JObfuscator is a source code obfuscator for the Java programming language. It can protect your Java source code and algorithms from hacking, cracking, reverse engineering, decompilation, and technology theft.
JObfuscator employs a variety of obfuscation techniques to protect & conceal the true functionality of your Java source code.
It renames all variables and methods, obfuscates the code flow by making it non-linear, and encrypts all strings with our cutting-edge polymorphic string encryption engine.
More technical details, downloads, documentation available at:
https://www.pelock.com/products/jobfuscator
It's available for Windows & Linux (requires Mono):
https://www.pelock.com/products/jobfuscator/download
Multiple programming APIs available:
https://www.pelock.com/products/jobfuscator/api
An online obfuscator interface:
https://www.pelock.com/jobfuscator/
Applications written in Java and compiled to JAR
, WAR
or CLASS
formats are vulnerable to decompilation.
There are a number of decompilers that can almost completely recreate the compiled code back to Java source.
The problem is that the compiled Java code is written as a so-called bytecode for the JVM (as opposed to the native CPU code like x86
or x86-64
).
In addition to being perfectly perfectly documented, this form of code allows for very accurate reproduction of the original instructions in high-level Java source code.
Take a look at this example:
This is decompiled Java code! All the variable, property and method names are readable. You can even easily navigate through the entire decompiled project, jumping from one class to another.
Are you surprised? It could be your software analyzed by the competition, hackers, crackers or anyone else.
What could they do with it? Most of the time, the software or its algorithms are stolen or replicated in competing products.
In some other cases, the software gets cracked, clearly visible license checks in decompiled source code are patched or even the entire cracked software is recompiled and published on pirate sites.
Obfuscation is the process of transforming Java source code into a protected version of itself.
The functionality remains unchanged, everything works the same, but the source code and the final compiled bytecode are protected from reverse engineering analysis, even after the decompilation.
import java.util.*;
import java.lang.*;
import java.io.*;
//
// you must include custom annotations to enable
// entire class or a single method obfuscation
//
@Obfuscate
class Ideone
{
//@Obfuscate
public static double calculateSD(double numArray[])
{
double sum = 0.0, standardDeviation = 0.0;
int length = numArray.length;
for(double num : numArray) {
sum += num;
}
double mean = sum/length;
for(double num: numArray) {
standardDeviation += Math.pow(num - mean, 2);
}
return Math.sqrt(standardDeviation/length);
}
//
// selective obfuscation strategies can be applied
// for the entire class or a single method (by default
// all obfuscation strategies are enabled when you
// use @Obfuscate annotation alone)
//
//@Obfuscate(
// ints_math_crypt = true,
// crypt_strings = true,
// rename_methods = false,
// rename_variables = true,
// shuffle_methods = true,
// mix_code_flow = true,
// ints_to_arrays = true,
// dbls_to_arrays = true
// )
public static void main(String[] args) {
double[] numArray = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
double SD = calculateSD(numArray);
System.out.format("Standard Deviation = %.6f", SD);
}
}
////////////////////////////////////////////////////////////////////////////////
//
// An output from JObfuscator v1.04 - Bartosz Wójcik
//
// Website : https://www.pelock.com/products/jobfuscator
// Version : v1.04
