; } },{}],196:[function(require,module,exports){ if (typeof Object.create === 'function') { // implementation from standard node.js 'util' module module.exports = function inherits(ctor, superCtor) { ctor.super_ = superCtor ctor.prototype = Object.create(superCtor.prototype, { constructor: { value: ctor, enumerable: false, writable: true, configurable: true } }); }; } else { // old school shim for old browsers module.exports = function inherits(ctor, superCtor) { ctor.super_ = superCtor var TempCtor = function () {} TempCtor.prototype = superCtor.prototype ctor.prototype = new TempCtor() ctor.prototype.constructor = ctor } } },{}],197:[function(require,module,exports){ /** * Determine if an object is Buffer * * Author: Feross Aboukhadijeh * License: MIT * * `npm install is-buffer` */ module.exports = function (obj) { return !!(obj != null && (obj._isBuffer || // For Safari 5-7 (missing Object.prototype.constructor) (obj.constructor && typeof obj.constructor.isBuffer === 'function' && obj.constructor.isBuffer(obj)) )) } },{}],198:[function(require,module,exports){ module.exports = Array.isArray || function (arr) { return Object.prototype.toString.call(arr) == '[object Array]'; }; },{}],199:[function(require,module,exports){ // shim for using process in browser var process = module.exports = {}; process.nextTick = (function () { var canSetImmediate = typeof window !== 'undefined' && window.setImmediate; var canMutationObserver = typeof window !== 'undefined' && window.MutationObserver; var canPost = typeof window !== 'undefined' && window.postMessage && window.addEventListener ; if (canSetImmediate) { return function (f) { return window.setImmediate(f) }; } var queue = []; if (canMutationObserver) { var hiddenDiv = document.createElement("div"); var observer = new MutationObserver(function () { var queueList = queue.slice(); queue.length = 0; queueList.forEach(function (fn) { fn(); }); }); observer.observe(hiddenDiv, { attributes: true }); return function nextTick(fn) { if (!queue.length) { hiddenDiv.setAttribute('yes', 'no'); } queue.push(fn); }; } if (canPost) { window.addEventListener('message', function (ev) { var source = ev.source; if ((source === window || source === null) && ev.data === 'process-tick') { ev.stopPropagation(); if (queue.length > 0) { var fn = queue.shift(); fn(); } } }, true); return function nextTick(fn) { queue.push(fn); window.postMessage('process-tick', '*'); }; } return function nextTick(fn) { setTimeout(fn, 0); }; })(); process.title = 'browser'; process.browser = true; process.env = {}; process.argv = []; function noop() {} process.on = noop; process.addListener = noop; process.once = noop; process.off = noop; process.removeListener = noop; process.removeAllListeners = noop; process.emit = noop; process.binding = function (name) { throw new Error('process.binding is not supported'); }; // TODO(shtylman) process.cwd = function () { return '/' }; process.chdir = function (dir) { throw new Error('process.chdir is not supported'); }; },{}],200:[function(require,module,exports){ module.exports = require(201) },{"201":201}],201:[function(require,module,exports){ (function (process){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. // a duplex stream is just a stream that is both readable and writable. // Since JS doesn't have multiple prototypal inheritance, this class // prototypally inherits from Readable, and then parasitically from // Writable. module.exports = Duplex; /**/ var objectKeys = Object.keys || function (obj) { var keys = []; for (var key in obj) keys.push(key); return keys; } /**/ /**/ var util = require(206); util.inherits = require(196); /**/ var Readable = require(203); var Writable = require(205); util.inherits(Duplex, Readable); forEach(objectKeys(Writable.prototype), function(method) { if (!Duplex.prototype[method]) Duplex.prototype[method] = Writable.prototype[method]; }); function Duplex(options) { if (!(this instanceof Duplex)) return new Duplex(options); Readable.call(this, options); Writable.call(this, options); if (options && options.readable === false) this.readable = false; if (options && options.writable === false) this.writable = false; this.allowHalfOpen = true; if (options && options.allowHalfOpen === false) this.allowHalfOpen = false; this.once('end', onend); } // the no-half-open enforcer function onend() { // if we allow half-open state, or if the writable side ended, // then we're ok. if (this.allowHalfOpen || this._writableState.ended) return; // no more data can be written. // But allow more writes to happen in this tick. process.nextTick(this.end.bind(this)); } function forEach (xs, f) { for (var i = 0, l = xs.length; i < l; i++) { f(xs[i], i); } } }).call(this,require(199)) },{"196":196,"199":199,"203":203,"205":205,"206":206}],202:[function(require,module,exports){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. // a passthrough stream. // basically just the most minimal sort of Transform stream. // Every written chunk gets output as-is. module.exports = PassThrough; var Transform = require(204); /**/ var util = require(206); util.inherits = require(196); /**/ util.inherits(PassThrough, Transform); function PassThrough(options) { if (!(this instanceof PassThrough)) return new PassThrough(options); Transform.call(this, options); } PassThrough.prototype._transform = function(chunk, encoding, cb) { cb(null, chunk); }; },{"196":196,"204":204,"206":206}],203:[function(require,module,exports){ (function (process){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. module.exports = Readable; /**/ var isArray = require(198); /**/ /**/ var Buffer = require(4).Buffer; /**/ Readable.ReadableState = ReadableState; var EE = require(195).EventEmitter; /**/ if (!EE.listenerCount) EE.listenerCount = function(emitter, type) { return emitter.listeners(type).length; }; /**/ var Stream = require(211); /**/ var util = require(206); util.inherits = require(196); /**/ var StringDecoder; /**/ var debug = require(3); if (debug && debug.debuglog) { debug = debug.debuglog('stream'); } else { debug = function () {}; } /**/ util.inherits(Readable, Stream); function ReadableState(options, stream) { var Duplex = require(201); options = options || {}; // the point at which it stops calling _read() to fill the buffer // Note: 0 is a valid value, means "don't call _read preemptively ever" var hwm = options.highWaterMark; var defaultHwm = options.objectMode ? 16 : 16 * 1024; this.highWaterMark = (hwm || hwm === 0) ? hwm : defaultHwm; // cast to ints. this.highWaterMark = ~~this.highWaterMark; this.buffer = []; this.length = 0; this.pipes = null; this.pipesCount = 0; this.flowing = null; this.ended = false; this.endEmitted = false; this.reading = false; // a flag to be able to tell if the onwrite cb is called immediately, // or on a later tick. We set this to true at first, because any // actions that shouldn't happen until "later" should generally also // not happen before the first write call. this.sync = true; // whenever we return null, then we set a flag to say // that we're awaiting a 'readable' event emission. this.needReadable = false; this.emittedReadable = false; this.readableListening = false; // object stream flag. Used to make read(n) ignore n and to // make all the buffer merging and length checks go away this.objectMode = !!options.objectMode; if (stream instanceof Duplex) this.objectMode = this.objectMode || !!options.readableObjectMode; // Crypto is kind of old and crusty. Historically, its default string // encoding is 'binary' so we have to make this configurable. // Everything else in the universe uses 'utf8', though. this.defaultEncoding = options.defaultEncoding || 'utf8'; // when piping, we only care about 'readable' events that happen // after read()ing all the bytes and not getting any pushback. this.ranOut = false; // the number of writers that are awaiting a drain event in .pipe()s this.awaitDrain = 0; // if true, a maybeReadMore has been scheduled this.readingMore = false; this.decoder = null; this.encoding = null; if (options.encoding) { if (!StringDecoder) StringDecoder = require(212).StringDecoder; this.decoder = new StringDecoder(options.encoding); this.encoding = options.encoding; } } function Readable(options) { var Duplex = require(201); if (!(this instanceof Readable)) return new Readable(options); this._readableState = new ReadableState(options, this); // legacy this.readable = true; Stream.call(this); } // Manually shove something into the read() buffer. // This returns true if the highWaterMark has not been hit yet, // similar to how Writable.write() returns true if you should // write() some more. Readable.prototype.push = function(chunk, encoding) { var state = this._readableState; if (util.isString(chunk) && !state.objectMode) { encoding = encoding || state.defaultEncoding; if (encoding !== state.encoding) { chunk = new Buffer(chunk, encoding); encoding = ''; } } return readableAddChunk(this, state, chunk, encoding, false); }; // Unshift should *always* be something directly out of read() Readable.prototype.unshift = function(chunk) { var state = this._readableState; return readableAddChunk(this, state, chunk, '', true); }; function readableAddChunk(stream, state, chunk, encoding, addToFront) { var er = chunkInvalid(state, chunk); if (er) { stream.emit('error', er); } else if (util.isNullOrUndefined(chunk)) { state.reading = false; if (!state.ended) onEofChunk(stream, state); } else if (state.objectMode || chunk && chunk.length > 0) { if (state.ended && !addToFront) { var e = new Error('stream.push() after EOF'); stream.emit('error', e); } else if (state.endEmitted && addToFront) { var e = new Error('stream.unshift() after end event'); stream.emit('error', e); } else { if (state.decoder && !addToFront && !encoding) chunk = state.decoder.write(chunk); if (!addToFront) state.reading = false; // if we want the data now, just emit it. if (state.flowing && state.length === 0 && !state.sync) { stream.emit('data', chunk); stream.read(0); } else { // update the buffer info. state.length += state.objectMode ? 1 : chunk.length; if (addToFront) state.buffer.unshift(chunk); else state.buffer.push(chunk); if (state.needReadable) emitReadable(stream); } maybeReadMore(stream, state); } } else if (!addToFront) { state.reading = false; } return needMoreData(state); } // if it's past the high water mark, we can push in some more. // Also, if we have no data yet, we can stand some // more bytes. This is to work around cases where hwm=0, // such as the repl. Also, if the push() triggered a // readable event, and the user called read(largeNumber) such that // needReadable was set, then we ought to push more, so that another // 'readable' event will be triggered. function needMoreData(state) { return !state.ended && (state.needReadable || state.length < state.highWaterMark || state.length === 0); } // backwards compatibility. Readable.prototype.setEncoding = function(enc) { if (!StringDecoder) StringDecoder = require(212).StringDecoder; this._readableState.decoder = new StringDecoder(enc); this._readableState.encoding = enc; return this; }; // Don't raise the hwm > 128MB var MAX_HWM = 0x800000; function roundUpToNextPowerOf2(n) { if (n >= MAX_HWM) { n = MAX_HWM; } else { // Get the next highest power of 2 n--; for (var p = 1; p < 32; p <<= 1) n |= n >> p; n++; } return n; } function howMuchToRead(n, state) { if (state.length === 0 && state.ended) return 0; if (state.objectMode) return n === 0 ? 0 : 1; if (isNaN(n) || util.isNull(n)) { // only flow one buffer at a time if (state.flowing && state.buffer.length) return state.buffer[0].length; else return state.length; } if (n <= 0) return 0; // If we're asking for more than the target buffer level, // then raise the water mark. Bump up to the next highest // power of 2, to prevent increasing it excessively in tiny // amounts. if (n > state.highWaterMark) state.highWaterMark = roundUpToNextPowerOf2(n); // don't have that much. return null, unless we've ended. if (n > state.length) { if (!state.ended) { state.needReadable = true; return 0; } else return state.length; } return n; } // you can override either this method, or the async _read(n) below. Readable.prototype.read = function(n) { debug('read', n); var state = this._readableState; var nOrig = n; if (!util.isNumber(n) || n > 0) state.emittedReadable = false; // if we're doing read(0) to trigger a readable event, but we // already have a bunch of data in the buffer, then just trigger // the 'readable' event and move on. if (n === 0 && state.needReadable && (state.length >= state.highWaterMark || state.ended)) { debug('read: emitReadable', state.length, state.ended); if (state.length === 0 && state.ended) endReadable(this); else emitReadable(this); return null; } n = howMuchToRead(n, state); // if we've ended, and we're now clear, then finish it up. if (n === 0 && state.ended) { if (state.length === 0) endReadable(this); return null; } // All the actual chunk generation logic needs to be // *below* the call to _read. The reason is that in certain // synthetic stream cases, such as passthrough streams, _read // may be a completely synchronous operation which may change // the state of the read buffer, providing enough data when // before there was *not* enough. // // So, the steps are: // 1. Figure out what the state of things will be after we do // a read from the buffer. // // 2. If that resulting state will trigger a _read, then call _read. // Note that this may be asynchronous, or synchronous. Yes, it is // deeply ugly to write APIs this way, but that still doesn't mean // that the Readable class should behave improperly, as streams are // designed to be sync/async agnostic. // Take note if the _read call is sync or async (ie, if the read call // has returned yet), so that we know whether or not it's safe to emit // 'readable' etc. // // 3. Actually pull the requested chunks out of the buffer and return. // if we need a readable event, then we need to do some reading. var doRead = state.needReadable; debug('need readable', doRead); // if we currently have less than the highWaterMark, then also read some if (state.length === 0 || state.length - n < state.highWaterMark) { doRead = true; debug('length less than watermark', doRead); } // however, if we've ended, then there's no point, and if we're already // reading, then it's unnecessary. if (state.ended || state.reading) { doRead = false; debug('reading or ended', doRead); } if (doRead) { debug('do read'); state.reading = true; state.sync = true; // if the length is currently zero, then we *need* a readable event. if (state.length === 0) state.needReadable = true; // call internal read method this._read(state.highWaterMark); state.sync = false; } // If _read pushed data synchronously, then `reading` will be false, // and we need to re-evaluate how much data we can return to the user. if (doRead && !state.reading) n = howMuchToRead(nOrig, state); var ret; if (n > 0) ret = fromList(n, state); else ret = null; if (util.isNull(ret)) { state.needReadable = true; n = 0; } state.length -= n; // If we have nothing in the buffer, then we want to know // as soon as we *do* get something into the buffer. if (state.length === 0 && !state.ended) state.needReadable = true; // If we tried to read() past the EOF, then emit end on the next tick. if (nOrig !== n && state.ended && state.length === 0) endReadable(this); if (!util.isNull(ret)) this.emit('data', ret); return ret; }; function chunkInvalid(state, chunk) { var er = null; if (!util.isBuffer(chunk) && !util.isString(chunk) && !util.isNullOrUndefined(chunk) && !state.objectMode) { er = new TypeError('Invalid non-string/buffer chunk'); } return er; } function onEofChunk(stream, state) { if (state.decoder && !state.ended) { var chunk = state.decoder.end(); if (chunk && chunk.length) { state.buffer.push(chunk); state.length += state.objectMode ? 1 : chunk.length; } } state.ended = true; // emit 'readable' now to make sure it gets picked up. emitReadable(stream); } // Don't emit readable right away in sync mode, because this can trigger // another read() call => stack overflow. This way, it might trigger // a nextTick recursion warning, but that's not so bad. function emitReadable(stream) { var state = stream._readableState; state.needReadable = false; if (!state.emittedReadable) { debug('emitReadable', state.flowing); state.emittedReadable = true; if (state.sync) process.nextTick(function() { emitReadable_(stream); }); else emitReadable_(stream); } } function emitReadable_(stream) { debug('emit readable'); stream.emit('readable'); flow(stream); } // at this point, the user has presumably seen the 'readable' event, // and called read() to consume some data. that may have triggered // in turn another _read(n) call, in which case reading = true if // it's in progress. // However, if we're not ended, or reading, and the length < hwm, // then go ahead and try to read some more preemptively. function maybeReadMore(stream, state) { if (!state.readingMore) { state.readingMore = true; process.nextTick(function() { maybeReadMore_(stream, state); }); } } function maybeReadMore_(stream, state) { var len = state.length; while (!state.reading && !state.flowing && !state.ended && state.length < state.highWaterMark) { debug('maybeReadMore read 0'); stream.read(0); if (len === state.length) // didn't get any data, stop spinning. break; else len = state.length; } state.readingMore = false; } // abstract method. to be overridden in specific implementation classes. // call cb(er, data) where data is <= n in length. // for virtual (non-string, non-buffer) streams, "length" is somewhat // arbitrary, and perhaps not very meaningful. Readable.prototype._read = function(n) { this.emit('error', new Error('not implemented')); }; Readable.prototype.pipe = function(dest, pipeOpts) { var src = this; var state = this._readableState; switch (state.pipesCount) { case 0: state.pipes = dest; break; case 1: state.pipes = [state.pipes, dest]; break; default: state.pipes.push(dest); break; } state.pipesCount += 1; debug('pipe count=%d opts=%j', state.pipesCount, pipeOpts); var doEnd = (!pipeOpts || pipeOpts.end !== false) && dest !== process.stdout && dest !== process.stderr; var endFn = doEnd ? onend : cleanup; if (state.endEmitted) process.nextTick(endFn); else src.once('end', endFn); dest.on('unpipe', onunpipe); function onunpipe(readable) { debug('onunpipe'); if (readable === src) { cleanup(); } } function onend() { debug('onend'); dest.end(); } // when the dest drains, it reduces the awaitDrain counter // on the source. This would be more elegant with a .once() // handler in flow(), but adding and removing repeatedly is // too slow. var ondrain = pipeOnDrain(src); dest.on('drain', ondrain); function cleanup() { debug('cleanup'); // cleanup event handlers once the pipe is broken dest.removeListener('close', onclose); dest.removeListener('finish', onfinish); dest.removeListener('drain', ondrain); dest.removeListener('error', onerror); dest.removeListener('unpipe', onunpipe); src.removeListener('end', onend); src.removeListener('end', cleanup); src.removeListener('data', ondata); // if the reader is waiting for a drain event from this // specific writer, then it would cause it to never start // flowing again. // So, if this is awaiting a drain, then we just call it now. // If we don't know, then assume that we are waiting for one. if (state.awaitDrain && (!dest._writableState || dest._writableState.needDrain)) ondrain(); } src.on('data', ondata); function ondata(chunk) { debug('ondata'); var ret = dest.write(chunk); if (false === ret) { debug('false write response, pause', src._readableState.awaitDrain); src._readableState.awaitDrain++; src.pause(); } } // if the dest has an error, then stop piping into it. // however, don't suppress the throwing behavior for this. function onerror(er) { debug('onerror', er); unpipe(); dest.removeListener('error', onerror); if (EE.listenerCount(dest, 'error') === 0) dest.emit('error', er); } // This is a brutally ugly hack to make sure that our error handler // is attached before any userland ones. NEVER DO THIS. if (!dest._events || !dest._events.error) dest.on('error', onerror); else if (isArray(dest._events.error)) dest._events.error.unshift(onerror); else dest._events.error = [onerror, dest._events.error]; // Both close and finish should trigger unpipe, but only once. function onclose() { dest.removeListener('finish', onfinish); unpipe(); } dest.once('close', onclose); function onfinish() { debug('onfinish'); dest.removeListener('close', onclose); unpipe(); } dest.once('finish', onfinish); function unpipe() { debug('unpipe'); src.unpipe(dest); } // tell the dest that it's being piped to dest.emit('pipe', src); // start the flow if it hasn't been started already. if (!state.flowing) { debug('pipe resume'); src.resume(); } return dest; }; function pipeOnDrain(src) { return function() { var state = src._readableState; debug('pipeOnDrain', state.awaitDrain); if (state.awaitDrain) state.awaitDrain--; if (state.awaitDrain === 0 && EE.listenerCount(src, 'data')) { state.flowing = true; flow(src); } }; } Readable.prototype.unpipe = function(dest) { var state = this._readableState; // if we're not piping anywhere, then do nothing. if (state.pipesCount === 0) return this; // just one destination. most common case. if (state.pipesCount === 1) { // passed in one, but it's not the right one. if (dest && dest !== state.pipes) return this; if (!dest) dest = state.pipes; // got a match. state.pipes = null; state.pipesCount = 0; state.flowing = false; if (dest) dest.emit('unpipe', this); return this; } // slow case. multiple pipe destinations. if (!dest) { // remove all. var dests = state.pipes; var len = state.pipesCount; state.pipes = null; state.pipesCount = 0; state.flowing = false; for (var i = 0; i < len; i++) dests[i].emit('unpipe', this); return this; } // try to find the right one. var i = indexOf(state.pipes, dest); if (i === -1) return this; state.pipes.splice(i, 1); state.pipesCount -= 1; if (state.pipesCount === 1) state.pipes = state.pipes[0]; dest.emit('unpipe', this); return this; }; // set up data events if they are asked for // Ensure readable listeners eventually get something Readable.prototype.on = function(ev, fn) { var res = Stream.prototype.on.call(this, ev, fn); // If listening to data, and it has not explicitly been paused, // then call resume to start the flow of data on the next tick. if (ev === 'data' && false !