Allow decryption interface to fail (needed for authenticated ciphers later)

This commit is contained in:
Sebastian Messmer 2015-04-24 21:08:36 +02:00
parent 79283b868b
commit 5adcf4aca1
5 changed files with 50 additions and 33 deletions

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@ -8,6 +8,7 @@
#include "messmer/cpp-utils/macros.h" #include "messmer/cpp-utils/macros.h"
#include <memory> #include <memory>
#include <boost/optional.hpp>
namespace blockstore { namespace blockstore {
namespace encrypted { namespace encrypted {
@ -19,9 +20,9 @@ template<class Cipher>
class EncryptedBlock: public Block { class EncryptedBlock: public Block {
public: public:
static std::unique_ptr<EncryptedBlock> TryCreateNew(BlockStore *baseBlockStore, const Key &key, Data data, const typename Cipher::EncryptionKey &encKey); static std::unique_ptr<EncryptedBlock> TryCreateNew(BlockStore *baseBlockStore, const Key &key, Data data, const typename Cipher::EncryptionKey &encKey);
static std::unique_ptr<EncryptedBlock> TryDecrypt(std::unique_ptr<Block> baseBlock, const typename Cipher::EncryptionKey &key);
//TODO Storing key twice (in parent class and in object pointed to). Once would be enough. //TODO Storing key twice (in parent class and in object pointed to). Once would be enough.
EncryptedBlock(std::unique_ptr<Block> baseBlock, const typename Cipher::EncryptionKey &key);
EncryptedBlock(std::unique_ptr<Block> baseBlock, const typename Cipher::EncryptionKey &key, Data plaintextData); EncryptedBlock(std::unique_ptr<Block> baseBlock, const typename Cipher::EncryptionKey &key, Data plaintextData);
virtual ~EncryptedBlock(); virtual ~EncryptedBlock();
@ -40,7 +41,6 @@ private:
bool _dataChanged; bool _dataChanged;
void _encryptToBaseBlock(); void _encryptToBaseBlock();
void _decryptFromBaseBlock();
DISALLOW_COPY_AND_ASSIGN(EncryptedBlock); DISALLOW_COPY_AND_ASSIGN(EncryptedBlock);
}; };
@ -49,8 +49,7 @@ private:
template<class Cipher> template<class Cipher>
std::unique_ptr<EncryptedBlock<Cipher>> EncryptedBlock<Cipher>::TryCreateNew(BlockStore *baseBlockStore, const Key &key, Data data, const typename Cipher::EncryptionKey &encKey) { std::unique_ptr<EncryptedBlock<Cipher>> EncryptedBlock<Cipher>::TryCreateNew(BlockStore *baseBlockStore, const Key &key, Data data, const typename Cipher::EncryptionKey &encKey) {
Data encrypted(Cipher::ciphertextSize(data.size())); Data encrypted = Cipher::encrypt((byte*)data.data(), data.size(), encKey);
Cipher::encrypt((byte*)data.data(), data.size(), (byte*)encrypted.data(), encKey);
auto baseBlock = baseBlockStore->tryCreate(key, std::move(encrypted)); auto baseBlock = baseBlockStore->tryCreate(key, std::move(encrypted));
if (baseBlock.get() == nullptr) { if (baseBlock.get() == nullptr) {
//TODO Test this code branch //TODO Test this code branch
@ -61,9 +60,13 @@ std::unique_ptr<EncryptedBlock<Cipher>> EncryptedBlock<Cipher>::TryCreateNew(Blo
} }
template<class Cipher> template<class Cipher>
EncryptedBlock<Cipher>::EncryptedBlock(std::unique_ptr<Block> baseBlock, const typename Cipher::EncryptionKey &encKey) std::unique_ptr<EncryptedBlock<Cipher>> EncryptedBlock<Cipher>::TryDecrypt(std::unique_ptr<Block> baseBlock, const typename Cipher::EncryptionKey &encKey) {
:EncryptedBlock(std::move(baseBlock), encKey, Data(Cipher::plaintextSize(baseBlock->size()))) { //TODO Change BlockStore so we can read their "class Data" objects instead of "void *data()", and then we can change the Cipher interface to take Data objects instead of "byte *" + size
_decryptFromBaseBlock(); boost::optional<Data> plaintext = Cipher::decrypt((byte*)baseBlock->data(), baseBlock->size(), encKey);
if(!plaintext) {
return nullptr;
}
return std::make_unique<EncryptedBlock<Cipher>>(std::move(baseBlock), encKey, std::move(*plaintext));
} }
template<class Cipher> template<class Cipher>
@ -103,17 +106,10 @@ size_t EncryptedBlock<Cipher>::size() const {
return _plaintextData.size(); return _plaintextData.size();
} }
template<class Cipher>
void EncryptedBlock<Cipher>::_decryptFromBaseBlock() {
//TODO Change BlockStore so we can read their "class Data" objects instead of "void *data()", and then we can change the Cipher interface to take Data objects instead of "byte *" + size
Cipher::decrypt((byte*)_baseBlock->data(), (byte*)_plaintextData.data(), _plaintextData.size(), _encKey);
}
template<class Cipher> template<class Cipher>
void EncryptedBlock<Cipher>::_encryptToBaseBlock() { void EncryptedBlock<Cipher>::_encryptToBaseBlock() {
if (_dataChanged) { if (_dataChanged) {
Data encrypted(Cipher::ciphertextSize(_plaintextData.size())); Data encrypted = Cipher::encrypt((byte*)_plaintextData.data(), _plaintextData.size(), _encKey);
Cipher::encrypt((byte*)_plaintextData.data(), _plaintextData.size(), (byte*)encrypted.data(), _encKey);
_baseBlock->write(encrypted.data(), 0, encrypted.size()); _baseBlock->write(encrypted.data(), 0, encrypted.size());
_dataChanged = false; _dataChanged = false;
} }