// Params : /MixCodeFlow /RenMethods /RenVars /ShuffleMethods /IntsMathCrypt
// /CryptStr /IntsToArray /DblsToArray
// New lines : Windows (CRLF - \r\n)
// Date : 05.08.2021
//
////////////////////////////////////////////////////////////////////////////////
import java.util.*;
import java.lang.*;
import java.io.*;
import java.lang.Math.*;
class Ideone {
public static void main(String[] args) {
double[] var_3643 = { 11.281129091070447, 8.215990040064463, 9.335603284152908, 6.577895383020224, 7.877805395297853, 0.9548404018895811, 5.272519318820092, 12.245640663335054, 1.9976550397430217, 10.498728922195335, 4.456573802948024, 2.6442660372556444, 3.7216852394828073 };
double[] POCKKZB_FGNQQA = { 8.38801852183473, 2.284191901516045, 5.084540489182378, 1.674058425502392, 6.582113966026355, 4.535954119796876, 9.655576838937206, 0.9057730473532776, 12.594924738730645, 7.746648086079376, 11.98098322298382, 3.255923593789993, 10.419132138693842 };
int[] BQ__Y_IAsVbM2emsVuNM_ = { 7, 3, 5, 1, 2, 6, 8, 12, 9, 0, 4, 11, 10 };
double[] jY__n3HVSq_WnFXQMnt = { 4.522937188633843, 7.63592787991592, 9.711938391204889, 12.329314329092874, 1.1257488711853099, 11.26843992090746, 0.20656899168837578, 8.596210417144972, 6.313987076769585, 2.726188726136701, 5.437577113574992, 10.94073555701292, 3.2325862076196463 };
int[] var_801 = { 6, 10, 4, 5, 0, 12, 3, 8, 7, 9, 1, 11, 2 };
double[] var_3117 = { 1.59679966392783E9, 5.09464, 1.7081, 1.59679967201455E9, 8221.83558, 0.6956, 81286.37426, 11.30573, 1.87014187726384E9, 0.0, 0.30216, 1.93861225375307E9, 1.61031449284985E9 };
double[] p_vc56jpND__QGGjzT4_Wo7 = { 1.8560312987803957, 2.4090487677657637, 0.8107141612789537 };
int[] CLOHOQ_TOCOXGBRWY_PVBHFAV = { 0, 2, 1 };
int[] g_hFqjbczKirudqjb = { 1, 0, 2 };
int[] A7c7WIo__fQMQjM_lR = { 1, 0, 2 };
int[] fKzmro = { 0, 1, 2 };
double[] pFlxasazuVysmwcpkfm = { 1.7137421654720035, 0.880784281506382, 2.044091478491187 };
double[] b_9rz1_gUCNc_ceKC = { 25.495116489488254, 65535.73197007176, 0.7422593232260603 };
int mZwtvvepUboureeved = (int) (-var_3117[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[4])])]])]] + Math.log(var_3117[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[11])])]])]]));
double kW2_ZQnBOs9VL_mjKXcB__4 = var_3117[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[6])])]])]];
double[] _KnlkZiv_t6Ohx_xWp_9M = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
mZwtvvepUboureeved = (int) (var_3117[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[8])])]])]] - Math.sinh(var_3117[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[2])])]])]]));
while (mZwtvvepUboureeved != (int) (var_3117[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[3])])]])]] + Math.sin(var_3117[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[9])])]])]]))) {
switch(mZwtvvepUboureeved) {
case 1678784867:
String var_1767 = "";
int[] _KhlYbJNlonwV_I_OOZKAb_ = { 0x0052, 0x0073, 0x005C, 0x0069, 0x005B, 0x005E, 0x006D, 0x005B, 0x001F, 0x0033, 0x0050, 0x0061, 0x0050, 0x005E, 0x006B, 0x0056, 0x004E, 0x004D, 0x001F, 0x003A, 0x001F, 0x001A, 0x0001, 0x0009, 0x0055 };
for (int x0Qc_6t8YSu__UjlP_hUC6M6 = (int) (b_9rz1_gUCNc_ceKC[(int) (pFlxasazuVysmwcpkfm[fKzmro[A7c7WIo__fQMQjM_lR[g_hFqjbczKirudqjb[CLOHOQ_TOCOXGBRWY_PVBHFAV[(int) (p_vc56jpND__QGGjzT4_Wo7[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[3])])]])]])]]]]])]), _bFfGZu_kuSY5dNkBN_ku_tU = (int) (b_9rz1_gUCNc_ceKC[(int) (pFlxasazuVysmwcpkfm[fKzmro[A7c7WIo__fQMQjM_lR[g_hFqjbczKirudqjb[CLOHOQ_TOCOXGBRWY_PVBHFAV[(int) (p_vc56jpND__QGGjzT4_Wo7[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[3])])]])]])]]]]])]); x0Qc_6t8YSu__UjlP_hUC6M6 < (int) (b_9rz1_gUCNc_ceKC[(int) (pFlxasazuVysmwcpkfm[fKzmro[A7c7WIo__fQMQjM_lR[g_hFqjbczKirudqjb[CLOHOQ_TOCOXGBRWY_PVBHFAV[(int) (p_vc56jpND__QGGjzT4_Wo7[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[9])])]])]])]]]]])]); x0Qc_6t8YSu__UjlP_hUC6M6++) {