== this._readableState.flowing) { this.resume(); } if (ev === 'readable' && this.readable) { var state = this._readableState; if (!state.readableListening) { state.readableListening = true; state.emittedReadable = false; state.needReadable = true; if (!state.reading) { var self = this; process.nextTick(function() { debug('readable nexttick read 0'); self.read(0); }); } else if (state.length) { emitReadable(this, state); } } } return res; }; Readable.prototype.addListener = Readable.prototype.on; // pause() and resume() are remnants of the legacy readable stream API // If the user uses them, then switch into old mode. Readable.prototype.resume = function() { var state = this._readableState; if (!state.flowing) { debug('resume'); state.flowing = true; if (!state.reading) { debug('resume read 0'); this.read(0); } resume(this, state); } return this; }; function resume(stream, state) { if (!state.resumeScheduled) { state.resumeScheduled = true; process.nextTick(function() { resume_(stream, state); }); } } function resume_(stream, state) { state.resumeScheduled = false; stream.emit('resume'); flow(stream); if (state.flowing && !state.reading) stream.read(0); } Readable.prototype.pause = function() { debug('call pause flowing=%j', this._readableState.flowing); if (false !== this._readableState.flowing) { debug('pause'); this._readableState.flowing = false; this.emit('pause'); } return this; }; function flow(stream) { var state = stream._readableState; debug('flow', state.flowing); if (state.flowing) { do { var chunk = stream.read(); } while (null !== chunk && state.flowing); } } // wrap an old-style stream as the async data source. // This is *not* part of the readable stream interface. // It is an ugly unfortunate mess of history. Readable.prototype.wrap = function(stream) { var state = this._readableState; var paused = false; var self = this; stream.on('end', function() { debug('wrapped end'); if (state.decoder && !state.ended) { var chunk = state.decoder.end(); if (chunk && chunk.length) self.push(chunk); } self.push(null); }); stream.on('data', function(chunk) { debug('wrapped data'); if (state.decoder) chunk = state.decoder.write(chunk); if (!chunk || !state.objectMode && !chunk.length) return; var ret = self.push(chunk); if (!ret) { paused = true; stream.pause(); } }); // proxy all the other methods. // important when wrapping filters and duplexes. for (var i in stream) { if (util.isFunction(stream[i]) && util.isUndefined(this[i])) { this[i] = function(method) { return function() { return stream[method].apply(stream, arguments); }}(i); } } // proxy certain important events. var events = ['error', 'close', 'destroy', 'pause', 'resume']; forEach(events, function(ev) { stream.on(ev, self.emit.bind(self, ev)); }); // when we try to consume some more bytes, simply unpause the // underlying stream. self._read = function(n) { debug('wrapped _read', n); if (paused) { paused = false; stream.resume(); } }; return self; }; // exposed for testing purposes only. Readable._fromList = fromList; // Pluck off n bytes from an array of buffers. // Length is the combined lengths of all the buffers in the list. function fromList(n, state) { var list = state.buffer; var length = state.length; var stringMode = !!state.decoder; var objectMode = !!state.objectMode; var ret; // nothing in the list, definitely empty. if (list.length === 0) return null; if (length === 0) ret = null; else if (objectMode) ret = list.shift(); else if (!n || n >= length) { // read it all, truncate the array. if (stringMode) ret = list.join(''); else ret = Buffer.concat(list, length); list.length = 0; } else { // read just some of it. if (n < list[0].length) { // just take a part of the first list item. // slice is the same for buffers and strings. var buf = list[0]; ret = buf.slice(0, n); list[0] = buf.slice(n); } else if (n === list[0].length) { // first list is a perfect match ret = list.shift(); } else { // complex case. // we have enough to cover it, but it spans past the first buffer. if (stringMode) ret = ''; else ret = new Buffer(n); var c = 0; for (var i = 0, l = list.length; i < l && c < n; i++) { var buf = list[0]; var cpy = Math.min(n - c, buf.length); if (stringMode) ret += buf.slice(0, cpy); else buf.copy(ret, c, 0, cpy); if (cpy < buf.length) list[0] = buf.slice(cpy); else list.shift(); c += cpy; } } } return ret; } function endReadable(stream) { var state = stream._readableState; // If we get here before consuming all the bytes, then that is a // bug in node. Should never happen. if (state.length > 0) throw new Error('endReadable called on non-empty stream'); if (!state.endEmitted) { state.ended = true; process.nextTick(function() { // Check that we didn't get one last unshift. if (!state.endEmitted && state.length === 0) { state.endEmitted = true; stream.readable = false; stream.emit('end'); } }); } } function forEach (xs, f) { for (var i = 0, l = xs.length; i < l; i++) { f(xs[i], i); } } function indexOf (xs, x) { for (var i = 0, l = xs.length; i < l; i++) { if (xs[i] === x) return i; } return -1; } }).call(this,require(199)) },{"195":195,"196":196,"198":198,"199":199,"201":201,"206":206,"211":211,"212":212,"3":3,"4":4}],204:[function(require,module,exports){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. // a transform stream is a readable/writable stream where you do // something with the data. Sometimes it's called a "filter", // but that's not a great name for it, since that implies a thing where // some bits pass through, and others are simply ignored. (That would // be a valid example of a transform, of course.) // // While the output is causally related to the input, it's not a // necessarily symmetric or synchronous transformation. For example, // a zlib stream might take multiple plain-text writes(), and then // emit a single compressed chunk some time in the future. // // Here's how this works: // // The Transform stream has all the aspects of the readable and writable // stream classes. When you write(chunk), that calls _write(chunk,cb) // internally, and returns false if there's a lot of pending writes // buffered up. When you call read(), that calls _read(n) until // there's enough pending readable data buffered up. // // In a transform stream, the written data is placed in a buffer. When // _read(n) is called, it transforms the queued up data, calling the // buffered _write cb's as it consumes chunks. If consuming a single // written chunk would result in multiple output chunks, then the first // outputted bit calls the readcb, and subsequent chunks just go into // the read buffer, and will cause it to emit 'readable' if necessary. // // This way, back-pressure is actually determined by the reading side, // since _read has to be called to start processing a new chunk. However, // a pathological inflate type of transform can cause excessive buffering // here. For example, imagine a stream where every byte of input is // interpreted as an integer from 0-255, and then results in that many // bytes of output. Writing the 4 bytes {ff,ff,ff,ff} would result in // 1kb of data being output. In this case, you could write a very small // amount of input, and end up with a very large amount of output. In // such a pathological inflating mechanism, there'd be no way to tell // the system to stop doing the transform. A single 4MB write could // cause the system to run out of memory. // // However, even in such a pathological case, only a single written chunk // would be consumed, and then the rest would wait (un-transformed) until // the results of the previous transformed chunk were consumed. module.exports = Transform; var Duplex = require(201); /**/ var util = require(206); util.inherits = require(196); /**/ util.inherits(Transform, Duplex); function TransformState(options, stream) { this.afterTransform = function(er, data) { return afterTransform(stream, er, data); }; this.needTransform = false; this.transforming = false; this.writecb = null; this.writechunk = null; } function afterTransform(stream, er, data) { var ts = stream._transformState; ts.transforming = false; var cb = ts.writecb; if (!cb) return stream.emit('error', new Error('no writecb in Transform class')); ts.writechunk = null; ts.writecb = null; if (!util.isNullOrUndefined(data)) stream.push(data); if (cb) cb(er); var rs = stream._readableState; rs.reading = false; if (rs.needReadable || rs.length < rs.highWaterMark) { stream._read(rs.highWaterMark); } } function Transform(options) { if (!(this instanceof Transform)) return new Transform(options); Duplex.call(this, options); this._transformState = new TransformState(options, this); // when the writable side finishes, then flush out anything remaining. var stream = this; // start out asking for a readable event once data is transformed. this._readableState.needReadable = true; // we have implemented the _read method, and done the other things // that Readable wants before the first _read call, so unset the // sync guard flag. this._readableState.sync = false; this.once('prefinish', function() { if (util.isFunction(this._flush)) this._flush(function(er) { done(stream, er); }); else done(stream); }); } Transform.prototype.push = function(chunk, encoding) { this._transformState.needTransform = false; return Duplex.prototype.push.call(this, chunk, encoding); }; // This is the part where you do stuff! // override this function in implementation classes. // 'chunk' is an input chunk. // // Call `push(newChunk)` to pass along transformed output // to the readable side. You may call 'push' zero or more times. // // Call `cb(err)` when you are done with this chunk. If you pass // an error, then that'll put the hurt on the whole operation. If you // never call cb(), then you'll never get another chunk. Transform.prototype._transform = function(chunk, encoding, cb) { throw new Error('not implemented'); }; Transform.prototype._write = function(chunk, encoding, cb) { var ts = this._transformState; ts.writecb = cb; ts.writechunk = chunk; ts.writeencoding = encoding; if (!ts.transforming) { var rs = this._readableState; if (ts.needTransform || rs.needReadable || rs.length < rs.highWaterMark) this._read(rs.highWaterMark); } }; // Doesn't matter what the args are here. // _transform does all the work. // That we got here means that the readable side wants more data. Transform.prototype._read = function(n) { var ts = this._transformState; if (!util.isNull(ts.writechunk) && ts.writecb && !ts.transforming) { ts.transforming = true; this._transform(ts.writechunk, ts.writeencoding, ts.afterTransform); } else { // mark that we need a transform, so that any data that comes in // will get processed, now that we've asked for it. ts.needTransform = true; } }; function done(stream, er) { if (er) return stream.emit('error', er); // if there's nothing in the write buffer, then that means // that nothing more will ever be provided var ws = stream._writableState; var ts = stream._transformState; if (ws.length) throw new Error('calling transform done when ws.length != 0'); if (ts.transforming) throw new Error('calling transform done when still transforming'); return stream.push(null); } },{"196":196,"201":201,"206":206}],205:[function(require,module,exports){ (function (process){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. // A bit simpler than readable streams. // Implement an async ._write(chunk, cb), and it'll handle all // the drain event emission and buffering. module.exports = Writable; /**/ var Buffer = require(4).Buffer; /**/ Writable.WritableState = WritableState; /**/ var util = require(206); util.inherits = require(196); /**/ var Stream = require(211); util.inherits(Writable, Stream); function WriteReq(chunk, encoding, cb) { this.chunk = chunk; this.encoding = encoding; this.callback = cb; } function WritableState(options, stream) { var Duplex = require(201); options = options || {}; // the point at which write() starts returning false // Note: 0 is a valid value, means that we always return false if // the entire buffer is not flushed immediately on write() var hwm = options.highWaterMark; var defaultHwm = options.objectMode ? 16 : 16 * 1024; this.highWaterMark = (hwm || hwm === 0) ? hwm : defaultHwm; // object stream flag to indicate whether or not this stream // contains buffers or objects. this.objectMode = !!options.objectMode; if (stream instanceof Duplex) this.objectMode = this.objectMode || !!options.writableObjectMode; // cast to ints. this.highWaterMark = ~~this.highWaterMark; this.needDrain = false; // at the start of calling end() this.ending = false; // when end() has been called, and returned this.ended = false; // when 'finish' is emitted this.finished = false; // should we decode strings into buffers before passing to _write? // this is here so that some node-core streams can optimize string // handling at a lower level. var noDecode = options.decodeStrings === false; this.decodeStrings = !noDecode; // Crypto is kind of old and crusty. Historically, its default string // encoding is 'binary' so we have to make this configurable. // Everything else in the universe uses 'utf8', though. this.defaultEncoding = options.defaultEncoding || 'utf8'; // not an actual buffer we keep track of, but a measurement // of how much we're waiting to get pushed to some underlying // socket or file. this.length = 0; // a flag to see when we're in the middle of a write. this.writing = false; // when true all writes will be buffered until .uncork() call this.corked = 0; // a flag to be able to tell if the onwrite cb is called immediately, // or on a later tick. We set this to true at first, because any // actions that shouldn't happen until "later" should generally also // not happen before the first write call. this.sync = true; // a flag to know if we're processing previously buffered items, which // may call the _write() callback in the same tick, so that we don't // end up in an overlapped onwrite situation. this.bufferProcessing = false; // the callback that's passed to _write(chunk,cb) this.onwrite = function(er) { onwrite(stream, er); }; // the callback that the user supplies to write(chunk,encoding,cb) this.writecb = null; // the amount that is being written when _write is called. this.writelen = 0; this.buffer = []; // number of pending user-supplied write callbacks // this must be 0 before 'finish' can be emitted this.pendingcb = 0; // emit prefinish if the only thing we're waiting for is _write cbs // This is relevant for synchronous Transform streams this.prefinished = false; // True if the error was already emitted and should not be thrown again this.errorEmitted = false; } function Writable(options) { var Duplex = require(201); // Writable ctor is applied to Duplexes, though they're not // instanceof Writable, they're instanceof Readable. if (!(this instanceof Writable) && !(this instanceof Duplex)) return new Writable(options); this._writableState = new WritableState(options, this); // legacy. this.writable = true; Stream.call(this); } // Otherwise people can pipe Writable streams, which is just wrong. Writable.prototype.pipe = function() { this.emit('error', new Error('Cannot pipe. Not readable.')); }; function writeAfterEnd(stream, state, cb) { var er = new Error('write after end'); // TODO: defer error events consistently everywhere, not just the cb stream.emit('error', er); process.nextTick(function() { cb(er); }); } // If we get something that is not a buffer, string, null, or undefined, // and we're not in objectMode, then that's an error. // Otherwise stream chunks are all considered to be of length=1, and the // watermarks determine how many objects to keep in the buffer, rather than // how many bytes or characters. function validChunk(stream, state, chunk, cb) { var valid = true; if (!util.isBuffer(chunk) && !util.isString(chunk) && !util.isNullOrUndefined(chunk) && !state.objectMode) { var er = new TypeError('Invalid non-string/buffer chunk'); stream.emit('error', er); process.nextTick(function() { cb(er); }); valid = false; } return valid; } Writable.prototype.write = function(chunk, encoding, cb) { var state = this._writableState; var ret = false; if (util.isFunction(encoding)) { cb = encoding; encoding = null; } if (util.isBuffer(chunk)) encoding = 'buffer'; else if (!encoding) encoding = state.defaultEncoding; if (!util.isFunction(cb)) cb = function() {}; if (state.ended) writeAfterEnd(this, state, cb); else if (validChunk(this, state, chunk, cb)) { state.pendingcb++; ret = writeOrBuffer(this, state, chunk, encoding, cb); } return ret; }; Writable.prototype.cork = function() { var state = this._writableState; state.corked++; }; Writable.prototype.uncork = function() { var state = this._writableState; if (state.corked) { state.corked--; if (!state.writing && !state.corked && !state.finished && !state.bufferProcessing && state.buffer.length) clearBuffer(this, state); } }; function decodeChunk(state, chunk, encoding) { if (!state.objectMode && state.decodeStrings !== false && util.isString(chunk)) { chunk = new Buffer(chunk, encoding); } return chunk; } // if we're already writing something, then just put this // in the queue, and wait our turn. Otherwise, call _write // If we return false, then we need a drain event, so set that flag. function writeOrBuffer(stream, state, chunk, encoding, cb) { chunk = decodeChunk(state, chunk, encoding); if (util.isBuffer(chunk)) encoding = 'buffer'; var len = state.objectMode ? 1 : chunk.length; state.length += len; var ret = state.length < state.highWaterMark; // we must ensure that previous needDrain will not be reset to false. if (!ret) state.needDrain = true; if (state.writing || state.corked) state.buffer.push(new WriteReq(chunk, encoding, cb)); else doWrite(stream, state, false, len, chunk, encoding, cb); return ret; } function doWrite(stream, state, writev, len, chunk, encoding, cb) { state.writelen = len; state.writecb = cb; state.writing = true; state.sync = true; if (writev) stream._writev(chunk, state.onwrite); else stream._write(chunk, encoding, state.onwrite); state.sync = false; } function onwriteError(stream, state, sync, er, cb) { if (sync) process.nextTick(function() { state.pendingcb--; cb(er); }); else { state.pendingcb--; cb(er); } stream._writableState.errorEmitted = true; stream.emit('error', er); } function onwriteStateUpdate(state) { state.writing = false; state.writecb = null; state.length -= state.writelen; state.writelen = 0; } function onwrite(stream, er) { var state = stream._writableState; var sync = state.sync; var cb = state.writecb; onwriteStateUpdate(state); if (er) onwriteError(stream, state, sync, er, cb); else { // Check if we're actually ready to finish, but don't emit yet var finished = needFinish(stream, state); if (!finished && !state.corked && !state.bufferProcessing && state.buffer.length) { clearBuffer(stream, state); } if (sync) { process.nextTick(function() { afterWrite(stream, state, finished, cb); }); } else { afterWrite(stream, state, finished, cb); } } } function afterWrite(stream, state, finished, cb) { if (!finished) onwriteDrain(stream, state); state.pendingcb--; cb(); finishMaybe(stream, state); } // Must force callback to be called on nextTick, so that we don't // emit 'drain' before the write() consumer gets the 'false' return // value, and has a chance to attach a 'drain' listener. function onwriteDrain(stream, state) { if (state.length === 0 && state.needDrain) { state.needDrain = false; stream.emit('drain'); } } // if there's something in the buffer waiting, then process it function clearBuffer(stream, state) { state.bufferProcessing = true; if (stream._writev && state.buffer.length > 1) { // Fast case, write everything using _writev() var cbs = []; for (var c = 0; c < state.buffer.length; c++) cbs.push(state.buffer[c].callback); // count the one we are adding, as well. // TODO(isaacs) clean this up state.pendingcb++; doWrite(stream, state, true, state.length, state.buffer, '', function(err) { for (var i = 0; i < cbs.length; i++) { state.pendingcb--; cbs[i](err); } }); // Clear buffer state.buffer = []; } else { // Slow case, write chunks one-by-one for (var c = 0; c < state.buffer.length; c++) { var entry = state.buffer[c]; var chunk = entry.chunk; var encoding = entry.encoding; var cb = entry.callback; var len = state.objectMode ? 1 : chunk.length; doWrite(stream, state, false, len, chunk, encoding, cb); // if we didn't call the onwrite immediately, then // it means that we need to wait until it does. // also, that means that the chunk and cb are currently // being processed, so move the buffer counter past them. if (state.writing) { c++; break; } } if (c < state.buffer.length) state.buffer = state.buffer.slice(c); else state.buffer.length = 0; } state.bufferProcessing = false; } Writable.prototype._write = function(chunk, encoding, cb) { cb(new Error('not implemented')); }; Writable.prototype._writev = null; Writable.prototype.end = function(chunk, encoding, cb) { var state = this._writableState; if (util.isFunction(chunk)) { cb = chunk; chunk = null; encoding = null; } else if (util.isFunction(encoding)) { cb = encoding; encoding = null; } if (!util.isNullOrUndefined(chunk)) this.write(chunk, encoding); // .end() fully uncorks if (state.corked) { state.corked = 1; this.uncork(); } // ignore unnecessary end() calls. if (!state.ending && !state.finished) endWritable(this, state, cb); }; function needFinish(stream, state) { return (state.ending && state.length === 0 && !state.finished && !state.writing); } function prefinish(stream, state) { if (!state.prefinished) { state.prefinished = true; stream.emit('prefinish'); } } function finishMaybe(stream, state) { var need = needFinish(stream, state); if (need) { if (state.pendingcb === 0) { prefinish(stream, state); state.finished = true; stream.emit('finish'); } else prefinish(stream, state); } return need; } function endWritable(stream, state, cb) { state.ending = true; finishMaybe(stream, state); if (cb) { if (state.finished) process.nextTick(cb); else stream.once('finish', cb); } state.ended = true; } }).call(this,require(199)) },{"196":196,"199":199,"201":201,"206":206,"211":211,"4":4}],206:[function(require,module,exports){ (function (Buffer){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. // NOTE: These type checking functions intentionally don't use `instanceof` // because it is fragile and can be easily faked with `Object.create()`. function isArray(ar) { return Array.isArray(ar); } exports.isArray = isArray; function isBoolean(arg) { return typeof arg === 'boolean'; } exports.isBoolean = isBoolean; function isNull(arg) { return arg === null; } exports.isNull = isNull; function isNullOrUndefined(arg) { return arg == null; } exports.isNullOrUndefined = isNullOrUndefined; function isNumber(arg) { return typeof arg === 'number'; } exports.isNumber = isNumber; function isString(arg) { return typeof arg === 'string'; } exports.isString = isString; function isSymbol(arg) { return typeof arg === 'symbol'; } exports.isSymbol = isSymbol; function isUndefined(arg) { return arg === void 0; } exports.isUndefined = isUndefined; function isRegExp(re) { return isObject(re) && objectToString(re) === '[object RegExp]'; } exports.isRegExp = isRegExp; function isObject(arg) { return typeof arg === 'object' && arg !