- (Github) https://github.com/sponsors/sanex3339
- (OpenCollective) https://opencollective.com/javascript-obfuscator
Huge thanks to all supporters!
JavaScript Obfuscator is a powerful free obfuscator for JavaScript, containing a variety of features which provide protection for your source code.
Key features:
- variables renaming
- strings extraction and encryption
- dead code injection
- control flow flattening
- various code transformations
- and more...
The example of obfuscated code: github.com
- Webpack plugin: webpack-obfuscator
- Webpack loader: obfuscator-loader
- Gulp: gulp-javascript-obfuscator
- Grunt: grunt-contrib-obfuscator
- Rollup: rollup-plugin-javascript-obfuscator
- Weex: weex-devtool
- Malta: malta-js-obfuscator
- Netlify plugin: netlify-plugin-js-obfuscator
- Snowpack plugin: snowpack-javascript-obfuscator
If you have a question, check this section first: FAQ
It is not recommended to obfuscate vendor scripts and polyfills, since the obfuscated code is 15-80% slower (depends on options) and the files are significantly larger.
Install the package with Yarn or NPM and add it to your dependencies
or devDependencies
:
$ yarn add --dev javascript-obfuscator
or
$ npm install --save-dev javascript-obfuscator
From CDN:
<script src="https://cdn.jsdelivr.net/npm/javascript-obfuscator/dist/index.browser.js"></script>
From node_modules
:
<script src="./node_modules/javascript-obfuscator/dist/index.browser.js"></script>
var JavaScriptObfuscator = require('javascript-obfuscator');
var obfuscationResult = JavaScriptObfuscator.obfuscate(
`
(function(){
var variable1 = '5' - 3;
var variable2 = '5' + 3;
var variable3 = '5' + - '2';
var variable4 = ['10','10','10','10','10'].map(parseInt);
var variable5 = 'foo ' + 1 + 1;
console.log(variable1);
console.log(variable2);
console.log(variable3);
console.log(variable4);
console.log(variable5);
})();
`,
{
compact: false,
controlFlowFlattening: true,
controlFlowFlatteningThreshold: 1,
numbersToExpressions: true,
simplify: true,
stringArrayShuffle: true,
splitStrings: true,
stringArrayThreshold: 1
}
);
console.log(obfuscationResult.getObfuscatedCode());
/*
var _0x9947 = [
'map',
'log',
'foo\x20',
'bvmqO',
'133039ViRMWR',
'xPfLC',
'ytpdx',
'1243717qSZCyh',
'2|7|4|6|9|',
'1ErtbCr',
'1608314VKvthn',
'1ZRaFKN',
'XBoAA',
'423266kQOYHV',
'3|0|5|8|1',
'235064xPNdKe',
'13RUDZfG',
'157gNPQGm',
'1639212MvnHZL',
'rDjOa',
'iBHph',
'9926iRHoRl',
'split'
];
function _0x33e4(_0x1809b5, _0x37ef6e) {
return _0x33e4 = function (_0x338a69, _0x39ad79) {
_0x338a69 = _0x338a69 - (0x1939 + -0xf * 0x1f3 + 0x1 * 0x469);
var _0x2b223a = _0x9947[_0x338a69];
return _0x2b223a;
}, _0x33e4(_0x1809b5, _0x37ef6e);
}
(function (_0x431d87, _0x156c7f) {
var _0x10cf6e = _0x33e4;
while (!![]) {
try {
var _0x330ad1 = -parseInt(_0x10cf6e(0x6c)) * -parseInt(_0x10cf6e(0x6d)) + -parseInt(_0x10cf6e(0x74)) * -parseInt(_0x10cf6e(0x78)) + parseInt(_0x10cf6e(0x6a)) + -parseInt(_0x10cf6e(0x70)) + parseInt(_0x10cf6e(0x6e)) * -parseInt(_0x10cf6e(0x75)) + parseInt(_0x10cf6e(0x72)) + -parseInt(_0x10cf6e(0x67)) * parseInt(_0x10cf6e(0x73));
if (_0x330ad1 === _0x156c7f)
break;
else
_0x431d87['push'](_0x431d87['shift']());
} catch (_0x9f878) {
_0x431d87['push'](_0x431d87['shift']());
}
}
}(_0x9947, -0xb6270 + 0x4dfd2 * 0x2 + 0x75460 * 0x2), function () {
var _0x1f346d = _0x33e4, _0x860db8 = {
'ytpdx': _0x1f346d(0x6b) + _0x1f346d(0x71),
'bvmqO': function (_0x560787, _0x519b9e) {
return _0x560787 - _0x519b9e;
},
'rDjOa': function (_0x4501fe, _0x2b07a3) {
return _0x4501fe + _0x2b07a3;
},
'xPfLC': function (_0x5f3c9b, _0x434936) {
return _0x5f3c9b + _0x434936;
},
'XBoAA': function (_0x535b8a, _0x42eef4) {
return _0x535b8a + _0x42eef4;
},
'iBHph': _0x1f346d(0x65)
}, _0x346c55 = _0x860db8[_0x1f346d(0x69)][_0x1f346d(0x79)]('|'), _0x3bf817 = 0x4bb * 0x1 + 0x801 + -0xcbc;
while (!![]) {
switch (_0x346c55[_0x3bf817++]) {
case '0':
console[_0x1f346d(0x7b)](_0x4c96d8);
continue;
case '1':
console[_0x1f346d(0x7b)](_0x101028);
continue;
case '2':
var _0x65977d = _0x860db8[_0x1f346d(0x66)]('5', -0x586 + -0x2195 + -0x6 * -0x685);
continue;
case '3':
console[_0x1f346d(0x7b)](_0x65977d);
continue;
case '4':
var _0x56d39b = _0x860db8[_0x1f346d(0x76)]('5', -'2');
continue;
case '5':
console[_0x1f346d(0x7b)](_0x56d39b);
continue;
case '6':
var _0x544285 = [
'10',
'10',
'10',
'10',
'10'
][_0x1f346d(0x7a)](parseInt);
continue;
case '7':
var _0x4c96d8 = _0x860db8[_0x1f346d(0x68)]('5', 0x622 * -0x6 + 0x4a * 0x3 + 0x1 * 0x23f1);
continue;
case '8':
console[_0x1f346d(0x7b)](_0x544285);
continue;
case '9':
var _0x101028 = _0x860db8[_0x1f346d(0x6f)](_0x860db8[_0x1f346d(0x6f)](_0x860db8[_0x1f346d(0x77)], 0x6fb * 0x5 + 0x1ebf * 0x1 + -0x41a5), 0x209 * 0xa + 0x1314 + -0x276d);
continue;
}
break;
}
}());
*/
Returns ObfuscationResult
object which contains two public methods:
getObfuscatedCode()
- returnsstring
with obfuscated code;getSourceMap()
- ifsourceMap
option is enabled - returnsstring
with source map or an empty string ifsourceMapMode
option is set asinline
;getIdentifierNamesCache()
- returns object with identifier names cache ifidentifierNamesCache
option is enabled,null
overwise.
