ext-cryptopp/osrng.h

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// osrng.h - originally written and placed in the public domain by Wei Dai
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//! \file osrng.h
//! \brief Classes for access to the operating system's random number generators
#ifndef CRYPTOPP_OSRNG_H
#define CRYPTOPP_OSRNG_H
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#include "config.h"
#if !defined(NO_OS_DEPENDENCE) && defined(OS_RNG_AVAILABLE)
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#include "cryptlib.h"
#include "randpool.h"
#include "smartptr.h"
#include "fips140.h"
#include "rng.h"
#include "aes.h"
#include "sha.h"
NAMESPACE_BEGIN(CryptoPP)
//! \class OS_RNG_Err
//! \brief Exception thrown when an operating system error is encountered
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class CRYPTOPP_DLL OS_RNG_Err : public Exception
{
public:
//! \brief Constructs an OS_RNG_Err
//! \param operation the operation or API call when the error occurs
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OS_RNG_Err(const std::string &operation);
};
#ifdef NONBLOCKING_RNG_AVAILABLE
#ifdef CRYPTOPP_WIN32_AVAILABLE
//! \class MicrosoftCryptoProvider
//! \brief Wrapper for Microsoft crypto service provider
//! \sa \def USE_MS_CRYPTOAPI, \def USE_MS_CNGAPI, \def WORKAROUND_MS_BUG_Q258000
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class CRYPTOPP_DLL MicrosoftCryptoProvider
{
public:
//! \brief Construct a MicrosoftCryptoProvider
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MicrosoftCryptoProvider();
~MicrosoftCryptoProvider();
// type HCRYPTPROV and BCRYPT_ALG_HANDLE, avoid #include <windows.h>
#if defined(USE_MS_CRYPTOAPI)
# if defined(__CYGWIN__) && defined(__x86_64__)
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typedef unsigned long long ProviderHandle;
# elif defined(WIN64) || defined(_WIN64)
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typedef unsigned __int64 ProviderHandle;
# else
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typedef unsigned long ProviderHandle;
# endif
#elif defined(USE_MS_CNGAPI)
typedef void *PVOID;
typedef PVOID ProviderHandle;
#endif // USE_MS_CRYPTOAPI or USE_MS_CNGAPI
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//! \brief Retrieves the provider handle
//! \returns CryptoAPI provider handle
//! \details If USE_MS_CRYPTOAPI is in effect, then CryptAcquireContext()
//! acquires then handle and CryptReleaseContext() releases the handle
//! upon destruction. If USE_MS_CNGAPI is in effect, then
//! BCryptOpenAlgorithmProvider() acquires then handle and
//! BCryptCloseAlgorithmProvider() releases the handle upon destruction.
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ProviderHandle GetProviderHandle() const {return m_hProvider;}
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private:
ProviderHandle m_hProvider;
};
#if defined(_MSC_VER) && defined(USE_MS_CRYPTOAPI)
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# pragma comment(lib, "advapi32.lib")
#endif
#if defined(_MSC_VER) && defined(USE_MS_CNGAPI)
# pragma comment(lib, "bcrypt.lib")
#endif
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#endif //CRYPTOPP_WIN32_AVAILABLE
//! \class NonblockingRng
//! \brief Wrapper class for /dev/random and /dev/srandom
//! \details Encapsulates CryptoAPI's CryptGenRandom() or CryptoNG's BCryptGenRandom()
//! on Windows, or /dev/urandom on Unix and compatibles.
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class CRYPTOPP_DLL NonblockingRng : public RandomNumberGenerator
{
public:
//! \brief Construct a NonblockingRng
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NonblockingRng();
~NonblockingRng();
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//! \brief Generate random array of bytes
//! \param output the byte buffer
//! \param size the length of the buffer, in bytes
//! \details GenerateIntoBufferedTransformation() calls are routed to GenerateBlock().