== null; } exports.isObject = isObject; function isDate(d) { return isObject(d) && objectToString(d) === '[object Date]'; } exports.isDate = isDate; function isError(e) { return isObject(e) && (objectToString(e) === '[object Error]' || e instanceof Error); } exports.isError = isError; function isFunction(arg) { return typeof arg === 'function'; } exports.isFunction = isFunction; function isPrimitive(arg) { return arg === null || typeof arg === 'boolean' || typeof arg === 'number' || typeof arg === 'string' || typeof arg === 'symbol' || // ES6 symbol typeof arg === 'undefined'; } exports.isPrimitive = isPrimitive; function isBuffer(arg) { return Buffer.isBuffer(arg); } exports.isBuffer = isBuffer; function objectToString(o) { return Object.prototype.toString.call(o); } }).call(this,{"isBuffer":require(197)}) },{"197":197}],207:[function(require,module,exports){ module.exports = require(202) },{"202":202}],208:[function(require,module,exports){ exports = module.exports = require(203); exports.Stream = require(211); exports.Readable = exports; exports.Writable = require(205); exports.Duplex = require(201); exports.Transform = require(204); exports.PassThrough = require(202); },{"201":201,"202":202,"203":203,"204":204,"205":205,"211":211}],209:[function(require,module,exports){ module.exports = require(204) },{"204":204}],210:[function(require,module,exports){ module.exports = require(205) },{"205":205}],211:[function(require,module,exports){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. module.exports = Stream; var EE = require(195).EventEmitter; var inherits = require(196); inherits(Stream, EE); Stream.Readable = require(208); Stream.Writable = require(210); Stream.Duplex = require(200); Stream.Transform = require(209); Stream.PassThrough = require(207); // Backwards-compat with node 0.4.x Stream.Stream = Stream; // old-style streams. Note that the pipe method (the only relevant // part of this class) is overridden in the Readable class. function Stream() { EE.call(this); } Stream.prototype.pipe = function(dest, options) { var source = this; function ondata(chunk) { if (dest.writable) { if (false === dest.write(chunk) && source.pause) { source.pause(); } } } source.on('data', ondata); function ondrain() { if (source.readable && source.resume) { source.resume(); } } dest.on('drain', ondrain); // If the 'end' option is not supplied, dest.end() will be called when // source gets the 'end' or 'close' events. Only dest.end() once. if (!dest._isStdio && (!options || options.end !== false)) { source.on('end', onend); source.on('close', onclose); } var didOnEnd = false; function onend() { if (didOnEnd) return; didOnEnd = true; dest.end(); } function onclose() { if (didOnEnd) return; didOnEnd = true; if (typeof dest.destroy === 'function') dest.destroy(); } // don't leave dangling pipes when there are errors. function onerror(er) { cleanup(); if (EE.listenerCount(this, 'error') === 0) { throw er; // Unhandled stream error in pipe. } } source.on('error', onerror); dest.on('error', onerror); // remove all the event listeners that were added. function cleanup() { source.removeListener('data', ondata); dest.removeListener('drain', ondrain); source.removeListener('end', onend); source.removeListener('close', onclose); source.removeListener('error', onerror); dest.removeListener('error', onerror); source.removeListener('end', cleanup); source.removeListener('close', cleanup); dest.removeListener('close', cleanup); } source.on('end', cleanup); source.on('close', cleanup); dest.on('close', cleanup); dest.emit('pipe', source); // Allow for unix-like usage: A.pipe(B).pipe(C) return dest; }; },{"195":195,"196":196,"200":200,"207":207,"208":208,"209":209,"210":210}],212:[function(require,module,exports){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. var Buffer = require(4).Buffer; var isBufferEncoding = Buffer.isEncoding || function(encoding) { switch (encoding && encoding.toLowerCase()) { case 'hex': case 'utf8': case 'utf-8': case 'ascii': case 'binary': case 'base64': case 'ucs2': case 'ucs-2': case 'utf16le': case 'utf-16le': case 'raw': return true; default: return false; } } function assertEncoding(encoding) { if (encoding && !isBufferEncoding(encoding)) { throw new Error('Unknown encoding: ' + encoding); } } // StringDecoder provides an interface for efficiently splitting a series of // buffers into a series of JS strings without breaking apart multi-byte // characters. CESU-8 is handled as part of the UTF-8 encoding. // // @TODO Handling all encodings inside a single object makes it very difficult // to reason about this code, so it should be split up in the future. // @TODO There should be a utf8-strict encoding that rejects invalid UTF-8 code // points as used by CESU-8. var StringDecoder = exports.StringDecoder = function(encoding) { this.encoding = (encoding || 'utf8').toLowerCase().replace(/[-_]/, ''); assertEncoding(encoding); switch (this.encoding) { case 'utf8': // CESU-8 represents each of Surrogate Pair by 3-bytes this.surrogateSize = 3; break; case 'ucs2': case 'utf16le': // UTF-16 represents each of Surrogate Pair by 2-bytes this.surrogateSize = 2; this.detectIncompleteChar = utf16DetectIncompleteChar; break; case 'base64': // Base-64 stores 3 bytes in 4 chars, and pads the remainder. this.surrogateSize = 3; this.detectIncompleteChar = base64DetectIncompleteChar; break; default: this.write = passThroughWrite; return; } // Enough space to store all bytes of a single character. UTF-8 needs 4 // bytes, but CESU-8 may require up to 6 (3 bytes per surrogate). this.charBuffer = new Buffer(6); // Number of bytes received for the current incomplete multi-byte character. this.charReceived = 0; // Number of bytes expected for the current incomplete multi-byte character. this.charLength = 0; }; // write decodes the given buffer and returns it as JS string that is // guaranteed to not contain any partial multi-byte characters. Any partial // character found at the end of the buffer is buffered up, and will be // returned when calling write again with the remaining bytes. // // Note: Converting a Buffer containing an orphan surrogate to a String // currently works, but converting a String to a Buffer (via `new Buffer`, or // Buffer#write) will replace incomplete surrogates with the unicode // replacement character. See https://codereview.chromium.org/121173009/ . StringDecoder.prototype.write = function(buffer) { var charStr = ''; // if our last write ended with an incomplete multibyte character while (this.charLength) { // determine how many remaining bytes this buffer has to offer for this char var available = (buffer.length >= this.charLength - this.charReceived) ? this.charLength - this.charReceived : buffer.length; // add the new bytes to the char buffer buffer.copy(this.charBuffer, this.charReceived, 0, available); this.charReceived += available; if (this.charReceived < this.charLength) { // still not enough chars in this buffer? wait for more ... return ''; } // remove bytes belonging to the current character from the buffer buffer = buffer.slice(available, buffer.length); // get the character that was split charStr = this.charBuffer.slice(0, this.charLength).toString(this.encoding); // CESU-8: lead surrogate (D800-DBFF) is also the incomplete character var charCode = charStr.charCodeAt(charStr.length - 1); if (charCode >= 0xD800 && charCode <= 0xDBFF) { this.charLength += this.surrogateSize; charStr = ''; continue; } this.charReceived = this.charLength = 0; // if there are no more bytes in this buffer, just emit our char if (buffer.length === 0) { return charStr; } break; } // determine and set charLength / charReceived this.detectIncompleteChar(buffer); var end = buffer.length; if (this.charLength) { // buffer the incomplete character bytes we got buffer.copy(this.charBuffer, 0, buffer.length - this.charReceived, end); end -= this.charReceived; } charStr += buffer.toString(this.encoding, 0, end); var end = charStr.length - 1; var charCode = charStr.charCodeAt(end); // CESU-8: lead surrogate (D800-DBFF) is also the incomplete character if (charCode >= 0xD800 && charCode <= 0xDBFF) { var size = this.surrogateSize; this.charLength += size; this.charReceived += size; this.charBuffer.copy(this.charBuffer, size, 0, size); buffer.copy(this.charBuffer, 0, 0, size); return charStr.substring(0, end); } // or just emit the charStr return charStr; }; // detectIncompleteChar determines if there is an incomplete UTF-8 character at // the end of the given buffer. If so, it sets this.charLength to the byte // length that character, and sets this.charReceived to the number of bytes // that are available for this character. StringDecoder.prototype.detectIncompleteChar = function(buffer) { // determine how many bytes we have to check at the end of this buffer var i = (buffer.length >= 3) ? 3 : buffer.length; // Figure out if one of the last i bytes of our buffer announces an // incomplete char. for (; i > 0; i--) { var c = buffer[buffer.length - i]; // See http://en.wikipedia.org/wiki/UTF-8#Description // 110XXXXX if (i == 1 && c >> 5 == 0x06) { this.charLength = 2; break; } // 1110XXXX if (i <= 2 && c >> 4 == 0x0E) { this.charLength = 3; break; } // 11110XXX if (i <= 3 && c >> 3 == 0x1E) { this.charLength = 4; break; } } this.charReceived = i; }; StringDecoder.prototype.end = function(buffer) { var res = ''; if (buffer && buffer.length) res = this.write(buffer); if (this.charReceived) { var cr = this.charReceived; var buf = this.charBuffer; var enc = this.encoding; res += buf.slice(0, cr).toString(enc); } return res; }; function passThroughWrite(buffer) { return buffer.toString(this.encoding); } function utf16DetectIncompleteChar(buffer) { this.charReceived = buffer.length % 2; this.charLength = this.charReceived ? 2 : 0; } function base64DetectIncompleteChar(buffer) { this.charReceived = buffer.length % 3; this.charLength = this.charReceived ? 3 : 0; } },{"4":4}],213:[function(require,module,exports){ module.exports = function isBuffer(arg) { return arg && typeof arg === 'object' && typeof arg.copy === 'function' && typeof arg.fill === 'function' && typeof arg.readUInt8 === 'function'; } },{}],214:[function(require,module,exports){ (function (process,global){ // Copyright Joyent, Inc. and other Node contributors. // // Permission is hereby granted, free of charge, to any person obtaining a // copy of this software and associated documentation files (the // "Software"), to deal in the Software without restriction, including // without limitation the rights to use, copy, modify, merge, publish, // distribute, sublicense, and/or sell copies of the Software, and to permit // persons to whom the Software is furnished to do so, subject to the // following conditions: // // The above copyright notice and this permission notice shall be included // in all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS // OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF // MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN // NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, // DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR // OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE // USE OR OTHER DEALINGS IN THE SOFTWARE. var formatRegExp = /%[sdj%]/g; exports.format = function(f) { if (!isString(f)) { var objects = []; for (var i = 0; i < arguments.length; i++) { objects.push(inspect(arguments[i])); } return objects.join(' '); } var i = 1; var args = arguments; var len = args.length; var str = String(f).replace(formatRegExp, function(x) { if (x === '%%') return '%'; if (i >= len) return x; switch (x) { case '%s': return String(args[i++]); case '%d': return Number(args[i++]); case '%j': try { return JSON.stringify(args[i++]); } catch (_) { return '[Circular]'; } default: return x; } }); for (var x = args[i]; i < len; x = args[++i]) { if (isNull(x) || !isObject(x)) { str += ' ' + x; } else { str += ' ' + inspect(x); } } return str; }; // Mark that a method should not be used. // Returns a modified function which warns once by default. // If --no-deprecation is set, then it is a no-op. exports.deprecate = function(fn, msg) { // Allow for deprecating things in the process of starting up. if (isUndefined(global.process)) { return function() { return exports.deprecate(fn, msg).apply(this, arguments); }; } if (process.noDeprecation === true) { return fn; } var warned = false; function deprecated() { if (!warned) { if (process.throwDeprecation) { throw new Error(msg); } else if (process.traceDeprecation) { console.trace(msg); } else { console.error(msg); } warned = true; } return fn.apply(this, arguments); } return deprecated; }; var debugs = {}; var debugEnviron; exports.debuglog = function(set) { if (isUndefined(debugEnviron)) debugEnviron = process.env.NODE_DEBUG || ''; set = set.toUpperCase(); if (!debugs[set]) { if (new RegExp('\\b' + set + '\\b', 'i').test(debugEnviron)) { var pid = process.pid; debugs[set] = function() { var msg = exports.format.apply(exports, arguments); console.error('%s %d: %s', set, pid, msg); }; } else { debugs[set] = function() {}; } } return debugs[set]; }; /** * Echos the value of a value. Trys to print the value out * in the best way possible given the different types. * * @param {Object} obj The object to print out. * @param {Object} opts Optional options object that alters the output. */ /* legacy: obj, showHidden, depth, colors*/ function inspect(obj, opts) { // default options var ctx = { seen: [], stylize: stylizeNoColor }; // legacy... if (arguments.length >= 3) ctx.depth = arguments[2]; if (arguments.length >= 4) ctx.colors = arguments[3]; if (isBoolean(opts)) { // legacy... ctx.showHidden = opts; } else if (opts) { // got an "options" object exports._extend(ctx, opts); } // set default options if (isUndefined(ctx.showHidden)) ctx.showHidden = false; if (isUndefined(ctx.depth)) ctx.depth = 2; if (isUndefined(ctx.colors)) ctx.colors = false; if (isUndefined(ctx.customInspect)) ctx.customInspect = true; if (ctx.colors) ctx.stylize = stylizeWithColor; return formatValue(ctx, obj, ctx.depth); } exports.inspect = inspect; // http://en.wikipedia.org/wiki/ANSI_escape_code#graphics inspect.colors = { 'bold' : [1, 22], 'italic' : [3, 23], 'underline' : [4, 24], 'inverse' : [7, 27], 'white' : [37, 39], 'grey' : [90, 39], 'black' : [30, 39], 'blue' : [34, 39], 'cyan' : [36, 39], 'green' : [32, 39], 'magenta' : [35, 39], 'red' : [31, 39], 'yellow' : [33, 39] }; // Don't use 'blue' not visible on cmd.exe inspect.styles = { 'special': 'cyan', 'number': 'yellow', 'boolean': 'yellow', 'undefined': 'grey', 'null': 'bold', 'string': 'green', 'date': 'magenta', // "name": intentionally not styling 'regexp': 'red' }; function stylizeWithColor(str, styleType) { var style = inspect.styles[styleType]; if (style) { return '\u001b[' + inspect.colors[style][0] + 'm' + str + '\u001b[' + inspect.colors[style][1] + 'm'; } else { return str; } } function stylizeNoColor(str, styleType) { return str; } function arrayToHash(array) { var hash = {}; array.forEach(function(val, idx) { hash[val] = true; }); return hash; } function formatValue(ctx, value, recurseTimes) { // Provide a hook for user-specified inspect functions. // Check that value is an object with an inspect function on it if (ctx.customInspect && value && isFunction(value.inspect) && // Filter out the util module, it's inspect function is special value.inspect !== exports.inspect && // Also filter out any prototype objects using the circular check. !(value.constructor && value.constructor.prototype === value)) { var ret = value.inspect(recurseTimes, ctx); if (!isString(ret)) { ret = formatValue(ctx, ret, recurseTimes); } return ret; } // Primitive types cannot have properties var primitive = formatPrimitive(ctx, value); if (primitive) { return primitive; } // Look up the keys of the object. var keys = Object.keys(value); var visibleKeys = arrayToHash(keys); if (ctx.showHidden) { keys = Object.getOwnPropertyNames(value); } // IE doesn't make error fields non-enumerable // http://msdn.microsoft.com/en-us/library/ie/dww52sbt(v=vs.94).aspx if (isError(value) && (keys.indexOf('message') >= 0 || keys.indexOf('description') >= 0)) { return formatError(value); } // Some type of object without properties can be shortcutted. if (keys.length === 0) { if (isFunction(value)) { var name = value.name ? ': ' + value.name : ''; return ctx.stylize('[Function' + name + ']', 'special'); } if (isRegExp(value)) { return ctx.stylize(RegExp.prototype.toString.call(value), 'regexp'); } if (isDate(value)) { return ctx.stylize(Date.prototype.toString.call(value), 'date'); } if (isError(value)) { return formatError(value); } } var base = '', array = false, braces = ['{', '}']; // Make Array say that they are Array if (isArray(value)) { array = true; braces = ['[', ']']; } // Make functions say that they are functions if (isFunction(value)) { var n = value.name ? ': ' + value.name : ''; base = ' [Function' + n + ']'; } // Make RegExps say that they are RegExps if (isRegExp(value)) { base = ' ' + RegExp.prototype.toString.call(value); } // Make dates with properties first say the date if (isDate(value)) { base = ' ' + Date.prototype.toUTCString.call(value); } // Make error with message first say the error if (isError(value)) { base = ' ' + formatError(value); } if (keys.length === 0 && (!array || value.length == 0)) { return braces[0] + base + braces[1]; } if (recurseTimes < 0) { if (isRegExp(value)) { return ctx.stylize(RegExp.prototype.toString.call(value), 'regexp'); } else { return ctx.stylize('[Object]', 'special'); } } ctx.seen.push(value); var output; if (array) { output = formatArray(ctx, value, recurseTimes, visibleKeys, keys); } else { output = keys.map(function(key) { return formatProperty(ctx, value, recurseTimes, visibleKeys, key, array); }); } ctx.seen.pop(); return reduceToSingleString(output, base, braces); } function formatPrimitive(ctx, value) { if (isUndefined(value)) return ctx.stylize('undefined', 'undefined'); if (isString(value)) { var simple = '\'' + JSON.stringify(value).replace(/^"|"$/g, '') .replace(/'/g, "\\'") .replace(/\\"/g, '"') + '\''; return ctx.stylize(simple, 'string'); } if (isNumber(value)) return ctx.stylize('' + value, 'number'); if (isBoolean(value)) return ctx.stylize('' + value, 'boolean'); // For some reason typeof null is "object", so special case here. if (isNull(value)) return ctx.stylize('null', 'null'); } function formatError(value) { return '[' + Error.prototype.toString.call(value) + ']'; } function formatArray(ctx, value, recurseTimes, visibleKeys, keys) { var output = []; for (var i = 0, l = value.length; i < l; ++i) { if (hasOwnProperty(value, String(i))) { output.push(formatProperty(ctx, value, recurseTimes, visibleKeys, String(i), true)); } else { output.push(''); } } keys.forEach(function(key) { if (!key.match(/^\d+$/)) { output.push(formatProperty(ctx, value, recurseTimes, visibleKeys, key, true)); } }); return output; } function formatProperty(ctx, value, recurseTimes, visibleKeys, key, array) { var name, str, desc; desc = Object.getOwnPropertyDescriptor(value, key) || { value: value[key] }; if (desc.get) { if (desc.set) { str = ctx.stylize('[Getter/Setter]', 'special'); } else { str = ctx.stylize('[Getter]', 'special'); } } else { if (desc.set) { str = ctx.stylize('[Setter]', 'special'); } } if (!hasOwnProperty(visibleKeys, key)) { name = '[' + key + ']'; } if (!str) { if (ctx.seen.indexOf(desc.value) < 0) { if (isNull(recurseTimes)) { str = formatValue(ctx, desc.value, null); } else { str = formatValue(ctx, desc.value, recurseTimes - 1); } if (str.indexOf('\n') > -1) { if (array) { str = str.split('\n').map(function(line) { return ' ' + line; }).join('\n').substr(2); } else { str = '\n' + str.split('\n').map(function(line) { return ' ' + line; }).join('\n'); } } } else { str = ctx.stylize('[Circular]', 'special'); } } if (isUndefined(name)) { if (array && key.match(/^\d+$/)) { return str; } name = JSON.stringify('' + key); if (name.match(/^"([a-zA-Z_][a-zA-Z_0-9]*)"$/)) { name = name.substr(1, name.length - 2); name = ctx.stylize(name, 'name'); } else { name = name.replace(/'/g, "\\'") .replace(/\\"/g, '"') .replace(/(^"|"$)/g, "'"); name = ctx.stylize(name, 'string'); } } return name + ': ' + str; } function reduceToSingleString(output, base, braces) { var numLinesEst = 0; var length = output.reduce(function(prev, cur) { numLinesEst++; if (cur.indexOf('\n') >= 0) numLinesEst++; return prev + cur.replace(/\u001b\[\d\d?m/g, '').length + 1; }, 0); if (length > 60) { return braces[0] + (base === '' ? '' : base + '\n ') + ' ' + output.join(',\n ') + ' ' + braces[1]; } return braces[0] + base + ' ' + output.join(', ') + ' ' + braces[1]; } // NOTE: These type checking functions intentionally don't use `instanceof` // because it is fragile and can be easily faked with `Object.create()`. function isArray(ar) { return Array.isArray(ar); } exports.isArray = isArray; function isBoolean(arg) { return typeof arg === 'boolean'; } exports.isBoolean = isBoolean; function isNull(arg) { return arg === null; } exports.isNull = isNull; function isNullOrUndefined(arg) { return arg == null; } exports.isNullOrUndefined = isNullOrUndefined; function isNumber(arg) { return typeof arg === 'number'; } exports.isNumber = isNumber; function isString(arg) { return typeof arg === 'string'; } exports.isString = isString; function isSymbol(arg) { return typeof arg === 'symbol'; } exports.isSymbol = isSymbol; function isUndefined(arg) { return arg === void 0; } exports.isUndefined = isUndefined; function isRegExp(re) { return isObject(re) && objectToString(re) === '[object RegExp]'; } exports.isRegExp = isRegExp; function isObject(arg) { return typeof arg === 'object' && arg !