Calling toString()
for ObfuscationResult
object will return string
with obfuscated code.
Method takes two parameters, sourceCode
and options
– the source code and the options respectively:
sourceCode
(string
, default:null
) – any valid source code, passed as a string;options
(Object
, default:null
) – an object with options.
For available options, see options.
Accepts sourceCodesObject
that is a map which keys are identifiers of source codes and values are source codes:
{
foo: 'var foo = 1;',
bar: 'var bar = 2;'
}
Returns a map object which keys are identifiers of source codes and values are ObfuscationResult
objects.
Returns an options object for the passed options preset name.
See CLI options.
Usage:
javascript-obfuscator input_file_name.js [options]
javascript-obfuscator input_file_name.js --output output_file_name.js [options]
javascript-obfuscator input_file_name.js --output output_folder_name [options]
javascript-obfuscator input_folder_name --output output_folder_name [options]
Obfuscation of single input file with .js
extension.
If the destination path is not specified with the --output
option, the obfuscated file will be saved into the input file directory, with INPUT_FILE_NAME-obfuscated.js
name.
Some examples:
javascript-obfuscator samples/sample.js --compact true --self-defending false
// creates a new file samples/sample-obfuscated.js
javascript-obfuscator samples/sample.js --output output/output.js --compact true --self-defending false
// creates a new file output/output.js
Usage:
javascript-obfuscator ./dist [options]
// creates a new obfuscated files under `./dist` directory near the input files with `obfuscated` postfix
javascript-obfuscator ./dist --output ./dist/obfuscated [options]
// creates a folder structure with obfuscated files under `./dist/obfuscated` path
Obfuscation of all .js
files under input directory. If this directory contains already obfuscated files with -obfuscated
postfix - these files will ignored.
Obfuscated files will saved into the input directory under INPUT_FILE_NAME-obfuscated.js
name.
You can disable and enable obfuscation for specific parts of the code by adding following comments:
- disable:
// javascript-obfuscator:disable
or/* javascript-obfuscator:disable */
; - enable:
// javascript-obfuscator:enable
or/* javascript-obfuscator:enable */
.
Example:
// input
var foo = 1;
// javascript-obfuscator:disable
var bar = 2;
// output
var _0xabc123 = 0x1;
var bar = 2;
Conditional comments affect only direct transformations of AST-tree nodes. All child transformations still will be applied to the AST-tree nodes.
For example:
- Obfuscation of the variable's name at its declaration is called direct transformation;
- Obfuscation of the variable's name beyond its declaration is called child transformation.
Kind of variables of inserted nodes will auto-detected, based on most prevailing kind of variables of source code.
During obfuscation of the different files, the same names can be generated for the global identifiers between these files.
To prevent this set the unique prefix for all global identifiers for each obfuscated file with identifiersPrefix
option.
When using CLI this prefix will be added automatically.
