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I'm a complete newbie to this kind of encryption things but I have a Java app and an iOS, and I want them to both be able to ecrypt a text to a same result. I use AES. I found these codes, with a little modification of course, but they return different result

iOS Code:

- (NSData *)AESEncryptionWithKey:(NSString *)key {    
    unsigned char keyPtr[kCCKeySizeAES128] = { 'T', 'h', 'e', 'B', 'e', 's', 't', 'S', 'e', 'c', 'r','e', 't', 'K', 'e', 'y' };
    size_t bufferSize = 16;
    void *buffer = malloc(bufferSize);
    size_t numBytesEncrypted = 0;
    const char iv2[16] = {  65, 1, 2, 23, 4, 5, 6, 7, 32, 21, 10, 11, 12, 13, 84, 45 };
    CCCryptorStatus cryptStatus = CCCrypt(kCCEncrypt,
                                          kCCAlgorithmAES128,
                                          kCCOptionECBMode | kCCOptionPKCS7Padding,,
                                          keyPtr,
                                          kCCKeySizeAES128,
                                          iv2,
                                          @"kayvan",
                                          6,
                                          dataInLength,
                                          buffer,
                                          bufferSize,
                                          &numBytesEncrypted);


    if (cryptStatus == kCCSuccess) {
        return [NSData dataWithBytesNoCopy:buffer length:numBytesEncrypted];
    }

    free(buffer);
    return nil;
}

and the Java code is:

public static void main(String[] args) throws Exception {
    String password = "kayvan";
    String key = "TheBestSecretKey";
    String newPasswordEnc = AESencrp.newEncrypt(password, key);
    System.out.println("Encrypted Text : " + newPasswordEnc);
}

and in another java class (AESencrp.class) I have:

public static final byte[] IV = { 65, 1, 2, 23, 4, 5, 6, 7, 32, 21, 10, 11, 12, 13, 84, 45 };
public static String newEncrypt(String text, String key) throws Exception {
    Cipher cipher = Cipher.getInstance("AES/CBC/PKCS5Padding");
    byte[] keyBytes= new byte[16];
    byte[] b= key.getBytes("UTF-8");
    int len = 16; 
    System.arraycopy(b, 0, keyBytes, 0, len);
    SecretKeySpec keySpec = new SecretKeySpec(keyBytes, "AES");
    IvParameterSpec ivSpec = new IvParameterSpec(IV);
    System.out.println(ivSpec);
    cipher.init(Cipher.ENCRYPT_MODE,keySpec,ivSpec);
    byte[] results = cipher.doFinal(text.getBytes("UTF-8"));
    String result = DatatypeConverter.printBase64Binary(results);
    return result;
}

The string I wanted to encrypt is kayvan with the key TheBestSecretKey. and the results after Base64 encoding are:

for iOS: 9wXUiV+ChoLHmF6KraVtDQ==

for Java: /s5YyKb3tDlUXt7pqA5OFA==

What should I do now?

share|improve this question
    
There's some sort of mismatch between how you're configuring the encryption between the two implementations. As you've no doubt seen, there are a lot of configuration parameters for CCCrypt on iOS. I'm not familiar with Java's Cipher, so you may need to read the documentation for both and make sure you're using the same key size, algorithm, padding... Also, in your Java code above I don't see where you're setting the string you want to encrypt. Is it possible you omitted that step and are encrypting an empty string? –  Nicholas Hart Jul 8 '13 at 21:23
    
yes, there is a lot of parameters and I'm so confused with them. I have to read them again. But about your final question, the string i want to encrypt is set in main method in java. I've edited the question and added this part. –  Kayvan Jul 8 '13 at 21:31
    
Again, I'm not certain about Java Cipher... but it looks like you're using different padding in Objective C. ie: kCCOptionPKCS7Padding vs AES/CBC/PKCS5Padding. (Since you're using a block cipher the algorithm needs to know how to pad the last block, if there isn't enough data to fill the whole block.) However, if I recall correctly PKCS5 and PKCS7 are basically the same algorithm, so I'm not sure that's the problem--you might try changing one or the other implementation to make sure they use the same padding. –  Nicholas Hart Jul 8 '13 at 22:50
1  
Also, it looks like you're using ECB in iOS and CBC in Java. Another problem. –  Nicholas Hart Jul 8 '13 at 22:51