== null; } exports.isObject = isObject; function isDate(d) { return isObject(d) && objectToString(d) === '[object Date]'; } exports.isDate = isDate; function isError(e) { return isObject(e) && (objectToString(e) === '[object Error]' || e instanceof Error); } exports.isError = isError; function isFunction(arg) { return typeof arg === 'function'; } exports.isFunction = isFunction; function isPrimitive(arg) { return arg === null || typeof arg === 'boolean' || typeof arg === 'number' || typeof arg === 'string' || typeof arg === 'symbol' || // ES6 symbol typeof arg === 'undefined'; } exports.isPrimitive = isPrimitive; exports.isBuffer = require(213); function objectToString(o) { return Object.prototype.toString.call(o); } function pad(n) { return n < 10 ? '0' + n.toString(10) : n.toString(10); } var months = ['Jan', 'Feb', 'Mar', 'Apr', 'May', 'Jun', 'Jul', 'Aug', 'Sep', 'Oct', 'Nov', 'Dec']; // 26 Feb 16:19:34 function timestamp() { var d = new Date(); var time = [pad(d.getHours()), pad(d.getMinutes()), pad(d.getSeconds())].join(':'); return [d.getDate(), months[d.getMonth()], time].join(' '); } // log is just a thin wrapper to console.log that prepends a timestamp exports.log = function() { console.log('%s - %s', timestamp(), exports.format.apply(exports, arguments)); }; /** * Inherit the prototype methods from one constructor into another. * * The Function.prototype.inherits from lang.js rewritten as a standalone * function (not on Function.prototype). NOTE: If this file is to be loaded * during bootstrapping this function needs to be rewritten using some native * functions as prototype setup using normal JavaScript does not work as * expected during bootstrapping (see mirror.js in r114903). * * @param {function} ctor Constructor function which needs to inherit the * prototype. * @param {function} superCtor Constructor function to inherit prototype from. */ exports.inherits = require(196); exports._extend = function(origin, add) { // Don't do anything if add isn't an object if (!add || !isObject(add)) return origin; var keys = Object.keys(add); var i = keys.length; while (i--) { origin[keys[i]] = add[keys[i]]; } return origin; }; function hasOwnProperty(obj, prop) { return Object.prototype.hasOwnProperty.call(obj, prop); } }).call(this,require(199),typeof global !== "undefined" ? global : typeof self !== "undefined" ? self : typeof window !== "undefined" ? window : {}) },{"196":196,"199":199,"213":213}],215:[function(require,module,exports){ var indexOf = require(216); var Object_keys = function (obj) { if (Object.keys) return Object.keys(obj) else { var res = []; for (var key in obj) res.push(key) return res; } }; var forEach = function (xs, fn) { if (xs.forEach) return xs.forEach(fn) else for (var i = 0; i < xs.length; i++) { fn(xs[i], i, xs); } }; var defineProp = (function() { try { Object.defineProperty({}, '_', {}); return function(obj, name, value) { Object.defineProperty(obj, name, { writable: true, enumerable: false, configurable: true, value: value }) }; } catch(e) { return function(obj, name, value) { obj[name] = value; }; } }()); var globals = ['Array', 'Boolean', 'Date', 'Error', 'EvalError', 'Function', 'Infinity', 'JSON', 'Math', 'NaN', 'Number', 'Object', 'RangeError', 'ReferenceError', 'RegExp', 'String', 'SyntaxError', 'TypeError', 'URIError', 'decodeURI', 'decodeURIComponent', 'encodeURI', 'encodeURIComponent', 'escape', 'eval', 'isFinite', 'isNaN', 'parseFloat', 'parseInt', 'undefined', 'unescape']; function Context() {} Context.prototype = {}; var Script = exports.Script = function NodeScript (code) { if (!(this instanceof Script)) return new Script(code); this.code = code; }; Script.prototype.runInContext = function (context) { if (!(context instanceof Context)) { throw new TypeError("needs a 'context' argument."); } var iframe = document.createElement('iframe'); if (!iframe.style) iframe.style = {}; iframe.style.display = 'none'; document.body.appendChild(iframe); var win = iframe.contentWindow; var wEval = win.eval, wExecScript = win.execScript; if (!wEval && wExecScript) { // win.eval() magically appears when this is called in IE: wExecScript.call(win, 'null'); wEval = win.eval; } forEach(Object_keys(context), function (key) { win[key] = context[key]; }); forEach(globals, function (key) { if (context[key]) { win[key] = context[key]; } }); var winKeys = Object_keys(win); var res = wEval.call(win, this.code); forEach(Object_keys(win), function (key) { // Avoid copying circular objects like `top` and `window` by only // updating existing context properties or new properties in the `win` // that was only introduced after the eval. if (key in context || indexOf(winKeys, key) === -1) { context[key] = win[key]; } }); forEach(globals, function (key) { if (!(key in context)) { defineProp(context, key, win[key]); } }); document.body.removeChild(iframe); return res; }; Script.prototype.runInThisContext = function () { return eval(this.code); // maybe... }; Script.prototype.runInNewContext = function (context) { var ctx = Script.createContext(context); var res = this.runInContext(ctx); forEach(Object_keys(ctx), function (key) { context[key] = ctx[key]; }); return res; }; forEach(Object_keys(Script.prototype), function (name) { exports[name] = Script[name] = function (code) { var s = Script(code); return s[name].apply(s, [].slice.call(arguments, 1)); }; }); exports.createScript = function (code) { return exports.Script(code); }; exports.createContext = Script.createContext = function (context) { var copy = new Context(); if(typeof context === 'object') { forEach(Object_keys(context), function (key) { copy[key] = context[key]; }); } return copy; }; },{"216":216}],216:[function(require,module,exports){ var indexOf = [].indexOf; module.exports = function(arr, obj){ if (indexOf) return arr.indexOf(obj); for (var i = 0; i < arr.length; ++i) { if (arr[i] === obj) return i; } return -1; }; },{}],217:[function(require,module,exports){ // Base58 encoding/decoding // Originally written by Mike Hearn for BitcoinJ // Copyright (c) 2011 Google Inc // Ported to JavaScript by Stefan Thomas // Merged Buffer refactorings from base58-native by Stephen Pair // Copyright (c) 2013 BitPay Inc var ALPHABET = '123456789ABCDEFGHJKLMNPQRSTUVWXYZabcdefghijkmnopqrstuvwxyz' var ALPHABET_MAP = {} for(var i = 0; i < ALPHABET.length; i++) { ALPHABET_MAP[ALPHABET.charAt(i)] = i } var BASE = 58 function encode(buffer) { if (buffer.length === 0) return '' var i, j, digits = [0] for (i = 0; i < buffer.length; i++) { for (j = 0; j < digits.length; j++) digits[j] <<= 8 digits[0] += buffer[i] var carry = 0 for (j = 0; j < digits.length; ++j) { digits[j] += carry carry = (digits[j] / BASE) | 0 digits[j] %= BASE } while (carry) { digits.push(carry % BASE) carry = (carry / BASE) | 0 } } // deal with leading zeros for (i = 0; buffer[i] === 0 && i < buffer.length - 1; i++) digits.push(0) // convert digits to a string var stringOutput = "" for (var i = digits.length - 1; i >= 0; i--) { stringOutput = stringOutput + ALPHABET[digits[i]] } return stringOutput } function decode(string) { if (string.length === 0) return [] var i, j, bytes = [0] for (i = 0; i < string.length; i++) { var c = string[i] if (!(c in ALPHABET_MAP)) throw new Error('Non-base58 character') for (j = 0; j < bytes.length; j++) bytes[j] *= BASE bytes[0] += ALPHABET_MAP[c] var carry = 0 for (j = 0; j < bytes.length; ++j) { bytes[j] += carry carry = bytes[j] >> 8 bytes[j] &= 0xff } while (carry) { bytes.push(carry & 0xff) carry >>= 8 } } // deal with leading zeros for (i = 0; string[i] === '1' && i < string.length - 1; i++) bytes.push(0) return bytes.reverse() } module.exports = { encode: encode, decode: decode } },{}],218:[function(require,module,exports){ var elliptic = exports; elliptic.version = require(239).version; elliptic.utils = require(229); elliptic.rand = require(231); elliptic.hmacDRBG = require(228); elliptic.curve = require(221); elliptic.curves = require(224); // Protocols elliptic.ec = require(225); },{"221":221,"224":224,"225":225,"228":228,"229":229,"231":231,"239":239}],219:[function(require,module,exports){ var assert = require(2); var bn = require(230); var elliptic = require(218); var getNAF = elliptic.utils.getNAF; var getJSF = elliptic.utils.getJSF; function BaseCurve(type, conf) { this.type = type; this.p = new bn(conf.p, 16); // Use Montgomery, when there is no fast reduction for the prime this.red = conf.prime ? bn.red(conf.prime) : bn.mont(this.p); // Useful for many curves this.zero = new bn(0).toRed(this.red); this.one = new bn(1).toRed(this.red); this.two = new bn(2).toRed(this.red); // Curve configuration, optional this.n = conf.n && new bn(conf.n, 16); this.g = conf.g && this.pointFromJSON(conf.g, conf.gRed); // Temporary arrays this._wnafT1 = new Array(4); this._wnafT2 = new Array(4); this._wnafT3 = new Array(4); this._wnafT4 = new Array(4); } module.exports = BaseCurve; BaseCurve.prototype.point = function point() { throw new Error('Not implemented'); }; BaseCurve.prototype.validate = function validate(point) { throw new Error('Not implemented'); }; BaseCurve.prototype._fixedNafMul = function _fixedNafMul(p, k) { var doubles = p._getDoubles(); var naf = getNAF(k, 1); var I = (1 << (doubles.step + 1)) - (doubles.step % 2 === 0 ? 2 : 1); I /= 3; // Translate into more windowed form var repr = []; for (var j = 0; j < naf.length; j += doubles.step) { var nafW = 0; for (var k = j + doubles.step - 1; k >= j; k--) nafW = (nafW << 1) + naf[k]; repr.push(nafW); } var a = this.jpoint(null, null, null); var b = this.jpoint(null, null, null); for (var i = I; i > 0; i--) { for (var j = 0; j < repr.length; j++) { var nafW = repr[j]; if (nafW === i) b = b.mixedAdd(doubles.points[j]); else if (nafW === -i) b = b.mixedAdd(doubles.points[j].neg()); } a = a.add(b); } return a.toP(); }; BaseCurve.prototype._wnafMul = function _wnafMul(p, k) { var w = 4; // Precompute window var nafPoints = p._getNAFPoints(w); w = nafPoints.wnd; var wnd = nafPoints.points; // Get NAF form var naf = getNAF(k, w); // Add `this`*(N+1) for every w-NAF index var acc = this.jpoint(null, null, null); for (var i = naf.length - 1; i >= 0; i--) { // Count zeroes for (var k = 0; i >= 0 && naf[i] === 0; i--) k++; if (i >= 0) k++; acc = acc.dblp(k); if (i < 0) break; var z = naf[i]; assert(z !== 0); if (p.type === 'affine') { // J +- P if (z > 0) acc = acc.mixedAdd(wnd[(z - 1) >> 1]); else acc = acc.mixedAdd(wnd[(-z - 1) >> 1].neg()); } else { // J +- J if (z > 0) acc = acc.add(wnd[(z - 1) >> 1]); else acc = acc.add(wnd[(-z - 1) >> 1].neg()); } } return p.type === 'affine' ? acc.toP() : acc; }; BaseCurve.prototype._wnafMulAdd = function _wnafMulAdd(defW, points, coeffs, len) { var wndWidth = this._wnafT1; var wnd = this._wnafT2; var naf = this._wnafT3; // Fill all arrays var max = 0; for (var i = 0; i < len; i++) { var p = points[i]; var nafPoints = p._getNAFPoints(defW); wndWidth[i] = nafPoints.wnd; wnd[i] = nafPoints.points; } // Comb small window NAFs for (var i = len - 1; i >= 1; i -= 2) { var a = i - 1; var b = i; if (wndWidth[a] !== 1 || wndWidth[b] !== 1) { naf[a] = getNAF(coeffs[a], wndWidth[a]); naf[b] = getNAF(coeffs[b], wndWidth[b]); max = Math.max(naf[a].length, max); max = Math.max(naf[b].length, max); continue; } var comb = [ points[a], /* 1 */ null, /* 3 */ null, /* 5 */ points[b] /* 7 */ ]; // Try to avoid Projective points, if possible if (points[a].y.cmp(points[b].y) === 0) { comb[1] = points[a].add(points[b]); comb[2] = points[a].toJ().mixedAdd(points[b].neg()); } else if (points[a].y.cmp(points[b].y.redNeg()) === 0) { comb[1] = points[a].toJ().mixedAdd(points[b]); comb[2] = points[a].add(points[b].neg()); } else { comb[1] = points[a].toJ().mixedAdd(points[b]); comb[2] = points[a].toJ().mixedAdd(points[b].neg()); } var index = [ -3, /* -1 -1 */ -1, /* -1 0 */ -5, /* -1 1 */ -7, /* 0 -1 */ 0, /* 0 0 */ 7, /* 0 1 */ 5, /* 1 -1 */ 1, /* 1 0 */ 3 /* 1 1 */ ]; var jsf = getJSF(coeffs[a], coeffs[b]); max = Math.max(jsf[0].length, max); naf[a] = new Array(max); naf[b] = new Array(max); for (var j = 0; j < max; j++) { var ja = jsf[0][j] | 0; var jb = jsf[1][j] | 0; naf[a][j] = index[(ja + 1) * 3 + (jb + 1)]; naf[b][j] = 0; wnd[a] = comb; } } var acc = this.jpoint(null, null, null); var tmp = this._wnafT4; for (var i = max; i >= 0; i--) { var k = 0; while (i >= 0) { var zero = true; for (var j = 0; j < len; j++) { tmp[j] = naf[j][i] | 0; if (tmp[j] !== 0) zero = false; } if (!zero) break; k++; i--; } if (i >= 0) k++; acc = acc.dblp(k); if (i < 0) break; for (var j = 0; j < len; j++) { var z = tmp[j]; var p; if (z === 0) continue; else if (z > 0) p = wnd[j][(z - 1) >> 1]; else if (z < 0) p = wnd[j][(-z - 1) >> 1].neg(); if (p.type === 'affine') acc = acc.mixedAdd(p); else acc = acc.add(p); } } // Zeroify references for (var i = 0; i < len; i++) wnd[i] = null; return acc.toP(); }; BaseCurve.BasePoint = BasePoint; function BasePoint(curve, type) { this.curve = curve; this.type = type; this.precomputed = null; } BasePoint.prototype.validate = function validate() { return this.curve.validate(this); }; BasePoint.prototype.precompute = function precompute(power, _beta) { if (this.precomputed) return this; var precomputed = { doubles: null, naf: null, beta: null }; precomputed.naf = this._getNAFPoints(8); precomputed.doubles = this._getDoubles(4, power); precomputed.beta = this._getBeta(); this.precomputed = precomputed; return this; }; BasePoint.prototype._getDoubles = function _getDoubles(step, power) { if (this.precomputed && this.precomputed.doubles) return this.precomputed.doubles; var doubles = [ this ]; var acc = this; for (var i = 0; i < power; i += step) { for (var j = 0; j < step; j++) acc = acc.dbl(); doubles.push(acc); } return { step: step, points: doubles }; }; BasePoint.prototype._getNAFPoints = function _getNAFPoints(wnd) { if (this.precomputed && this.precomputed.naf) return this.precomputed.naf; var res = [ this ]; var max = (1 << wnd) - 1; var dbl = max === 1 ? null : this.dbl(); for (var i = 1; i < max; i++) res[i] = res[i - 1].add(dbl); return { wnd: wnd, points: res }; }; BasePoint.prototype._getBeta = function _getBeta() { return null; }; BasePoint.prototype.dblp = function dblp(k) { var r = this; for (var i = 0; i < k; i++) r = r.dbl(); return r; }; },{"2":2,"218":218,"230":230}],220:[function(require,module,exports){ var assert = require(2); var curve = require(221); var elliptic = require(218); var bn = require(230); var inherits = require(238); var Base = curve.base; var getNAF = elliptic.utils.getNAF; function EdwardsCurve(conf) { // NOTE: Important as we are creating point in Base.call() this.twisted = conf.a != 1; this.mOneA = this.twisted && conf.a == -1; this.extended = this.mOneA; Base.call(this, 'mont', conf); this.a = new bn(conf.a, 16).mod(this.red.m).toRed(this.red); this.c = new bn(conf.c, 16).toRed(this.red); this.c2 = this.c.redSqr(); this.d = new bn(conf.d, 16).toRed(this.red); this.dd = this.d.redAdd(this.d); assert(!this.twisted || this.c.fromRed().cmpn(1) === 0); this.oneC = conf.c == 1; } inherits(EdwardsCurve, Base); module.exports = EdwardsCurve; EdwardsCurve.prototype._mulA = function _mulA(num) { if (this.mOneA) return num.redNeg(); else return this.a.redMul(num); }; EdwardsCurve.prototype._mulC = function _mulC(num) { if (this.oneC) return num; else return this.c.redMul(num); }; EdwardsCurve.prototype.point = function point(x, y, z, t) { return new Point(this, x, y, z, t); }; // Just for compatibility with Short curve EdwardsCurve.prototype.jpoint = function jpoint(x, y, z, t) { return this.point(x, y, z, t); }; EdwardsCurve.prototype.pointFromJSON = function pointFromJSON(obj) { return Point.fromJSON(this, obj); }; EdwardsCurve.prototype.pointFromX = function pointFromX(odd, x) { x = new bn(x, 16); if (!x.red) x = x.toRed(this.red); var x2 = x.redSqr(); var rhs = this.c2.redSub(this.a.redMul(x2)); var lhs = this.one.redSub(this.c2.redMul(this.d).redMul(x2)); var y = rhs.redMul(lhs.redInvm()).redSqrt(); var isOdd = y.fromRed().isOdd(); if (odd && !isOdd || !odd && isOdd) y = y.redNeg(); return this.point(x, y, curve.one); }; EdwardsCurve.prototype.validate = function validate(point) { if (point.isInfinity()) return true; // Curve: A * X^2 + Y^2 = C^2 * (1 + D * X^2 * Y^2) point.normalize(); var x2 = point.x.redSqr(); var y2 = point.y.redSqr(); var lhs = x2.redMul(this.a).redAdd(y2); var rhs = this.c2.redMul(this.one.redAdd(this.d.redMul(x2).redMul(y2))); return lhs.cmp(rhs) === 0; }; function Point(curve, x, y, z, t) { Base.BasePoint.call(this, curve, 'projective'); if (x === null && y === null && z === null) { this.x = this.curve.zero; this.y = this.curve.one; this.z = this.curve.one; this.t = this.curve.zero; this.zOne = true; } else { this.x = new bn(x, 16); this.y = new bn(y, 16); this.z = z ? new bn(z, 16) : this.curve.one; this.t = t && new bn(t, 16); if (!this.x.red) this.x = this.x.toRed(this.curve.red); if (!this.y.red) this.y = this.y.toRed(this.curve.red); if (!this.z.red) this.z = this.z.toRed(this.curve.red); if (this.t && !this.t.red) this.t = this.t.toRed(this.curve.red); this.zOne = this.z === this.curve.one; // Use extended coordinates if (this.curve.extended && !this.t) { this.t = this.x.redMul(this.y); if (!this.zOne) this.t = this.t.redMul(this.z.redInvm()); } } } inherits(Point, Base.BasePoint); Point.fromJSON = function fromJSON(curve, obj) { return new Point(curve, obj[0], obj[1], obj[2]); }; Point.prototype.inspect = function inspect() { if (this.isInfinity()) return ''; return ''; }; Point.prototype.isInfinity = function isInfinity() { // XXX This code assumes that zero is always zero in red return this.x.cmpn(0) === 0 && this.y.cmp(this.z) === 0; }; Point.prototype._extDbl = function _extDbl() { // http://hyperelliptic.org/EFD/g1p/auto-twisted-extended-1.html#doubling-dbl-2008-hwcd // 4M + 4S // A = X1^2 var a = this.x.redSqr(); // B = Y1^2 var b = this.y.redSqr(); // C = 2 * Z1^2 var c = this.z.redSqr(); c = c.redIAdd(c); // D = a * A var d = this.curve._mulA(a); // E = (X1 + Y1)^2 - A - B var e = this.x.redAdd(this.y).redSqr().redISub(a).redISub(b); // G = D + B var g = d.redAdd(b); // F = G - C var f = g.redSub(c); // H = D - B var h = d.redSub(b); // X3 = E * F var nx = e.redMul(f); // Y3 = G * H var ny = g.redMul(h); // T3 = E * H var nt = e.redMul(h); // Z3 = F * G var nz = f.redMul(g); return this.curve.point(nx, ny, nz, nt); }; Point.prototype._projDbl = function _projDbl() { // http://hyperelliptic.org/EFD/g1p/auto-twisted-projective.html#doubling-dbl-2008-bbjlp // http://hyperelliptic.org/EFD/g1p/auto-edwards-projective.html#doubling-dbl-2007-bl // and others // Generally 3M + 4S or 2M + 4S // B = (X1 + Y1)^2 var b = this.x.redAdd(this.y).redSqr(); // C = X1^2 var c = this.x.redSqr(); // D = Y1^2 var d = this.y.redSqr(); if (this.curve.twisted) { // E = a * C var e = this.curve._mulA(c); // F = E + D var f = e.redAdd(d); if (this.zOne) { // X3 = (B - C - D) * (F - 2) var nx = b.redSub(c).redSub(d).redMul(f.redSub(this.curve.two)); // Y3 = F * (E - D) var ny = f.redMul(e.redSub(d)); // Z3 = F^2 - 2 * F var nz = f.redSqr().redSub(f).redSub(f); } else { // H = Z1^2 var h = this.z.redSqr(); // J = F - 2 * H var j = f.redSub(h).redISub(h); // X3 = (B-C-D)*J var nx = b.redSub(c).redISub(d).redMul(j); // Y3 = F * (E - D) var ny = f.redMul(e.redSub(d)); // Z3 = F * J var nz = f.redMul(j); } } else { // E = C + D var e = c.redAdd(d); // H = (c * Z1)^2 var h = this.curve._mulC(redMul(this.z)).redSqr(); // J = E - 2 * H var j = e.redSub(h).redSub(h); // X3 = c * (B - E) * J var nx = this.curve._mulC(b.redISub(e)).redMul(j); // Y3 = c * E * (C - D) var ny = this.curve._mulC(e).redMul(c.redISub(d)); // Z3 = E * J var nz = e.redMul(j); } return this.curve.point(nx, ny, nz); }; Point.prototype.dbl = function dbl() { if (this.isInfinity()) return this; // Double in extended coordinates if (this.curve.extended) return this._extDbl(); else return this._projDbl(); }; Point.prototype._extAdd = function _extAdd(p) { // http://hyperelliptic.org/EFD/g1p/auto-twisted-extended-1.html#addition-add-2008-hwcd-3 // 8M // A = (Y1 - X1) * (Y2 - X2) var a = this.y.redSub(this.x).redMul(p.y.redSub(p.x)); // B = (Y1 + X1) * (Y2 + X2) var b = this.y.redAdd(this.x).redMul(p.y.redAdd(p.x)); // C = T1 * k * T2 var c = this.t.redMul(this.curve.dd).redMul(p.t); // D = Z1 * 2 * Z2 var d = this.z.redMul(p.z.redAdd(p.z)); // E = B - A var e = b.redSub(a); // F = D - C var f = d.redSub(c); // G = D + C var g = d.redAdd(c); // H = B + A var h = b.redAdd(a); // X3 = E * F var nx = e.redMul(f); // Y3 = G * H var ny = g.redMul(h); // T3 = E * H var nt = e.redMul(h); // Z3 = F * G var nz = f.redMul(g); return this.curve.point(nx, ny, nz, nt); }; Point.prototype._projAdd = function _projAdd(p) { // http://hyperelliptic.org/EFD/g1p/auto-twisted-projective.html#addition-add-2008-bbjlp // http://hyperelliptic.org/EFD/g1p/auto-edwards-projective.html#addition-add-2007-bl // 10M + 1S // A = Z1 * Z2 var a = this.z.redMul(p.z); // B = A^2 var b = a.redSqr(); // C = X1 * X2 var c = this.x.redMul(p.x); // D = Y1 * Y2 var d = this.y.redMul(p.y); // E = d * C * D var e = this.curve.d.redMul(c).redMul(d); // F = B - E var f = b.redSub(e); // G = B + E var g = b.redAdd(e); // X3 = A * F * ((X1 + Y1) * (X2 + Y2) - C - D) var tmp = this.x.redAdd(this.y).redMul(p.x.redAdd(p.y)).redISub(c).redISub(d); var nx = a.redMul(f).redMul(tmp); if (this.curve.twisted) { // Y3 = A * G * (D - a * C) var ny = a.redMul(g).redMul(d.redSub(this.curve._mulA(c))); // Z3 = F * G var nz = f.redMul(g); } else { // Y3 = A * G * (D - C) var ny = a.redMul(g).redMul(d.redSub(c)); // Z3 = c * F * G var nz = this.curve._mulC(f).redMul(g); } return this.curve.point(nx, ny, nz); }; Point.prototype.add = function add(p) { if (this.isInfinity()) return p; if (p.isInfinity()) return this; if (this.curve.extended) return this._extAdd(p); else return this._projAdd(p); }; Point.prototype.mul = function mul(k) { if (this.precomputed && this.precomputed.doubles) return this.curve._fixedNafMul(this, k); else return this.curve._wnafMul(this, k); }; Point.prototype.mulAdd = function mulAdd(k1, p, k2) { return this.curve._wnafMulAdd(1, [ this, p ], [ k1, k2 ], 2); }; Point.prototype.normalize = function normalize() { if (this.zOne) return this; // Normalize coordinates var zi = this.z.redInvm(); this.x = this.x.redMul(zi); this.y = this.y.redMul(zi); if (this.t) this.t = this.t.redMul(zi); this.z = this.curve.one; this.zOne = true; return this; }; Point.prototype.neg = function neg() { return this.curve.point(this.x.redNeg(), this.y, this.z, this.t && this.t.redNeg()); }; Point.prototype.getX = function getX() { this.normalize(); return this.x.fromRed(); }; Point.prototype.getY = function getY() { this.normalize(); return this.y.fromRed(); }; // Compatibility with BaseCurve Point.prototype.toP = Point.prototype.normalize; Point.prototype.mixedAdd = Point.prototype.add; },{"2":2,"218":218,"221":221,"230":230,"238":238}],221:[function(require,module,exports){ var curve = exports; curve.base = require(219); curve.short = require(223); curve.mont = require(222); curve.edwards = require(220); },{"219":219,"220":220,"222":222,"223":223}],222:[function(require,module,exports){ var assert = require(2); var curve = require(221); var elliptic = require(218); var bn = require(230); var inherits = require(238); var Base = curve.base; var getNAF = elliptic.utils.getNAF; function MontCurve(conf) { Base.call(this, 'mont', conf); this.a = new bn(conf.a, 16).toRed(this.red); this.b = new bn(conf.b, 16).toRed(this.red); this.i4 = new bn(4).toRed(this.red).redInvm(); this.two = new bn(2).toRed(this.red); this.a24 = this.i4.redMul(this.a.redAdd(this.two)); } inherits(MontCurve, Base); module.exports = MontCurve; MontCurve.prototype.point = function point(x, z) { return new Point(this, x, z); }; MontCurve.prototype.pointFromJSON = function pointFromJSON(obj) { return Point.fromJSON(this, obj); } MontCurve.prototype.validate = function validate(point) { var x = point.normalize().x; var x2 = x.redSqr(); var rhs = x2.redMul(x).redAdd(x2.redMul(this.a)).redAdd(x); var y = rhs.redSqrt(); return y.redSqr().cmp(rhs) === 0; }; function Point(curve, x, z) { Base.BasePoint.call(this, curve, 'projective'); if (x === null && z === null) { this.x = this.curve.one; this.z = this.curve.zero; } else { this.x = new bn(x, 16); this.z = new bn(z, 16); if (!this.x.red) this.x = this.x.toRed(this.curve.red); if (!this.z.red) this.z = this.z.toRed(this.curve.red); } } inherits(Point, Base.BasePoint); Point.prototype.precompute = function precompute() { // No-op }; Point.fromJSON = function fromJSON(curve, obj) { return new Point(curve, obj[0], obj[1] || curve.one); }; Point.prototype.inspect = function inspect() { if (this.isInfinity()) return ''; return ''; }; Point.prototype.isInfinity = function isInfinity() { // XXX This code assumes that zero is always zero in red return this.z.cmpn(0) === 0; }; Point.prototype.dbl = function dbl() { // http://hyperelliptic.org/EFD/g1p/auto-montgom-xz.html#doubling-dbl-1987-m-3 // 2M + 2S + 4A // A = X1 + Z1 var a = this.x.redAdd(this.z); // AA = A^2 var aa = a.redSqr(); // B = X1 - Z1 var b = this.x.redSub(this.z); // BB = B^2 var bb = b.redSqr(); // C = AA - BB var c = aa.redSub(bb); // X3 = AA * BB var nx = aa.redMul(bb); // Z3 = C * (BB + A24 * C) var nz = c.redMul(bb.redAdd(this.curve.a24.redMul(c))); return this.curve.point(nx, nz); }; Point.prototype.add = function add(p) { throw new Error('Not supported on Montgomery curve'); }; Point.prototype.diffAdd = function diffAdd(p, diff) { // http://hyperelliptic.org/EFD/g1p/auto-montgom-xz.html#diffadd-dadd-1987-m-3 // 4M + 2S + 6A // A = X2 + Z2 var a = this.x.redAdd(this.z); // B = X2 - Z2 var b = this.x.redSub(this.z); // C = X3 + Z3 var c = p.x.redAdd(p.z); // D = X3 - Z3 var d = p.x.redSub(p.z); // DA = D * A var da = d.redMul(a); // CB = C * B var cb = c.redMul(b); // X5 = Z1 * (DA + CB)^2 var nx = diff.z.redMul(da.redAdd(cb).redSqr()); // Z5 = X1 * (DA - CB)^2 var nz = diff.x.redMul(da.redISub(cb).redSqr()); return this.curve.point(nx, nz); }; Point.prototype.mul = function mul(k) { var t = k.clone(); var a = this; // (N / 2) * Q + Q var b = this.curve.point(null, null); // (N / 2) * Q var c = this; // Q for (var bits = []; t.cmpn(0) !== 0; t.ishrn(1)) bits.push(t.andln(1)); for (var i = bits.length - 1; i >= 0; i--) { if (bits[i] === 0) { // N * Q + Q = ((N / 2) * Q + Q)) + (N / 2) * Q a = a.diffAdd(b, c); // N * Q = 2 * ((N / 2) * Q + Q)) b = b.dbl(); } else { // N * Q = ((N / 2) * Q + Q) + ((N / 2) * Q) b = a.diffAdd(b, c); // N * Q + Q = 2 * ((N / 2) * Q + Q) a = a.dbl(); } } return b; }; Point.prototype.mulAdd = function mulAdd() { throw new Error('Not supported on Montgomery curve'); }; Point.prototype.normalize = function normalize() { this.x = this.x.redMul(this.z.redInvm()); this.z = this.curve.one; return this; }; Point.prototype.getX = function getX() { // Normalize coordinates this.normalize(); return this.x.fromRed(); }; },{"2":2,"218":218,"221":221,"230":230,"238":238}],223:[function(require,module,exports){ var assert = require(2); var curve = require(221); var elliptic = require(218); var bn = require(230); var inherits = require(238); var Base = curve.base; var getNAF = elliptic.utils.getNAF; function ShortCurve(conf) { Base.call(this, 'short', conf); this.a = new bn(conf.a, 16).toRed(this.red); this.b = new bn(conf.b, 16).toRed(this.red); this.tinv = this.two.redInvm(); this.zeroA = this.a.fromRed().cmpn(0) === 0; this.threeA = this.a.fromRed().sub(this.p).cmpn(-3) === 0; // If the curve is endomorphic, precalculate beta and lambda this.endo = this._getEndomorphism(conf); this._endoWnafT1 = new Array(4); this._endoWnafT2 = new Array(4); } inherits(ShortCurve, Base); module.exports = ShortCurve; ShortCurve.prototype._getEndomorphism = function _getEndomorphism(conf) { // No efficient endomorphism if (!this.zeroA || !this.g || !this.n || this.p.modn(3) !== 1) return; // Compute beta and lambda, that lambda * P = (beta * Px; Py) var beta; var lambda; if (conf.beta) { beta = new bn(conf.beta, 16).toRed(this.red); } else { var betas = this._getEndoRoots(this.p); // Choose the smallest beta beta = betas[0].cmp(betas[1]) < 0 ? betas[0] : betas[1]; beta = beta.toRed(this.red); } if (conf.lambda) { lambda = new bn(conf.lambda, 16); } else { // Choose the lambda that is matching selected beta var lambdas = this._getEndoRoots(this.n); if (this.g.mul(lambdas[0]).x.cmp(this.g.x.redMul(beta)) === 0) { lambda = lambdas[0]; } else { lambda = lambdas[1]; assert(this.g.mul(lambda).x.cmp(this.g.x.redMul(beta)) === 0); } } // Get basis vectors, used for balanced length-two representation var basis; if (conf.basis) { basis = conf.basis.map(function(vec) { return { a: new bn(vec.a, 16), b: new bn(vec.b, 16), }; }); } else { basis = this._getEndoBasis(lambda); } return { beta: beta, lambda: lambda, basis: basis }; }; ShortCurve.prototype._getEndoRoots = function _getEndoRoots(num) { // Find roots of for x^2 + x + 1 in F // Root = (-1 +- Sqrt(-3)) / 2 // var red = num === this.p ? this.red : bn.mont(num); var tinv = new bn(2).toRed(red).redInvm(); var ntinv = tinv.redNeg(); var one = new bn(1).toRed(red); var s = new bn(3).toRed(red).redNeg().redSqrt().redMul(tinv); var l1 = ntinv.redAdd(s).fromRed(); var l2 = ntinv.redSub(s).fromRed(); return [ l1, l2 ]; }; ShortCurve.prototype._getEndoBasis = function _getEndoBasis(lambda) { // aprxSqrt >= sqrt(this.n) var aprxSqrt = this.n.shrn(Math.floor(this.n.bitLength() / 2)); // 3.74 // Run EGCD, until r(L + 1) < aprxSqrt var u = lambda; var v = this.n.clone(); var x1 = new bn(1); var y1 = new bn(0); var x2 = new bn(0); var y2 = new bn(1); // NOTE: all vectors are roots of: a + b * lambda = 0 (mod n) var a0; var b0; // First vector var a1; var b1; // Second vector var a2; var b2; var prevR; var i = 0; while (u.cmpn(0) !== 0) { var q = v.div(u); var r = v.sub(q.mul(u)); var x = x2.sub(q.mul(x1)); var y = y2.sub(q.mul(y1)); if (!a1 && r.cmp(aprxSqrt) < 0) { a0 = prevR.neg(); b0 = x1; a1 = r.neg(); b1 = x; } else if (a1 && ++i === 2) { break; } prevR = r; v = u; u = r; x2 = x1; x1 = x; y2 = y1; y1 = y; } a2 = r.neg(); b2 = x; var len1 = a1.sqr().add(b1.sqr()); var len2 = a2.sqr().add(b2.sqr()); if (len2.cmp(len1) >= 0) { a2 = a0; b2 = b0; } // Normalize signs if (a1.sign) { a1 = a1.neg(); b1 = b1.neg(); } if (a2.sign) { a2 = a2.neg(); b2 = b2.neg(); } return [ { a: a1, b: b1 }, { a: a2, b: b2 } ]; }; ShortCurve.prototype._endoSplit = function _endoSplit(k) { var basis = this.endo.basis; var v1 = basis[0]; var v2 = basis[1]; var c1 = v2.b.mul(k).divRound(this.n); var c2 = v1.b.neg().mul(k).divRound(this.n); var p1 = c1.mul(v1.a); var p2 = c2.mul(v2.a); var q1 = c1.mul(v1.b); var q2 = c2.mul(v2.b); // Calculate answer var k1 = k.sub(p1).sub(p2); var k2 = q1.add(q2).neg(); return { k1: k1, k2: k2 }; }; ShortCurve.prototype.point = function point(x, y, isRed) { return new Point(this, x, y, isRed); }; ShortCurve.prototype.pointFromX = function pointFromX(odd, x) { x = new bn(x, 16); if (!x.red) x = x.toRed(this.red); var y2 = x.redSqr().redMul(x).redIAdd(x.redMul(this.a)).redIAdd(this.b); var y = y2.redSqrt(); // XXX Is there any way to tell if the number is odd without converting it // to non-red form? var isOdd = y.fromRed().isOdd(); if (odd && !isOdd || !odd && isOdd) y = y.redNeg(); return this.point(x, y); }; ShortCurve.prototype.jpoint = function jpoint(x, y, z) { return new JPoint(this, x, y, z); }; ShortCurve.prototype.pointFromJSON = function pointFromJSON(obj, red) { return Point.fromJSON(this, obj, red); }; ShortCurve.prototype.validate = function validate(point) { if (point.inf) return true; var x = point.x; var y = point.y; var ax = this.a.redMul(x); var rhs = x.redSqr().redMul(x).redIAdd(ax).redIAdd(this.b); return y.redSqr().redISub(rhs).cmpn(0) === 0; }; ShortCurve.prototype._endoWnafMulAdd = function _endoWnafMulAdd(points, coeffs) { var npoints = this._endoWnafT1; var ncoeffs = this._endoWnafT2; for (var i = 0; i < points.length; i++) { var split = this._endoSplit(coeffs[i]); var p = points[i]; var beta = p._getBeta(); if (split.k1.sign) { split.k1.sign = !split.k1.sign; p = p.neg(true); } if (split.k2.sign) { split.k2.sign = !split.k2.sign; beta = beta.neg(true); } npoints[i * 2] = p; npoints[i * 2 + 1] = beta; ncoeffs[i * 2] = split.k1; ncoeffs[i * 2 + 1] = split.k2; } var res = this._wnafMulAdd(1, npoints, ncoeffs, i * 2); // Clean-up references to points and coefficients for (var j = 0; j < i * 2; j++) { npoints[j] = null; ncoeffs[j] = null; } return res; }; function Point(curve, x, y, isRed) { Base.BasePoint.call(this, curve, 'affine'); if (x === null && y === null) { this.x = null; this.y = null; this.inf = true; } else { this.x = new bn(x, 16); this.y = new bn(y, 16); // Force redgomery representation when loading from JSON if (isRed) { this.x.forceRed(this.curve.red); this.y.forceRed(this.curve.red); } if (!this.x.red) this.x = this.x.toRed(this.curve.red); if (!this.y.red) this.y = this.y.toRed(this.curve.red); this.inf = false; } } inherits(Point, Base.BasePoint); Point.prototype._getBeta = function _getBeta() { if (!this.curve.endo) return; var pre = this.precomputed; if (pre && pre.beta) return pre.beta; var beta = this.curve.point(this.x.redMul(this.curve.endo.beta), this.y); if (pre) { var curve = this.curve; function endoMul(p) { return curve.point(p.x.redMul(curve.endo.beta), p.y); } pre.beta = beta; beta.precomputed = { beta: null, naf: pre.naf && { wnd: pre.naf.wnd, points: pre.naf.points.map(endoMul) }, doubles: pre.doubles && { step: pre.doubles.step, points: pre.doubles.points.map(endoMul) } }; } return beta; }; Point.prototype.toJSON = function toJSON() { if (!this.precomputed) return [ this.x, this.y ]; return [ this.x, this.y, this.precomputed && { doubles: this.precomputed.doubles && { step: this.precomputed.doubles.step, points: this.precomputed.doubles.points.slice(1) }, naf: this.precomputed.naf && { wnd: this.precomputed.naf.wnd, points: this.precomputed.naf.points.slice(1) } }]; }; Point.fromJSON = function fromJSON(curve, obj, red) { if (typeof obj === 'string') obj = JSON.parse(obj); var res = curve.point(obj[0], obj[1], red); if (!obj[2]) return res; function obj2point(obj) { return curve.point(obj[0], obj[1], red); } var pre = obj[2]; res.precomputed = { beta: null, doubles: pre.doubles && { step: pre.doubles.step, points: [ res ].concat(pre.doubles.points.map(obj2point)) }, naf: pre.naf && { wnd: pre.naf.wnd, points: [ res ].concat(pre.naf.points.map(obj2point)) } }; return res; }; Point.prototype.inspect = function inspect() { if (this.isInfinity()) return ''; return ''; }; Point.prototype.isInfinity = function isInfinity() { return this.inf; }; Point.prototype.add = function add(p) { // O + P = P if (this.inf) return p; // P + O = P if (p.inf) return this; // P + P = 2P if (this.eq(p)) return this.dbl(); // P + (-P) = O if (this.neg().eq(p)) return this.curve.point(null, null); // P + Q = O if (this.x.cmp(p.x) === 0) return this.curve.point(null, null); var c = this.y.redSub(p.y); if (c.cmpn(0) !== 0) c = c.redMul(this.x.redSub(p.x).redInvm()); var nx = c.redSqr().redISub(this.x).redISub(p.x); var ny = c.redMul(this.x.redSub(nx)).redISub(this.y); return this.curve.point(nx, ny); }; Point.prototype.dbl = function dbl() { if (this.inf) return this; // 2P = O var ys1 = this.y.redAdd(this.y); if (ys1.cmpn(0) === 0) return this.curve.point(null, null); var a = this.curve.a; var x2 = this.x.redSqr(); var dyinv = ys1.redInvm(); var c = x2.redAdd(x2).redIAdd(x2).redIAdd(a).redMul(dyinv); var nx = c.redSqr().redISub(this.x.redAdd(this.x)); var ny = c.redMul(this.x.redSub(nx)).redISub(this.y); return this.curve.point(nx, ny); }; Point.prototype.getX = function getX() { return this.x.fromRed(); }; Point.prototype.getY = function getY() { return this.y.fromRed(); }; Point.prototype.mul = function mul(k) { k = new bn(k, 16); if (this.precomputed && this.precomputed.doubles) return this.curve._fixedNafMul(this, k); else if (this.curve.endo) return this.curve._endoWnafMulAdd([ this ], [ k ]); else return this.curve._wnafMul(this, k); }; Point.prototype.mulAdd = function mulAdd(k1, p2, k2) { var points = [ this, p2 ]; var coeffs = [ k1, k2 ]; if (this.curve.endo) return this.curve._endoWnafMulAdd(points, coeffs); else return this.curve._wnafMulAdd(1, points, coeffs, 2); }; Point.prototype.eq = function eq(p) { return this === p || this.inf === p.inf && (this.inf || this.x.cmp(p.x) === 0 && this.y.cmp(p.y) === 0); }; Point.prototype.neg = function neg(_precompute) { if (this.inf) return this; var res = this.curve.point(this.x, this.y.redNeg()); if (_precompute && this.precomputed) { var pre = this.precomputed; function negate(p) { return p.neg(); } res.precomputed = { naf: pre.naf && { wnd: pre.naf.wnd, points: pre.naf.points.map(negate) }, doubles: pre.doubles && { step: pre.doubles.step, points: pre.doubles.points.map(negate) } }; } return res; }; Point.prototype.toJ = function toJ() { if (this.inf) return this.curve.jpoint(null, null, null); var res = this.curve.jpoint(this.x, this.y, this.curve.one); return res; }; function JPoint(curve, x, y, z) { Base.BasePoint.call(this, curve, 'jacobian'); if (x === null && y === null && z === null) { this.x = this.curve.one; this.y = this.curve.one; this.z = new bn(0); } else { this.x = new bn(x, 16); this.y = new bn(y, 16); this.z = new bn(z, 16); } if (!this.x.red) this.x = this.x.toRed(this.curve.red); if (!this.y.red) this.y = this.y.toRed(this.curve.red); if (!this.z.red) this.z = this.z.toRed(this.curve.red); this.zOne = this.z === this.curve.one; } inherits(JPoint, Base.BasePoint); JPoint.prototype.toP = function toP() { if (this.isInfinity()) return this.curve.point(null, null); var zinv = this.z.redInvm(); var zinv2 = zinv.redSqr(); var ax = this.x.redMul(zinv2); var ay = this.y.redMul(zinv2).redMul(zinv); return this.curve.point(ax, ay); }; JPoint.prototype.neg = function neg() { return this.curve.jpoint(this.x, this.y.redNeg(), this.z); }; JPoint.prototype.add = function add(p) { // O + P = P if (this.isInfinity()) return p; // P + O = P if (p.isInfinity()) return this; // 12M + 4S + 7A var pz2 = p.z.redSqr(); var z2 = this.z.redSqr(); var u1 = this.x.redMul(pz2); var u2 = p.x.redMul(z2); var s1 = this.y.redMul(pz2.redMul(p.z)); var s2 = p.y.redMul(z2.redMul(this.z)); var h = u1.redSub(u2); var r = s1.redSub(s2); if (h.cmpn(0) === 0) { if (r.cmpn(0) !== 0) return this.curve.jpoint(null, null, null); else return this.dbl(); } var h2 = h.redSqr(); var h3 = h2.redMul(h); var v = u1.redMul(h2); var nx = r.redSqr().redIAdd(h3).redISub(v).redISub(v); var ny = r.redMul(v.redISub(nx)).redISub(s1.redMul(h3)); var nz = this.z.redMul(p.z).redMul(h); return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype.mixedAdd = function mixedAdd(p) { // O + P = P if (this.isInfinity()) return p.toJ(); // P + O = P if (p.isInfinity()) return this; // 8M + 3S + 7A var z2 = this.z.redSqr(); var u1 = this.x; var u2 = p.x.redMul(z2); var s1 = this.y; var s2 = p.y.redMul(z2).redMul(this.z); var h = u1.redSub(u2); var r = s1.redSub(s2); if (h.cmpn(0) === 0) { if (r.cmpn(0) !== 0) return this.curve.jpoint(null, null, null); else return this.dbl(); } var h2 = h.redSqr(); var h3 = h2.redMul(h); var v = u1.redMul(h2); var nx = r.redSqr().redIAdd(h3).redISub(v).redISub(v); var ny = r.redMul(v.redISub(nx)).redISub(s1.redMul(h3)); var nz = this.z.redMul(h); return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype.dblp = function dblp(pow) { if (pow === 0) return this; if (this.isInfinity()) return this; if (!pow) return this.dbl(); if (this.curve.zeroA || this.curve.threeA) { var r = this; for (var i = 0; i < pow; i++) r = r.dbl(); return r; } // 1M + 2S + 1A + N * (4S + 5M + 8A) // N = 1 => 6M + 6S + 9A var a = this.curve.a; var tinv = this.curve.tinv; var jx = this.x; var jy = this.y; var jz = this.z; var jz4 = jz.redSqr().redSqr(); // Reuse results var jyd = jy.redAdd(jy); for (var i = 0; i < pow; i++) { var jx2 = jx.redSqr(); var jyd2 = jyd.redSqr(); var jyd4 = jyd2.redSqr(); var c = jx2.redAdd(jx2).redIAdd(jx2).redIAdd(a.redMul(jz4)); var t1 = jx.redMul(jyd2); var nx = c.redSqr().redISub(t1.redAdd(t1)); var t2 = t1.redISub(nx); var dny = c.redMul(t2); dny = dny.redIAdd(dny).redISub(jyd4); var nz = jyd.redMul(jz); if (i + 1 < pow) jz4 = jz4.redMul(jyd4); jx = nx; jz = nz; jyd = dny; } return this.curve.jpoint(jx, jyd.redMul(tinv), jz); }; JPoint.prototype.dbl = function dbl() { if (this.isInfinity()) return this; if (this.curve.zeroA) return this._zeroDbl(); else if (this.curve.threeA) return this._threeDbl(); else return this._dbl(); }; JPoint.prototype._zeroDbl = function _zeroDbl() { // Z = 1 if (this.zOne) { // http://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#doubling-mdbl-2007-bl // 1M + 5S + 14A // XX = X1^2 var xx = this.x.redSqr(); // YY = Y1^2 var yy = this.y.redSqr(); // YYYY = YY^2 var yyyy = yy.redSqr(); // S = 2 * ((X1 + YY)^2 - XX - YYYY) var s = this.x.redAdd(yy).redSqr().redISub(xx).redISub(yyyy); s = s.redIAdd(s); // M = 3 * XX + a; a = 0 var m = xx.redAdd(xx).redIAdd(xx); // T = M ^ 2 - 2*S var t = m.redSqr().redISub(s).redISub(s); // 8 * YYYY var yyyy8 = yyyy.redIAdd(yyyy); yyyy8 = yyyy8.redIAdd(yyyy8); yyyy8 = yyyy8.redIAdd(yyyy8); // X3 = T var nx = t; // Y3 = M * (S - T) - 8 * YYYY var ny = m.redMul(s.redISub(t)).redISub(yyyy8); // Z3 = 2*Y1 var nz = this.y.redAdd(this.y); } else { // http://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#doubling-dbl-2009-l // 2M + 5S + 13A // A = X1^2 var a = this.x.redSqr(); // B = Y1^2 var b = this.y.redSqr(); // C = B^2 var c = b.redSqr(); // D = 2 * ((X1 + B)^2 - A - C) var d = this.x.redAdd(b).redSqr().redISub(a).redISub(c); d = d.redIAdd(d); // E = 3 * A var e = a.redAdd(a).redIAdd(a); // F = E^2 var f = e.redSqr(); // 8 * C var c8 = c.redIAdd(c); c8 = c8.redIAdd(c8); c8 = c8.redIAdd(c8); // X3 = F - 2 * D var nx = f.redISub(d).redISub(d); // Y3 = E * (D - X3) - 8 * C var ny = e.redMul(d.redISub(nx)).redISub(c8); // Z3 = 2 * Y1 * Z1 var nz = this.y.redMul(this.z); nz = nz.redIAdd(nz); } return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype._threeDbl = function _threeDbl() { // Z = 1 if (this.zOne) { // http://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-3.html#doubling-mdbl-2007-bl // 1M + 5S + 15A // XX = X1^2 var xx = this.x.redSqr(); // YY = Y1^2 var yy = this.y.redSqr(); // YYYY = YY^2 var yyyy = yy.redSqr(); // S = 2 * ((X1 + YY)^2 - XX - YYYY) var s = this.x.redAdd(yy).redSqr().redISub(xx).redISub(yyyy); s = s.redIAdd(s); // M = 3 * XX + a var m = xx.redAdd(xx).redIAdd(xx).redIAdd(this.curve.a); // T = M^2 - 2 * S var t = m.redSqr().redISub(s).redISub(s); // X3 = T var nx = t; // Y3 = M * (S - T) - 8 * YYYY var yyyy8 = yyyy.redIAdd(yyyy); yyyy8 = yyyy8.redIAdd(yyyy8); yyyy8 = yyyy8.redIAdd(yyyy8); var ny = m.redMul(s.redISub(t)).redISub(yyyy8); // Z3 = 2 * Y1 var nz = this.y.redAdd(this.y); } else { // http://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-3.html#doubling-dbl-2001-b // 3M + 5S // delta = Z1^2 var delta = this.z.redSqr(); // gamma = Y1^2 var gamma = this.y.redSqr(); // beta = X1 * gamma var beta = this.x.redMul(gamma); // alpha = 3 * (X1 - delta) * (X1 + delta) var alpha = this.x.redSub(delta).redMul(this.x.redAdd(delta)); alpha = alpha.redAdd(alpha).redIAdd(alpha); // X3 = alpha^2 - 8 * beta var beta4 = beta.redIAdd(beta); beta4 = beta4.redIAdd(beta4); var beta8 = beta4.redAdd(beta4); var nx = alpha.redSqr().redISub(beta8); // Z3 = (Y1 + Z1)^2 - gamma - delta var nz = this.y.redAdd(this.z).redSqr().redISub(gamma).redISub(delta); // Y3 = alpha * (4 * beta - X3) - 8 * gamma^2 var ggamma8 = gamma.redSqr(); ggamma8 = ggamma8.redIAdd(ggamma8); ggamma8 = ggamma8.redIAdd(ggamma8); ggamma8 = ggamma8.redIAdd(ggamma8); var ny = alpha.redMul(beta4.redISub(nx)).redISub(ggamma8); } return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype._dbl = function _dbl() { var a = this.curve.a; var tinv = this.curve.tinv; // 4M + 6S + 10A var jx = this.x; var jy = this.y; var jz = this.z; var jz4 = jz.redSqr().redSqr(); var jx2 = jx.redSqr(); var jy2 = jy.redSqr(); var c = jx2.redAdd(jx2).redIAdd(jx2).redIAdd(a.redMul(jz4)); var jxd4 = jx.redAdd(jx); jxd4 = jxd4.redIAdd(jxd4); var t1 = jxd4.redMul(jy2); var nx = c.redSqr().redISub(t1.redAdd(t1)); var t2 = t1.redISub(nx); var jyd8 = jy2.redSqr(); jyd8 = jyd8.redIAdd(jyd8); jyd8 = jyd8.redIAdd(jyd8); jyd8 = jyd8.redIAdd(jyd8); var ny = c.redMul(t2).redISub(jyd8); var nz = jy.redAdd(jy).redMul(jz); return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype.trpl = function trpl() { if (!this.curve.zeroA) return this.dbl().add(this); // http://hyperelliptic.org/EFD/g1p/auto-shortw-jacobian-0.html#tripling-tpl-2007-bl // 5M + 10S + ... // XX = X1^2 var xx = this.x.redSqr(); // YY = Y1^2 var yy = this.y.redSqr(); // ZZ = Z1^2 var zz = this.z.redSqr(); // YYYY = YY^2 var yyyy = yy.redSqr(); // M = 3 * XX + a * ZZ2; a = 0 var m = xx.redAdd(xx).redIAdd(xx); // MM = M^2 var mm = m.redSqr(); // E = 6 * ((X1 + YY)^2 - XX - YYYY) - MM var e = this.x.redAdd(yy).redSqr().redISub(xx).redISub(yyyy); e = e.redIAdd(e); e = e.redAdd(e).redIAdd(e); e = e.redISub(mm); // EE = E^2 var ee = e.redSqr(); // T = 16*YYYY var t = yyyy.redIAdd(yyyy); t = t.redIAdd(t); t = t.redIAdd(t); t = t.redIAdd(t); // U = (M + E)^2 - MM - EE - T var u = m.redIAdd(e).redSqr().redISub(mm).redISub(ee).redISub(t); // X3 = 4 * (X1 * EE - 4 * YY * U) var yyu4 = yy.redMul(u); yyu4 = yyu4.redIAdd(yyu4); yyu4 = yyu4.redIAdd(yyu4); var nx = this.x.redMul(ee).redISub(yyu4); nx = nx.redIAdd(nx); nx = nx.redIAdd(nx); // Y3 = 8 * Y1 * (U * (T - U) - E * EE) var ny = this.y.redMul(u.redMul(t.redISub(u)).redISub(e.redMul(ee))); ny = ny.redIAdd(ny); ny = ny.redIAdd(ny); ny = ny.redIAdd(ny); // Z3 = (Z1 + E)^2 - ZZ - EE var nz = this.z.redAdd(e).redSqr().redISub(zz).redISub(ee); return this.curve.jpoint(nx, ny, nz); }; JPoint.prototype.mul = function mul(k, kbase) { k = new bn(k, kbase); return this.curve._wnafMul(this, k); }; JPoint.prototype.eq = function eq(p) { if (p.type === 'affine') return this.eq(p.toJ()); if (this === p) return true; // x1 * z2^2 == x2 * z1^2 var z2 = this.z.redSqr(); var pz2 = p.z.redSqr(); if (this.x.redMul(pz2).redISub(p.x.redMul(z2)).cmpn(0) !