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void GenerateBlock(byte *output, size_t size);
protected:
#ifdef CRYPTOPP_WIN32_AVAILABLE
MicrosoftCryptoProvider m_Provider;
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#else
int m_fd;
#endif
};
#endif
#if defined(BLOCKING_RNG_AVAILABLE) || defined(CRYPTOPP_DOXYGEN_PROCESSING)
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//! \class BlockingRng
//! \brief Wrapper class for /dev/random and /dev/srandom
//! \details Encapsulates /dev/random on Linux, OS X and Unix; and /dev/srandom on the BSDs.
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class CRYPTOPP_DLL BlockingRng : public RandomNumberGenerator
{
public:
//! \brief Construct a BlockingRng
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BlockingRng();
~BlockingRng();
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//! \brief Generate random array of bytes
//! \param output the byte buffer
//! \param size the length of the buffer, in bytes
//! \details GenerateIntoBufferedTransformation() calls are routed to GenerateBlock().
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void GenerateBlock(byte *output, size_t size);
protected:
int m_fd;
};
#endif
//! OS_GenerateRandomBlock
//! \brief Generate random array of bytes
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//! \param blocking specifies whther a bobcking or non-blocking generator should be used
//! \param output the byte buffer
//! \param size the length of the buffer, in bytes
//! \details OS_GenerateRandomBlock() uses the underlying operating system's
//! random number generator. On Windows, CryptGenRandom() is called using NonblockingRng.
//! \details On Unix and compatibles, /dev/urandom is called if blocking is false using
//! NonblockingRng. If blocking is true, then either /dev/randomd or /dev/srandom is used
//! by way of BlockingRng, if available.
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CRYPTOPP_DLL void CRYPTOPP_API OS_GenerateRandomBlock(bool blocking, byte *output, size_t size);
//! \class AutoSeededRandomPool
//! \brief Automatically Seeded Randomness Pool
//! \details This class seeds itself using an operating system provided RNG.
//! AutoSeededRandomPool was suggested by Leonard Janke.
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class CRYPTOPP_DLL AutoSeededRandomPool : public RandomPool
{
public:
//! \brief Construct an AutoSeededRandomPool
//! \param blocking controls seeding with BlockingRng or NonblockingRng
//! \param seedSize the size of the seed, in bytes
//! \details Use blocking to choose seeding with BlockingRng or NonblockingRng.
//! The parameter is ignored if only one of these is available.
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explicit AutoSeededRandomPool(bool blocking = false, unsigned int seedSize = 32)
{Reseed(blocking, seedSize);}
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//! \brief Reseed an AutoSeededRandomPool
//! \param blocking controls seeding with BlockingRng or NonblockingRng
//! \param seedSize the size of the seed, in bytes
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void Reseed(bool blocking = false, unsigned int seedSize = 32);
};
//! \class AutoSeededX917RNG
//! \tparam BLOCK_CIPHER a block cipher
//! \brief Automatically Seeded X9.17 RNG
//! \details AutoSeededX917RNG is from ANSI X9.17 Appendix C, seeded using an OS provided RNG.
//! If 3-key TripleDES (DES_EDE3) is used, then its a X9.17 conforming generator. If AES is
//! used, then its a X9.31 conforming generator.
//! \details Though ANSI X9 prescribes 3-key TripleDES, the template parameter BLOCK_CIPHER can be any
//! BlockTransformation derived class.
//! \sa X917RNG, DefaultAutoSeededRNG
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template <class BLOCK_CIPHER>
class AutoSeededX917RNG : public RandomNumberGenerator, public NotCopyable
{
public:
//! \brief Construct an AutoSeededX917RNG
//! \param blocking controls seeding with BlockingRng or NonblockingRng
//! \param autoSeed controls auto seeding of the generator
//! \details Use blocking to choose seeding with BlockingRng or NonblockingRng.
//! The parameter is ignored if only one of these is available.