_bFfGZu_kuSY5dNkBN_ku_tU = _KhlYbJNlonwV_I_OOZKAb_[x0Qc_6t8YSu__UjlP_hUC6M6];
_bFfGZu_kuSY5dNkBN_ku_tU ^= x0Qc_6t8YSu__UjlP_hUC6M6;
_bFfGZu_kuSY5dNkBN_ku_tU += x0Qc_6t8YSu__UjlP_hUC6M6;
_bFfGZu_kuSY5dNkBN_ku_tU++;
var_1767 += (char) (_bFfGZu_kuSY5dNkBN_ku_tU & (int) (b_9rz1_gUCNc_ceKC[(int) (pFlxasazuVysmwcpkfm[fKzmro[A7c7WIo__fQMQjM_lR[g_hFqjbczKirudqjb[CLOHOQ_TOCOXGBRWY_PVBHFAV[(int) (p_vc56jpND__QGGjzT4_Wo7[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[12])])]])]])]]]]])]));
}
System.out.format(var_1767, kW2_ZQnBOs9VL_mjKXcB__4);
mZwtvvepUboureeved = (int) (var_3117[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[10])])]])]] - Math.log(var_3117[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[5])])]])]]));
break;
case 68470377:
kW2_ZQnBOs9VL_mjKXcB__4 = SrwgvFunc(_KnlkZiv_t6Ohx_xWp_9M);
mZwtvvepUboureeved -= -(int) (var_3117[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[1])])]])]] - Math.cosh(var_3117[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[12])])]])]]));
break;
case 1938612253:
double[] var_2915 = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
mZwtvvepUboureeved += -(int) (var_3117[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[0])])]])]] - Math.acos(var_3117[var_801[(int) (jY__n3HVSq_WnFXQMnt[BQ__Y_IAsVbM2emsVuNM_[(int) (POCKKZB_FGNQQA[(int) (var_3643[7])])]])]]));
break;
}
}
}
public static double SrwgvFunc(double[] numArray) {
double[] hXbuzlw = { 10.104687460635152, 14.863255212498105, 0.21565589122677703, 16.92136884299982, 8.284692818502851, 12.82669846485655, 15.403473564468571, 7.030894818830625, 9.171975582854735, 19.391816756528755, 11.864284748161538, 2.226792621794286, 13.24428454752136, 6.78017800635685, 20.155440287615413, 18.27510090243092, 3.589298943371685, 4.152627738386547, 5.665271866480059, 17.704844863089786, 1.0649770468512563 };
double[] var_575 = { 1.0296391297689236, 15.726628357412975, 20.92993527990269, 5.173619116590729, 7.844535074545817, 6.009394167087513, 16.086142381371435, 9.063044736138085, 4.990968854206419, 0.4740423015646155, 10.092369822585235, 19.48145881150217, 12.423331723670914, 13.445497843589065, 2.206559166836813, 8.16258487934631, 14.436447989183236, 11.161001228043002, 3.7977942067981534, 18.27965827256959, 17.307170323906416 };
int[] ZTEHAAYPJ_BISQMK = { 10, 3, 18, 6, 17, 9, 13, 15, 4, 16, 1, 12, 0, 19, 2, 14, 7, 8, 11, 20, 5 };
double[] iPlwrvpWkihvhctOrtubm = { 18.347247829648513, 15.993259210013832, 10.384509235580781, 7.659966773454712, 16.24894028024241, 14.250989627900879, 6.770226899219857, 8.283226421492104, 5.968118628152126, 1.3646389169586972, 2.717989641816233, 9.456551089444694, 11.143709780182407, 17.63249476052649, 13.72219811303589, 12.966327271855473, 3.0874626146986275, 0.861290055418454, 19.982579577626073, 20.466740193225053, 4.800445667758794 };
int[] var_2798 = { 14, 18, 16, 7, 5, 20, 15, 17, 10, 3, 13, 8, 2, 4, 9, 0, 1, 19, 12, 6, 11 };
int[] _w4ACl_Eb5iuB8tKft_ = { 6, 0, 16, 4, 9, 7, 1, 15, 2, 18, 20, 19, 10, 11, 12, 14, 17, 3, 8, 5, 13 };
double[] hFhzzxalpCshbolybyAslokrjo = { 0.7181203868509979, 2.9664637532667175, 9.515313299638107, 11.028323637923771, 6.390764892028182, 1.6030539747361725, 13.602130216656779, 18.414734494486385, 12.120766708284188, 7.961180222338676, 19.660846284473546, 5.578285135296968, 10.026225747743108, 15.49952117540782, 8.311906496462326, 14.44368335473346, 16.140307679070638, 17.004912894121887, 4.181691213350765, 20.99407023105516, 3.8834204842296294 };
