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I have a existing c++ code which will encrypt a string. Now I did the same encryption in . Some of the encrypted strings are matching . Some are mismatching in one or two characters.

I am unable to figure out why it is happening. I ran both the codes in debug mode until they call their libraries both have the same key, salt, iv string to be encrypted.

I know that even if a single byte padding change will modify encrypted string drastically. But here I am just seeing a one or two characters change. Here is a sample (Bold characters in between stars is the part mis matching)





I am using AES encryption. provider is SunJCE version 1.6. I tried changing provider to Bouncy Castle. Even then result is same.

Added One More sample:






As per the comments I feel base 64 encryption is the culprit. I am using Latin-1 char set in both places. Anything else that I can check

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What happens if you decrypt the c++ output with java and vice versa? –  Philipp Jun 20 '12 at 14:27
If you can reproduce the issue with a non-confidential input string that you can provide, then perhaps someone can tell you which output is right, which may lead to the answer. –  Pascal Cuoq Jun 20 '12 at 14:28
Does the difference appear around the same area of the text all the time? The difference in characters 81 and 82 suggests that this might be due to a difference in Base-64 encoding of the binary string. –  dasblinkenlight Jun 20 '12 at 14:45
I think it may be a good idea to try and spot the pattern in the differences then: convert Base-64 strings to sequences of bytes, and print all pairs where there are mismatches. In this case, there is a single-byte difference (141 in C++, 63 in Java). If you print multiple pairs like that, a pattern may emerge. –  dasblinkenlight Jun 20 '12 at 15:00
@ravi: It would be helpful if you post your Java and C++ code. The first mismatching letter in your first example is "P" vs "j". The first mismatching letter in your second example is "I" vs "D". It's interesting to note that there are 5 characters from "j" to "p", and 5 characters from "d" to "i". You might look at the rest of your mismatches and see if there's a similar pattern on the input values, or on the output values in the locations where errors occur. Then check your code for what might cause such patterns. –  atk Jun 20 '12 at 16:05

2 Answers 2

up vote 7 down vote accepted


The problem almost certainly is that after you encrypt the data and receive the encrypted data as a byte string, you are doing some sort of character conversion on the data before sending it through Base-64 conversion.

Note that if you encrypt the strings "ABCDEFG" and "ABCGEFG", the encrypted output will be completely different starting with the 4th character, and continuing to the end. In other words, the Base-64 outputs would be something like (using made-up values):




The fact that, in the above examples, only two isolated Base-64 characters (one byte) are messed up in each case pretty much proves that the corruption occurs AFTER encryption.

The output of an encryption process is a byte sequence, not a character sequence. The corruption observed is consistent with erroneously interpreting the bytes as characters and attempting to perform a code page conversion on them, prior to feeding them into the Base-64 converter. The output from the encryptor should be fed directly into the Base-64 converter without any conversions.

You say you are using the "Latin-1 char set in both places", a clear sign that you are doing some conversion you should not be doing -- there should be no need to muck with char sets.

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Very well Explained... Thanks a lot. After getting encrypted byte array i am doing character conversion. That is causing problem. So Now I modified code to directly to use the byte array for base64 encoding and it resolved. –  javaMan Jun 21 '12 at 13:37
@ravi -- BTW, for a relative novice you did fairly well to isolate the problem (to the degree you did) by running the same text through both algorithms and observing the differences. It's common for people to flounder about for weeks trying to get encryption to work, since they often fail to take an organized approach to debugging. –  Hot Licks Jun 21 '12 at 14:12

First a bit of code:

import javax.xml.bind.DatatypeConverter;


public static void main(String[] args) {
    String s1j = "U2FsdGVkX18xMjM0NTY3OGEL9nxFlHrWvodMqar82NT53krNkqat0rrgeV5FAJFs1vBsZIJPZ08DJVrQPwyV15HEoyECBeAZ6MTeN+ZYHRitKanY5jiRU2J0KP0Fzola";
    String s1c = "U2FsdGVkX18xMjM0NTY3OGEL9nxFlHrWvodMqar82NT53krNkqat0rrgeV5FAJFs1vBsZIJPZ08DJVrQjQyV15HEoyECBeAZ6MTeN+ZYHRitKanY5jiRU2J0KP0Fzola";
    byte[] bytesj = DatatypeConverter.parseBase64Binary(s1j);
    byte[] bytesc = DatatypeConverter.parseBase64Binary(s1c);
    int nmax = Math.max(bytesj.length, bytesc.length);
    int nmin = Math.min(bytesj.length, bytesc.length);
    for (int i = 0; i < nmax; ++i) {
        if (i >= nmin) {
            boolean isj = i < bytesj.length;
            byte b = isj? bytesj[i] : bytesc[i];
            System.out.printf("%s [%d] %x%n", (isj? "J" : "C++"), i, (int)b & 0xFF);
        } else {
            byte bj = bytesj[i];
            byte bc = bytesc[i];
            if (bj != bc) {
                System.out.printf("[%d] J %x != C++ %x%n", i, (int)bj & 0xFF, (int)bc & 0xFF);

This delivers

[60] J 3f != C++ 8d

Now 0x3f is the code of the question mark.

The error is, that 0x80 - 0xBF are in Latin-1, officially ISO-8859-1, control characters. Windows Latin-1, officially Windows-1252, uses these codes for other characters.

Hence you should use "Windows-1252" or "Cp1252" (Code-Page) in Java.


In the encryption the original bytes in the range 0x80 .. 0xBF were replaced with a question mark because of some translation to ISO-8859-1 instead of Windows-1252 to byte[].

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He should not be using code pages at all in the encryption process, until after the data is converted to Base-64. (I suspect, however, that he is treating the encrypted binary as character data somewhere along the way, leading to the problem.) –  Hot Licks Jun 20 '12 at 20:19
Somewhere text is translated to bytes. In java that would be s.getBytes("Windows-1252") or something else (stream input). Already in that stage (before encryption) it is going wrong. –  Joop Eggen Jun 20 '12 at 20:23
@HotLicks: after reconsidering: String in java uses Unicode, a char is UTF-16. In C++ the perspective is different; nobody cares about the encoding. Best practice in Java is explicitly giving the encoding when going from byte[] to String. –  Joop Eggen Jun 20 '12 at 20:45
If the data were garbled before encryption, the entire rest of the encrypted string (at least up to a block boundary) would be garbled, vs just the one byte (2 Base-64 chars). –  Hot Licks Jun 20 '12 at 20:46
Right. Hence the conversion to a ?. –  Joop Eggen Jun 20 '12 at 20:47

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