# Tag Info

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According to the Python documentation, bytes and bytearray objects are sequences of integers (between 0 and 255), representing the ASCII value of single bytes I think the input needs to be like so a = b"abc" (Note the "b").

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Modular inverses are not computed by taking real number inverses and then taking the modulus of the result. To find the multiplicative inverse of a mod p -- you need to find an integer b with ab = 1 (mod p). This can be done either by using the Extended Euclidean Algorithm or (as a shortcut) by using Fermat's Little Theorem: a**(p-1) = 1 (mod p) This ...

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I'd consider doing this to be a hack at best. AES is an encryption algorithm, not a random number generation algorithm. I wouldn't expect applying AES over and over again to produce decent randomness. You mention you're worried about performance and want to use AES hardware. The reason AES hardware acceleration is that AES is fairly complicated. Most ...

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Direct mapping of above code to C# would be something like: static string ComputeSignature(byte[] body, byte[] secret) { using (var sha1 = SHA1.Create()) { var key1 = sha1.ComputeHash(body); var key2 = key1.Concat(secret).ToArray(); var key3 = sha1.ComputeHash(key2); return Convert.ToBase64String(key3); } } If ...

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I managed to solve the problem by using the private exponent ( which seems not be constraint by RSA cryptosystem).Below is the working code. public byte[] modPow(byte[] x,short xOffset,short xLength,byte[] y,short yOffset,short yLength) { Util.arrayCopy(y, yOffset, tempBuffer, (short)(Configuration.TEMP_OFFSET_EXPONENT+4), yLength); ...

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Well, I tried both RSAPublicKey and RSAPrivateKey for two different cards, and both worked fine: package soqPack; import javacard.framework.*; import javacard.security.KeyBuilder; import javacard.security.RSAPrivateKey; import javacard.security.RSAPublicKey; import javacard.security.RandomData; import javacardx.biometry.BioBuilder; import ...

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Quoting Google: The “Crypto” security provider has been removed. Any call to the Java Cryptography Extension (JCE) APIs with a Provider listed should only be done if the provider is included in the code of the APK or be able to deal with it’s absence. The reason applications use this provider is to take advantage of its SecureRandom implementation. If ...

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I suppose that the problem can be in applyDotFunc() You never use the second parameter. I suppose that, in value2ptr creation, your intention was to use value2 instead of value1 int applyDotFunc(int value1, int value2) { int value1arr[4] = { 0 }; int* value1ptr = get_bits(value1, 4); value1arr[0] = value1ptr[0]; value1arr[1] = ...

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As shown in figure, Connect your source of Audio to ADC, Make sampling frequency as described in below, F_sample >= 2 x Fmax_audio (According to Nyquist Criteria) That will be fed to ADC. Give 90 degree shifted clock to FPGA for latching that Digital data from ADC. Now you have your data on Board, use it in AES algorithm. You can do reverse process ...

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A plain web application can not access an USB device for signing a PDF. For authentication it may be possible if the authentication USB stick has a plugin that is integrated into the user's web browser. For signing a PDF the only way is currently using the Java plugin in the client browser. However nearly all browsers have already or will disable the NPAPI ...

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Let's recap, in Java you're using AES, ECB (not specified but most often the default; it's insecure!), PKCS#7 padding (not specified but most often the default; it's the same as PKCS#5 padding), and a password of 16 characters as a key of 16 bytes (depending on the default system encoding). If the key is passed as a string to CryptoJS, it will have to ...

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To convert your decimal output to hex output: >>> arr = [187, 243, 22, 232, 217, 64, 175, 10, 211] >>> ' '.join('%02x'%i for i in arr) 'bb f3 16 e8 d9 40 af 0a d3' >>>

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