int[] VAJLMKZ_MXMVAU_OHBRFS = { 7, 5, 10, 9, 1, 8, 11, 20, 17, 12, 0, 14, 13, 15, 16, 2, 6, 18, 3, 19, 4 };
double[] sAddoktk = { 1.6917277213165E9, 8079980.36161, 1.39348949767438E9, 45675.0865, 4.90983645E8, 15.9049, 7.80728377E8, 7.8073028200948E8, 8.68929906E8, 7.2918859851708E8, 5.04406, 1.24329286210753E9, 4.8208860701707E8, 2.9335, 43629.12742, 0.0, 3.4975, 6.65968, 6.2370634220671E8, 3.21790680933E7, 1.14826593649877E9 };
int var_921 = (int) Math.max(sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[0])])]])]]])]], sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[0])])]])]]])]]);
double var_3498 = sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[0])])]])]]])]], g_pCbzjagbHcxgvwbj = sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[0])])]])]]])]];
int var_2533 = (int) (sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[11])])]])]]])]] - Math.exp(sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[18])])]])]]])]]));
double var_60 = sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[0])])]])]]])]];
var_921 = (int) (sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[4])])]])]]])]] + Math.log1p(sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[2])])]])]]])]]));
while (var_921 != (int) Math.max(sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[13])])]])]]])]], sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[3])])]])]]])]])) {
switch(var_921) {
case 1691727732:
g_pCbzjagbHcxgvwbj = sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[0])])]])]]])]];
var_921 += -(int) Math.min(sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[6])])]])]]])]], sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[17])])]])]]])]]);
break;
case 623706361:
for (double KVCJGC : numArray) {
g_pCbzjagbHcxgvwbj += Math.pow(KVCJGC - var_60, (int) (sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[15])])]])]]])]] - Math.log10(sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[10])])]])]]])]])));
}
var_921 += (int) (Math.cos(sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[1])])]])]]])]]) + sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[14])])]])]]])]]);
break;
case 910999355:
var_2533 = numArray.length;
var_921 -= (int) Math.max(sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[5])])]])]]])]], sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[12])])]])]]])]]);
break;
case 2017195859:
var_921 += -(int) (sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[20])])]])]]])]] + Math.sinh(sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[7])])]])]]])]]));
break;
case 420015710:
for (double var_854 : numArray) {
var_3498 += var_854;
}
var_921 -= -(int) (sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[9])])]])]]])]] - Math.cbrt(sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[19])])]])]]])]]));
break;
case 1663307788:
var_60 = var_3498 / var_2533;
var_921 = (int) (Math.exp(sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[16])])]])]]])]]) + sAddoktk[VAJLMKZ_MXMVAU_OHBRFS[(int) (hFhzzxalpCshbolybyAslokrjo[_w4ACl_Eb5iuB8tKft_[var_2798[(int) (iPlwrvpWkihvhctOrtubm[ZTEHAAYPJ_BISQMK[(int) (var_575[(int) (hXbuzlw[8])])]])]]])]]);
break;
}
}
return Math.sqrt(g_pCbzjagbHcxgvwbj / var_2533);
}
}
Would you even be able to tell what the obfuscated code does if you didn't know about the original source code?
Take no chances, use JObfuscator to obfuscate and protect your Java projects and algorithms.
Our company has a long history in obfuscation technologies and code obfuscators (see our x86 Assembly & AutoIt obfuscators).
We actively bugfix, research and develop new obfuscation strategies for our tools.
You can count on our expertise and support in this field.
The preferred way of WebApi interface installation is via pip.