4 Answers 4

And here is the Android Version wich is generating the String for decrypt/encrypt Messages, it uses Cipher and generates the right vector to make the same result as iOS. This is corresponding to the iOS Version of @亚历山大 here in this thread.

public class MyCrypter {

private static String TAG = "MyCrypter";

public MyCrypter() {

}

/**
 * Encodes a String in AES-128 with a given key
 * 
 * @param context
 * @param password
 * @param text
 * @return String Base64 and AES encoded String
 * @throws NoPassGivenException
 * @throws NoTextGivenException
 */
public String encode(Context context, String password, String text)
        throws NoPassGivenException, NoTextGivenException {
    if (password.length() == 0 || password == null) {
        throw new NoPassGivenException("Please give Password");
    }

    if (text.length() == 0 || text == null) {
        throw new NoTextGivenException("Please give text");
    }

    try {
        SecretKeySpec skeySpec = getKey(password);
        byte[] clearText = text.getBytes("UTF8");

        //IMPORTANT TO GET SAME RESULTS ON iOS and ANDROID
        final byte[] iv = new byte[16];
        Arrays.fill(iv, (byte) 0x00);
        IvParameterSpec ivParameterSpec = new IvParameterSpec(iv);

        // Cipher is not thread safe
        Cipher cipher = Cipher.getInstance("AES/CBC/PKCS7Padding");
        cipher.init(Cipher.ENCRYPT_MODE, skeySpec, ivParameterSpec);

        String encrypedValue = Base64.encodeToString(
                cipher.doFinal(clearText), Base64.DEFAULT);
        Log.d(TAG, "Encrypted: " + text + " -> " + encrypedValue);
        return encrypedValue;

    } catch (InvalidKeyException e) {
        e.printStackTrace();
    } catch (UnsupportedEncodingException e) {
        e.printStackTrace();
    } catch (NoSuchAlgorithmException e) {
        e.printStackTrace();
    } catch (BadPaddingException e) {
        e.printStackTrace();
    } catch (NoSuchPaddingException e) {
        e.printStackTrace();
    } catch (IllegalBlockSizeException e) {
        e.printStackTrace();
    } catch (InvalidAlgorithmParameterException e) {
        e.printStackTrace();
    }
    return "";
}

/**
 * Decodes a String using AES-128 and Base64
 * 
 * @param context
 * @param password
 * @param text
 * @return desoded String
 * @throws NoPassGivenException
 * @throws NoTextGivenException
 */
public String decode(Context context, String password, String text)
        throws NoPassGivenException, NoTextGivenException {

    if (password.length() == 0 || password == null) {
        throw new NoPassGivenException("Please give Password");
    }

    if (text.length() == 0 || text == null) {
        throw new NoTextGivenException("Please give text");
    }

    try {
        SecretKey key = getKey(password);

        //IMPORTANT TO GET SAME RESULTS ON iOS and ANDROID
        final byte[] iv = new byte[16];
        Arrays.fill(iv, (byte) 0x00);
        IvParameterSpec ivParameterSpec = new IvParameterSpec(iv);

        byte[] encrypedPwdBytes = Base64.decode(text, Base64.DEFAULT);
        // cipher is not thread safe
        Cipher cipher = Cipher.getInstance("AES/CBC/PKCS7Padding");
        cipher.init(Cipher.DECRYPT_MODE, key, ivParameterSpec);
        byte[] decrypedValueBytes = (cipher.doFinal(encrypedPwdBytes));

        String decrypedValue = new String(decrypedValueBytes);
        Log.d(TAG, "Decrypted: " + text + " -> " + decrypedValue);
        return decrypedValue;

    } catch (InvalidKeyException e) {
        e.printStackTrace();
    } catch (UnsupportedEncodingException e) {
        e.printStackTrace();
    } catch (NoSuchAlgorithmException e) {
        e.printStackTrace();
    } catch (BadPaddingException e) {
        e.printStackTrace();
    } catch (NoSuchPaddingException e) {
        e.printStackTrace();
    } catch (IllegalBlockSizeException e) {
        e.printStackTrace();
    } catch (InvalidAlgorithmParameterException e) {
        e.printStackTrace();
    }
    return "";
}