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@ -6,6 +6,7 @@
#include <messmer/cpp-utils/macros.h> #include <messmer/cpp-utils/macros.h>
#include <messmer/cpp-utils/pointer.h> #include <messmer/cpp-utils/pointer.h>
#include "EncryptedBlock.h" #include "EncryptedBlock.h"
#include <iostream>
namespace blockstore { namespace blockstore {
namespace encrypted { namespace encrypted {
@ -51,7 +52,12 @@ std::unique_ptr<Block> EncryptedBlockStore<Cipher>::load(const Key &key) {
if (block.get() == nullptr) { if (block.get() == nullptr) {
return nullptr; return nullptr;
} }
return std::make_unique<EncryptedBlock<Cipher>>(std::move(block), _encKey); auto encBlock = EncryptedBlock<Cipher>::TryDecrypt(std::move(block), _encKey);
if (encBlock.get() == nullptr) {
//TODO Think about how to do logging
}
return std::move(encBlock);
} }
template<class Cipher> template<class Cipher>

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@ -9,18 +9,22 @@ namespace encrypted {
constexpr unsigned int AES256_CFB::IV_SIZE; constexpr unsigned int AES256_CFB::IV_SIZE;
void AES256_CFB::encrypt(const byte *plaintext, unsigned int plaintextSize, byte *ciphertext, const EncryptionKey &encKey) { Data AES256_CFB::encrypt(const byte *plaintext, unsigned int plaintextSize, const EncryptionKey &encKey) {
FixedSizeData<IV_SIZE> iv = FixedSizeData<IV_SIZE>::CreateRandom(); FixedSizeData<IV_SIZE> iv = FixedSizeData<IV_SIZE>::CreateRandom();
auto encryption = CFB_Mode<AES>::Encryption(encKey.data(), encKey.BINARY_LENGTH, iv.data()); auto encryption = CFB_Mode<AES>::Encryption(encKey.data(), encKey.BINARY_LENGTH, iv.data());
std::memcpy(ciphertext, iv.data(), IV_SIZE); Data ciphertext(ciphertextSize(plaintextSize));
encryption.ProcessData(ciphertext + IV_SIZE, plaintext, plaintextSize); std::memcpy(ciphertext.data(), iv.data(), IV_SIZE);
encryption.ProcessData((byte*)ciphertext.data() + IV_SIZE, plaintext, plaintextSize);
return ciphertext;
} }
void AES256_CFB::decrypt(const byte *ciphertext, byte *plaintext, unsigned int plaintextSize, const EncryptionKey &encKey) { boost::optional<Data> AES256_CFB::decrypt(const byte *ciphertext, unsigned int ciphertextSize, const EncryptionKey &encKey) {
const byte *iv = ciphertext; const byte *ciphertextIV = ciphertext;
const byte *data = ciphertext + IV_SIZE; const byte *ciphertextData = ciphertext + IV_SIZE;
auto decryption = CFB_Mode<AES>::Decryption((byte*)encKey.data(), encKey.BINARY_LENGTH, iv); auto decryption = CFB_Mode<AES>::Decryption((byte*)encKey.data(), encKey.BINARY_LENGTH, ciphertextIV);
decryption.ProcessData(plaintext, data, plaintextSize); Data plaintext(plaintextSize(ciphertextSize));
decryption.ProcessData((byte*)plaintext.data(), ciphertextData, plaintext.size());
return std::move(plaintext);
} }
} }