Following options are available for the JS Obfuscator:
{
compact: true,
controlFlowFlattening: false,
controlFlowFlatteningThreshold: 0.75,
deadCodeInjection: false,
deadCodeInjectionThreshold: 0.4,
debugProtection: false,
debugProtectionInterval: 0,
disableConsoleOutput: false,
domainLock: [],
domainLockRedirectUrl: 'about:blank',
forceTransformStrings: [],
identifierNamesCache: null,
identifierNamesGenerator: 'hexadecimal',
identifiersDictionary: [],
identifiersPrefix: '',
ignoreImports: false,
inputFileName: '',
log: false,
numbersToExpressions: false,
optionsPreset: 'default',
renameGlobals: false,
renameProperties: false,
renamePropertiesMode: 'safe',
reservedNames: [],
reservedStrings: [],
seed: 0,
selfDefending: false,
simplify: true,
sourceMap: false,
sourceMapBaseUrl: '',
sourceMapFileName: '',
sourceMapMode: 'separate',
sourceMapSourcesMode: 'sources-content',
splitStrings: false,
splitStringsChunkLength: 10,
stringArray: true,
stringArrayCallsTransform: true,
stringArrayCallsTransformThreshold: 0.5,
stringArrayEncoding: [],
stringArrayIndexesType: [
'hexadecimal-number'
],
stringArrayIndexShift: true,
stringArrayRotate: true,
stringArrayShuffle: true,
stringArrayWrappersCount: 1,
stringArrayWrappersChainedCalls: true,
stringArrayWrappersParametersMaxCount: 2,
stringArrayWrappersType: 'variable',
stringArrayThreshold: 0.75,
target: 'browser',
transformObjectKeys: false,
unicodeEscapeSequence: false
}
-v, --version
-h, --help
-o, --output
--compact <boolean>
--config <string>
--control-flow-flattening <boolean>
--control-flow-flattening-threshold <number>
--dead-code-injection <boolean>
--dead-code-injection-threshold <number>
--debug-protection <boolean>
--debug-protection-interval <number>
--disable-console-output <boolean>
--domain-lock '<list>' (comma separated)
--domain-lock-redirect-url <string>
--exclude '<list>' (comma separated)
--force-transform-strings '<list>' (comma separated)
--identifier-names-cache-path <string>
--identifier-names-generator <string> [dictionary, hexadecimal, mangled, mangled-shuffled]
--identifiers-dictionary '<list>' (comma separated)
--identifiers-prefix <string>
--ignore-imports <boolean>
--log <boolean>
--numbers-to-expressions <boolean>
--options-preset <string> [default, low-obfuscation, medium-obfuscation, high-obfuscation]
--rename-globals <boolean>
--rename-properties <boolean>
--rename-properties-mode <string> [safe, unsafe]
--reserved-names '<list>' (comma separated)
--reserved-strings '<list>' (comma separated)
--seed <string|number>
--self-defending <boolean>
--simplify <boolean>
--source-map <boolean>
--source-map-base-url <string>
--source-map-file-name <string>
--source-map-mode <string> [inline, separate]
--source-map-sources-mode <string> [sources, sources-content]
--split-strings <boolean>
--split-strings-chunk-length <number>
--string-array <boolean>
--string-array-calls-transform <boolean>
--string-array-calls-transform-threshold <number>
--string-array-encoding '<list>' (comma separated) [none, base64, rc4]
--string-array-indexes-type '<list>' (comma separated) [hexadecimal-number, hexadecimal-numeric-string]
--string-array-index-shift <boolean>
--string-array-rotate <boolean>
--string-array-shuffle <boolean>
--string-array-wrappers-count <number>
--string-array-wrappers-chained-calls <boolean>
--string-array-wrappers-parameters-max-count <number>
--string-array-wrappers-type <string> [variable, function]
--string-array-threshold <number>
--target <string> [browser, browser-no-eval, node]
--transform-object-keys <boolean>
--unicode-escape-sequence <boolean>
Type: boolean
Default: true
Compact code output on one line.
Type: string
Default: ``
Name of JS/JSON config file which contains obfuscator options. These will be overridden by options passed directly to CLI
Type: boolean
Default: false
⚠️ This option greatly affects the performance up to 1.5x slower runtime speed. Use controlFlowFlatteningThreshold
to set percentage of nodes that will affected by control flow flattening.
Enables code control flow flattening. Control flow flattening is a structure transformation of the source code that hinders program comprehension.
Example:
// input
(function(){
function foo () {
return function () {
var sum = 1 + 2;
console.log(1);
console.log(2);
console.log(3);
console.log(4);
console.log(5);
console.log(6);
}
}
foo()();
})();
// output
(function () {
function _0x3bfc5c() {
return function () {
var _0x3260a5 = {
'WtABe': '4|0|6|5|3|2|1',
'GokKo': function _0xf87260(_0x427a8e, _0x43354c) {
return _0x427a8e + _0x43354c;
}
};
var _0x1ad4d6 = _0x3260a5['WtABe']['split']('|'), _0x1a7b12 = 0x0;
while (!![]) {
switch (_0x1ad4d6[_0x1a7b12++]) {
case '0':
console['log'](0x1);
continue;
case '1':
console['log'](0x6);
continue;
case '2':
console['log'](0x5);
continue;
case '3':
console['log'](0x4);
continue;
case '4':
var _0x1f2f2f = _0x3260a5['GokKo'](0x1, 0x2);
continue;
case '5':
console['log'](0x3);
continue;
case '6':
console['log'](0x2);
continue;
}
break;
}
};
}
_0x3bfc5c()();
}());
Type: number
Default: 0.75
Min: 0
Max: 1
The probability that the controlFlowFlattening
transformation will be applied to any given node.
This setting is especially useful for large code size because large amounts of control flow transformations can slow down your code and increase code size.
controlFlowFlatteningThreshold: 0
equals to controlFlowFlattening: false
.
Type: boolean
Default: false
⚠️ Dramatically increases size of obfuscated code (up to 200%), use only if size of obfuscated code doesn't matter. Use deadCodeInjectionThreshold
to set percentage of nodes that will affected by dead code injection.
With this option, random blocks of dead code will be added to the obfuscated code.