Run:
pip install jobfuscator
or
python3 -m pip install jobfuscator
And then add this import to your source code:
from jobfuscator import JObfuscator
Installation package is available at https://pypi.org/project/jobfuscator/
#!/usr/bin/env python
###############################################################################
#
# JObfuscator WebApi interface usage example.
#
# In this example we will obfuscate sample source with default options.
#
# Version : v1.04
# Language : Python
# Author : Bartosz Wójcik
# Web page : https://www.pelock.com
#
###############################################################################
#
# include JObfuscator module
#
from jobfuscator import JObfuscator
#
# if you don't want to use Python module, you can import directly from the file
#
#from pelock.jobfuscator import JObfuscator
#
# create JObfuscator class instance (we are using our activation key)
#
myJObfuscator = JObfuscator("ABCD-ABCD-ABCD-ABCD")
#
# source code in Java format
#
sourceCode = """import java.util.*;
import java.lang.*;
import java.io.*;
//
// you must include custom annotation
// to enable entire class or a single
// method obfuscation
//
@Obfuscate
class Ideone
{
//@Obfuscate
public static double calculateSD(double numArray[])
{
double sum = 0.0, standardDeviation = 0.0;
int length = numArray.length;
for(double num : numArray) {
sum += num;
}
double mean = sum/length;
for(double num: numArray) {
standardDeviation += Math.pow(num - mean, 2);
}
return Math.sqrt(standardDeviation/length);
}
//
// selective obfuscation strategies
// can be applied for the entire
// class or a single method (by
// default all obfuscation strategies
// are enabled when you use @Obfuscate
// annotation alone)
//
//@Obfuscate(
// ints_math_crypt = true,
// crypt_strings = true,
// rename_methods = false,
// rename_variables = true,
// shuffle_methods = true,
// mix_code_flow = true,
// ints_to_arrays = true,
// dbls_to_arrays = true
// )
public static void main(String[] args) {
double[] numArray = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
double SD = calculateSD(numArray);
System.out.format("Standard Deviation = %.6f", SD);
}
}"""
#
# by default all obfuscation options are enabled, so we can just simply call
#
result = myJObfuscator.obfuscate_java_source(sourceCode)
#
# it's also possible to pass a Java source file path instead of a string with the source e.g.
#
# result = myJObfuscator.obfuscate_java_file("/path/to/project/source.java")
#
# result[] array holds the obfuscation results as well as other information
#
# result["error"] - error code
# result["output"] - obfuscated code
# result["demo"] - was it used in demo mode (invalid or empty activation key was used)
# result["credits_left"] - usage credits left after this operation
# result["credits_total"] - total number of credits for this activation code
# result["expired"] - if this was the last usage credit for the activation key it will be set to True
#
if result and "error" in result:
# display obfuscated code
if result["error"] == JObfuscator.ERROR_SUCCESS:
# format output code for HTML display
print(result["output"])
else:
print(f'An error occurred, error code: {result["error"]}')
else:
print("Something unexpected happen while trying to obfuscate the code.")
#!/usr/bin/env python
###############################################################################
#
# JObfuscator WebApi interface usage example.
#
# In this example we will obfuscate sample source with custom options.
#
# Version : v1.04
# Language : Python
# Author : Bartosz Wójcik
# Web page : https://www.pelock.com
#
###############################################################################
#
# include JObfuscator module
#
from jobfuscator import JObfuscator
#
# if you don't want to use Python module, you can import directly from the file
#
#from pelock.jobfuscator import JObfuscator
#
# create JObfuscator class instance (we are using our activation key)
#
myJObfuscator = JObfuscator("ABCD-ABCD-ABCD-ABCD")
#
# global obfuscation options
#
# when disabled will discard any @Obfuscate annotation declaration
# in the Java source code
#
# you can disable a particular obfuscation strategy globally if it
# fails or you don't want to use it without modifying the source codes
#
# by default all obfuscation strategies are enabled
#
#
# should the source code be compressed (both input & compressed)
#
myJObfuscator.enableCompression = True
#
# change linear code execution flow to non-linear version
#
myJObfuscator.mixCodeFlow = True
#
# rename variable names to random string values
#
myJObfuscator.renameVariables = True
#
# rename method names to random string values
#
myJObfuscator.renameMethods = True
#
# shuffle order of methods in the output source
#
myJObfuscator.shuffleMethods = True