== 0) return false; // y1 * z2^3 == y2 * z1^3 var z3 = z2.redMul(this.z); var pz3 = pz2.redMul(p.z); return this.y.redMul(pz3).redISub(p.y.redMul(z3)).cmpn(0) === 0; }; JPoint.prototype.inspect = function inspect() { if (this.isInfinity()) return ''; return ''; }; JPoint.prototype.isInfinity = function isInfinity() { // XXX This code assumes that zero is always zero in red return this.z.cmpn(0) === 0; }; },{"2":2,"218":218,"221":221,"230":230,"238":238}],224:[function(require,module,exports){ var curves = exports; var assert = require(2); var hash = require(232); var bn = require(230); var elliptic = require(218); function PresetCurve(options) { if (options.type === 'short') this.curve = new elliptic.curve.short(options); else if (options.type === 'edwards') this.curve = new elliptic.curve.edwards(options); else this.curve = new elliptic.curve.mont(options); this.g = this.curve.g; this.n = this.curve.n; this.hash = options.hash; assert(this.g.validate(), 'Invalid curve'); assert(this.g.mul(this.n).isInfinity(), 'Invalid curve, G*N != O'); } curves.PresetCurve = PresetCurve; function defineCurve(name, options) { Object.defineProperty(curves, name, { configurable: true, enumerable: true, get: function() { var curve = new PresetCurve(options); Object.defineProperty(curves, name, { configurable: true, enumerable: true, value: curve }); return curve; } }); } defineCurve('p192', { type: 'short', prime: 'p192', p: 'ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff', a: 'ffffffff ffffffff ffffffff fffffffe ffffffff fffffffc', b: '64210519 e59c80e7 0fa7e9ab 72243049 feb8deec c146b9b1', n: 'ffffffff ffffffff ffffffff 99def836 146bc9b1 b4d22831', hash: hash.sha256, gRed: false, g: [ '188da80e b03090f6 7cbf20eb 43a18800 f4ff0afd 82ff1012', '07192b95 ffc8da78 631011ed 6b24cdd5 73f977a1 1e794811' ], }); defineCurve('p224', { type: 'short', prime: 'p224', p: 'ffffffff ffffffff ffffffff ffffffff 00000000 00000000 00000001', a: 'ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff fffffffe', b: 'b4050a85 0c04b3ab f5413256 5044b0b7 d7bfd8ba 270b3943 2355ffb4', n: 'ffffffff ffffffff ffffffff ffff16a2 e0b8f03e 13dd2945 5c5c2a3d', hash: hash.sha256, gRed: false, g: [ 'b70e0cbd 6bb4bf7f 321390b9 4a03c1d3 56c21122 343280d6 115c1d21', 'bd376388 b5f723fb 4c22dfe6 cd4375a0 5a074764 44d58199 85007e34' ], }); defineCurve('p256', { type: 'short', prime: null, p: 'ffffffff 00000001 00000000 00000000 00000000 ffffffff ffffffff ffffffff', a: 'ffffffff 00000001 00000000 00000000 00000000 ffffffff ffffffff fffffffc', b: '5ac635d8 aa3a93e7 b3ebbd55 769886bc 651d06b0 cc53b0f6 3bce3c3e 27d2604b', n: 'ffffffff 00000000 ffffffff ffffffff bce6faad a7179e84 f3b9cac2 fc632551', hash: hash.sha256, gRed: false, g: [ '6b17d1f2 e12c4247 f8bce6e5 63a440f2 77037d81 2deb33a0 f4a13945 d898c296', '4fe342e2 fe1a7f9b 8ee7eb4a 7c0f9e16 2bce3357 6b315ece cbb64068 37bf51f5' ], }); defineCurve('curve25519', { type: 'mont', prime: 'p25519', p: '7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed', a: '76d06', b: '0', n: '1000000000000000 0000000000000000 14def9dea2f79cd6 5812631a5cf5d3ed', hash: hash.sha256, gRed: false, g: [ '9' ] }); defineCurve('ed25519', { type: 'edwards', prime: 'p25519', p: '7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed', a: '-1', c: '1', // -121665 * (121666^(-1)) (mod P) d: '52036cee2b6ffe73 8cc740797779e898 00700a4d4141d8ab 75eb4dca135978a3', n: '1000000000000000 0000000000000000 14def9dea2f79cd6 5812631a5cf5d3ed', hash: hash.sha256, gRed: false, g: [ '216936d3cd6e53fec0a4e231fdd6dc5c692cc7609525a7b2c9562d608f25d51a', // 4/5 '6666666666666666666666666666666666666666666666666666666666666658' ] }); defineCurve('secp256k1', { type: 'short', prime: 'k256', p: 'ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffe fffffc2f', a: '0', b: '7', n: 'ffffffff ffffffff ffffffff fffffffe baaedce6 af48a03b bfd25e8c d0364141', h: '1', hash: hash.sha256, // Precomputed endomorphism beta: '7ae96a2b657c07106e64479eac3434e99cf0497512f58995c1396c28719501ee', lambda: '5363ad4cc05c30e0a5261c028812645a122e22ea20816678df02967c1b23bd72', basis: [ { a: '3086d221a7d46bcde86c90e49284eb15', b: '-e4437ed6010e88286f547fa90abfe4c3' }, { a: '114ca50f7a8e2f3f657c1108d9d44cfd8', b: '3086d221a7d46bcde86c90e49284eb15' } ], gRed: false, g: [ '79be667ef9dcbbac55a06295ce870b07029bfcdb2dce28d959f2815b16f81798', '483ada7726a3c4655da4fbfc0e1108a8fd17b448a68554199c47d08ffb10d4b8', { 'doubles': { 'step': 4, 'points': [ [ 'e60fce93b59e9ec53011aabc21c23e97b2a31369b87a5ae9c44ee89e2a6dec0a', 'f7e3507399e595929db99f34f57937101296891e44d23f0be1f32cce69616821' ], [ '8282263212c609d9ea2a6e3e172de238d8c39cabd5ac1ca10646e23fd5f51508', '11f8a8098557dfe45e8256e830b60ace62d613ac2f7b17bed31b6eaff6e26caf' ], [ 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'1b38903a43f7f114ed4500b4eac7083fdefece1cf29c63528d563446f972c180', '4036edc931a60ae889353f77fd53de4a2708b26b6f5da72ad3394119daf408f9' ] ] } } ] }); },{"2":2,"218":218,"230":230,"232":232}],225:[function(require,module,exports){ var assert = require(2); var bn = require(230); var elliptic = require(218); var utils = elliptic.utils; var KeyPair = require(226); var Signature = require(227); function EC(options) { if (!(this instanceof EC)) return new EC(options); // Shortcut `elliptic.ec(curve-name)` if (typeof options === 'string') { assert(elliptic.curves.hasOwnProperty(options), 'Unknown curve ' + options); options = elliptic.curves[options]; } // Shortcut for `elliptic.ec(elliptic.curves.curveName)` if (options instanceof elliptic.curves.PresetCurve) options = { curve: options }; this.curve = options.curve.curve; this.n = this.curve.n; this.nh = this.n.shrn(1); this.g = this.curve.g; // Point on curve this.g = options.curve.g; this.g.precompute(options.curve.n.bitLength() + 1); // Hash for function for DRBG this.hash = options.hash || options.curve.hash; } module.exports = EC; EC.prototype.keyPair = function keyPair(priv, pub) { return new KeyPair(this, priv, pub); }; EC.prototype.genKeyPair = function genKeyPair(options) { if (!options) options = {}; // Instantiate Hmac_DRBG var drbg = new elliptic.hmacDRBG({ hash: this.hash, pers: options.pers, entropy: options.entropy || elliptic.rand(this.hash.hmacStrength), nonce: this.n.toArray() }); var bytes = this.n.byteLength(); var ns2 = this.n.sub(new bn(2)); do { var priv = new bn(drbg.generate(bytes)); if (priv.cmp(ns2) > 0) continue; priv.iaddn(1); return this.keyPair(priv); } while (true); }; EC.prototype._truncateToN = function truncateToN(msg, truncOnly) { var delta = msg.byteLength() * 8 - this.n.bitLength(); if (delta > 0) msg = msg.shrn(delta); if (!truncOnly && msg.cmp(this.n) >= 0) return msg.sub(this.n); else return msg; }; EC.prototype.sign = function sign(msg, key, options) { key = this.keyPair(key, 'hex'); msg = this._truncateToN(new bn(msg, 16)); if (!options) options = {}; // Zero-extend key to provide enough entropy var bytes = this.n.byteLength(); var bkey = key.getPrivate().toArray(); for (var i = bkey.length; i < 21; i++) bkey.unshift(0); // Zero-extend nonce to have the same byte size as N var nonce = msg.toArray(); for (var i = nonce.length; i < bytes; i++) nonce.unshift(0); // Instantiate Hmac_DRBG var drbg = new elliptic.hmacDRBG({ hash: this.hash, entropy: bkey, nonce: nonce }); // Number of bytes to generate var ns1 = this.n.sub(new bn(1)); do { var k = new bn(drbg.generate(this.n.byteLength())); k = this._truncateToN(k, true); if (k.cmpn(1) <= 0 || k.cmp(ns1) >= 0) continue; var kp = this.g.mul(k); if (kp.isInfinity()) continue; var r = kp.getX().mod(this.n); if (r.cmpn(0) === 0) continue; var s = k.invm(this.n).mul(r.mul(key.getPrivate()).iadd(msg)).mod(this.n); if (s.cmpn(0) === 0) continue; // Use complement of `s`, if it is > `n / 2` if (options.canonical && s.cmp(this.nh) > 0) s = this.n.sub(s); return new Signature(r, s); } while (true); }; EC.prototype.verify = function verify(msg, signature, key) { msg = this._truncateToN(new bn(msg, 16)); key = this.keyPair(key, 'hex'); signature = new Signature(signature, 'hex'); // Perform primitive values validation var r = signature.r; var s = signature.s; if (r.cmpn(1) < 0 || r.cmp(this.n) >= 0) return false; if (s.cmpn(1) < 0 || s.cmp(this.n) >= 0) return false; // Validate signature var sinv = s.invm(this.n); var u1 = sinv.mul(msg).mod(this.n); var u2 = sinv.mul(r).mod(this.n); var p = this.g.mulAdd(u1, key.getPublic(), u2); if (p.isInfinity()) return false; return p.getX().mod(this.n).cmp(r) === 0; }; },{"2":2,"218":218,"226":226,"227":227,"230":230}],226:[function(require,module,exports){ var assert = require(2); var bn = require(230); var elliptic = require(218); var utils = elliptic.utils; function KeyPair(ec, priv, pub) { if (priv instanceof KeyPair) return priv; if (pub instanceof KeyPair) return pub; if (!priv) { priv = pub; pub = null; } if (priv !== null && typeof priv === 'object') { if (priv.x) { // KeyPair(public) pub = priv; priv = null; } else if (priv.priv || priv.pub) { // KeyPair({ priv: ..., pub: ... }) pub = priv.pub; priv = priv.priv; } } this.ec = ec; this.priv = null; this.pub = null; // KeyPair(public, 'hex') if (this._importPublicHex(priv, pub)) return; if (pub === 'hex') pub = null; // KeyPair(priv, pub) if (priv) this._importPrivate(priv); if (pub) this._importPublic(pub); } module.exports = KeyPair; KeyPair.prototype.validate = function validate() { var pub = this.getPublic(); if (pub.isInfinity()) return { result: false, reason: 'Invalid public key' }; if (!pub.validate()) return { result: false, reason: 'Public key is not a point' }; if (!pub.mul(this.ec.curve.n).isInfinity()) return { result: false, reason: 'Public key * N != O' }; return { result: true, reason: null }; }; KeyPair.prototype.getPublic = function getPublic(compact, enc) { if (!this.pub) this.pub = this.ec.g.mul(this.priv); // compact is optional argument if (typeof compact === 'string') { enc = compact; compact = null; } if (!enc) return this.pub; var len = this.ec.curve.p.byteLength(); var x = this.pub.getX().toArray(); for (var i = x.length; i < len; i++) x.unshift(0); if (compact) { var res = [ this.pub.getY().isEven() ? 0x02 : 0x03 ].concat(x); } else { var y = this.pub.getY().toArray(); for (var i = y.length; i < len; i++) y.unshift(0); var res = [ 0x04 ].concat(x, y); } return utils.encode(res, enc); }; KeyPair.prototype.getPrivate = function getPrivate(enc) { if (enc === 'hex') return this.priv.toString(16, 2); else return this.priv; }; KeyPair.prototype._importPrivate = function _importPrivate(key) { this.priv = new bn(key, 16); // Ensure that the priv won't be bigger than n, otherwise we may fail // in fixed multiplication method this.priv = this.priv.mod(this.ec.curve.n); }; KeyPair.prototype._importPublic = function _importPublic(key) { this.pub = this.ec.curve.point(key.x, key.y); }; KeyPair.prototype._importPublicHex = function _importPublic(key, enc) { key = utils.toArray(key, enc); var len = this.ec.curve.p.byteLength(); if (key[0] === 0x04 && key.length - 1 === 2 * len) { this.pub = this.ec.curve.point( key.slice(1, 1 + len), key.slice(1 + len, 1 + 2 * len)); } else if ((key[0] === 0x02 || key[0] === 0x03) && key.length - 1 === len) { this.pub = this.ec.curve.pointFromX(key[0] === 0x03, key.slice(1, 1 +len)); } else { return false; } return true; }; // ECDH KeyPair.prototype.derive = function derive(pub) { return pub.mul(this.priv).getX(); }; // ECDSA KeyPair.prototype.sign = function sign(msg) { return this.ec.sign(msg, this); }; KeyPair.prototype.verify = function verify(msg, signature) { return this.ec.verify(msg, signature, this); }; KeyPair.prototype.inspect = function inspect() { return ''; }; },{"2":2,"218":218,"230":230}],227:[function(require,module,exports){ var assert = require(2); var bn = require(230); var elliptic = require(218); var utils = elliptic.utils; function Signature(r, s) { if (r instanceof Signature) return r; if (this._importDER(r, s)) return; assert(r && s, 'Signature without r or s'); this.r = new bn(r, 16); this.s = new bn(s, 16); } module.exports = Signature; Signature.prototype._importDER = function _importDER(data, enc) { data = utils.toArray(data, enc); if (data.length < 6 || data[0] !== 0x30 || data[2] !== 0x02) return false; var total = data[1]; if (1 + total > data.length) return false; var rlen = data[3]; // Short length notation if (rlen >= 0x80) return false; if (4 + rlen + 2 >= data.length) return false; if (data[4 + rlen] !== 0x02) return false; var slen = data[5 + rlen]; // Short length notation if (slen >= 0x80) return false; if (4 + rlen + 2 + slen > data.length) return false; this.r = new bn(data.slice(4, 4 + rlen)); this.s = new bn(data.slice(4 + rlen + 2, 4 + rlen + 2 + slen)); return true; }; Signature.prototype.toDER = function toDER(enc) { var r = this.r.toArray(); var s = this.s.toArray(); // Pad values if (r[0] & 0x80) r = [ 0 ].concat(r); // Pad values if (s[0] & 0x80) s = [ 0 ].concat(s); var total = r.length + s.length + 4; var res = [ 0x30, total, 0x02, r.length ]; res = res.concat(r, [ 0x02, s.length ], s); return utils.encode(res, enc); }; },{"2":2,"218":218,"230":230}],228:[function(require,module,exports){ var assert = require(2); var hash = require(232); var elliptic = require(218); var utils = elliptic.utils; function HmacDRBG(options) { if (!(this instanceof HmacDRBG)) return new HmacDRBG(options); this.hash = options.hash; this.predResist = !!options.predResist; this.outLen = this.hash.outSize; this.minEntropy = options.minEntropy || this.hash.hmacStrength; this.reseed = null; this.reseedInterval = null; this.K = null; this.V = null; var entropy = utils.toArray(options.entropy, options.entropyEnc); var nonce = utils.toArray(options.nonce, options.nonceEnc); var pers = utils.toArray(options.pers, options.persEnc); assert(entropy.length >= (this.minEntropy / 8), 'Not enough entropy. Minimum is: ' + this.minEntropy + ' bits'); this._init(entropy, nonce, pers); } module.exports = HmacDRBG; HmacDRBG.prototype._init = function init(entropy, nonce, pers) { var seed = entropy.concat(nonce).concat(pers); this.K = new Array(this.outLen / 8); this.V = new Array(this.outLen / 8); for (var i = 0; i < this.V.length; i++) { this.K[i] = 0x00; this.V[i] = 0x01; } this._update(seed); this.reseed = 1; this.reseedInterval = 0x1000000000000; // 2^48 }; HmacDRBG.prototype._hmac = function hmac() { return new hash.hmac(this.hash, this.K); }; HmacDRBG.prototype._update = function update(seed) { var kmac = this._hmac() .update(this.V) .update([ 0x00 ]); if (seed) kmac = kmac.update(seed); this.K = kmac.digest(); this.V = this._hmac().update(this.V).digest(); if (!seed) return; this.K = this._hmac() .update(this.V) .update([ 0x01 ]) .update(seed) .digest(); this.V = this._hmac().update(this.V).digest(); }; HmacDRBG.prototype.reseed = function reseed(entropy, entropyEnc, add, addEnc) { // Optional entropy enc if (typeof entropyEnc !== 'string') { addEnc = add; add = entropyEnc; entropyEnc = null; } entropy = utils.toBuffer(entropy, entropyEnc); add = utils.toBuffer(add, addEnc); assert(entropy.length >= (this.minEntropy / 8), 'Not enough entropy. Minimum is: ' + this.minEntropy + ' bits'); this._update(entropy.concat(add || [])); this.reseed = 1; }; HmacDRBG.prototype.generate = function generate(len, enc, add, addEnc) { if (this.reseed > this.reseedInterval) throw new Error('Reseed is required'); // Optional encoding if (typeof enc !== 'string') { addEnc = add; add = enc; enc = null; } // Optional additional data if (add) { add = utils.toArray(add, addEnc); this._update(add); } var temp = []; while (temp.length < len) { this.V = this._hmac().update(this.V).digest(); temp = temp.concat(this.V); } var res = temp.slice(0, len); this._update(add); this.reseed++; return utils.encode(res, enc); }; },{"2":2,"218":218,"232":232}],229:[function(require,module,exports){ var assert = require(2); var bn = require(230); var utils = exports; function toArray(msg, enc) { if (Array.isArray(msg)) return msg.slice(); if (!msg) return []; var res = []; if (typeof msg === 'string') { if (!enc) { for (var i = 0; i < msg.length; i++) { var c = msg.charCodeAt(i); var hi = c >> 8; var lo = c & 0xff; if (hi) res.push(hi, lo); else res.push(lo); } } else if (enc === 'hex') { msg = msg.replace(/[^a-z0-9]+/ig, ''); if (msg.length % 2 !== 0) msg = '0' + msg; for (var i = 0; i < msg.length; i += 2) res.push(parseInt(msg[i] + msg[i + 1], 16)); } } else { for (var i = 0; i < msg.length; i++) res[i] = msg[i] | 0; } return res; } utils.toArray = toArray; function toHex(msg) { var res = ''; for (var i = 0; i < msg.length; i++) res += zero2(msg[i].toString(16)); return res; } utils.toHex = toHex; utils.encode = function encode(arr, enc) { if (enc === 'hex') return toHex(arr); else return arr; }; function zero2(word) { if (word.length === 1) return '0' + word; else return word; } utils.zero2 = zero2; // Represent num in a w-NAF form function getNAF(num, w) { var naf = []; var ws = 1 << (w + 1); var k = num.clone(); while (k.cmpn(1) >= 0) { var z; if (k.isOdd()) { var mod = k.andln(ws - 1); if (mod > (ws >> 1) - 1) z = (ws >> 1) - mod; else z = mod; k.isubn(z); } else { z = 0; } naf.push(z); // Optimization, shift by word if possible var shift = (k.cmpn(0) !== 0 && k.andln(ws - 1) === 0) ? (w + 1) : 1; for (var i = 1; i < shift; i++) naf.push(0); k.ishrn(shift); } return naf; } utils.getNAF = getNAF; // Represent k1, k2 in a Joint Sparse Form function getJSF(k1, k2) { var jsf = [ [], [] ]; k1 = k1.clone(); k2 = k2.clone(); var d1 = 0; var d2 = 0; while (k1.cmpn(-d1) > 0 || k2.cmpn(-d2) > 0) { // First phase var m14 = (k1.andln(3) + d1) & 3; var m24 = (k2.andln(3) + d2) & 3; if (m14 === 3) m14 = -1; if (m24 === 3) m24 = -1; var u1; if ((m14 & 1) === 0) { u1 = 0; } else { var m8 = (k1.andln(7) + d1) & 7; if ((m8 === 3 || m8 === 5) && m24 === 2) u1 = -m14; else u1 = m14; } jsf[0].push(u1); var u2; if ((m24 & 1) === 0) { u2 = 0; } else { var m8 = (k2.andln(7) + d2) & 7; if ((m8 === 3 || m8 === 5) && m14 === 2) u2 = -m24; else u2 = m24; } jsf[1].push(u2); // Second phase if (2 * d1 === u1 + 1) d1 = 1 - d1; if (2 * d2 === u2 + 1) d2 = 1 - d2; k1.ishrn(1); k2.ishrn(1); } return jsf; } utils.getJSF = getJSF; },{"2":2,"230":230}],230:[function(require,module,exports){ (function(module, exports) { 'use strict'; // Utils function assert(val, msg) { if (!val) throw new Error(msg || 'Assertion failed'); } // Could use `inherits` module, but don't want to move from single file // architecture yet. function inherits(ctor, superCtor) { ctor.super_ = superCtor; var TempCtor = function () {}; TempCtor.prototype = superCtor.prototype; ctor.prototype = new TempCtor(); ctor.prototype.constructor = ctor; } // BN function BN(number, base, endian) { // May be `new BN(bn)` ? if (number !== null && typeof number === 'object' && Array.isArray(number.words)) { return number; } this.sign = false; this.words = null; this.length = 0; // Reduction context this.red = null; if (base === 'le' || base === 'be') { endian = base; base = 10; } if (number !