Example:
// input
(function(){
if (true) {
var foo = function () {
console.log('abc');
};
var bar = function () {
console.log('def');
};
var baz = function () {
console.log('ghi');
};
var bark = function () {
console.log('jkl');
};
var hawk = function () {
console.log('mno');
};
foo();
bar();
baz();
bark();
hawk();
}
})();
// output
var _0x37b8 = [
'YBCtz',
'GlrkA',
'urPbb',
'abc',
'NMIhC',
'yZgAj',
'zrAId',
'EtyJA',
'log',
'mno',
'jkl',
'def',
'Quzya',
'IWbBa',
'ghi'
];
function _0x43a7(_0x12cf56, _0x587376) {
_0x43a7 = function (_0x2f87a8, _0x47eac2) {
_0x2f87a8 = _0x2f87a8 - (0x16a7 * 0x1 + 0x5 * 0x151 + -0x1c92);
var _0x341e03 = _0x37b8[_0x2f87a8];
return _0x341e03;
};
return _0x43a7(_0x12cf56, _0x587376);
}
(function () {
if (!![]) {
var _0xbbe28f = function () {
var _0x2fc85f = _0x43a7;
if (_0x2fc85f(0xaf) === _0x2fc85f(0xae)) {
_0x1dd94f[_0x2fc85f(0xb2)](_0x2fc85f(0xb5));
} else {
console[_0x2fc85f(0xb2)](_0x2fc85f(0xad));
}
};
var _0x5e46bc = function () {
var _0x15b472 = _0x43a7;
if (_0x15b472(0xb6) !== _0x15b472(0xaa)) {
console[_0x15b472(0xb2)](_0x15b472(0xb5));
} else {
_0x47eac2[_0x15b472(0xb2)](_0x15b472(0xad));
}
};
var _0x3669e8 = function () {
var _0x47a442 = _0x43a7;
if (_0x47a442(0xb7) !== _0x47a442(0xb0)) {
console[_0x47a442(0xb2)](_0x47a442(0xb8));
} else {
_0x24e0bf[_0x47a442(0xb2)](_0x47a442(0xb3));
}
};
var _0x28b05a = function () {
var _0x497902 = _0x43a7;
if (_0x497902(0xb1) === _0x497902(0xb1)) {
console[_0x497902(0xb2)](_0x497902(0xb4));
} else {
_0x59c9c6[_0x497902(0xb2)](_0x497902(0xb4));
}
};
var _0x402a54 = function () {
var _0x1906b7 = _0x43a7;
if (_0x1906b7(0xab) === _0x1906b7(0xac)) {
_0xb89cd0[_0x1906b7(0xb2)](_0x1906b7(0xb8));
} else {
console[_0x1906b7(0xb2)](_0x1906b7(0xb3));
}
};
_0xbbe28f();
_0x5e46bc();
_0x3669e8();
_0x28b05a();
_0x402a54();
}
}());
Type: number
Default: 0.4
Min: 0
Max: 1
Allows to set percentage of nodes that will affected by deadCodeInjection
.
Type: boolean
Default: false
This option makes it almost impossible to use the debugger
function of the Developer Tools (both on WebKit-based and Mozilla Firefox).
Type: number
Default: 0
If set, an interval in milliseconds is used to force the debug mode on the Console tab, making it harder to use other features of the Developer Tools. Works if debugProtection
is enabled. Recommended value is between 2000
and 4000
milliseconds.
Type: boolean
Default: false
Disables the use of console.log
, console.info
, console.error
, console.warn
, console.debug
, console.exception
and console.trace
by replacing them with empty functions. This makes the use of the debugger harder.
Type: string[]
Default: []
Allows to run the obfuscated source code only on specific domains and/or sub-domains. This makes really hard for someone to just copy and paste your source code and run it elsewhere.
If the source code isn't run on the domains specified by this option, the browser will be redirected to a passed to the domainLockRedirectUrl
option URL.
It's possible to lock your code to more than one domain or sub-domain. For instance, to lock it so the code only runs on www.example.com add www.example.com
. To make it work on the root domain including any sub-domains (example.com
, sub.example.com
), use .example.com
.
Type: string
Default: about:blank
Allows the browser to be redirected to a passed URL if the source code isn't run on the domains specified by domainLock
Type: string[]
Default: []
A file names or globs which indicates files to exclude from obfuscation.
Type: string[]
Default: []
Enables force transformation of string literals, which being matched by passed RegExp patterns.
⚠️ This option affects only strings that shouldn't be transformed by stringArrayThreshold
(or possible other thresholds in the future)
The option has a priority over reservedStrings
option but hasn't a priority over conditional comments
.
Example:
{
forceTransformStrings: [
'some-important-value',
'some-string_\d'
]
}
Type: Object | null
Default: null
The main goal for this option is the ability to use the same identifier names during obfuscation of multiple sources/files.
Currently the two types of the identifiers are supported:
- Global identifiers:
- All global identifiers will be written to the cache;
- All matched undeclared global identifiers will be replaced by the values from the cache.
- Property identifiers, only when
renameProperties
option is enabled:- All property identifiers will be written to the cache;
- All matched property identifiers will be replaced by the values from the cache.
If a null
value is passed, completely disables the cache.
If an empty object ({}
) is passed, enables the writing identifier names to the cache-object (TIdentifierNamesCache
type). This cache-object will be accessed through the getIdentifierNamesCache
method call of ObfuscationResult
object.
The resulting cache-object can be next used as identifierNamesGenerator
option value for using these names during obfuscation of all matched identifier names of next sources.