#
# encrypt integers using more than 15 floating point math functions from the java.lang.Math.* class
#
myJObfuscator.intsMathCrypt = True
#
# encrypt strings using polymorphic encryption algorithms
#
myJObfuscator.cryptStrings = True
#
# for each method, extract all possible integers from the code and store them in an array
#
myJObfuscator.intsToArrays = True
#
# for each method, extract all possible doubles from the code and store them in an array
#
myJObfuscator.dblsToArrays = True
#
# source code in Java format
#
sourceCode = """import java.util.*;
import java.lang.*;
import java.io.*;
//
// you must include custom annotation
// to enable entire class or a single
// method obfuscation
//
@Obfuscate
class Ideone
{
//@Obfuscate
public static double calculateSD(double numArray[])
{
double sum = 0.0, standardDeviation = 0.0;
int length = numArray.length;
for(double num : numArray) {
sum += num;
}
double mean = sum/length;
for(double num: numArray) {
standardDeviation += Math.pow(num - mean, 2);
}
return Math.sqrt(standardDeviation/length);
}
//
// selective obfuscation strategies
// can be applied for the entire
// class or a single method (by
// default all obfuscation strategies
// are enabled when you use @Obfuscate
// annotation alone)
//
//@Obfuscate(
// ints_math_crypt = true,
// crypt_strings = true,
// rename_methods = false,
// rename_variables = true,
// shuffle_methods = true,
// mix_code_flow = true,
// ints_to_arrays = true,
// dbls_to_arrays = true
// )
public static void main(String[] args) {
double[] numArray = { 1, 2, 3, 4, 5, 6, 7, 8, 9, 10 };
double SD = calculateSD(numArray);
System.out.format("Standard Deviation = %.6f", SD);
}
}"""
#
# by default all obfuscation options are enabled, so we can just simply call
#
result = myJObfuscator.obfuscate_java_source(sourceCode)
#
# result[] array holds the obfuscation results as well as other information
#
# result["error"] - error code
# result["output"] - obfuscated code
# result["demo"] - was it used in demo mode (invalid or empty activation key was used)
# result["credits_left"] - usage credits left after this operation
# result["credits_total"] - total number of credits for this activation code
# result["expired"] - if this was the last usage credit for the activation key it will be set to True
#
if result and "error" in result:
# display obfuscated code
if result["error"] == JObfuscator.ERROR_SUCCESS:
# format output code for HTML display
print(result["output"])
else:
print(f'An error occurred, error code: {result["error"]}')
else:
print("Something unexpected happen while trying to obfuscate the code.")
#!/usr/bin/env python
###############################################################################
#
# JObfuscator WebApi interface usage example.
#
# In this example we will verify our activation key status.
#
# Version : v1.01
# Language : Python
# Author : Bartosz Wójcik
# Web page : https://www.pelock.com
#
###############################################################################
#
# include JObfuscator module
#
from jobfuscator import JObfuscator
#
# if you don't want to use Python module, you can import directly from the file
#
#from pelock.jobfuscator import JObfuscator
#
# create JObfuscator class instance (we are using our activation key)
#
myJObfuscator = JObfuscator("ABCD-ABCD-ABCD-ABCD")
#
# login to the service
#
result = myJObfuscator.login()
#
# result[] array holds the information about the license
#
# result["demo"] - is it a demo mode (invalid or empty activation key was used)
# result["credits_left"] - usage credits left after this operation
# result["credits_total"] - total number of credits for this activation code
# result["string_limit"] - max. source code size allowed (it's 1500 bytes for demo mode)
#
if result:
print(f'Demo version status - {"True" if result["demo"] else "False"}')
print(f'Usage credits left - {result["credits_left"]}')
print(f'Total usage credits - {result["credits_total"]}')
print(f'Max. source code size - {result["string_limit"]}')
else:
print("Something unexpected happen while trying to login to the service.")
Online interface for the JObfuscator is available at:
https://www.pelock.com/jobfuscator/
JObfuscator also comes with full GUI version for Windows and Linux (requires Mono).
You can download it at:
https://www.pelock.com/products/jobfuscator/download
An additional command line version is included in the installation package.
It is compatible with Windows (.NET) and Linux (Mono).
Java obfuscation can be integrated into your build process or any other batch operation using the JObfuscator command line version.
Bartosz Wójcik
- Visit my site at — https://www.pelock.com
- Twitter — https://twitter.com/PELock
- GitHub — https://github.com/PELock