/**
 * Generates a SecretKeySpec for given password
 * @param password
 * @return SecretKeySpec
 * @throws UnsupportedEncodingException
 */
public SecretKeySpec getKey(String password)
        throws UnsupportedEncodingException {


    int keyLength = 128;
    byte[] keyBytes = new byte[keyLength / 8];
    // explicitly fill with zeros
    Arrays.fill(keyBytes, (byte) 0x0);

    // if password is shorter then key length, it will be zero-padded
    // to key length
    byte[] passwordBytes = password.getBytes("UTF-8");
    int length = passwordBytes.length < keyBytes.length ? passwordBytes.length
            : keyBytes.length;
    System.arraycopy(passwordBytes, 0, keyBytes, 0, length);
    SecretKeySpec key = new SecretKeySpec(keyBytes, "AES");
    return key;
}

public class NoTextGivenException extends Exception {
    public NoTextGivenException(String message) {
        super(message);
    }
}

public class NoPassGivenException extends Exception {
    public NoPassGivenException(String message) {
        super(message);
    }
}
}
share|improve this answer
    
I got an error saying that ECB mode cannot use IV. What should I do now? is there any problem defining cipher algorithm? –  Kayvan Oct 17 '13 at 21:33
    
updated my cipher.getInstance(...) please have a look –  A.S. Oct 31 '13 at 12:42

A friend of mine and me created an iOS and Android app which can crypt messages. To use it, you should create an extension of NSData with following code Snippet from this website:

- (NSData *)AES128EncryptWithKey:(NSString *)key {

    // 'key' should be 32 bytes for AES256,
    // 16 bytes for AES256, will be null-padded otherwise
    char keyPtr[kCCKeySizeAES128 + [key length]]; // room for terminator (unused)
    bzero(keyPtr, sizeof(keyPtr)); // fill with zeroes (for padding)

    // insert key in char array
    [key getCString:keyPtr maxLength:sizeof(keyPtr) encoding:NSUTF8StringEncoding];

    NSUInteger dataLength = [self length];
    size_t bufferSize = dataLength + kCCBlockSizeAES128;
    void *buffer = malloc(bufferSize);

    size_t numBytesEncrypted = 0;

    // the encryption method, use always same attributes in android and iPhone (f.e. PKCS7Padding)
    CCCryptorStatus cryptStatus = CCCrypt(kCCEncrypt,
                                          kCCAlgorithmAES128,
                                          kCCOptionPKCS7Padding,
                                          keyPtr,
                                          kCCKeySizeAES128,
                                          NULL                      /* initialization vector (optional) */,
                                          [self bytes], dataLength, /* input */
                                          buffer, bufferSize,       /* output */
                                          &numBytesEncrypted);
    if (cryptStatus == kCCSuccess) {

        return [NSData dataWithBytesNoCopy:buffer length:numBytesEncrypted];
    }

    free(buffer);
    return nil;
}

- (NSData *)AES128DecryptWithKey:(NSString *)key {
    // 'key' should be 32 bytes for AES256, will be null-padded otherwise
    char keyPtr[kCCKeySizeAES128 + [key length]]; // room for terminator (unused)
    bzero(keyPtr, sizeof(keyPtr)); // fill with zeroes (for padding)

    // insert key in char array
    [key getCString:keyPtr maxLength:sizeof(keyPtr) encoding:NSUTF8StringEncoding];

    NSUInteger dataLength = [self length];
    size_t bufferSize = dataLength + kCCBlockSizeAES128;
    void *buffer = malloc(bufferSize);

    size_t numBytesDecrypted = 0;
    CCCryptorStatus cryptStatus = CCCrypt(kCCDecrypt,
                                          kCCAlgorithmAES128,
                                          kCCOptionPKCS7Padding,
                                          keyPtr,
                                          kCCKeySizeAES128,
                                          NULL                      /* initialization vector (optional) */,
                                          [self bytes], dataLength, /* input */
                                          buffer, bufferSize,       /* output */
                                          &numBytesDecrypted);

    if (cryptStatus == kCCSuccess) {

        return [NSData dataWithBytesNoCopy:buffer length:numBytesDecrypted];
    }

    free(buffer);
    return nil;
}

+ (NSData *)base64DataFromString: (NSString *)string
{
    unsigned long ixtext, lentext;
    unsigned char ch, inbuf[4], outbuf[3];
    short i, ixinbuf;
    Boolean flignore, flendtext = false;
    const unsigned char *tempcstring;
    NSMutableData *theData;