Example:
const source1ObfuscationResult = JavaScriptObfuscator.obfuscate(
`
function foo(arg) {
console.log(arg)
}
function bar() {
var bark = 2;
}
`,
{
compact: false,
identifierNamesCache: {},
renameGlobals: true
}
)
console.log(source1ObfuscationResult.getIdentifierNamesCache());
/*
{
globalIdentifiers: {
foo: '_0x5de86d',
bar: '_0x2a943b'
}
}
*/
const source2ObfuscationResult = JavaScriptObfuscator.obfuscate(
`
// Expecting that these global functions are defined in another obfuscated file
foo(1);
bar();
// Expecting that this global function is defined in third-party package
baz();
`,
{
compact: false,
identifierNamesCache: source1ObfuscationResult.getIdentifierNamesCache(),
renameGlobals: true
}
)
console.log(source2ObfuscationResult.getObfuscatedCode());
/*
_0x5de86d(0x1);
_0x2a943b();
baz();
*/
CLI has a different option --identifier-names-cache-path
that allows defining a path to the existing .json
file that will be used to read and write identifier names cache.
If a path to the empty file will be passed - identifier names cache will be written to that file.
This file with existing cache can be used again as --identifier-names-cache-path
option value for using these names during obfuscation of all matched identifier names of the next files.
Type: string
Default: hexadecimal
Sets identifier names generator.
Available values:
dictionary
: identifier names fromidentifiersDictionary
listhexadecimal
: identifier names like_0xabc123
mangled
: short identifier names likea
,b
,c
mangled-shuffled
: same asmangled
but with shuffled alphabet
Type: string[]
Default: []
Sets identifiers dictionary for identifierNamesGenerator
: dictionary
option. Each identifier from the dictionary will be used in a few variants with a different casing of each character. Thus, the number of identifiers in the dictionary should depend on the identifiers amount at original source code.
Type: string
Default: ''
Sets prefix for all global identifiers.
Use this option when you want to obfuscate multiple files. This option helps to avoid conflicts between global identifiers of these files. Prefix should be different for every file.
Type: boolean
Default: false
Prevents obfuscation of require
imports. Could be helpful in some cases when for some reason runtime environment requires these imports with static strings only.
Type: string
Default: ''
Allows to set name of the input file with source code. This name will be used internally for source map generation.
Required when using NodeJS API and sourceMapSourcesMode
option has sources
value`.
Type: boolean
Default: false
Enables logging of the information to the console.
Type: boolean
Default: false
Enables numbers conversion to expressions
Example:
// input
const foo = 1234;
// output
const foo=-0xd93+-0x10b4+0x41*0x67+0x84e*0x3+-0xff8;
Type: string
Default: default
Allows to set options preset.
Available values:
default
;low-obfuscation
;medium-obfuscation
;high-obfuscation
.
All addition options will be merged with selected options preset.
Type: boolean
Default: false
Enables obfuscation of global variable and function names with declaration.
Type: boolean
Default: false
Enables renaming of property names. All built-in DOM properties and properties in core JavaScript classes will be ignored.
To switch between safe
and unsafe
modes of this option use renamePropertiesMode
option.
To set format of renamed property names use identifierNamesGenerator
option.
To control which properties will be renamed use reservedNames
option.
Example:
// input
(function () {
const foo = {
prop1: 1,
prop2: 2,
calc: function () {
return this.prop1 + this.prop2;
}
};
console.log(foo.calc());
})();
// output
(function () {
const _0x46529b = {
'_0x10cec7': 0x1,
'_0xc1c0ca': 0x2,
'_0x4b961d': function () {
return this['_0x10cec7'] + this['_0xc1c0ca'];
}
};
console['log'](_0x46529b['_0x4b961d']());
}());
Type: string
Default: safe
⚠️ Even in safe
mode, renameProperties
option MAY break your code.
Specifies renameProperties
option mode:
safe
- default behaviour after2.11.0
release. Trying to rename properties in a more safe way to prevent runtime errors. With this mode some properties will be excluded from renaming.unsafe
- default behaviour before2.11.0
release. Renames properties in an unsafe way without any restrictions.
If one file is using properties from other file, use identifierNamesCache
option to keep the same property names between these files.
Type: string[]
Default: []
Disables obfuscation and generation of identifiers, which being matched by passed RegExp patterns.
Example:
{
reservedNames: [
'^someVariable',
'functionParameter_\d'
]
}
Type: string[]
Default: []
Disables transformation of string literals, which being matched by passed RegExp patterns.
Example:
{
reservedStrings: [
'react-native',
'\.\/src\/test',
'some-string_\d'
]
}
Type: string|number
Default: 0
This option sets seed for random generator. This is useful for creating repeatable results.
If seed is 0
- random generator will work without seed.
Type: boolean
Default: false
⚠️ Don't change obfuscated code in any way after obfuscation with this option, because any change like uglifying of code can trigger self defending and code wont work anymore!
This option makes the output code resilient against formatting and variable renaming. If one tries to use a JavaScript beautifier on the obfuscated code, the code won't work anymore, making it harder to understand and modify it.
Type: boolean
Default: true
Enables additional code obfuscation through simplification.
⚠️ in future releases obfuscation of boolean
literals (true
=> !![]
) will be moved under this option.
Example:
// input
if (condition1) {
const foo = 1;
const bar = 2;
console.log(foo);
return bar;
} else if (condition2) {
console.log(1);
console.log(2);
console.log(3);
return 4;
} else {
return 5;
}
// output
if (condition1) {
const foo = 0x1, bar = 0x2;
return console['log'](foo), bar;
} else
return condition2 ? (console['log'](0x1), console['log'](0x2), console['log'](0x3), 0x4) : 0x5;
Type: boolean
Default: false
Enables source map generation for obfuscated code.