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@ -3,7 +3,9 @@
#define MESSMER_BLOCKSTORE_IMPLEMENTATIONS_ENCRYPTED_CIPHERS_AES256_CFB_H_ #define MESSMER_BLOCKSTORE_IMPLEMENTATIONS_ENCRYPTED_CIPHERS_AES256_CFB_H_
#include "../../../utils/FixedSizeData.h" #include "../../../utils/FixedSizeData.h"
#include "../../../utils/Data.h"
#include <cryptopp/cryptopp/aes.h> #include <cryptopp/cryptopp/aes.h>
#include <boost/optional.hpp>
namespace blockstore { namespace blockstore {
namespace encrypted { namespace encrypted {
@ -24,8 +26,8 @@ public:
return ciphertextBlockSize - IV_SIZE; return ciphertextBlockSize - IV_SIZE;
} }
static void encrypt(const byte *plaintext, unsigned int plaintextSize, byte *ciphertext, const EncryptionKey &key); static Data encrypt(const byte *plaintext, unsigned int plaintextSize, const EncryptionKey &encKey);
static void decrypt(const byte *ciphertext, byte *plaintext, unsigned int plaintextSize, const EncryptionKey &key); static boost::optional<Data> decrypt(const byte *ciphertext, unsigned int ciphertextSize, const EncryptionKey &encKey);
private: private:
static constexpr unsigned int IV_SIZE = CryptoPP::AES::BLOCKSIZE; static constexpr unsigned int IV_SIZE = CryptoPP::AES::BLOCKSIZE;

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@ -30,16 +30,17 @@ public:
EXPECT_NE(0, std::memcmp(ciphertext.data(), ciphertext2.data(), ciphertext.size())); EXPECT_NE(0, std::memcmp(ciphertext.data(), ciphertext2.data(), ciphertext.size()));
} }
void CheckEncryptedSize(const Data &plaintext) {
Data ciphertext = Encrypt(plaintext);
EXPECT_EQ(Cipher::ciphertextSize(plaintext.size()), ciphertext.size());
}
Data Encrypt(const Data &plaintext) { Data Encrypt(const Data &plaintext) {
Data ciphertext(Cipher::ciphertextSize(plaintext.size())); return Cipher::encrypt((byte*)plaintext.data(), plaintext.size(), this->encKey);
Cipher::encrypt((byte*)plaintext.data(), plaintext.size(), (byte*)ciphertext.data(), this->encKey);
return ciphertext;
} }
Data Decrypt(const Data &ciphertext) { Data Decrypt(const Data &ciphertext) {
Data decrypted(Cipher::plaintextSize(ciphertext.size())); return Cipher::decrypt((byte*)ciphertext.data(), ciphertext.size(), this->encKey).value();
Cipher::decrypt((byte*)ciphertext.data(), (byte*) decrypted.data(), decrypted.size(), this->encKey);
return decrypted;
} }
Data CreateZeroes(unsigned int size) { Data CreateZeroes(unsigned int size) {
@ -111,6 +112,13 @@ TYPED_TEST_P(CipherTest, EncryptIsIndeterministic_Data) {
} }
} }
TYPED_TEST_P(CipherTest, EncryptedSize) {
for (auto size: SIZES) {
Data plaintext = this->CreateData(size);
this->CheckEncryptedSize(plaintext);
}
}
REGISTER_TYPED_TEST_CASE_P(CipherTest, REGISTER_TYPED_TEST_CASE_P(CipherTest,
Size_0, Size_0,
Size_1, Size_1,
@ -120,7 +128,8 @@ REGISTER_TYPED_TEST_CASE_P(CipherTest,
EncryptThenDecrypt_Zeroes, EncryptThenDecrypt_Zeroes,
EncryptThenDecrypt_Data, EncryptThenDecrypt_Data,
EncryptIsIndeterministic_Zeroes, EncryptIsIndeterministic_Zeroes,
EncryptIsIndeterministic_Data EncryptIsIndeterministic_Data,
EncryptedSize
); );
//TODO For authenticated ciphers, we need test cases checking that authentication fails on manipulations //TODO For authenticated ciphers, we need test cases checking that authentication fails on manipulations