    if (string == nil){
        return [NSData data];
    }

    ixtext = 0;
    tempcstring = (const unsigned char *)[string UTF8String];
    lentext = [string length];
    theData = [NSMutableData dataWithCapacity: lentext];
    ixinbuf = 0;

    while (true){
        if (ixtext >= lentext){
            break;
        }

        ch = tempcstring [ixtext++];
        flignore = false;

        if ((ch >= 'A') && (ch <= 'Z')){
            ch = ch - 'A';
        } else if ((ch >= 'a') && (ch <= 'z')){
            ch = ch - 'a' + 26;
        } else if ((ch >= '0') && (ch <= '9')){
            ch = ch - '0' + 52;
        } else if (ch == '+'){
            ch = 62;
        } else if (ch == '=') {
            flendtext = true;
        } else if (ch == '/') {
            ch = 63;
        } else {
            flignore = true;
        }

        if (!flignore){
            short ctcharsinbuf = 3;
            Boolean flbreak = false;

            if (flendtext){
                if (ixinbuf == 0){
                    break;
                }

                if ((ixinbuf == 1) || (ixinbuf == 2)) {
                    ctcharsinbuf = 1;
                } else {
                    ctcharsinbuf = 2;
                }

                ixinbuf = 3;
                flbreak = true;
            }

            inbuf [ixinbuf++] = ch;

            if (ixinbuf == 4){
                ixinbuf = 0;

                outbuf[0] = (inbuf[0] << 2) | ((inbuf[1] & 0x30) >> 4);
                outbuf[1] = ((inbuf[1] & 0x0F) << 4) | ((inbuf[2] & 0x3C) >> 2);
                outbuf[2] = ((inbuf[2] & 0x03) << 6) | (inbuf[3] & 0x3F);

                for (i = 0; i < ctcharsinbuf; i++) {
                    [theData appendBytes: &outbuf[i] length: 1];
                }
            }

            if (flbreak) {
                break;
            }
        }
    }

    return theData;
}

Then inside the class you want to use the crypt methods insert at the top:

#import "NSData+Crypt.h"

And than encrypt your strings like that:

 NSData *value = [aString dataUsingEncoding:NSUTF8StringEncoding];
 NSData *encryptedData = [value AES128EncryptWithKey:myKey];
 NSString *myString = [encryptedData base64Encoding];

And decrypt the data like this:

NSData *myData = [NSData base64DataFromString:_textView.text];
NSData *decryptedData = [myData AES128DecryptWithKey:_textField.text];
NSString *myString2 = [[NSString alloc] initWithData:decryptedData
                                            encoding:NSUTF8StringEncoding];

I used the method base64DataFromString from the website of Matt Gallagher otherwise if you use

[[NSData alloc] base64EncodedDataWithOptions:NSUTF8StringEncoding];

the method is just available on >= iOS 7.0

share|improve this answer
    
I fixed the problem for longer keys than 16 characters. –  亚历山大 Nov 27 '13 at 14:10

I made a gist with iOS/Android/Node.js AES256 same result encoding, https://gist.github.com/m1entus/f70d4d1465b90d9ee024

share|improve this answer
    
Hello, maybe you can add a reference to the posts you copied them from. I was also looking at the code you have inside your gist. It looks like you have a little mistake at line 14 for iOS. Maybe you also have to change the byte size at line 23 and 75 for the java version, looks to me like it must be changed from 16 bytes to 32. In iOS you get an enum with the value of 32 for AES256. –  亚历山大 May 27 at 10:39
    
Sure i will add it, maybe it is a little mistake but it works fine, so probably we will not change it because we already implemented some part of system, but thanks for your remarks. –  mientus May 27 at 10:52
    
It might get a problem with longer strings you will encrypt. just keep in mind –  亚历山大 May 27 at 10:54
    
I not sure if all of these ciphers doing IV padding automatically to 32bit, that's why it is working fine –  mientus May 27 at 11:00

Few important things to note while implementing AES encryption:
1. Never use plain text as encryption key. Always hash the plain text key and then use for encryption.
2. Always use Random IV (initialization vector) for encryption and decryption. True randomization is important. In the examples above, no initialization vector is set. This is a security flaw.
I recently wrote cross platform AES encryption and decryption library for C#, iOS and Android which I have posted on Github. You can see it here - https://github.com/Pakhee/Cross-platform-AES-encryption

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