Source maps can be useful to help you debug your obfuscated JavaScript source code. If you want or need to debug in production, you can upload the separate source map file to a secret location and then point your browser there.
Type: string
Default: ``
Sets base url to the source map import url when sourceMapMode: 'separate'
.
CLI example:
javascript-obfuscator input.js --output out.js --source-map true --source-map-base-url 'http://localhost:9000'
Result:
//# sourceMappingURL=http://localhost:9000/out.js.map
Type: string
Default: ``
Sets file name for output source map when sourceMapMode: 'separate'
.
CLI example:
javascript-obfuscator input.js --output out.js --source-map true --source-map-base-url 'http://localhost:9000' --source-map-file-name example
Result:
//# sourceMappingURL=http://localhost:9000/example.js.map
Type: string
Default: separate
Specifies source map generation mode:
inline
- add source map at the end of each .js files;separate
- generates corresponding '.map' file with source map. In case you run obfuscator through CLI - adds link to source map file to the end of file with obfuscated code//# sourceMappingUrl=file.js.map
.
Type: string
Default: sources-content
Allows to control sources
and sourcesContent
fields of the source map:
sources-content
- adds dummysources
field, addssourcesContent
field with the original source code;sources
- addssources
field with a valid source description, does not addsourcesContent
field. When using NodeJS API it's required to defineinputFileName
option that will be used assources
field value.
Type: boolean
Default: false
Splits literal strings into chunks with length of splitStringsChunkLength
option value.
Example:
// input
(function(){
var test = 'abcdefg';
})();
// output
(function(){
var _0x5a21 = 'ab' + 'cd' + 'ef' + 'g';
})();
Type: number
Default: 10
Sets chunk length of splitStrings
option.
Type: boolean
Default: true
Removes string literals and place them in a special array. For instance, the string "Hello World"
in var m = "Hello World";
will be replaced with something like var m = _0x12c456[0x1];
Type: boolean
Default: false
⚠️ stringArray
option must be enabled
Enables the transformation of calls to the stringArray
. All arguments of these calls may be extracted to a different object depending on stringArrayCallsTransformThreshold
value.
So it makes it even harder to automatically find calls to the string array.
Example:
function foo() {
var k = {
c: 0x2f2,
d: '0x396',
e: '0x397',
f: '0x39a',
g: '0x39d',
h: 0x398,
l: 0x394,
m: '0x39b',
n: '0x39f',
o: 0x395,
p: 0x395,
q: 0x399,
r: '0x399'
};
var c = i(k.d, k.e);
var d = i(k.f, k.g);
var e = i(k.h, k.l);
var f = i(k.m, k.n);
function i(c, d) {
return b(c - k.c, d);
}
var g = i(k.o, k.p);
var h = i(k.q, k.r);
}
function j(c, d) {
var l = { c: 0x14b };
return b(c - -l.c, d);
}
console[j(-'0xa6', -'0xa6')](foo());
function b(c, d) {
var e = a();
b = function (f, g) {
f = f - 0xa3;
var h = e[f];
return h;
};
return b(c, d);
}
function a() {
var m = [
'string5',
'string1',
'log',
'string3',
'string6',
'string2',
'string4'
];
a = function () {
return m;
};
return a();
}
Type: number
Default: 0.5
⚠️ stringArray
and stringArrayCallsTransformThreshold
options must be enabled
You can use this setting to adjust the probability (from 0 to 1) that calls to the string array will be transformed.
Type: string[]
Default: []
This option can slow down your script.
Encode all string literals of the stringArray
using base64
or rc4
and inserts a special code that used to decode it back at runtime.
Each stringArray
value will be encoded by the randomly picked encoding from the passed list. This makes possible to use multiple encodings.
Available values:
'none'
(boolean
): doesn't encodestringArray
value'base64'
(string
): encodesstringArray
value usingbase64
'rc4'
(string
): encodesstringArray
value usingrc4
. About 30-50% slower thanbase64
, but more harder to get initial values. It's recommended to disableunicodeEscapeSequence
option when usingrc4
encoding to prevent very large size of obfuscated code.
For example with the following option values some stringArray
value won't be encoded, and some values will be encoded with base64
and rc4
encoding:
stringArrayEncoding: [
'none',
'base64',
'rc4'
]
Type: string[]
Default: ['hexadecimal-number']
Allows to control the type of string array call indexes.
Each stringArray
call index will be transformed by the randomly picked type from the passed list. This makes possible to use multiple types.
Available values:
'hexadecimal-number'
(default
): transforms string array call indexes as hexadecimal numbers'hexadecimal-numeric-string'
: transforms string array call indexes as hexadecimal numeric string
Before 2.9.0
release javascript-obfuscator
transformed all string array call indexes with hexadecimal-numeric-string
type. This makes some manual deobfuscation slightly harder but it allows easy detection of these calls by automatic deobfuscators.
The new hexadecimal-number
type approaches to make harder auto-detect of string array call patterns in the code.
More types will be added in the future.
Type: boolean
Default: true
Enables additional index shift for all string array calls
Type: boolean
Default: true
⚠️ stringArray
must be enabled
Shift the stringArray
array by a fixed and random (generated at the code obfuscation) places. This makes it harder to match the order of the removed strings to their original place.
Type: boolean
Default: true
⚠️ stringArray
must be enabled
Randomly shuffles the stringArray
array items.