== null) this._init(number || 0, base || 10, endian || 'be'); } if (typeof module === 'object') module.exports = BN; else exports.BN = BN; BN.BN = BN; BN.wordSize = 26; BN.prototype._init = function init(number, base, endian) { if (typeof number === 'number') { if (number < 0) { this.sign = true; number = -number; } if (number < 0x4000000) { this.words = [ number & 0x3ffffff ]; this.length = 1; } else { this.words = [ number & 0x3ffffff, (number / 0x4000000) & 0x3ffffff ]; this.length = 2; } return; } else if (typeof number === 'object') { return this._initArray(number, base, endian); } if (base === 'hex') base = 16; assert(base === (base | 0) && base >= 2 && base <= 36); number = number.toString().replace(/\s+/g, ''); var start = 0; if (number[0] === '-') start++; if (base === 16) this._parseHex(number, start); else this._parseBase(number, base, start); if (number[0] === '-') this.sign = true; this.strip(); }; BN.prototype._initArray = function _initArray(number, base, endian) { // Perhaps a Uint8Array assert(typeof number.length === 'number'); this.length = Math.ceil(number.length / 3); this.words = new Array(this.length); for (var i = 0; i < this.length; i++) this.words[i] = 0; var off = 0; if (endian === 'be') { for (var i = number.length - 1, j = 0; i >= 0; i -= 3) { var w = number[i] | (number[i - 1] << 8) | (number[i - 2] << 16); this.words[j] |= (w << off) & 0x3ffffff; this.words[j + 1] = (w >>> (26 - off)) & 0x3ffffff; off += 24; if (off >= 26) { off -= 26; j++; } } } else if (endian === 'le') { for (var i = 0, j = 0; i < number.length; i += 3) { var w = number[i] | (number[i + 1] << 8) | (number[i + 2] << 16); this.words[j] |= (w << off) & 0x3ffffff; this.words[j + 1] = (w >>> (26 - off)) & 0x3ffffff; off += 24; if (off >= 26) { off -= 26; j++; } } } return this.strip(); }; function parseHex(str, start, end) { var r = 0; var len = Math.min(str.length, end); for (var i = start; i < len; i++) { var c = str.charCodeAt(i) - 48; r <<= 4; // 'a' - 'f' if (c >= 49 && c <= 54) r |= c - 49 + 0xa; // 'A' - 'F' else if (c >= 17 && c <= 22) r |= c - 17 + 0xa; // '0' - '9' else r |= c & 0xf; } return r; } BN.prototype._parseHex = function _parseHex(number, start) { // Create possibly bigger array to ensure that it fits the number this.length = Math.ceil((number.length - start) / 6); this.words = new Array(this.length); for (var i = 0; i < this.length; i++) this.words[i] = 0; // Scan 24-bit chunks and add them to the number var off = 0; for (var i = number.length - 6, j = 0; i >= start; i -= 6) { var w = parseHex(number, i, i + 6); this.words[j] |= (w << off) & 0x3ffffff; this.words[j + 1] |= w >>> (26 - off) & 0x3fffff; off += 24; if (off >= 26) { off -= 26; j++; } } if (i + 6 !== start) { var w = parseHex(number, start, i + 6); this.words[j] |= (w << off) & 0x3ffffff; this.words[j + 1] |= w >>> (26 - off) & 0x3fffff; } this.strip(); }; function parseBase(str, start, end, mul) { var r = 0; var len = Math.min(str.length, end); for (var i = start; i < len; i++) { var c = str.charCodeAt(i) - 48; r *= mul; // 'a' if (c >= 49) r += c - 49 + 0xa; // 'A' else if (c >= 17) r += c - 17 + 0xa; // '0' - '9' else r += c; } return r; } BN.prototype._parseBase = function _parseBase(number, base, start) { // Initialize as zero this.words = [ 0 ]; this.length = 1; // Find length of limb in base for (var limbLen = 0, limbPow = 1; limbPow <= 0x3ffffff; limbPow *= base) limbLen++; limbLen--; limbPow = (limbPow / base) | 0; var total = number.length - start; var mod = total % limbLen; var end = Math.min(total, total - mod) + start; var word = 0; for (var i = start; i < end; i += limbLen) { word = parseBase(number, i, i + limbLen, base); this.imuln(limbPow); if (this.words[0] + word < 0x4000000) this.words[0] += word; else this._iaddn(word); } if (mod !== 0) { var pow = 1; var word = parseBase(number, i, number.length, base); for (var i = 0; i < mod; i++) pow *= base; this.imuln(pow); if (this.words[0] + word < 0x4000000) this.words[0] += word; else this._iaddn(word); } }; BN.prototype.copy = function copy(dest) { dest.words = new Array(this.length); for (var i = 0; i < this.length; i++) dest.words[i] = this.words[i]; dest.length = this.length; dest.sign = this.sign; dest.red = this.red; }; BN.prototype.clone = function clone() { var r = new BN(null); this.copy(r); return r; }; // Remove leading `0` from `this` BN.prototype.strip = function strip() { while (this.length > 1 && this.words[this.length - 1] === 0) this.length--; return this._normSign(); }; BN.prototype._normSign = function _normSign() { // -0 = 0 if (this.length === 1 && this.words[0] === 0) this.sign = false; return this; }; BN.prototype.inspect = function inspect() { return (this.red ? ''; }; /* var zeros = []; var groupSizes = []; var groupBases = []; var s = ''; var i = -1; while (++i < BN.wordSize) { zeros[i] = s; s += '0'; } groupSizes[0] = 0; groupSizes[1] = 0; groupBases[0] = 0; groupBases[1] = 0; var base = 2 - 1; while (++base < 36 + 1) { var groupSize = 0; var groupBase = 1; while (groupBase < (1 << BN.wordSize) / base) { groupBase *= base; groupSize += 1; } groupSizes[base] = groupSize; groupBases[base] = groupBase; } */ var zeros = [ '', '0', '00', '000', '0000', '00000', '000000', '0000000', '00000000', '000000000', '0000000000', '00000000000', '000000000000', '0000000000000', '00000000000000', '000000000000000', '0000000000000000', '00000000000000000', '000000000000000000', '0000000000000000000', '00000000000000000000', '000000000000000000000', '0000000000000000000000', '00000000000000000000000', '000000000000000000000000', '0000000000000000000000000' ]; var groupSizes = [ 0, 0, 25, 16, 12, 11, 10, 9, 8, 8, 7, 7, 7, 7, 6, 6, 6, 6, 6, 6, 6, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5, 5 ]; var groupBases = [ 0, 0, 33554432, 43046721, 16777216, 48828125, 60466176, 40353607, 16777216, 43046721, 10000000, 19487171, 35831808, 62748517, 7529536, 11390625, 16777216, 24137569, 34012224, 47045881, 64000000, 4084101, 5153632, 6436343, 7962624, 9765625, 11881376, 14348907, 17210368, 20511149, 24300000, 28629151, 33554432, 39135393, 45435424, 52521875, 60466176 ]; BN.prototype.toString = function toString(base, padding) { base = base || 10; if (base === 16 || base === 'hex') { var out = ''; var off = 0; var padding = padding | 0 || 1; var carry = 0; for (var i = 0; i < this.length; i++) { var w = this.words[i]; var word = (((w << off) | carry) & 0xffffff).toString(16); carry = (w >>> (24 - off)) & 0xffffff; if (carry !== 0 || i !== this.length - 1) out = zeros[6 - word.length] + word + out; else out = word + out; off += 2; if (off >= 26) { off -= 26; i--; } } if (carry !== 0) out = carry.toString(16) + out; while (out.length % padding !== 0) out = '0' + out; if (this.sign) out = '-' + out; return out; } else if (base === (base | 0) && base >= 2 && base <= 36) { // var groupSize = Math.floor(BN.wordSize * Math.LN2 / Math.log(base)); var groupSize = groupSizes[base]; // var groupBase = Math.pow(base, groupSize); var groupBase = groupBases[base]; var out = ''; var c = this.clone(); c.sign = false; while (c.cmpn(0) !== 0) { var r = c.modn(groupBase).toString(base); c = c.idivn(groupBase); if (c.cmpn(0) !== 0) out = zeros[groupSize - r.length] + r + out; else out = r + out; } if (this.cmpn(0) === 0) out = '0' + out; if (this.sign) out = '-' + out; return out; } else { assert(false, 'Base should be between 2 and 36'); } }; BN.prototype.toJSON = function toJSON() { return this.toString(16); }; BN.prototype.toArray = function toArray() { this.strip(); var res = new Array(this.byteLength()); res[0] = 0; var q = this.clone(); for (var i = 0; q.cmpn(0) !== 0; i++) { var b = q.andln(0xff); q.ishrn(8); // Assume big-endian res[res.length - i - 1] = b; } return res; }; /* function genCountBits(bits) { var arr = []; for (var i = bits - 1; i >= 0; i--) { var bit = '0x' + (1 << i).toString(16); arr.push('w >= ' + bit + ' ? ' + (i + 1)); } return new Function('w', 'return ' + arr.join(' :\n') + ' :\n0;'); }; BN.prototype._countBits = genCountBits(26); */ // Sadly chrome apps could not contain `new Function()` calls BN.prototype._countBits = function _countBits(w) { return w >= 0x2000000 ? 26 : w >= 0x1000000 ? 25 : w >= 0x800000 ? 24 : w >= 0x400000 ? 23 : w >= 0x200000 ? 22 : w >= 0x100000 ? 21 : w >= 0x80000 ? 20 : w >= 0x40000 ? 19 : w >= 0x20000 ? 18 : w >= 0x10000 ? 17 : w >= 0x8000 ? 16 : w >= 0x4000 ? 15 : w >= 0x2000 ? 14 : w >= 0x1000 ? 13 : w >= 0x800 ? 12 : w >= 0x400 ? 11 : w >= 0x200 ? 10 : w >= 0x100 ? 9 : w >= 0x80 ? 8 : w >= 0x40 ? 7 : w >= 0x20 ? 6 : w >= 0x10 ? 5 : w >= 0x8 ? 4 : w >= 0x4 ? 3 : w >= 0x2 ? 2 : w >= 0x1 ? 1 : 0; }; // Return number of used bits in a BN BN.prototype.bitLength = function bitLength() { var hi = 0; var w = this.words[this.length - 1]; var hi = this._countBits(w); return (this.length - 1) * 26 + hi; }; BN.prototype.byteLength = function byteLength() { return Math.ceil(this.bitLength() / 8); }; // Return negative clone of `this` BN.prototype.neg = function neg() { if (this.cmpn(0) === 0) return this.clone(); var r = this.clone(); r.sign = !this.sign; return r; }; // Or `num` with `this` in-place BN.prototype.ior = function ior(num) { this.sign = this.sign || num.sign; while (this.length < num.length) this.words[this.length++] = 0; for (var i = 0; i < num.length; i++) this.words[i] = this.words[i] | num.words[i]; return this.strip(); }; // Or `num` with `this` BN.prototype.or = function or(num) { if (this.length > num.length) return this.clone().ior(num); else return num.clone().ior(this); }; // And `num` with `this` in-place BN.prototype.iand = function iand(num) { this.sign = this.sign && num.sign; // b = min-length(num, this) var b; if (this.length > num.length) b = num; else b = this; for (var i = 0; i < b.length; i++) this.words[i] = this.words[i] & num.words[i]; this.length = b.length; return this.strip(); }; // And `num` with `this` BN.prototype.and = function and(num) { if (this.length > num.length) return this.clone().iand(num); else return num.clone().iand(this); }; // Xor `num` with `this` in-place BN.prototype.ixor = function ixor(num) { this.sign = this.sign || num.sign; // a.length > b.length var a; var b; if (this.length > num.length) { a = this; b = num; } else { a = num; b = this; } for (var i = 0; i < b.length; i++) this.words[i] = a.words[i] ^ b.words[i]; if (this !== a) for (; i < a.length; i++) this.words[i] = a.words[i]; this.length = a.length; return this.strip(); }; // Xor `num` with `this` BN.prototype.xor = function xor(num) { if (this.length > num.length) return this.clone().ixor(num); else return num.clone().ixor(this); }; // Set `bit` of `this` BN.prototype.setn = function setn(bit, val) { assert(typeof bit === 'number' && bit >= 0); var off = (bit / 26) | 0; var wbit = bit % 26; while (this.length <= off) this.words[this.length++] = 0; if (val) this.words[off] = this.words[off] | (1 << wbit); else this.words[off] = this.words[off] & ~(1 << wbit); return this.strip(); }; // Add `num` to `this` in-place BN.prototype.iadd = function iadd(num) { // negative + positive if (this.sign && !num.sign) { this.sign = false; var r = this.isub(num); this.sign = !this.sign; return this._normSign(); // positive + negative } else if (!this.sign && num.sign) { num.sign = false; var r = this.isub(num); num.sign = true; return r._normSign(); } // a.length > b.length var a; var b; if (this.length > num.length) { a = this; b = num; } else { a = num; b = this; } var carry = 0; for (var i = 0; i < b.length; i++) { var r = a.words[i] + b.words[i] + carry; this.words[i] = r & 0x3ffffff; carry = r >>> 26; } for (; carry !== 0 && i < a.length; i++) { var r = a.words[i] + carry; this.words[i] = r & 0x3ffffff; carry = r >>> 26; } this.length = a.length; if (carry !== 0) { this.words[this.length] = carry; this.length++; // Copy the rest of the words } else if (a !== this) { for (; i < a.length; i++) this.words[i] = a.words[i]; } return this; }; // Add `num` to `this` BN.prototype.add = function add(num) { if (num.sign && !this.sign) { num.sign = false; var res = this.sub(num); num.sign = true; return res; } else if (!num.sign && this.sign) { this.sign = false; var res = num.sub(this); this.sign = true; return res; } if (this.length > num.length) return this.clone().iadd(num); else return num.clone().iadd(this); }; // Subtract `num` from `this` in-place BN.prototype.isub = function isub(num) { // this - (-num) = this + num if (num.sign) { num.sign = false; var r = this.iadd(num); num.sign = true; return r._normSign(); // -this - num = -(this + num) } else if (this.sign) { this.sign = false; this.iadd(num); this.sign = true; return this._normSign(); } // At this point both numbers are positive var cmp = this.cmp(num); // Optimization - zeroify if (cmp === 0) { this.sign = false; this.length = 1; this.words[0] = 0; return this; } // a > b var a; var b; if (cmp > 0) { a = this; b = num; } else { a = num; b = this; } var carry = 0; for (var i = 0; i < b.length; i++) { var r = a.words[i] - b.words[i] + carry; carry = r >> 26; this.words[i] = r & 0x3ffffff; } for (; carry !== 0 && i < a.length; i++) { var r = a.words[i] + carry; carry = r >> 26; this.words[i] = r & 0x3ffffff; } // Copy rest of the words if (carry === 0 && i < a.length && a !== this) for (; i < a.length; i++) this.words[i] = a.words[i]; this.length = Math.max(this.length, i); if (a !== this) this.sign = true; return this.strip(); }; // Subtract `num` from `this` BN.prototype.sub = function sub(num) { return this.clone().isub(num); }; /* // NOTE: This could be potentionally used to generate loop-less multiplications function _genCombMulTo(alen, blen) { var len = alen + blen - 1; var src = [ 'var a = this.words, b = num.words, o = out.words, c = 0, w, ' + 'mask = 0x3ffffff, shift = 0x4000000;', 'out.length = ' + len + ';' ]; for (var k = 0; k < len; k++) { var minJ = Math.max(0, k - alen + 1); var maxJ = Math.min(k, blen - 1); for (var j = minJ; j <= maxJ; j++) { var i = k - j; var mul = 'a[' + i + '] * b[' + j + ']'; if (j === minJ) { src.push('w = ' + mul + ' + c;'); src.push('c = (w / shift) | 0;'); } else { src.push('w += ' + mul + ';'); src.push('c += (w / shift) | 0;'); } src.push('w &= mask;'); } src.push('o[' + k + '] = w;'); } src.push('if (c !== 0) {', ' o[' + k + '] = c;', ' out.length++;', '}', 'return out;'); return src.join('\n'); } */ BN.prototype._smallMulTo = function _smallMulTo(num, out) { out.sign = num.sign !== this.sign; out.length = this.length + num.length; var carry = 0; for (var k = 0; k < out.length - 1; k++) { // Sum all words with the same `i + j = k` and accumulate `ncarry`, // note that ncarry could be >= 0x3ffffff var ncarry = carry >>> 26; var rword = carry & 0x3ffffff; var maxJ = Math.min(k, num.length - 1); for (var j = Math.max(0, k - this.length + 1); j <= maxJ; j++) { var i = k - j; var a = this.words[i] | 0; var b = num.words[j] | 0; var r = a * b; var lo = r & 0x3ffffff; ncarry = (ncarry + ((r / 0x4000000) | 0)) | 0; lo = (lo + rword) | 0; rword = lo & 0x3ffffff; ncarry = (ncarry + (lo >>> 26)) | 0; } out.words[k] = rword; carry = ncarry; } if (carry !== 0) { out.words[k] = carry; } else { out.length--; } return out.strip(); }; BN.prototype._bigMulTo = function _bigMulTo(num, out) { out.sign = num.sign !== this.sign; out.length = this.length + num.length; var carry = 0; var hncarry = 0; for (var k = 0; k < out.length - 1; k++) { // Sum all words with the same `i + j = k` and accumulate `ncarry`, // note that ncarry could be >= 0x3ffffff var ncarry = hncarry; hncarry = 0; var rword = carry & 0x3ffffff; var maxJ = Math.min(k, num.length - 1); for (var j = Math.max(0, k - this.length + 1); j <= maxJ; j++) { var i = k - j; var a = this.words[i] | 0; var b = num.words[j] | 0; var r = a * b; var lo = r & 0x3ffffff; ncarry = (ncarry + ((r / 0x4000000) | 0)) | 0; lo = (lo + rword) | 0; rword = lo & 0x3ffffff; ncarry = (ncarry + (lo >>> 26)) | 0; hncarry += ncarry >>> 26; ncarry &= 0x3ffffff; } out.words[k] = rword; carry = ncarry; ncarry = hncarry; } if (carry !== 0) { out.words[k] = carry; } else { out.length--; } return out.strip(); }; BN.prototype.mulTo = function mulTo(num, out) { var res; if (this.length + num.length < 63) res = this._smallMulTo(num, out); else res = this._bigMulTo(num, out); return res; }; // Multiply `this` by `num` BN.prototype.mul = function mul(num) { var out = new BN(null); out.words = new Array(this.length + num.length); return this.mulTo(num, out); }; // In-place Multiplication BN.prototype.imul = function imul(num) { if (this.cmpn(0) === 0 || num.cmpn(0) === 0) { this.words[0] = 0; this.length = 1; return this; } var tlen = this.length; var nlen = num.length; this.sign = num.sign !== this.sign; this.length = this.length + num.length; this.words[this.length - 1] = 0; for (var k = this.length - 2; k >= 0; k--) { // Sum all words with the same `i + j = k` and accumulate `carry`, // note that carry could be >= 0x3ffffff var carry = 0; var rword = 0; var maxJ = Math.min(k, nlen - 1); for (var j = Math.max(0, k - tlen + 1); j <= maxJ; j++) { var i = k - j; var a = this.words[i]; var b = num.words[j]; var r = a * b; var lo = r & 0x3ffffff; carry += (r / 0x4000000) | 0; lo += rword; rword = lo & 0x3ffffff; carry += lo >>> 26; } this.words[k] = rword; this.words[k + 1] += carry; carry = 0; } // Propagate overflows var carry = 0; for (var i = 1; i < this.length; i++) { var w = this.words[i] + carry; this.words[i] = w & 0x3ffffff; carry = w >>> 26; } return this.strip(); }; BN.prototype.imuln = function imuln(num) { assert(typeof num === 'number'); // Carry var carry = 0; for (var i = 0; i < this.length; i++) { var w = this.words[i] * num; var lo = (w & 0x3ffffff) + (carry & 0x3ffffff); carry >>= 26; carry += (w / 0x4000000) | 0; // NOTE: lo is 27bit maximum carry += lo >>> 26; this.words[i] = lo & 0x3ffffff; } if (carry !== 0) { this.words[i] = carry; this.length++; } return this; }; // `this` * `this` BN.prototype.sqr = function sqr() { return this.mul(this); }; // `this` * `this` in-place BN.prototype.isqr = function isqr() { return this.mul(this); }; // Shift-left in-place BN.prototype.ishln = function ishln(bits) { assert(typeof bits === 'number' && bits >= 0); var r = bits % 26; var s = (bits - r) / 26; var carryMask = (0x3ffffff >>> (26 - r)) << (26 - r); if (r !== 0) { var carry = 0; for (var i = 0; i < this.length; i++) { var newCarry = this.words[i] & carryMask; var c = (this.words[i] - newCarry) << r; this.words[i] = c | carry; carry = newCarry >>> (26 - r); } if (carry) { this.words[i] = carry; this.length++; } } if (s !== 0) { for (var i = this.length - 1; i >= 0; i--) this.words[i + s] = this.words[i]; for (var i = 0; i < s; i++) this.words[i] = 0; this.length += s; } return this.strip(); }; // Shift-right in-place // NOTE: `hint` is a lowest bit before trailing zeroes // NOTE: if `extended` is true - { lo: ..., hi: } object will be returned BN.prototype.ishrn = function ishrn(bits, hint, extended) { assert(typeof bits === 'number' && bits >= 0); if (hint) hint = (hint - (hint % 26)) / 26; else hint = 0; var r = bits % 26; var s = Math.min((bits - r) / 26, this.length); var mask = 0x3ffffff ^ ((0x3ffffff >>> r) << r); var maskedWords = extended; hint -= s; hint = Math.max(0, hint); // Extended mode, copy masked part if (maskedWords) { for (var i = 0; i < s; i++) maskedWords.words[i] = this.words[i]; maskedWords.length = s; } if (s === 0) { // No-op, we should not move anything at all } else if (this.length > s) { this.length -= s; for (var i = 0; i < this.length; i++) this.words[i] = this.words[i + s]; } else { this.words[0] = 0; this.length = 1; } var carry = 0; for (var i = this.length - 1; i >= 0 && (carry !== 0 || i >= hint); i--) { var word = this.words[i]; this.words[i] = (carry << (26 - r)) | (word >>> r); carry = word & mask; } // Push carried bits as a mask if (maskedWords && carry !== 0) maskedWords.words[maskedWords.length++] = carry; if (this.length === 0) { this.words[0] = 0; this.length = 1; } this.strip(); if (extended) return { hi: this, lo: maskedWords }; return this; }; // Shift-left BN.prototype.shln = function shln(bits) { return this.clone().ishln(bits); }; // Shift-right BN.prototype.shrn = function shrn(bits) { return this.clone().ishrn(bits); }; // Test if n bit is set BN.prototype.testn = function testn(bit) { assert(typeof bit === 'number' && bit >= 0); var r = bit % 26; var s = (bit - r) / 26; var q = 1 << r; // Fast case: bit is much higher than all existing words if (this.length <= s) { return false; } // Check bit and return var w = this.words[s]; return !!(w & q); }; // Return only lowers bits of number (in-place) BN.prototype.imaskn = function imaskn(bits) { assert(typeof bits === 'number' && bits >= 0); var r = bits % 26; var s = (bits - r) / 26; assert(!this.sign, 'imaskn works only with positive numbers'); if (r !== 0) s++; this.length = Math.min(s, this.length); if (r !== 0) { var mask = 0x3ffffff ^ ((0x3ffffff >>> r) << r); this.words[this.length - 1] &= mask; } return this.strip(); }; // Return only lowers bits of number BN.prototype.maskn = function maskn(bits) { return this.clone().imaskn(bits); }; // Add plain number `num` to `this` BN.prototype.iaddn = function iaddn(num) { assert(typeof num === 'number'); if (num < 0) return this.isubn(-num); // Possible sign change if (this.sign) { if (this.length === 1 && this.words[0] < num) { this.words[0] = num - this.words[0]; this.sign = false; return this; } this.sign = false; this.isubn(num); this.sign = true; return this; } // Add without checks return this._iaddn(num); }; BN.prototype._iaddn = function _iaddn(num) { this.words[0] += num; // Carry for (var i = 0; i < this.length && this.words[i] >= 0x4000000; i++) { this.words[i] -= 0x4000000; if (i === this.length - 1) this.words[i + 1] = 1; else this.words[i + 1]++; } this.length = Math.max(this.length, i + 1); return this; }; // Subtract plain number `num` from `this` BN.prototype.isubn = function isubn(num) { assert(typeof num === 'number'); if (num < 0) return this.iaddn(-num); if (this.sign) { this.sign = false; this.iaddn(num); this.sign = true; return this; } this.words[0] -= num; // Carry for (var i = 0; i < this.length && this.words[i] < 0; i++) { this.words[i] += 0x4000000; this.words[i + 1] -= 1; } return this.strip(); }; BN.prototype.addn = function addn(num) { return this.clone().iaddn(num); }; BN.prototype.subn = function subn(num) { return this.clone().isubn(num); }; BN.prototype.iabs = function iabs() { this.sign = false; return this; }; BN.prototype.abs = function abs() { return this.clone().iabs(); }; BN.prototype._ishlnsubmul = function _ishlnsubmul(num, mul, shift) { // Bigger storage is needed var len = num.length + shift; var i; if (this.words.length < len) { var t = new Array(len); for (var i = 0; i < this.length; i++) t[i] = this.words[i]; this.words = t; } else { i = this.length; } // Zeroify rest this.length = Math.max(this.length, len); for (; i < this.length; i++) this.words[i] = 0; var carry = 0; for (var i = 0; i < num.length; i++) { var w = this.words[i + shift] + carry; var right = num.words[i] * mul; w -= right & 0x3ffffff; carry = (w >> 26) - ((right / 0x4000000) | 0); this.words[i + shift] = w & 0x3ffffff; } for (; i < this.length - shift; i++) { var w = this.words[i + shift] + carry; carry = w >> 26; this.words[i + shift] = w & 0x3ffffff; } if (carry === 0) return this.strip(); // Subtraction overflow assert(carry === -1); carry = 0; for (var i = 0; i < this.length; i++) { var w = -this.words[i] + carry; carry = w >> 26; this.words[i] = w & 0x3ffffff; } this.sign = true; return this.strip(); }; BN.prototype._wordDiv = function _wordDiv(num, mode) { var shift = this.length - num.length; var a = this.clone(); var b = num; // Normalize var bhi = b.words[b.length - 1]; for (var shift = 0; bhi < 0x2000000; shift++) bhi <<= 1; if (shift !