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217 lines
5.6 KiB
C++
217 lines
5.6 KiB
C++
// Copyright (c) 2016 The Bitcoin Core developers
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// Distributed under the MIT software license, see the accompanying
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// file COPYING or http://www.opensource.org/licenses/mit-license.php.
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#include "aes.h"
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#include "crypto/common.h"
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#include <assert.h>
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#include <string.h>
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extern "C" {
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#include "crypto/ctaes/ctaes.c"
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}
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AES128Encrypt::AES128Encrypt(const unsigned char key[16])
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{
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AES128_init(&ctx, key);
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}
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AES128Encrypt::~AES128Encrypt()
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{
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memset(&ctx, 0, sizeof(ctx));
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}
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void AES128Encrypt::Encrypt(unsigned char ciphertext[16], const unsigned char plaintext[16]) const
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{
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AES128_encrypt(&ctx, 1, ciphertext, plaintext);
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}
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AES128Decrypt::AES128Decrypt(const unsigned char key[16])
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{
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AES128_init(&ctx, key);
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}
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AES128Decrypt::~AES128Decrypt()
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{
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memset(&ctx, 0, sizeof(ctx));
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}
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void AES128Decrypt::Decrypt(unsigned char plaintext[16], const unsigned char ciphertext[16]) const
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{
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AES128_decrypt(&ctx, 1, plaintext, ciphertext);
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}
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AES256Encrypt::AES256Encrypt(const unsigned char key[32])
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{
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AES256_init(&ctx, key);
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}
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AES256Encrypt::~AES256Encrypt()
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{
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memset(&ctx, 0, sizeof(ctx));
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}
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void AES256Encrypt::Encrypt(unsigned char ciphertext[16], const unsigned char plaintext[16]) const
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{
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AES256_encrypt(&ctx, 1, ciphertext, plaintext);
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}
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AES256Decrypt::AES256Decrypt(const unsigned char key[32])
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{
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AES256_init(&ctx, key);
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}
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AES256Decrypt::~AES256Decrypt()
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{
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memset(&ctx, 0, sizeof(ctx));
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}
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void AES256Decrypt::Decrypt(unsigned char plaintext[16], const unsigned char ciphertext[16]) const
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{
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AES256_decrypt(&ctx, 1, plaintext, ciphertext);
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}
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template <typename T>
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static int CBCEncrypt(const T& enc, const unsigned char iv[AES_BLOCKSIZE], const unsigned char* data, int size, bool pad, unsigned char* out)
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{
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int written = 0;
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int padsize = size % AES_BLOCKSIZE;
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unsigned char mixed[AES_BLOCKSIZE];
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if (!data || !size || !out)
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return 0;
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if (!pad && padsize != 0)
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return 0;
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memcpy(mixed, iv, AES_BLOCKSIZE);
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// Write all but the last block
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while (written + AES_BLOCKSIZE <= size) {
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for (int i = 0; i != AES_BLOCKSIZE; i++)
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mixed[i] ^= *data++;
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enc.Encrypt(out + written, mixed);
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memcpy(mixed, out + written, AES_BLOCKSIZE);
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written += AES_BLOCKSIZE;
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}
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if (pad) {
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// For all that remains, pad each byte with the value of the remaining
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// space. If there is none, pad by a full block.
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for (int i = 0; i != padsize; i++)
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mixed[i] ^= *data++;
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for (int i = padsize; i != AES_BLOCKSIZE; i++)
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mixed[i] ^= AES_BLOCKSIZE - padsize;
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enc.Encrypt(out + written, mixed);
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written += AES_BLOCKSIZE;
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}
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return written;
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}
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template <typename T>
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static int CBCDecrypt(const T& dec, const unsigned char iv[AES_BLOCKSIZE], const unsigned char* data, int size, bool pad, unsigned char* out)
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{
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int written = 0;
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bool fail = false;
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const unsigned char* prev = iv;
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if (!data || !size || !out)
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return 0;
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if (size % AES_BLOCKSIZE != 0)
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return 0;
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// Decrypt all data. Padding will be checked in the output.
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while (written != size) {
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dec.Decrypt(out, data + written);
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for (int i = 0; i != AES_BLOCKSIZE; i++)
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*out++ ^= prev[i];
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prev = data + written;
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written += AES_BLOCKSIZE;
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}
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// When decrypting padding, attempt to run in constant-time
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if (pad) {
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// If used, padding size is the value of the last decrypted byte. For
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// it to be valid, It must be between 1 and AES_BLOCKSIZE.
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unsigned char padsize = *--out;
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fail = !padsize | (padsize > AES_BLOCKSIZE);
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// If not well-formed, treat it as though there's no padding.
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padsize *= !fail;
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// All padding must equal the last byte otherwise it's not well-formed
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for (int i = AES_BLOCKSIZE; i != 0; i--)
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fail |= ((i > AES_BLOCKSIZE - padsize) & (*out-- != padsize));
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written -= padsize;
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}
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return written * !fail;
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}
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AES256CBCEncrypt::AES256CBCEncrypt(const unsigned char key[AES256_KEYSIZE], const unsigned char ivIn[AES_BLOCKSIZE], bool padIn)
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: enc(key), pad(padIn)
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{
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memcpy(iv, ivIn, AES_BLOCKSIZE);
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}
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int AES256CBCEncrypt::Encrypt(const unsigned char* data, int size, unsigned char* out) const
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{
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return CBCEncrypt(enc, iv, data, size, pad, out);
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}
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AES256CBCEncrypt::~AES256CBCEncrypt()
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{
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memset(iv, 0, sizeof(iv));
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}
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AES256CBCDecrypt::AES256CBCDecrypt(const unsigned char key[AES256_KEYSIZE], const unsigned char ivIn[AES_BLOCKSIZE], bool padIn)
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: dec(key), pad(padIn)
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{
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memcpy(iv, ivIn, AES_BLOCKSIZE);
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}
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int AES256CBCDecrypt::Decrypt(const unsigned char* data, int size, unsigned char* out) const
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{
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return CBCDecrypt(dec, iv, data, size, pad, out);
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}
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AES256CBCDecrypt::~AES256CBCDecrypt()
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{
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memset(iv, 0, sizeof(iv));
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}
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AES128CBCEncrypt::AES128CBCEncrypt(const unsigned char key[AES128_KEYSIZE], const unsigned char ivIn[AES_BLOCKSIZE], bool padIn)
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: enc(key), pad(padIn)
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{
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memcpy(iv, ivIn, AES_BLOCKSIZE);
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}
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AES128CBCEncrypt::~AES128CBCEncrypt()
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{
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memset(iv, 0, AES_BLOCKSIZE);
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}
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int AES128CBCEncrypt::Encrypt(const unsigned char* data, int size, unsigned char* out) const
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{
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return CBCEncrypt(enc, iv, data, size, pad, out);
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}
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AES128CBCDecrypt::AES128CBCDecrypt(const unsigned char key[AES128_KEYSIZE], const unsigned char ivIn[AES_BLOCKSIZE], bool padIn)
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: dec(key), pad(padIn)
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{
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memcpy(iv, ivIn, AES_BLOCKSIZE);
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}
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AES128CBCDecrypt::~AES128CBCDecrypt()
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{
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memset(iv, 0, AES_BLOCKSIZE);
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}
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int AES128CBCDecrypt::Decrypt(const unsigned char* data, int size, unsigned char* out) const
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{
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return CBCDecrypt(dec, iv, data, size, pad, out);
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}
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