Type: number
Default: 1
⚠️ stringArray
option must be enabled
Sets the count of wrappers for the string array
inside each root or function scope.
The actual count of wrappers inside each scope is limited by a count of literal
nodes within this scope.
Example:
// Input
const foo = 'foo';
const bar = 'bar';
function test () {
const baz = 'baz';
const bark = 'bark';
const hawk = 'hawk';
}
const eagle = 'eagle';
// Output, stringArrayWrappersCount: 5
const _0x3f6c = [
'bark',
'bar',
'foo',
'eagle',
'hawk',
'baz'
];
const _0x48f96e = _0x2e13;
const _0x4dfed8 = _0x2e13;
const _0x55e970 = _0x2e13;
function _0x2e13(_0x33c4f5, _0x3f6c62) {
_0x2e13 = function (_0x2e1388, _0x60b1e) {
_0x2e1388 = _0x2e1388 - 0xe2;
let _0x53d475 = _0x3f6c[_0x2e1388];
return _0x53d475;
};
return _0x2e13(_0x33c4f5, _0x3f6c62);
}
const foo = _0x48f96e(0xe4);
const bar = _0x4dfed8(0xe3);
function test() {
const _0x1c262f = _0x2e13;
const _0x54d7a4 = _0x2e13;
const _0x5142fe = _0x2e13;
const _0x1392b0 = _0x1c262f(0xe7);
const _0x201a58 = _0x1c262f(0xe2);
const _0xd3a7fb = _0x1c262f(0xe6);
}
const eagle = _0x48f96e(0xe5);
Type: boolean
Default: true
⚠️ stringArray
and stringArrayWrappersCount
options must be enabled
Enables the chained calls between string array
wrappers.
Example:
// Input
const foo = 'foo';
const bar = 'bar';
function test () {
const baz = 'baz';
const bark = 'bark';
function test1() {
const hawk = 'hawk';
const eagle = 'eagle';
}
}
// Output, stringArrayWrappersCount: 5, stringArrayWrappersChainedCalls: true
const _0x40c2 = [
'bar',
'bark',
'hawk',
'eagle',
'foo',
'baz'
];
const _0x31c087 = _0x3280;
const _0x31759a = _0x3280;
function _0x3280(_0x1f52ee, _0x40c2a2) {
_0x3280 = function (_0x3280a4, _0xf07b02) {
_0x3280a4 = _0x3280a4 - 0x1c4;
let _0x57a182 = _0x40c2[_0x3280a4];
return _0x57a182;
};
return _0x3280(_0x1f52ee, _0x40c2a2);
}
const foo = _0x31c087(0x1c8);
const bar = _0x31c087(0x1c4);
function test() {
const _0x848719 = _0x31759a;
const _0x2693bf = _0x31c087;
const _0x2c08e8 = _0x848719(0x1c9);
const _0x359365 = _0x2693bf(0x1c5);
function _0x175e90() {
const _0x310023 = _0x848719;
const _0x2302ef = _0x2693bf;
const _0x237437 = _0x310023(0x1c6);
const _0x56145c = _0x310023(0x1c7);
}
}
Type: number
Default: 2
⚠️ stringArray
option must be enabled
⚠️ Currently this option affects only wrappers added by stringArrayWrappersType
function
option value
Allows to control the maximum number of string array wrappers parameters.
Default and minimum value is 2
. Recommended value between 2
and 5
.
Type: string
Default: variable
⚠️ stringArray
and stringArrayWrappersCount
options must be enabled
Allows to select a type of the wrappers that are appending by the stringArrayWrappersCount
option.
Available values:
'variable'
: appends variable wrappers at the top of each scope. Fast performance.'function'
: appends function wrappers at random positions inside each scope. Slower performance than withvariable
but provides more strict obfuscation.
Highly recommended to use function
wrappers for higher obfuscation when a performance loss doesn't have a high impact on an obfuscated application.
Example of the 'function'
option value:
// input
const foo = 'foo';
function test () {
const bar = 'bar';
console.log(foo, bar);
}
test();
// output
const a = [
'log',
'bar',
'foo'
];
const foo = d(0x567, 0x568);
function b(c, d) {
b = function (e, f) {
e = e - 0x185;
let g = a[e];
return g;
};
return b(c, d);
}
function test() {
const c = e(0x51c, 0x51b);
function e (c, g) {
return b(c - 0x396, g);
}
console[f(0x51b, 0x51d)](foo, c);
function f (c, g) {
return b(c - 0x396, g);
}
}
function d (c, g) {
return b(g - 0x3e1, c);
}
test();
Type: number
Default: 0.8
Min: 0
Max: 1
⚠️ stringArray
option must be enabled
You can use this setting to adjust the probability (from 0 to 1) that a string literal will be inserted into the stringArray
.
This setting is especially useful for large code size because it repeatedly calls to the string array
and can slow down your code.
stringArrayThreshold: 0
equals to stringArray: false
.
Type: string
Default: browser
Allows to set target environment for obfuscated code.
Available values:
browser
;browser-no-eval
;node
.
Currently output code for browser
and node
targets is identical, but some browser-specific options are not allowed to use with node
target.
Output code for browser-no-eval
target is not using eval
.
Type: boolean
Default: false
Enables transformation of object keys.
