In the input file I have:
on the first line a key which is encoded in hex and with length of 16 bytes;
on the second line encrypted message ( AES128 in CBC mode , with a random iv prepended to the encrypted message).
This is how I tried to decrypt:
#include<iostream>
using namespace std;
#include <fstream>
#include <string.h>
#include <cryptopp/aes.h>
#include <cryptopp/modes.h>
#include <cryptopp/filters.h>
using namespace CryptoPP;
int main(void) {
ifstream in("input0.txt");
ofstream out("output0.txt");
string hex_key = "", hex_ct = "";
in >> hex_key >> hex_ct;
byte key[ AES::DEFAULT_KEYLENGTH ], iv[ AES::BLOCKSIZE ];
string ciphertext = "", recoveredtext = "";
for(int i = 0; i < hex_key.size(); i+=2) {
key[i/2] = (char) strtol((hex_key.substr(i, 2)).c_str(), 0, 16);
}
//then I divide iv from the text
for(int i = 0; i < AES::BLOCKSIZE*2; i+=2) {
iv[i/2] = (char) strtol((hex_ct.substr(i, 2)).c_str(), 0, 16);
}
for(int i = AES::BLOCKSIZE*2; i < hex_ct.size(); i++) {
ciphertext.push_back(hex_ct[i]);
}
//decryption
CBC_Mode< AES >::Decryption d;
d.SetKeyWithIV(key, AES::DEFAULT_KEYLENGTH, iv);
StringSink sink( recoveredtext );
StreamTransformationFilter stf (
d,
&sink
);
StringSource ss (
ciphertext,
true,
&stf
);
out << recoveredtext;
return 0;
}
I used this implementation following the Wiki.
I also tried with this and it worked, but not replacing key and ciphertext with my.
Well, using the code above I have this output:
AES128CBC: /usr/local/include/cryptopp/misc.h:304: void CryptoPP::memcpy_s(void*, size_t, const void*, size_t): Assertion `dest != __null' failed.
Aborted (core dumped)
While using this code:
//decryption
AES::Decryption aesDecryption(key, AES::DEFAULT_KEYLENGTH);
CBC_Mode_ExternalCipher::Decryption cbcDecryption( aesDecryption, iv );
StreamTransformationFilter stfDecryptor(
cbcDecryption,
new StringSink( recoveredtext ),
BlockPaddingSchemeDef::NO_PADDING
);
stfDecryptor.Put( reinterpret_cast<const unsigned char*>( ciphertext.c_str() ), ciphertext.size() );
stfDecryptor.MessageEnd();
It works but the output isn't a valid sequence of characters.
I installed the lib with:
sudo apt-get install libcrypto++-dev libcrypto++-doc libcrypto++-utils
and I compiled it with:
g++ -o AESCBC128 AESCBC128.cpp -lcryptopp
I can't find what's wrong.
Thanks in advance for the help.
Sample of input:
140b41b22a29beb4061bda66b6747e14
4ca00ff4c898d61e1edbf1800618fb2828a226d160dad07883d04e008a7897ee2e4b7465d5290d0c0e6c6822236e1daafb94ffe0c5da05d9476be028ad7c1d81
I don't know a sample of output because this is an exercise and my goal is to discover the secret message.
Test on the inputs and on conversion to byte arrays:
out << "KEY:\n" << hex_key << endl;
for(int i = 0; i < AES::DEFAULT_KEYLENGTH; i++) {
out << setfill('0') << setw(2) << hex << (int)key[i];
}
out << endl << "Received message:\n" << hex_ct << endl;
out << "IV:\n";
for(int i = 0; i < AES::BLOCKSIZE; i++) {
out << setfill('0') << setw(2) << hex << (int)iv[i];
}
out << endl << "CT:\n" << ciphertext << endl;
Result:
KEY:
140b41b22a29beb4061bda66b6747e14
140b41b22a29beb4061bda66b6747e14
Received message:
4ca00ff4c898d61e1edbf1800618fb2828a226d160dad07883d04e008a7897ee2e4b7465d5290d0c0e6c6822236e1daafb94ffe0c5da05d9476be028ad7c1d81
IV:
4ca00ff4c898d61e1edbf1800618fb28
CT:
28a226d160dad07883d04e008a7897ee2e4b7465d5290d0c0e6c6822236e1daafb94ffe0c5da05d9476be028ad7c1d81
They are as expected.
A probable reason you are getting a padding error is not the padding but that the decryption is wrong, the way the parameters are supplied is probably incorrect.
I coded up decryption on the supplied KEY, IV and CT. The result has PKCS#7 padding of 8 bytes of 0x08.
(correct to remove iv)
Decryption with padding removed:
42617369 63204342 43206d6f 64652065 6e637279 7074696f 6e206e65 65647320 70616464 696e672e
or in text:
Basic CBC mode encryption needs padding.
Decryption with padding intact (note the trailing 8 characters of padding):
42617369 63204342 43206d6f 64652065 6e637279 7074696f 6e206e65 65647320 70616464 696e672e 08080808 08080808
The output is mostly ASCII with a few exceptions such as the 3rd byte 0xfc.
Because the padding is correct I believe this is the true data that was encrypted.
For the overly curious here is my test code:
NSData *key = [Utilities dataFromHexString:@"140b41b22a29beb4061bda66b6747e14"];
NSData *iv = [Utilities dataFromHexString:@"4ca00ff4c898d61e1edbf1800618fb28"];
NSData *dataIn = [Utilities dataFromHexString:@"28a226d160dad07883d04e008a7897ee2e4b7465d5290d0c0e6c6822236e1daafb94ffe0c5da05d9476be028ad7c1d81"];
size_t cryptBytes = 0;
NSMutableData *dataOut = [NSMutableData dataWithLength:dataIn.length + kCCBlockSizeAES128];
CCCrypt(kCCDecrypt,
kCCAlgorithmAES,
kCCOptionPKCS7Padding,
key.bytes, key.length,
iv.bytes,
dataIn.bytes, dataIn.length,
dataOut.mutableBytes, dataOut.length,
&cryptBytes);
dataOut.length = cryptBytes;
NSLog(@"dataOut: %@", dataOut);
NSLog(@"dataOut: %@", [[NSString alloc] initWithData:dataOut encoding:NSUTF8StringEncoding]);