== 0) { b = b.shln(shift); a.ishln(shift); bhi = b.words[b.length - 1]; } // Initialize quotient var m = a.length - b.length; var q; if (mode !== 'mod') { q = new BN(null); q.length = m + 1; q.words = new Array(q.length); for (var i = 0; i < q.length; i++) q.words[i] = 0; } var diff = a.clone()._ishlnsubmul(b, 1, m); if (!diff.sign) { a = diff; if (q) q.words[m] = 1; } for (var j = m - 1; j >= 0; j--) { var qj = a.words[b.length + j] * 0x4000000 + a.words[b.length + j - 1]; // NOTE: (qj / bhi) is (0x3ffffff * 0x4000000 + 0x3ffffff) / 0x2000000 max // (0x7ffffff) qj = Math.min((qj / bhi) | 0, 0x3ffffff); a._ishlnsubmul(b, qj, j); while (a.sign) { qj--; a.sign = false; a._ishlnsubmul(b, 1, j); a.sign = !a.sign; } if (q) q.words[j] = qj; } if (q) q.strip(); a.strip(); // Denormalize if (mode !== 'div' && shift !== 0) a.ishrn(shift); return { div: q ? q : null, mod: a }; }; BN.prototype.divmod = function divmod(num, mode) { assert(num.cmpn(0) !== 0); if (this.sign && !num.sign) { var res = this.neg().divmod(num, mode); var div; var mod; if (mode !== 'mod') div = res.div.neg(); if (mode !== 'div') mod = res.mod.cmpn(0) === 0 ? res.mod : num.sub(res.mod); return { div: div, mod: mod }; } else if (!this.sign && num.sign) { var res = this.divmod(num.neg(), mode); var div; if (mode !== 'mod') div = res.div.neg(); return { div: div, mod: res.mod }; } else if (this.sign && num.sign) { return this.neg().divmod(num.neg(), mode); } // Both numbers are positive at this point // Strip both numbers to approximate shift value if (num.length > this.length || this.cmp(num) < 0) return { div: new BN(0), mod: this }; // Very short reduction if (num.length === 1) { if (mode === 'div') return { div: this.divn(num.words[0]), mod: null }; else if (mode === 'mod') return { div: null, mod: new BN(this.modn(num.words[0])) }; return { div: this.divn(num.words[0]), mod: new BN(this.modn(num.words[0])) }; } return this._wordDiv(num, mode); }; // Find `this` / `num` BN.prototype.div = function div(num) { return this.divmod(num, 'div').div; }; // Find `this` % `num` BN.prototype.mod = function mod(num) { return this.divmod(num, 'mod').mod; }; // Find Round(`this` / `num`) BN.prototype.divRound = function divRound(num) { var dm = this.divmod(num); // Fast case - exact division if (dm.mod.cmpn(0) === 0) return dm.div; var mod = dm.div.sign ? dm.mod.isub(num) : dm.mod; var half = num.shrn(1); var r2 = num.andln(1); var cmp = mod.cmp(half); // Round down if (cmp < 0 || r2 === 1 && cmp === 0) return dm.div; // Round up return dm.div.sign ? dm.div.isubn(1) : dm.div.iaddn(1); }; BN.prototype.modn = function modn(num) { assert(num <= 0x3ffffff); var p = (1 << 26) % num; var acc = 0; for (var i = this.length - 1; i >= 0; i--) acc = (p * acc + this.words[i]) % num; return acc; }; // In-place division by number BN.prototype.idivn = function idivn(num) { assert(num <= 0x3ffffff); var carry = 0; for (var i = this.length - 1; i >= 0; i--) { var w = this.words[i] + carry * 0x4000000; this.words[i] = (w / num) | 0; carry = w % num; } return this.strip(); }; BN.prototype.divn = function divn(num) { return this.clone().idivn(num); }; BN.prototype._egcd = function _egcd(x1, p) { assert(!p.sign); assert(p.cmpn(0) !== 0); var a = this; var b = p.clone(); if (a.sign) a = a.mod(p); else a = a.clone(); var x2 = new BN(0); while (b.isEven()) b.ishrn(1); var delta = b.clone(); while (a.cmpn(1) > 0 && b.cmpn(1) > 0) { while (a.isEven()) { a.ishrn(1); if (x1.isEven()) x1.ishrn(1); else x1.iadd(delta).ishrn(1); } while (b.isEven()) { b.ishrn(1); if (x2.isEven()) x2.ishrn(1); else x2.iadd(delta).ishrn(1); } if (a.cmp(b) >= 0) { a.isub(b); x1.isub(x2); } else { b.isub(a); x2.isub(x1); } } if (a.cmpn(1) === 0) return x1; else return x2; }; BN.prototype.gcd = function gcd(num) { if (this.cmpn(0) === 0) return num.clone(); if (num.cmpn(0) === 0) return this.clone(); var a = this.clone(); var b = num.clone(); a.sign = false; b.sign = false; // Remove common factor of two for (var shift = 0; a.isEven() && b.isEven(); shift++) { a.ishrn(1); b.ishrn(1); } while (a.isEven()) a.ishrn(1); do { while (b.isEven()) b.ishrn(1); // Swap `a` and `b` to make `a` always bigger than `b` if (a.cmp(b) < 0) { var t = a; a = b; b = t; } a.isub(a.div(b).mul(b)); } while (a.cmpn(0) !== 0 && b.cmpn(0) !== 0); if (a.cmpn(0) === 0) return b.ishln(shift); else return a.ishln(shift); }; // Invert number in the field F(num) BN.prototype.invm = function invm(num) { return this._egcd(new BN(1), num).mod(num); }; BN.prototype.isEven = function isEven() { return (this.words[0] & 1) === 0; }; BN.prototype.isOdd = function isOdd() { return (this.words[0] & 1) === 1; }; // And first word and num BN.prototype.andln = function andln(num) { return this.words[0] & num; }; // Increment at the bit position in-line BN.prototype.bincn = function bincn(bit) { assert(typeof bit === 'number'); var r = bit % 26; var s = (bit - r) / 26; var q = 1 << r; // Fast case: bit is much higher than all existing words if (this.length <= s) { for (var i = this.length; i < s + 1; i++) this.words[i] = 0; this.words[s] |= q; this.length = s + 1; return this; } // Add bit and propagate, if needed var carry = q; for (var i = s; carry !== 0 && i < this.length; i++) { var w = this.words[i]; w += carry; carry = w >>> 26; w &= 0x3ffffff; this.words[i] = w; } if (carry !== 0) { this.words[i] = carry; this.length++; } return this; }; BN.prototype.cmpn = function cmpn(num) { var sign = num < 0; if (sign) num = -num; if (this.sign && !sign) return -1; else if (!this.sign && sign) return 1; num &= 0x3ffffff; this.strip(); var res; if (this.length > 1) { res = 1; } else { var w = this.words[0]; res = w === num ? 0 : w < num ? -1 : 1; } if (this.sign) res = -res; return res; }; // Compare two numbers and return: // 1 - if `this` > `num` // 0 - if `this` == `num` // -1 - if `this` < `num` BN.prototype.cmp = function cmp(num) { if (this.sign && !num.sign) return -1; else if (!this.sign && num.sign) return 1; var res = this.ucmp(num); if (this.sign) return -res; else return res; }; // Unsigned comparison BN.prototype.ucmp = function ucmp(num) { // At this point both numbers have the same sign if (this.length > num.length) return 1; else if (this.length < num.length) return -1; var res = 0; for (var i = this.length - 1; i >= 0; i--) { var a = this.words[i]; var b = num.words[i]; if (a === b) continue; if (a < b) res = -1; else if (a > b) res = 1; break; } return res; }; // // A reduce context, could be using montgomery or something better, depending // on the `m` itself. // BN.red = function red(num) { return new Red(num); }; BN.prototype.toRed = function toRed(ctx) { assert(!this.red, 'Already a number in reduction context'); assert(!this.sign, 'red works only with positives'); return ctx.convertTo(this)._forceRed(ctx); }; BN.prototype.fromRed = function fromRed() { assert(this.red, 'fromRed works only with numbers in reduction context'); return this.red.convertFrom(this); }; BN.prototype._forceRed = function _forceRed(ctx) { this.red = ctx; return this; }; BN.prototype.forceRed = function forceRed(ctx) { assert(!this.red, 'Already a number in reduction context'); return this._forceRed(ctx); }; BN.prototype.redAdd = function redAdd(num) { assert(this.red, 'redAdd works only with red numbers'); return this.red.add(this, num); }; BN.prototype.redIAdd = function redIAdd(num) { assert(this.red, 'redIAdd works only with red numbers'); return this.red.iadd(this, num); }; BN.prototype.redSub = function redSub(num) { assert(this.red, 'redSub works only with red numbers'); return this.red.sub(this, num); }; BN.prototype.redISub = function redISub(num) { assert(this.red, 'redISub works only with red numbers'); return this.red.isub(this, num); }; BN.prototype.redShl = function redShl(num) { assert(this.red, 'redShl works only with red numbers'); return this.red.shl(this, num); }; BN.prototype.redMul = function redMul(num) { assert(this.red, 'redMul works only with red numbers'); this.red._verify2(this, num); return this.red.mul(this, num); }; BN.prototype.redIMul = function redIMul(num) { assert(this.red, 'redMul works only with red numbers'); this.red._verify2(this, num); return this.red.imul(this, num); }; BN.prototype.redSqr = function redSqr() { assert(this.red, 'redSqr works only with red numbers'); this.red._verify1(this); return this.red.sqr(this); }; BN.prototype.redISqr = function redISqr() { assert(this.red, 'redISqr works only with red numbers'); this.red._verify1(this); return this.red.isqr(this); }; // Square root over p BN.prototype.redSqrt = function redSqrt() { assert(this.red, 'redSqrt works only with red numbers'); this.red._verify1(this); return this.red.sqrt(this); }; BN.prototype.redInvm = function redInvm() { assert(this.red, 'redInvm works only with red numbers'); this.red._verify1(this); return this.red.invm(this); }; // Return negative clone of `this` % `red modulo` BN.prototype.redNeg = function redNeg() { assert(this.red, 'redNeg works only with red numbers'); this.red._verify1(this); return this.red.neg(this); }; BN.prototype.redPow = function redPow(num) { assert(this.red && !num.red, 'redPow(normalNum)'); this.red._verify1(this); return this.red.pow(this, num); }; // Prime numbers with efficient reduction var primes = { k256: null, p224: null, p192: null, p25519: null }; // Pseudo-Mersenne prime function MPrime(name, p) { // P = 2 ^ N - K this.name = name; this.p = new BN(p, 16); this.n = this.p.bitLength(); this.k = new BN(1).ishln(this.n).isub(this.p); this.tmp = this._tmp(); } MPrime.prototype._tmp = function _tmp() { var tmp = new BN(null); tmp.words = new Array(Math.ceil(this.n / 13)); return tmp; }; MPrime.prototype.ireduce = function ireduce(num) { // Assumes that `num` is less than `P^2` // num = HI * (2 ^ N - K) + HI * K + LO = HI * K + LO (mod P) var r = num; var rlen; do { var pair = r.ishrn(this.n, 0, this.tmp); r = this.imulK(pair.hi); r = r.iadd(pair.lo); rlen = r.bitLength(); } while (rlen > this.n); var cmp = rlen < this.n ? -1 : r.cmp(this.p); if (cmp === 0) { r.words[0] = 0; r.length = 1; } else if (cmp > 0) { r.isub(this.p); } else { r.strip(); } return r; }; MPrime.prototype.imulK = function imulK(num) { return num.imul(this.k); }; function K256() { MPrime.call( this, 'k256', 'ffffffff ffffffff ffffffff ffffffff ffffffff ffffffff fffffffe fffffc2f'); } inherits(K256, MPrime); K256.prototype.imulK = function imulK(num) { // K = 0x1000003d1 = [ 0x40, 0x3d1 ] num.words[num.length] = 0; num.words[num.length + 1] = 0; num.length += 2; // bounded at: 0x40 * 0x3ffffff + 0x3d0 = 0x100000390 var hi; var lo = 0; for (var i = 0; i < num.length; i++) { var w = num.words[i]; hi = w * 0x40; lo += w * 0x3d1; hi += (lo / 0x4000000) | 0; lo &= 0x3ffffff; num.words[i] = lo; lo = hi; } // Fast length reduction if (num.words[num.length - 1] === 0) { num.length--; if (num.words[num.length - 1] === 0) num.length--; } return num; }; function P224() { MPrime.call( this, 'p224', 'ffffffff ffffffff ffffffff ffffffff 00000000 00000000 00000001'); } inherits(P224, MPrime); function P192() { MPrime.call( this, 'p192', 'ffffffff ffffffff ffffffff fffffffe ffffffff ffffffff'); } inherits(P192, MPrime); function P25519() { // 2 ^ 255 - 19 MPrime.call( this, '25519', '7fffffffffffffff ffffffffffffffff ffffffffffffffff ffffffffffffffed'); } inherits(P25519, MPrime); P25519.prototype.imulK = function imulK(num) { // K = 0x13 var carry = 0; for (var i = 0; i < num.length; i++) { var hi = num.words[i] * 0x13 + carry; var lo = hi & 0x3ffffff; hi >>>= 26; num.words[i] = lo; carry = hi; } if (carry !== 0) num.words[num.length++] = carry; return num; }; // Exported mostly for testing purposes, use plain name instead BN._prime = function prime(name) { // Cached version of prime if (primes[name]) return primes[name]; var prime; if (name === 'k256') prime = new K256(); else if (name === 'p224') prime = new P224(); else if (name === 'p192') prime = new P192(); else if (name === 'p25519') prime = new P25519(); else throw new Error('Unknown prime ' + name); primes[name] = prime; return prime; }; // // Base reduction engine // function Red(m) { if (typeof m === 'string') { var prime = BN._prime(m); this.m = prime.p; this.prime = prime; } else { this.m = m; this.prime = null; } } Red.prototype._verify1 = function _verify1(a) { assert(!a.sign, 'red works only with positives'); assert(a.red, 'red works only with red numbers'); }; Red.prototype._verify2 = function _verify2(a, b) { assert(!a.sign && !b.sign, 'red works only with positives'); assert(a.red && a.red === b.red, 'red works only with red numbers'); }; Red.prototype.imod = function imod(a) { if (this.prime) return this.prime.ireduce(a)._forceRed(this); return a.mod(this.m)._forceRed(this); }; Red.prototype.neg = function neg(a) { var r = a.clone(); r.sign = !r.sign; return r.iadd(this.m)._forceRed(this); }; Red.prototype.add = function add(a, b) { this._verify2(a, b); var res = a.add(b); if (res.cmp(this.m) >= 0) res.isub(this.m); return res._forceRed(this); }; Red.prototype.iadd = function iadd(a, b) { this._verify2(a, b); var res = a.iadd(b); if (res.cmp(this.m) >= 0) res.isub(this.m); return res; }; Red.prototype.sub = function sub(a, b) { this._verify2(a, b); var res = a.sub(b); if (res.cmpn(0) < 0) res.iadd(this.m); return res._forceRed(this); }; Red.prototype.isub = function isub(a, b) { this._verify2(a, b); var res = a.isub(b); if (res.cmpn(0) < 0) res.iadd(this.m); return res; }; Red.prototype.shl = function shl(a, num) { this._verify1(a); return this.imod(a.shln(num)); }; Red.prototype.imul = function imul(a, b) { this._verify2(a, b); return this.imod(a.imul(b)); }; Red.prototype.mul = function mul(a, b) { this._verify2(a, b); return this.imod(a.mul(b)); }; Red.prototype.isqr = function isqr(a) { return this.imul(a, a); }; Red.prototype.sqr = function sqr(a) { return this.mul(a, a); }; Red.prototype.sqrt = function sqrt(a) { if (a.cmpn(0) === 0) return a.clone(); var mod3 = this.m.andln(3); assert(mod3 % 2 === 1); // Fast case if (mod3 === 3) { var pow = this.m.add(new BN(1)).ishrn(2); var r = this.pow(a, pow); return r; } // Tonelli-Shanks algorithm (Totally unoptimized and slow) // // Find Q and S, that Q * 2 ^ S = (P - 1) var q = this.m.subn(1); var s = 0; while (q.cmpn(0) !== 0 && q.andln(1) === 0) { s++; q.ishrn(1); } assert(q.cmpn(0) !== 0); var one = new BN(1).toRed(this); var nOne = one.redNeg(); // Find quadratic non-residue // NOTE: Max is such because of generalized Riemann hypothesis. var lpow = this.m.subn(1).ishrn(1); var z = this.m.bitLength(); z = new BN(2 * z * z).toRed(this); while (this.pow(z, lpow).cmp(nOne) !== 0) z.redIAdd(nOne); var c = this.pow(z, q); var r = this.pow(a, q.addn(1).ishrn(1)); var t = this.pow(a, q); var m = s; while (t.cmp(one) !== 0) { var tmp = t; for (var i = 0; tmp.cmp(one) !== 0; i++) tmp = tmp.redSqr(); assert(i < m); var b = this.pow(c, new BN(1).ishln(m - i - 1)); r = r.redMul(b); c = b.redSqr(); t = t.redMul(c); m = i; } return r; }; Red.prototype.invm = function invm(a) { var inv = a._egcd(new BN(1), this.m); if (inv.sign) { inv.sign = false; return this.imod(inv).redNeg(); } else { return this.imod(inv); } }; Red.prototype.pow = function pow(a, num) { var w = []; var q = num.clone(); while (q.cmpn(0) !== 0) { w.push(q.andln(1)); q.ishrn(1); } // Skip leading zeroes var res = a; for (var i = 0; i < w.length; i++, res = this.sqr(res)) if (w[i] !== 0) break; if (++i < w.length) { for (var q = this.sqr(res); i < w.length; i++, q = this.sqr(q)) { if (w[i] === 0) continue; res = this.mul(res, q); } } return res; }; Red.prototype.convertTo = function convertTo(num) { return num.clone(); }; Red.prototype.convertFrom = function convertFrom(num) { var res = num.clone(); res.red = null; return res; }; // // Montgomery method engine // BN.mont = function mont(num) { return new Mont(num); }; function Mont(m) { Red.call(this, m); this.shift = this.m.bitLength(); if (this.shift % 26 !== 0) this.shift += 26 - (this.shift % 26); this.r = new BN(1).ishln(this.shift); this.r2 = this.imod(this.r.sqr()); this.rinv = this.r.invm(this.m); this.minv = this.rinv.mul(this.r).isubn(1).div(this.m); this.minv.sign = true; this.minv = this.minv.mod(this.r); } inherits(Mont, Red); Mont.prototype.convertTo = function convertTo(num) { return this.imod(num.shln(this.shift)); }; Mont.prototype.convertFrom = function convertFrom(num) { var r = this.imod(num.mul(this.rinv)); r.red = null; return r; }; Mont.prototype.imul = function imul(a, b) { if (a.cmpn(0) === 0 || b.cmpn(0) === 0) { a.words[0] = 0; a.length = 1; return a; } var t = a.imul(b); var c = t.maskn(this.shift).mul(this.minv).imaskn(this.shift).mul(this.m); var u = t.isub(c).ishrn(this.shift); var res = u; if (u.cmp(this.m) >= 0) res = u.isub(this.m); else if (u.cmpn(0) < 0) res = u.iadd(this.m); return res._forceRed(this); }; Mont.prototype.mul = function mul(a, b) { if (a.cmpn(0) === 0 || b.cmpn(0) === 0) return new BN(0)._forceRed(this); var t = a.mul(b); var c = t.maskn(this.shift).mul(this.minv).imaskn(this.shift).mul(this.m); var u = t.isub(c).ishrn(this.shift); var res = u; if (u.cmp(this.m) >= 0) res = u.isub(this.m); else if (u.cmpn(0) < 0) res = u.iadd(this.m); return res._forceRed(this); }; Mont.prototype.invm = function invm(a) { // (AR)^-1 * R^2 = (A^-1 * R^-1) * R^2 = A^-1 * R var res = this.imod(a.invm(this.m).mul(this.r2)); return res._forceRed(this); }; })(typeof module === 'undefined' || module, this); },{}],231:[function(require,module,exports){ module.exports=require(56) },{"56":56}],232:[function(require,module,exports){ module.exports=require(57) },{"233":233,"234":234,"235":235,"236":236,"237":237,"57":57}],233:[function(require,module,exports){ module.exports=require(58) },{"232":232,"58":58}],234:[function(require,module,exports){ module.exports=require(59) },{"232":232,"59":59}],235:[function(require,module,exports){ module.exports=require(60) },{"232":232,"60":60}],236:[function(require,module,exports){ module.exports=require(61) },{"232":232,"61":61}],237:[function(require,module,exports){ module.exports=require(62) },{"238":238,"62":62}],238:[function(require,module,exports){ module.exports=require(196) },{"196":196}],239:[function(require,module,exports){ module.exports={ "name": "elliptic", "version": "1.0.0", "description": "EC cryptography", "main": "lib/elliptic.js", "scripts": { "test": "mocha --reporter=spec test/*-test.js" }, "repository": { "type": "git", "url": "git@github.com:indutny/elliptic" }, "keywords": [ "EC", "Elliptic", "curve", "Cryptography" ], "author": { "name": "Fedor Indutny", "email": "fedor@indutny.com" }, "license": "MIT", "bugs": { "url": "https://github.com/indutny/elliptic/issues" }, "homepage": "https://github.com/indutny/elliptic", "devDependencies": { "browserify": "^3.44.2", "mocha": "^1.18.2", "uglify-js": "^2.4.13" }, "dependencies": { "bn.js": "^1.0.0", "brorand": "^1.0.1", "hash.js": "^1.0.0", "inherits": "^2.0.1" }, "gitHead": "aaf14882e64fc7dedd4613d7e08cfa7fff303fe6", "_id": "elliptic@1.0.0", "_shasum": "28d927ae8c16c6f65e452a714b36da4095603e39", "_from": "elliptic@1.0.0", "_npmVersion": "1.4.28", "_npmUser": { "name": "indutny", "email": "fedor@indutny.com" }, "maintainers": [ { "name": "indutny", "email": "fedor@indutny.com" } ], "dist": { "shasum": "28d927ae8c16c6f65e452a714b36da4095603e39", "tarball": "http://registry.npmjs.org/elliptic/-/elliptic-1.0.0.tgz" }, "directories": {}, "_resolved": "https://registry.npmjs.org/elliptic/-/elliptic-1.0.0.tgz" } },{}],"bitauth":[function(require,module,exports){ (function (Buffer){ 'use strict'; var elliptic = require(218); var ecdsa = new elliptic.ec(elliptic.curves.secp256k1); var BitAuth = require(1); BitAuth._generateRandomPair = function() { var keys = ecdsa.genKeyPair(); var privateKey = keys.getPrivate('hex'); var publicKey = BitAuth.getPublicKeyFromPrivateKey(privateKey); return [privateKey, publicKey]; }; BitAuth._getPublicKeyFromPrivateKey = function(privkey) { var privKeyString; if (Buffer.isBuffer(privkey)) { privKeyString = privkey.toString('hex'); } else { privKeyString = privkey; } var keys = ecdsa.keyPair(privkey, 'hex'); // compressed public key var pubKey = keys.getPublic(); var xbuf = new Buffer(pubKey.x.toString('hex', 64), 'hex'); var ybuf = new Buffer(pubKey.y.toString('hex', 64), 'hex'); var pub; if (ybuf[ybuf.length - 1] % 2) { //odd pub = Buffer.concat([new Buffer([3]), xbuf]); } else { //even pub = Buffer.concat([new Buffer([2]), xbuf]); } return pub; }; BitAuth._sign = function(hashBuffer, privkey) { var signature = ecdsa.sign(hashBuffer.toString('hex'), privkey); var hexsignature = signature.toDER('hex'); return hexsignature; }; BitAuth._verifySignature = function(hashBuffer, signatureBuffer, pubkey) { return ecdsa.verify(hashBuffer.toString('hex'), signatureBuffer, pubkey); }; module.exports = BitAuth; }).call(this,require(4).Buffer) },{"1":1,"218":218,"4":4}]},{},[]);