Example:
// input
(function(){
var object = {
foo: 'test1',
bar: {
baz: 'test2'
}
};
})();
// output
var _0x4735 = [
'foo',
'baz',
'bar',
'test1',
'test2'
];
function _0x390c(_0x33d6b6, _0x4735f4) {
_0x390c = function (_0x390c37, _0x1eed85) {
_0x390c37 = _0x390c37 - 0x198;
var _0x2275f8 = _0x4735[_0x390c37];
return _0x2275f8;
};
return _0x390c(_0x33d6b6, _0x4735f4);
}
(function () {
var _0x17d1b7 = _0x390c;
var _0xc9b6bb = {};
_0xc9b6bb[_0x17d1b7(0x199)] = _0x17d1b7(0x19c);
var _0x3d959a = {};
_0x3d959a[_0x17d1b7(0x198)] = _0x17d1b7(0x19b);
_0x3d959a[_0x17d1b7(0x19a)] = _0xc9b6bb;
var _0x41fd86 = _0x3d959a;
}());
Type: boolean
Default: false
Allows to enable/disable string conversion to unicode escape sequence.
Unicode escape sequence increases code size greatly and strings easily can be reverted to their original view. Recommended to enable this option only for small source code.
The performance will be much slower than without obfuscation
{
compact: true,
controlFlowFlattening: true,
controlFlowFlatteningThreshold: 1,
deadCodeInjection: true,
deadCodeInjectionThreshold: 1,
debugProtection: true,
debugProtectionInterval: 4000,
disableConsoleOutput: true,
identifierNamesGenerator: 'hexadecimal',
log: false,
numbersToExpressions: true,
renameGlobals: false,
selfDefending: true,
simplify: true,
splitStrings: true,
splitStringsChunkLength: 5,
stringArray: true,
stringArrayCallsTransform: true,
stringArrayEncoding: ['rc4'],
stringArrayIndexShift: true,
stringArrayRotate: true,
stringArrayShuffle: true,
stringArrayWrappersCount: 5,
stringArrayWrappersChainedCalls: true,
stringArrayWrappersParametersMaxCount: 5,
stringArrayWrappersType: 'function',
stringArrayThreshold: 1,
transformObjectKeys: true,
unicodeEscapeSequence: false
}
The performance will be slower than without obfuscation
{
compact: true,
controlFlowFlattening: true,
controlFlowFlatteningThreshold: 0.75,
deadCodeInjection: true,
deadCodeInjectionThreshold: 0.4,
debugProtection: false,
debugProtectionInterval: 0,
disableConsoleOutput: true,
identifierNamesGenerator: 'hexadecimal',
log: false,
numbersToExpressions: true,
renameGlobals: false,
selfDefending: true,
simplify: true,
splitStrings: true,
splitStringsChunkLength: 10,
stringArray: true,
stringArrayCallsTransform: true,
stringArrayCallsTransformThreshold: 0.75,
stringArrayEncoding: ['base64'],
stringArrayIndexShift: true,
stringArrayRotate: true,
stringArrayShuffle: true,
stringArrayWrappersCount: 2,
stringArrayWrappersChainedCalls: true,
stringArrayWrappersParametersMaxCount: 4,
stringArrayWrappersType: 'function',
stringArrayThreshold: 0.75,
transformObjectKeys: true,
unicodeEscapeSequence: false
}
The performance will be at a relatively normal level
{
compact: true,
controlFlowFlattening: false,
deadCodeInjection: false,
debugProtection: false,
debugProtectionInterval: 0,
disableConsoleOutput: true,
identifierNamesGenerator: 'hexadecimal',
log: false,
numbersToExpressions: false,
renameGlobals: false,
selfDefending: true,
simplify: true,
splitStrings: false,
stringArray: true,
stringArrayCallsTransform: false,
stringArrayEncoding: [],
stringArrayIndexShift: true,
stringArrayRotate: true,
stringArrayShuffle: true,
stringArrayWrappersCount: 1,
stringArrayWrappersChainedCalls: true,
stringArrayWrappersParametersMaxCount: 2,
stringArrayWrappersType: 'variable',
stringArrayThreshold: 0.75,
unicodeEscapeSequence: false
}
{
compact: true,
controlFlowFlattening: false,
deadCodeInjection: false,
debugProtection: false,
debugProtectionInterval: 0,
disableConsoleOutput: false,
identifierNamesGenerator: 'hexadecimal',
log: false,
numbersToExpressions: false,
renameGlobals: false,
selfDefending: false,
simplify: true,
splitStrings: false,
stringArray: true,
stringArrayCallsTransform: false,
stringArrayCallsTransformThreshold: 0.5,
stringArrayEncoding: [],
stringArrayIndexShift: true,
stringArrayRotate: true,
stringArrayShuffle: true,
stringArrayWrappersCount: 1,
stringArrayWrappersChainedCalls: true,
stringArrayWrappersParametersMaxCount: 2,
stringArrayWrappersType: 'variable',
stringArrayThreshold: 0.75,
unicodeEscapeSequence: false
}
es3
, es5
, es2015
, es2016
, es2017
, es2018
, es2019
and partially es2020
The README on the master branch might not match that of the latest stable release.
Try to run npm link javascript-obfuscator
command or install it globally with npm i -g javascript-obfuscator
No. JSX support isn't planned.
See: Kind of variables
BigInt
obfuscation works correctly only in environments that support BigInt
values. See ESTree spec
Try renamePropertiesMode: 'safe'
option, if it still doesn't work, just disable this option.
Support us with a monthly donation and help us continue our activities. [Become a backer]
Become a sponsor and get your logo on our README on Github with a link to your site.
Copyright (C) 2016-2022 Timofey Kachalov.
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 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.