//! \sa X917RNG
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explicit AutoSeededX917RNG(bool blocking = false, bool autoSeed = true)
{if (autoSeed) Reseed(blocking);}
//! \brief Reseed an AutoSeededX917RNG
//! \param blocking controls seeding with BlockingRng or NonblockingRng
//! \param additionalEntropy additional entropy to add to the generator
//! \param length the size of the additional entropy, in bytes
//! \details Internally, the generator uses SHA256 to extract the entropy from
//! from the seed and then stretch the material for the block cipher's key
//! and initialization vector.
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void Reseed(bool blocking = false, const byte *additionalEntropy = NULL, size_t length = 0);
//! \brief Deterministically reseed an AutoSeededX917RNG for testing
//! \param key the key to use for the deterministic reseeding
//! \param keylength the size of the key, in bytes
//! \param seed the seed to use for the deterministic reseeding
//! \param timeVector a time vector to use for deterministic reseeding
//! \details This is a testing interface for testing purposes, and should \a NOT
//! be used in production.
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void Reseed(const byte *key, size_t keylength, const byte *seed, const byte *timeVector);
bool CanIncorporateEntropy() const {return true;}
void IncorporateEntropy(const byte *input, size_t length) {Reseed(false, input, length);}
void GenerateIntoBufferedTransformation(BufferedTransformation &target, const std::string &channel, lword length)
{m_rng->GenerateIntoBufferedTransformation(target, channel, length);}
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private:
member_ptr<RandomNumberGenerator> m_rng;
};
template <class BLOCK_CIPHER>
void AutoSeededX917RNG<BLOCK_CIPHER>::Reseed(const byte *key, size_t keylength, const byte *seed, const byte *timeVector)
{
m_rng.reset(new X917RNG(new typename BLOCK_CIPHER::Encryption(key, keylength), seed, timeVector));
}
template <class BLOCK_CIPHER>
void AutoSeededX917RNG<BLOCK_CIPHER>::Reseed(bool blocking, const byte *input, size_t length)
{
SecByteBlock seed(BLOCK_CIPHER::BLOCKSIZE + BLOCK_CIPHER::DEFAULT_KEYLENGTH);
const byte *key;
do
{
OS_GenerateRandomBlock(blocking, seed, seed.size());
if (length > 0)
{
SHA256 hash;
hash.Update(seed, seed.size());
hash.Update(input, length);
hash.TruncatedFinal(seed, UnsignedMin(hash.DigestSize(), seed.size()));
}
key = seed + BLOCK_CIPHER::BLOCKSIZE;
} // check that seed and key don't have same value
while (memcmp(key, seed, STDMIN((unsigned int)BLOCK_CIPHER::BLOCKSIZE, (unsigned int)BLOCK_CIPHER::DEFAULT_KEYLENGTH)) == 0);
Reseed(key, BLOCK_CIPHER::DEFAULT_KEYLENGTH, seed, NULL);
}
CRYPTOPP_DLL_TEMPLATE_CLASS AutoSeededX917RNG<AES>;
#if defined(CRYPTOPP_DOXYGEN_PROCESSING)
//! \class DefaultAutoSeededRNG
//! \brief A typedef providing a default generator
//! \details DefaultAutoSeededRNG is a typedef of either AutoSeededX917RNG<AES> or AutoSeededRandomPool.
//! If CRYPTOPP_ENABLE_COMPLIANCE_WITH_FIPS_140_2 is defined, then DefaultAutoSeededRNG is
//! AutoSeededX917RNG<AES>. Otherwise, DefaultAutoSeededRNG is AutoSeededRandomPool.
class DefaultAutoSeededRNG {}
#else
// AutoSeededX917RNG<AES> in FIPS mode, otherwise it's AutoSeededRandomPool
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#if CRYPTOPP_ENABLE_COMPLIANCE_WITH_FIPS_140_2
typedef AutoSeededX917RNG<AES> DefaultAutoSeededRNG;
#else
typedef AutoSeededRandomPool DefaultAutoSeededRNG;
#endif
#endif // CRYPTOPP_DOXYGEN_PROCESSING
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NAMESPACE_END
#endif
#endif